-// Copyright (C) 2007-2012 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2014 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
// License as published by the Free Software Foundation; either
-// version 2.1 of the License.
+// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
#include "MEDFileMeshLL.hxx"
#include "MEDFileMesh.hxx"
#include "MEDLoaderBase.hxx"
+#include "MEDFileMeshReadSelector.hxx"
#include "MEDCouplingUMesh.hxx"
using namespace ParaMEDMEM;
-MEDFileMeshL2::MEDFileMeshL2():_name(MED_NAME_SIZE),_description(MED_COMMENT_SIZE),_dt_unit(MED_LNAME_SIZE)
+MEDFileMeshL2::MEDFileMeshL2():_name(MED_NAME_SIZE),_description(MED_COMMENT_SIZE),_univ_name(MED_LNAME_SIZE),_dt_unit(MED_LNAME_SIZE)
{
}
-int MEDFileMeshL2::GetMeshIdFromName(med_idt fid, const char *mname, ParaMEDMEM::MEDCouplingMeshType& meshType, int& dt, int& it, std::string& dtunit1) throw(INTERP_KERNEL::Exception)
+std::size_t MEDFileMeshL2::getHeapMemorySizeWithoutChildren() const
+{
+ return 0;
+}
+
+std::vector<const BigMemoryObject *> MEDFileMeshL2::getDirectChildren() const
+{
+ return std::vector<const BigMemoryObject *>();
+}
+
+int MEDFileMeshL2::GetMeshIdFromName(med_idt fid, const std::string& mname, ParaMEDMEM::MEDCouplingMeshType& meshType, int& dt, int& it, std::string& dtunit1)
{
med_mesh_type type_maillage;
char maillage_description[MED_COMMENT_SIZE+1];
if(!found)
{
std::ostringstream oss;
- oss << "No such meshname (" << mname << ") in file ! Must be in :";
+ oss << "No such meshname (" << mname << ") in file ! Must be in : ";
std::copy(ms.begin(),ms.end(),std::ostream_iterator<std::string>(oss,", "));
throw INTERP_KERNEL::Exception(oss.str().c_str());
}
meshType=UNSTRUCTURED;
break;
case MED_STRUCTURED_MESH:
- meshType=CARTESIAN;
- break;
+ {
+ med_grid_type gt;
+ MEDmeshGridTypeRd(fid,mname.c_str(),>);
+ switch(gt)
+ {
+ case MED_CARTESIAN_GRID:
+ meshType=CARTESIAN;
+ break;
+ case MED_CURVILINEAR_GRID:
+ meshType=CURVE_LINEAR;
+ break;
+ default:
+ throw INTERP_KERNEL::Exception("MEDFileUMeshL2::getMeshIdFromName : unrecognized structured mesh type ! Supported are :\n - cartesian\n - curve linear\n");
+ }
+ break;
+ }
default:
throw INTERP_KERNEL::Exception("MEDFileUMeshL2::getMeshIdFromName : unrecognized mesh type !");
}
med_int numdt,numit;
med_float dtt;
- MEDmeshComputationStepInfo(fid,mname,1,&numdt,&numit,&dtt);
+ MEDmeshComputationStepInfo(fid,mname.c_str(),1,&numdt,&numit,&dtt);
dt=numdt; it=numit;
return ret;
}
-double MEDFileMeshL2::CheckMeshTimeStep(med_idt fid, const char *mName, int nstep, int dt, int it) throw(INTERP_KERNEL::Exception)
+double MEDFileMeshL2::CheckMeshTimeStep(med_idt fid, const std::string& mName, int nstep, int dt, int it)
{
bool found=false;
med_int numdt,numit;
std::vector< std::pair<int,int> > p(nstep);
for(int i=0;i<nstep;i++)
{
- MEDmeshComputationStepInfo(fid,mName,i+1,&numdt,&numit,&dtt);
+ MEDmeshComputationStepInfo(fid,mName.c_str(),i+1,&numdt,&numit,&dtt);
p[i]=std::make_pair<int,int>(numdt,numit);
found=(numdt==dt) && (numit==numit);
}
return dtt;
}
-std::vector<std::string> MEDFileMeshL2::getAxisInfoOnMesh(med_idt fid, int mId, const char *mName, ParaMEDMEM::MEDCouplingMeshType& meshType, int& nstep, int& Mdim) throw(INTERP_KERNEL::Exception)
+std::vector<std::string> MEDFileMeshL2::getAxisInfoOnMesh(med_idt fid, int mId, const std::string& mName, ParaMEDMEM::MEDCouplingMeshType& meshType, int& nstep, int& Mdim)
{
med_mesh_type type_maillage;
med_int spaceDim;
INTERP_KERNEL::AutoPtr<char> nameTmp=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
INTERP_KERNEL::AutoPtr<char> axisname=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
INTERP_KERNEL::AutoPtr<char> axisunit=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
+ INTERP_KERNEL::AutoPtr<char> univTmp=MEDLoaderBase::buildEmptyString(MED_LNAME_SIZE);
if(MEDmeshInfo(fid,mId,nameTmp,&spaceDim,&Mdim,&type_maillage,_description.getPointer(),_dt_unit.getPointer(),
&stype,&nstep,&axistype,axisname,axisunit)!=0)
throw INTERP_KERNEL::Exception("A problem has been detected when trying to get info on mesh !");
+ MEDmeshUniversalNameRd(fid,nameTmp,_univ_name.getPointer());
switch(type_maillage)
{
case MED_UNSTRUCTURED_MESH:
meshType=UNSTRUCTURED;
break;
case MED_STRUCTURED_MESH:
- meshType=CARTESIAN;
- break;
+ {
+ med_grid_type gt;
+ MEDmeshGridTypeRd(fid,mName.c_str(),>);
+ switch(gt)
+ {
+ case MED_CARTESIAN_GRID:
+ meshType=CARTESIAN;
+ break;
+ case MED_CURVILINEAR_GRID:
+ meshType=CURVE_LINEAR;
+ break;
+ default:
+ throw INTERP_KERNEL::Exception("MEDFileUMeshL2::getAxisInfoOnMesh : unrecognized structured mesh type ! Supported are :\n - cartesian\n - curve linear\n");
+ }
+ break;
+ }
default:
throw INTERP_KERNEL::Exception("MEDFileUMeshL2::getMeshIdFromName : unrecognized mesh type !");
}
return infosOnComp;
}
-void MEDFileMeshL2::ReadFamiliesAndGrps(med_idt fid, const char *meshName, std::map<std::string,int>& fams, std::map<std::string, std::vector<std::string> >& grps)
+void MEDFileMeshL2::ReadFamiliesAndGrps(med_idt fid, const std::string& meshName, std::map<std::string,int>& fams, std::map<std::string, std::vector<std::string> >& grps, MEDFileMeshReadSelector *mrs)
{
+ if(mrs && !(mrs->isCellFamilyFieldReading() || mrs->isNodeFamilyFieldReading()))
+ return ;
char nomfam[MED_NAME_SIZE+1];
med_int numfam;
- int nfam=MEDnFamily(fid,meshName);
+ int nfam=MEDnFamily(fid,meshName.c_str());
for(int i=0;i<nfam;i++)
{
- int ngro=MEDnFamilyGroup(fid,meshName,i+1);
- med_int natt=MEDnFamily23Attribute(fid,meshName,i+1);
+ int ngro=MEDnFamilyGroup(fid,meshName.c_str(),i+1);
+ med_int natt=MEDnFamily23Attribute(fid,meshName.c_str(),i+1);
INTERP_KERNEL::AutoPtr<med_int> attide=new med_int[natt];
INTERP_KERNEL::AutoPtr<med_int> attval=new med_int[natt];
INTERP_KERNEL::AutoPtr<char> attdes=new char[MED_COMMENT_SIZE*natt+1];
INTERP_KERNEL::AutoPtr<char> gro=new char[MED_LNAME_SIZE*ngro+1];
- MEDfamily23Info(fid,meshName,i+1,nomfam,attide,attval,attdes,&numfam,gro);
+ MEDfamily23Info(fid,meshName.c_str(),i+1,nomfam,attide,attval,attdes,&numfam,gro);
std::string famName=MEDLoaderBase::buildStringFromFortran(nomfam,MED_NAME_SIZE);
fams[famName]=numfam;
for(int j=0;j<ngro;j++)
}
}
-void MEDFileMeshL2::WriteFamiliesAndGrps(med_idt fid, const char *mname, const std::map<std::string,int>& fams, const std::map<std::string, std::vector<std::string> >& grps, int tooLongStrPol)
+void MEDFileMeshL2::WriteFamiliesAndGrps(med_idt fid, const std::string& mname, const std::map<std::string,int>& fams, const std::map<std::string, std::vector<std::string> >& grps, int tooLongStrPol)
{
for(std::map<std::string,int>::const_iterator it=fams.begin();it!=fams.end();it++)
{
MEDLoaderBase::safeStrCpy2((*it2).c_str(),MED_LNAME_SIZE-1,groName+i*MED_LNAME_SIZE,tooLongStrPol);
INTERP_KERNEL::AutoPtr<char> famName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
MEDLoaderBase::safeStrCpy((*it).first.c_str(),MED_NAME_SIZE,famName,tooLongStrPol);
- int ret=MEDfamilyCr(fid,mname,famName,(*it).second,ngro,groName);
+ int ret=MEDfamilyCr(fid,mname.c_str(),famName,(*it).second,ngro,groName);
ret++;
}
}
{
}
-void MEDFileUMeshL2::loadAll(med_idt fid, int mId, const char *mName, int dt, int it)
+void MEDFileUMeshL2::loadAll(med_idt fid, int mId, const std::string& mName, int dt, int it, MEDFileMeshReadSelector *mrs)
{
- _name.set(mName);
+ _name.set(mName.c_str());
int nstep;
int Mdim;
ParaMEDMEM::MEDCouplingMeshType meshType;
- std::vector<std::string> infosOnComp=getAxisInfoOnMesh(fid,mId,mName,meshType,nstep,Mdim);
+ std::vector<std::string> infosOnComp=getAxisInfoOnMesh(fid,mId,mName.c_str(),meshType,nstep,Mdim);
if(meshType!=UNSTRUCTURED)
throw INTERP_KERNEL::Exception("Invalid mesh type ! You are expected an unstructured one whereas in file it is not an unstructured !");
_time=CheckMeshTimeStep(fid,mName,nstep,dt,it);
_iteration=dt;
_order=it;
- loadConnectivity(fid,Mdim,mName,dt,it);//to improve check (dt,it) coherency
+ loadConnectivity(fid,Mdim,mName,dt,it,mrs);//to improve check (dt,it) coherency
loadCoords(fid,mId,infosOnComp,mName,dt,it);
}
-void MEDFileUMeshL2::loadConnectivity(med_idt fid, int mdim, const char *mName, int dt, int it)
+void MEDFileUMeshL2::loadConnectivity(med_idt fid, int mdim, const std::string& mName, int dt, int it, MEDFileMeshReadSelector *mrs)
{
_per_type_mesh.resize(1);
_per_type_mesh[0].clear();
for(int j=0;j<MED_N_CELL_FIXED_GEO;j++)
{
- MEDFileUMeshPerType *tmp=MEDFileUMeshPerType::New(fid,mName,dt,it,mdim,typmai[j],typmai2[j]);
+ MEDFileUMeshPerType *tmp=MEDFileUMeshPerType::New(fid,mName.c_str(),dt,it,mdim,typmai[j],typmai2[j],mrs);
if(tmp)
_per_type_mesh[0].push_back(tmp);
}
sortTypes();
}
-void MEDFileUMeshL2::loadCoords(med_idt fid, int mId, const std::vector<std::string>& infosOnComp, const char *mName, int dt, int it) throw(INTERP_KERNEL::Exception)
+void MEDFileUMeshL2::loadCoords(med_idt fid, int mId, const std::vector<std::string>& infosOnComp, const std::string& mName, int dt, int it)
{
int spaceDim=infosOnComp.size();
med_bool changement,transformation;
- int nCoords=MEDmeshnEntity(fid,mName,dt,it,MED_NODE,MED_NONE,MED_COORDINATE,MED_NO_CMODE,&changement,&transformation);
+ int nCoords=MEDmeshnEntity(fid,mName.c_str(),dt,it,MED_NODE,MED_NONE,MED_COORDINATE,MED_NO_CMODE,&changement,&transformation);
_coords=DataArrayDouble::New();
_coords->alloc(nCoords,spaceDim);
double *coordsPtr=_coords->getPointer();
- MEDmeshNodeCoordinateRd(fid,mName,dt,it,MED_FULL_INTERLACE,coordsPtr);
- _fam_coords=DataArrayInt::New();
- _fam_coords->alloc(nCoords,1);
- _num_coords=DataArrayInt::New();
- _num_coords->alloc(nCoords,1);
- if(MEDmeshnEntity(fid,mName,dt,it,MED_NODE,MED_NO_GEOTYPE,MED_FAMILY_NUMBER,MED_NODAL,&changement,&transformation)>0)
- MEDmeshEntityFamilyNumberRd(fid,mName,dt,it,MED_NODE,MED_NO_GEOTYPE,_fam_coords->getPointer());
+ MEDmeshNodeCoordinateRd(fid,mName.c_str(),dt,it,MED_FULL_INTERLACE,coordsPtr);
+ if(MEDmeshnEntity(fid,mName.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,MED_FAMILY_NUMBER,MED_NODAL,&changement,&transformation)>0)
+ {
+ _fam_coords=DataArrayInt::New();
+ _fam_coords->alloc(nCoords,1);
+ MEDmeshEntityFamilyNumberRd(fid,mName.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,_fam_coords->getPointer());
+ }
else
_fam_coords=0;
- if(MEDmeshnEntity(fid,mName,dt,it,MED_NODE,MED_NO_GEOTYPE,MED_NUMBER,MED_NODAL,&changement,&transformation)>0)
- MEDmeshEntityNumberRd(fid,mName,dt,it,MED_NODE,MED_NO_GEOTYPE,_num_coords->getPointer());
+ if(MEDmeshnEntity(fid,mName.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,MED_NUMBER,MED_NODAL,&changement,&transformation)>0)
+ {
+ _num_coords=DataArrayInt::New();
+ _num_coords->alloc(nCoords,1);
+ MEDmeshEntityNumberRd(fid,mName.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,_num_coords->getPointer());
+ }
else
_num_coords=0;
+ if(MEDmeshnEntity(fid,mName.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,MED_NAME,MED_NODAL,&changement,&transformation)>0)
+ {
+ _name_coords=DataArrayAsciiChar::New();
+ _name_coords->alloc(nCoords+1,MED_SNAME_SIZE);//not a bug to avoid the memory corruption due to last \0 at the end
+ MEDmeshEntityNameRd(fid,mName.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,_name_coords->getPointer());
+ _name_coords->reAlloc(nCoords);//not a bug to avoid the memory corruption due to last \0 at the end
+ }
+ else
+ _name_coords=0;
for(int i=0;i<spaceDim;i++)
- _coords->setInfoOnComponent(i,infosOnComp[i].c_str());
+ _coords->setInfoOnComponent(i,infosOnComp[i]);
}
void MEDFileUMeshL2::sortTypes()
_per_type_mesh.resize(_per_type_mesh.size()-nbOfUselessLev);
}
-void MEDFileUMeshL2::WriteCoords(med_idt fid, const char *mname, int dt, int it, double time, const DataArrayDouble *coords, const DataArrayInt *famCoords, const DataArrayInt *numCoords)
+void MEDFileUMeshL2::WriteCoords(med_idt fid, const std::string& mname, int dt, int it, double time, const DataArrayDouble *coords, const DataArrayInt *famCoords, const DataArrayInt *numCoords, const DataArrayAsciiChar *nameCoords)
{
if(!coords)
return ;
- MEDmeshNodeCoordinateWr(fid,mname,dt,it,time,MED_FULL_INTERLACE,coords->getNumberOfTuples(),coords->getConstPointer());
+ MEDmeshNodeCoordinateWr(fid,mname.c_str(),dt,it,time,MED_FULL_INTERLACE,coords->getNumberOfTuples(),coords->getConstPointer());
if(famCoords)
- MEDmeshEntityFamilyNumberWr(fid,mname,dt,it,MED_NODE,MED_NO_GEOTYPE,famCoords->getNumberOfTuples(),famCoords->getConstPointer());
+ MEDmeshEntityFamilyNumberWr(fid,mname.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,famCoords->getNumberOfTuples(),famCoords->getConstPointer());
if(numCoords)
- MEDmeshEntityNumberWr(fid,mname,dt,it,MED_NODE,MED_NO_GEOTYPE,numCoords->getNumberOfTuples(),numCoords->getConstPointer());
+ MEDmeshEntityNumberWr(fid,mname.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,numCoords->getNumberOfTuples(),numCoords->getConstPointer());
+ if(nameCoords)
+ {
+ if(nameCoords->getNumberOfComponents()!=MED_SNAME_SIZE)
+ {
+ std::ostringstream oss; oss << " MEDFileUMeshL2::WriteCoords : expected a name field on nodes with number of components set to " << MED_SNAME_SIZE;
+ oss << " ! The array has " << nameCoords->getNumberOfComponents() << " components !";
+ throw INTERP_KERNEL::Exception(oss.str().c_str());
+ }
+ MEDmeshEntityNameWr(fid,mname.c_str(),dt,it,MED_NODE,MED_NO_GEOTYPE,nameCoords->getNumberOfTuples(),nameCoords->getConstPointer());
+ }
}
bool MEDFileUMeshL2::isFamDefinedOnLev(int levId) const
return true;
}
+bool MEDFileUMeshL2::isNamesDefinedOnLev(int levId) const
+{
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDFileUMeshPerType> >::const_iterator it=_per_type_mesh[levId].begin();it!=_per_type_mesh[levId].end();it++)
+ if((*it)->getNames()==0)
+ return false;
+ return true;
+}
+
MEDFileCMeshL2::MEDFileCMeshL2()
{
}
-void MEDFileCMeshL2::loadAll(med_idt fid, int mId, const char *mName, int dt, int it) throw(INTERP_KERNEL::Exception)
+void MEDFileCMeshL2::loadAll(med_idt fid, int mId, const std::string& mName, int dt, int it)
{
- _name.set(mName);
+ _name.set(mName.c_str());
int nstep;
int Mdim;
ParaMEDMEM::MEDCouplingMeshType meshType;
- std::vector<std::string> infosOnComp=getAxisInfoOnMesh(fid,mId,mName,meshType,nstep,Mdim);
+ std::vector<std::string> infosOnComp=getAxisInfoOnMesh(fid,mId,mName.c_str(),meshType,nstep,Mdim);
if(meshType!=CARTESIAN)
throw INTERP_KERNEL::Exception("Invalid mesh type ! You are expected a structured one whereas in file it is not a structured !");
_time=CheckMeshTimeStep(fid,mName,nstep,dt,it);
_order=it;
//
med_grid_type gridtype;
- MEDmeshGridTypeRd(fid,mName,&gridtype);
+ MEDmeshGridTypeRd(fid,mName.c_str(),&gridtype);
if(gridtype!=MED_CARTESIAN_GRID)
- throw INTERP_KERNEL::Exception("Invalid cartesion mesh type ! Only Cartesian Grid supported ! Curvilinear grid will come soon !");
+ throw INTERP_KERNEL::Exception("Invalid structured mesh ! Expected cartesian mesh type !");
_cmesh=MEDCouplingCMesh::New();
for(int i=0;i<Mdim;i++)
{
med_data_type dataTypeReq=GetDataTypeCorrespondingToSpaceId(i);
med_bool chgt=MED_FALSE,trsf=MED_FALSE;
- int nbOfElt=MEDmeshnEntity(fid,mName,dt,it,MED_NODE,MED_NONE,dataTypeReq,MED_NO_CMODE,&chgt,&trsf);
+ int nbOfElt=MEDmeshnEntity(fid,mName.c_str(),dt,it,MED_NODE,MED_NONE,dataTypeReq,MED_NO_CMODE,&chgt,&trsf);
MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> da=DataArrayDouble::New();
da->alloc(nbOfElt,1);
- da->setInfoOnComponent(0,infosOnComp[i].c_str());
- MEDmeshGridIndexCoordinateRd(fid,mName,dt,it,i+1,da->getPointer());
+ da->setInfoOnComponent(0,infosOnComp[i]);
+ MEDmeshGridIndexCoordinateRd(fid,mName.c_str(),dt,it,i+1,da->getPointer());
_cmesh->setCoordsAt(i,da);
}
}
-med_data_type MEDFileCMeshL2::GetDataTypeCorrespondingToSpaceId(int id) throw(INTERP_KERNEL::Exception)
+med_data_type MEDFileCMeshL2::GetDataTypeCorrespondingToSpaceId(int id)
{
switch(id)
{
}
}
+MEDFileCLMeshL2::MEDFileCLMeshL2()
+{
+}
+
+void MEDFileCLMeshL2::loadAll(med_idt fid, int mId, const std::string& mName, int dt, int it)
+{
+ _name.set(mName.c_str());
+ int nstep;
+ int Mdim;
+ ParaMEDMEM::MEDCouplingMeshType meshType;
+ std::vector<std::string> infosOnComp=getAxisInfoOnMesh(fid,mId,mName,meshType,nstep,Mdim);
+ if(meshType!=CURVE_LINEAR)
+ throw INTERP_KERNEL::Exception("Invalid mesh type ! You are expected a structured one whereas in file it is not a structured !");
+ _time=CheckMeshTimeStep(fid,mName,nstep,dt,it);
+ _iteration=dt;
+ _order=it;
+ //
+ _clmesh=MEDCouplingCurveLinearMesh::New();
+ INTERP_KERNEL::AutoPtr<int> stGrid=new int[Mdim];
+ MEDmeshGridStructRd(fid,mName.c_str(),dt,it,stGrid);
+ _clmesh->setNodeGridStructure(stGrid,((int *)stGrid)+Mdim);
+ med_bool chgt=MED_FALSE,trsf=MED_FALSE;
+ int nbNodes=MEDmeshnEntity(fid,mName.c_str(),dt,it,MED_NODE,MED_NONE,MED_COORDINATE,MED_NO_CMODE,&chgt,&trsf);
+ MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> da=DataArrayDouble::New();
+ da->alloc(nbNodes,infosOnComp.size());
+ da->setInfoOnComponents(infosOnComp);
+ MEDmeshNodeCoordinateRd(fid,mName.c_str(),dt,it,MED_FULL_INTERLACE,da->getPointer());
+ _clmesh->setCoords(da);
+}
+
MEDFileUMeshPermCompute::MEDFileUMeshPermCompute(const MEDFileUMeshSplitL1* st):_st(st),_mpt_time(0),_num_time(0)
{
}
*/
MEDFileUMeshPermCompute::operator MEDCouplingUMesh *() const
{
- _st->_m_by_types->updateTime();
_st->_num->updateTime();
if((MEDCouplingUMesh *)_m==0)
{
updateTime();
- MEDCouplingUMesh *ret=(MEDCouplingUMesh *)_st->_m_by_types->deepCpy();
- _m=ret;
+ _m=static_cast<MEDCouplingUMesh *>(_st->_m_by_types.getUmesh()->deepCpy());
_m->renumberCells(_st->_num->getConstPointer(),true);
- ret->incrRef();
- return ret;
+ return _m.retn();
}
else
{
- if(_mpt_time==_st->_m_by_types->getTimeOfThis() && _num_time==_st->_num->getTimeOfThis())
- {
- _m->incrRef();
- return _m;
- }
+ if(_mpt_time==_st->_m_by_types.getTimeOfThis() && _num_time==_st->_num->getTimeOfThis())
+ return _m.retn();
else
{
updateTime();
- MEDCouplingUMesh *ret=(MEDCouplingUMesh *)_st->_m_by_types->deepCpy();
- _m=ret;
+ _m=static_cast<MEDCouplingUMesh *>(_st->_m_by_types.getUmesh()->deepCpy());
_m->renumberCells(_st->_num->getConstPointer(),true);
- ret->incrRef();
- return ret;
+ return _m.retn();
}
}
}
void MEDFileUMeshPermCompute::updateTime() const
{
- _mpt_time=_st->_m_by_types->getTimeOfThis();
+ _mpt_time=_st->_m_by_types.getTimeOfThis();
_num_time=_st->_num->getTimeOfThis();
}
-MEDFileUMeshSplitL1::MEDFileUMeshSplitL1(const MEDFileUMeshL2& l2, const char *mName, int id):_m(this)
+MEDFileUMeshSplitL1::MEDFileUMeshSplitL1(const MEDFileUMeshSplitL1& other):RefCountObject(other),_m_by_types(other._m_by_types),_fam(other._fam),_num(other._num),_names(other._names),_rev_num(other._rev_num),_m(this)
+{
+}
+
+MEDFileUMeshSplitL1::MEDFileUMeshSplitL1(const MEDFileUMeshL2& l2, const std::string& mName, int id):_m(this)
{
const std::vector< MEDCouplingAutoRefCountObjectPtr<MEDFileUMeshPerType> >& v=l2.getLev(id);
if(v.empty())
return;
int sz=v.size();
- std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCouplingUMesh> > msMSafe(sz);
- std::vector<const MEDCouplingUMesh *> ms(sz);
+ std::vector<const MEDCoupling1GTUMesh *> ms(sz);
+ std::vector<const DataArrayInt *> fams(sz),nums(sz);
+ std::vector<const DataArrayChar *> names(sz);
for(int i=0;i<sz;i++)
{
- MEDCouplingAutoRefCountObjectPtr<MEDCouplingUMesh> tmp=MEDCouplingUMesh::New("",v[i]->getDim());
+ MEDCoupling1GTUMesh *elt(v[i]->getMesh());
MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> tmp2=l2.getCoords();
- tmp->setCoords(tmp2);
- tmp->setConnectivity(const_cast<DataArrayInt *>(v[i]->getNodal()),const_cast<DataArrayInt *>(v[i]->getNodalIndex()));
- ms[i]=tmp; msMSafe[i]=tmp;
+ elt->setCoords(tmp2);
+ ms[i]=elt;
}
- _m_by_types=MEDCouplingUMesh::MergeUMeshesOnSameCoords(ms);
- _m_by_types->setName(mName);
+ _m_by_types.assignParts(ms);
if(l2.isFamDefinedOnLev(id))
{
- int nbOfCells=_m_by_types->getNumberOfCells();
- _fam=DataArrayInt::New();
- _fam->alloc(nbOfCells,1);
- int *w=_fam->getPointer();
for(int i=0;i<sz;i++)
- w=std::copy(v[i]->getFam()->getConstPointer(),v[i]->getFam()->getConstPointer()+v[i]->getFam()->getNumberOfTuples(),w);
+ fams[i]=v[i]->getFam();
+ if(sz!=1)
+ _fam=DataArrayInt::Aggregate(fams);
+ else
+ {
+ fams[0]->incrRef();
+ _fam=const_cast<DataArrayInt *>(fams[0]);
+ }
}
if(l2.isNumDefinedOnLev(id))
{
- int nbOfCells=_m_by_types->getNumberOfCells();
- _num=DataArrayInt::New();
- _num->alloc(nbOfCells,1);
- int *w=_num->getPointer();
for(int i=0;i<sz;i++)
- w=std::copy(v[i]->getNum()->getConstPointer(),v[i]->getNum()->getConstPointer()+v[i]->getNum()->getNumberOfTuples(),w);
+ nums[i]=v[i]->getNum();
+ if(sz!=1)
+ _num=DataArrayInt::Aggregate(nums);
+ else
+ {
+ nums[0]->incrRef();
+ _num=const_cast<DataArrayInt *>(nums[0]);
+ }
computeRevNum();
}
+ if(l2.isNamesDefinedOnLev(id))
+ {
+ for(int i=0;i<sz;i++)
+ names[i]=v[i]->getNames();
+ _names=dynamic_cast<DataArrayAsciiChar *>(DataArrayChar::Aggregate(names));
+ }
+}
+
+MEDFileUMeshSplitL1::MEDFileUMeshSplitL1(MEDCoupling1GTUMesh *m):_m(this)
+{
+ std::vector< const MEDCoupling1GTUMesh * > v(1);
+ v[0]=m;
+ assignParts(v);
}
MEDFileUMeshSplitL1::MEDFileUMeshSplitL1(MEDCouplingUMesh *m):_m(this)
assignMesh(m,newOrOld);
}
+void MEDFileUMeshSplitL1::setName(const std::string& name)
+{
+ _m_by_types.setName(name);
+}
+
+std::size_t MEDFileUMeshSplitL1::getHeapMemorySizeWithoutChildren() const
+{
+ return 0;
+}
+
+std::vector<const BigMemoryObject *> MEDFileUMeshSplitL1::getDirectChildren() const
+{
+ std::vector<const BigMemoryObject *> ret;
+ ret.push_back(&_m_by_types);
+ if((const DataArrayInt*)_fam)
+ ret.push_back((const DataArrayInt*)_fam);
+ if((const DataArrayInt*)_num)
+ ret.push_back((const DataArrayInt*)_num);
+ if((const DataArrayInt*)_rev_num)
+ ret.push_back((const DataArrayInt*)_rev_num);
+ if((const DataArrayAsciiChar*)_names)
+ ret.push_back((const DataArrayAsciiChar*)_names);
+ return ret;
+}
+
+MEDFileUMeshSplitL1 *MEDFileUMeshSplitL1::deepCpy(DataArrayDouble *coords) const
+{
+ MEDCouplingAutoRefCountObjectPtr<MEDFileUMeshSplitL1> ret=new MEDFileUMeshSplitL1(*this);
+ ret->_m_by_types=_m_by_types.deepCpy(coords);
+ if((const DataArrayInt *)_fam)
+ ret->_fam=_fam->deepCpy();
+ if((const DataArrayInt *)_num)
+ ret->_num=_num->deepCpy();
+ if((const DataArrayInt *)_rev_num)
+ ret->_rev_num=_rev_num->deepCpy();
+ if((const DataArrayAsciiChar *)_names)
+ ret->_names=_names->deepCpy();
+ return ret.retn();
+}
+
bool MEDFileUMeshSplitL1::isEqual(const MEDFileUMeshSplitL1 *other, double eps, std::string& what) const
{
- const MEDCouplingUMesh *m1=_m_by_types;
- const MEDCouplingUMesh *m2=other->_m_by_types;
- if((m1==0 && m2!=0) || (m1!=0 && m2==0))
- {
- what="Presence of mesh in one sublevel and not in other!";
- return false;
- }
- if(m1)
- if(!m1->isEqual(m2,eps))
- {
- what="meshes at a sublevel are not deeply equal !";
- return false;
- }
+ if(!_m_by_types.isEqual(other->_m_by_types,eps,what))
+ return false;
const DataArrayInt *d1=_fam;
const DataArrayInt *d2=other->_fam;
if((d1==0 && d2!=0) || (d1!=0 && d2==0))
what="Numbering cell arr at a sublevel are not deeply equal !";
return false;
}
+ const DataArrayAsciiChar *e1=_names;
+ const DataArrayAsciiChar *e2=other->_names;
+ if((e1==0 && e2!=0) || (e1!=0 && e2==0))
+ {
+ what="Presence of cell names arr in one sublevel and not in other!";
+ return false;
+ }
+ if(e1)
+ if(!e1->isEqual(*e2))
+ {
+ what="Name cell arr at a sublevel are not deeply equal !";
+ return false;
+ }
return true;
}
void MEDFileUMeshSplitL1::synchronizeTinyInfo(const MEDFileMesh& master) const
{
- const MEDCouplingUMesh *tmp=_m_by_types;
- if(!tmp)
- return ;
- (const_cast<MEDCouplingUMesh *>(tmp))->setName(master.getName());
- (const_cast<MEDCouplingUMesh *>(tmp))->setDescription(master.getDescription());
- (const_cast<MEDCouplingUMesh *>(tmp))->setTime(master.getTimeValue(),master.getIteration(),master.getOrder());
- (const_cast<MEDCouplingUMesh *>(tmp))->setTimeUnit(master.getTimeUnit());
+ _m_by_types.synchronizeTinyInfo(master);
}
void MEDFileUMeshSplitL1::clearNonDiscrAttributes() const
{
- ClearNonDiscrAttributes(_m_by_types);
+ _m_by_types.clearNonDiscrAttributes();
}
void MEDFileUMeshSplitL1::ClearNonDiscrAttributes(const MEDCouplingMesh *tmp)
(const_cast<MEDCouplingMesh *>(tmp))->setTimeUnit("");
}
-void MEDFileUMeshSplitL1::assignMesh(MEDCouplingUMesh *m, bool newOrOld) throw(INTERP_KERNEL::Exception)
+void MEDFileUMeshSplitL1::setCoords(DataArrayDouble *coords)
+{
+ _m_by_types.setCoords(coords);
+}
+
+void MEDFileUMeshSplitL1::assignMesh(MEDCouplingUMesh *m, bool newOrOld)
{
if(newOrOld)
{
m->incrRef();
_m=m;
- _m_by_types=(MEDCouplingUMesh *)m->deepCpy();
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> da=_m_by_types->getRenumArrForConsecutiveCellTypesSpec(typmai2,typmai2+MED_N_CELL_FIXED_GEO);
+ _m_by_types.assignUMesh(dynamic_cast<MEDCouplingUMesh *>(m->deepCpy()));
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> da=_m_by_types.getUmesh()->getRenumArrForConsecutiveCellTypesSpec(typmai2,typmai2+MED_N_CELL_FIXED_GEO);
if(!da->isIdentity())
{
_num=da->invertArrayO2N2N2O(m->getNumberOfCells());
_m.updateTime();
computeRevNum();
- _m_by_types->renumberCells(da->getConstPointer(),false);
+ _m_by_types.getUmesh()->renumberCells(da->getConstPointer(),false);
}
}
else
if(!m->checkConsecutiveCellTypesAndOrder(typmai2,typmai2+MED_N_CELL_FIXED_GEO))
throw INTERP_KERNEL::Exception("MEDFileUMeshSplitL1::assignMesh : the mode of mesh setting expects to follow the MED file numbering convention ! it is not the case !");
m->incrRef();
- _m_by_types=m;
+ _m_by_types.assignUMesh(m);
}
+ assignCommonPart();
+}
+
+void MEDFileUMeshSplitL1::forceComputationOfParts() const
+{
+ _m_by_types.forceComputationOfPartsFromUMesh();
+}
+
+void MEDFileUMeshSplitL1::assignParts(const std::vector< const MEDCoupling1GTUMesh * >& mParts)
+{
+ _m_by_types.assignParts(mParts);
+ assignCommonPart();
+}
+
+void MEDFileUMeshSplitL1::assignCommonPart()
+{
_fam=DataArrayInt::New();
- _fam->alloc(m->getNumberOfCells(),1);
+ _fam->alloc(_m_by_types.getSize(),1);
_fam->fillWithValue(0);
}
bool MEDFileUMeshSplitL1::empty() const
{
- return ((const MEDCouplingUMesh *)_m_by_types)==0;
+ return _m_by_types.empty();
}
bool MEDFileUMeshSplitL1::presenceOfOneFams(const std::vector<int>& ids) const
int MEDFileUMeshSplitL1::getMeshDimension() const
{
- return _m_by_types->getMeshDimension();
+ return _m_by_types.getMeshDimension();
}
void MEDFileUMeshSplitL1::simpleRepr(std::ostream& oss) const
{
- std::vector<int> code=_m_by_types->getDistributionOfTypes();
+ std::vector<int> code=_m_by_types.getDistributionOfTypes();
int nbOfTypes=code.size()/3;
for(int i=0;i<nbOfTypes;i++)
{
}
}
-int MEDFileUMeshSplitL1::getSize() const throw(INTERP_KERNEL::Exception)
+int MEDFileUMeshSplitL1::getSize() const
{
- if((const MEDCouplingUMesh *)_m_by_types==0)
- throw INTERP_KERNEL::Exception("MEDFileUMeshSplitL1::getSize : no mesh specified at level !");
- return _m_by_types->getNumberOfCells();
+ return _m_by_types.getSize();
}
MEDCouplingUMesh *MEDFileUMeshSplitL1::getFamilyPart(const int *idsBg, const int *idsEnd, bool renum) const
{
MEDCouplingAutoRefCountObjectPtr<DataArrayInt> eltsToKeep=_fam->getIdsEqualList(idsBg,idsEnd);
- MEDCouplingUMesh *m=(MEDCouplingUMesh *)_m_by_types->buildPartOfMySelf(eltsToKeep->getConstPointer(),eltsToKeep->getConstPointer()+eltsToKeep->getNumberOfTuples(),true);
+ MEDCouplingUMesh *m=(MEDCouplingUMesh *)_m_by_types.getUmesh()->buildPartOfMySelf(eltsToKeep->getConstPointer(),eltsToKeep->getConstPointer()+eltsToKeep->getNumberOfTuples(),true);
if(renum)
return renumIfNeeded(m,eltsToKeep->getConstPointer());
return m;
MEDCouplingAutoRefCountObjectPtr<DataArrayInt> da=_fam->getIdsEqualList(idsBg,idsEnd);
if(renum)
return renumIfNeededArr(da);
- da->incrRef();
- return da;
+ return da.retn();
+}
+
+std::vector<INTERP_KERNEL::NormalizedCellType> MEDFileUMeshSplitL1::getGeoTypes() const
+{
+ return _m_by_types.getGeoTypes();
}
MEDCouplingUMesh *MEDFileUMeshSplitL1::getWholeMesh(bool renum) const
{
MEDCouplingAutoRefCountObjectPtr<MEDCouplingUMesh> tmp;
- if(renum)
+ if(renum && ((const DataArrayInt *)_num))
tmp=_m;
else
- tmp=_m_by_types;
- tmp->incrRef();
- return tmp;
+ { tmp=_m_by_types.getUmesh(); if(tmp) tmp->incrRef(); }
+ return tmp.retn();
+}
+
+DataArrayInt *MEDFileUMeshSplitL1::extractFamilyFieldOnGeoType(INTERP_KERNEL::NormalizedCellType gt) const
+{
+ const DataArrayInt *fam(_fam);
+ if(!fam)
+ return 0;
+ int start(0),stop(0);
+ _m_by_types.getStartStopOfGeoTypeWithoutComputation(gt,start,stop);
+ return fam->selectByTupleId2(start,stop,1);
+}
+
+DataArrayInt *MEDFileUMeshSplitL1::extractNumberFieldOnGeoType(INTERP_KERNEL::NormalizedCellType gt) const
+{
+ const DataArrayInt *num(_num);
+ if(!num)
+ return 0;
+ int start(0),stop(0);
+ _m_by_types.getStartStopOfGeoTypeWithoutComputation(gt,start,stop);
+ return num->selectByTupleId2(start,stop,1);
+}
+
+DataArrayInt *MEDFileUMeshSplitL1::getOrCreateAndGetFamilyField()
+{
+ if((DataArrayInt *)_fam)
+ return _fam;
+ int nbOfTuples=_m_by_types.getSize();
+ _fam=DataArrayInt::New(); _fam->alloc(nbOfTuples,1); _fam->fillWithZero();
+ return _fam;
}
const DataArrayInt *MEDFileUMeshSplitL1::getFamilyField() const
return _rev_num;
}
+const DataArrayAsciiChar *MEDFileUMeshSplitL1::getNameField() const
+{
+ return _names;
+}
+
void MEDFileUMeshSplitL1::eraseFamilyField()
{
_fam->fillWithZero();
*w=famIdTrad[*w];
}
-void MEDFileUMeshSplitL1::write(med_idt fid, const char *mName, int mdim) const
+void MEDFileUMeshSplitL1::write(med_idt fid, const std::string& mName, int mdim) const
{
- std::vector<MEDCouplingUMesh *> ms=_m_by_types->splitByType();
- std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCouplingUMesh> > msMSafe(ms.begin(),ms.end());
+ std::vector<MEDCoupling1GTUMesh *> ms(_m_by_types.getParts());
int start=0;
- for(std::vector<MEDCouplingUMesh *>::const_iterator it=ms.begin();it!=ms.end();it++)
+ for(std::vector<MEDCoupling1GTUMesh *>::const_iterator it=ms.begin();it!=ms.end();it++)
{
int nbCells=(*it)->getNumberOfCells();
int end=start+nbCells;
MEDCouplingAutoRefCountObjectPtr<DataArrayInt> fam,num;
+ MEDCouplingAutoRefCountObjectPtr<DataArrayAsciiChar> names;
if((const DataArrayInt *)_fam)
fam=_fam->substr(start,end);
if((const DataArrayInt *)_num)
num=_num->substr(start,end);
- MEDFileUMeshPerType::write(fid,mName,mdim,(*it),fam,num);
+ if((const DataArrayAsciiChar *)_names)
+ names=static_cast<DataArrayAsciiChar *>(_names->substr(start,end));
+ MEDFileUMeshPerType::Write(fid,mName,mdim,(*it),fam,num,names);
start=end;
}
}
-void MEDFileUMeshSplitL1::changeFamilyIdArr(int oldId, int newId) throw(INTERP_KERNEL::Exception)
+void MEDFileUMeshSplitL1::renumberNodesInConn(const int *newNodeNumbersO2N)
+{
+ MEDCouplingUMesh *m(_m_by_types.getUmesh());
+ if(!m)
+ return;
+ m->renumberNodesInConn(newNodeNumbersO2N);
+}
+
+void MEDFileUMeshSplitL1::changeFamilyIdArr(int oldId, int newId)
{
DataArrayInt *arr=_fam;
if(arr)
_fam=0;
return ;
}
- MEDCouplingUMesh *mbt(_m_by_types);
- if(!mbt)
- throw INTERP_KERNEL::Exception("MEDFileUMeshSplitL1::setFamilyArr : no mesh defined on this level !");
- famArr->checkNbOfTuplesAndComp(mbt->getNumberOfCells(),1,"MEDFileUMeshSplitL1::setFamilyArr : Problem in size of Family arr ! ");
+ int sz(_m_by_types.getSize());
+ famArr->checkNbOfTuplesAndComp(sz,1,"MEDFileUMeshSplitL1::setFamilyArr : Problem in size of Family arr ! ");
famArr->incrRef();
_fam=famArr;
}
_rev_num=0;
return ;
}
- MEDCouplingUMesh *mbt(_m_by_types);
- if(!mbt)
- throw INTERP_KERNEL::Exception("MEDFileUMeshSplitL1::setRenumArr : no mesh defined on this level !");
- renumArr->checkNbOfTuplesAndComp(mbt->getNumberOfCells(),1,"MEDFileUMeshSplitL1::setRenumArr : Problem in size of numbering arr ! ");
+ int sz(_m_by_types.getSize());
+ renumArr->checkNbOfTuplesAndComp(sz,1,"MEDFileUMeshSplitL1::setRenumArr : Problem in size of numbering arr ! ");
renumArr->incrRef();
_num=renumArr;
computeRevNum();
}
+void MEDFileUMeshSplitL1::setNameArr(DataArrayAsciiChar *nameArr)
+{
+ if(!nameArr)
+ {
+ _names=0;
+ return ;
+ }
+ int sz(_m_by_types.getSize());
+ nameArr->checkNbOfTuplesAndComp(sz,MED_SNAME_SIZE,"MEDFileUMeshSplitL1::setNameArr : Problem in size of name arr ! ");
+ nameArr->incrRef();
+ _names=nameArr;
+}
+
MEDCouplingUMesh *MEDFileUMeshSplitL1::Renumber2(const DataArrayInt *renum, MEDCouplingUMesh *m, const int *cellIds)
{
if(renum==0)
std::map<int,int>& famIdTrad, std::map<int,std::string>& newfams)
{
std::set<int> allfids;
-
+ //tony
}
void MEDFileUMeshSplitL1::computeRevNum() const
int maxValue=_num->getMaxValue(pos);
_rev_num=_num->invertArrayN2O2O2N(maxValue+1);
}
+
+//=
+
+MEDFileUMeshAggregateCompute::MEDFileUMeshAggregateCompute():_mp_time(0),_m_time(0)
+{
+}
+
+void MEDFileUMeshAggregateCompute::setName(const std::string& name)
+{
+ if(_m_time>=_mp_time)
+ {
+ MEDCouplingUMesh *um(_m);
+ if(um)
+ um->setName(name);
+ }
+ if(_mp_time>=_m_time)
+ {
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ {
+ MEDCoupling1GTUMesh *tmp(*it);
+ if(tmp)
+ tmp->setName(name);
+ }
+ }
+}
+
+void MEDFileUMeshAggregateCompute::assignParts(const std::vector< const MEDCoupling1GTUMesh * >& mParts)
+{
+ std::size_t sz(mParts.size());
+ std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> > ret(sz);
+ for(std::size_t i=0;i<sz;i++)
+ {
+ const MEDCoupling1GTUMesh *elt(mParts[i]);
+ if(!elt)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::assignParts : presence of null pointer !");
+ ret[i]=const_cast<MEDCoupling1GTUMesh *>(elt); elt->incrRef();
+ }
+ _m_parts=ret;
+ _mp_time=std::max(_mp_time,_m_time)+1;
+ _m=0;
+}
+
+void MEDFileUMeshAggregateCompute::assignUMesh(MEDCouplingUMesh *m)
+{
+ _m=m;
+ _m_parts.clear();
+ _m_time=std::max(_mp_time,_m_time)+1;
+}
+
+MEDCouplingUMesh *MEDFileUMeshAggregateCompute::getUmesh() const
+{
+ if(_mp_time<=_m_time)
+ return _m;
+ std::vector< const MEDCoupling1GTUMesh *> mp(_m_parts.size());
+ std::copy(_m_parts.begin(),_m_parts.end(),mp.begin());
+ _m=MEDCoupling1GTUMesh::AggregateOnSameCoordsToUMesh(mp);
+ _m_parts.clear();//to avoid memory peak !
+ _m_time=_mp_time+1;//+1 is important ! That is to say that only _m is OK not _m_parts because cleared !
+ return _m;
+}
+
+std::vector<INTERP_KERNEL::NormalizedCellType> MEDFileUMeshAggregateCompute::getGeoTypes() const
+{
+ if(_mp_time>=_m_time)
+ {
+ std::size_t sz(_m_parts.size());
+ std::vector<INTERP_KERNEL::NormalizedCellType> ret(sz);
+ for(std::size_t i=0;i<sz;i++)
+ ret[i]=_m_parts[i]->getCellModelEnum();
+ return ret;
+ }
+ else
+ return _m->getAllGeoTypesSorted();
+}
+
+std::vector<MEDCoupling1GTUMesh *> MEDFileUMeshAggregateCompute::getPartsWithoutComputation() const
+{
+ if(_mp_time<_m_time)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getPartsWithoutComputation : the parts require a computation !");
+ //
+ std::vector<MEDCoupling1GTUMesh *> ret(_m_parts.size());
+ std::size_t i(0);
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_m_parts.begin();it!=_m_parts.end();it++,i++)
+ {
+ const MEDCoupling1GTUMesh *elt(*it);
+ ret[i]=const_cast<MEDCoupling1GTUMesh *>(elt);
+ }
+ return ret;
+}
+
+std::vector<MEDCoupling1GTUMesh *> MEDFileUMeshAggregateCompute::getParts() const
+{
+ if(_mp_time<_m_time)
+ forceComputationOfPartsFromUMesh();
+ return getPartsWithoutComputation();
+}
+
+MEDCoupling1GTUMesh *MEDFileUMeshAggregateCompute::getPartWithoutComputation(INTERP_KERNEL::NormalizedCellType gt) const
+{
+ std::vector<MEDCoupling1GTUMesh *> v(getPartsWithoutComputation());
+ std::size_t sz(v.size());
+ for(std::size_t i=0;i<sz;i++)
+ {
+ if(v[i])
+ if(v[i]->getCellModelEnum()==gt)
+ return v[i];
+ }
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getPartWithoutComputation : the geometric type is not existing !");
+}
+
+void MEDFileUMeshAggregateCompute::getStartStopOfGeoTypeWithoutComputation(INTERP_KERNEL::NormalizedCellType gt, int& start, int& stop) const
+{
+ start=0; stop=0;
+ std::vector<MEDCoupling1GTUMesh *> v(getPartsWithoutComputation());
+ std::size_t sz(v.size());
+ for(std::size_t i=0;i<sz;i++)
+ {
+ if(v[i])
+ {
+ if(v[i]->getCellModelEnum()==gt)
+ {
+ stop=start+v[i]->getNumberOfCells();
+ return;
+ }
+ else
+ start+=v[i]->getNumberOfCells();
+ }
+ }
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getStartStopOfGeoTypeWithoutComputation : the geometric type is not existing !");
+}
+
+void MEDFileUMeshAggregateCompute::forceComputationOfPartsFromUMesh() const
+{
+ const MEDCouplingUMesh *m(_m);
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::forceComputationOfPartsFromUMesh : null UMesh !");
+ std::vector<MEDCouplingUMesh *> ms(m->splitByType());
+ std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCouplingUMesh> > msMSafe(ms.begin(),ms.end());
+ std::size_t sz(msMSafe.size());
+ _m_parts.resize(sz);
+ for(std::size_t i=0;i<sz;i++)
+ _m_parts[i]=MEDCoupling1GTUMesh::New(ms[i]);
+ _mp_time=std::max(_mp_time,_m_time);
+}
+
+std::size_t MEDFileUMeshAggregateCompute::getTimeOfThis() const
+{
+ if(_mp_time>_m_time)
+ return getTimeOfParts();
+ if(_m_time>_mp_time)
+ return getTimeOfUMesh();
+ return std::max(getTimeOfParts(),getTimeOfUMesh());
+}
+
+std::size_t MEDFileUMeshAggregateCompute::getTimeOfParts() const
+{
+ std::size_t ret(0);
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ {
+ const MEDCoupling1GTUMesh *elt(*it);
+ if(!elt)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getTimeOfParts : null obj in parts !");
+ ret=std::max(ret,elt->getTimeOfThis());
+ }
+ if(ret==0)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getTimeOfParts : parts is empty !");
+ return ret;
+}
+
+std::size_t MEDFileUMeshAggregateCompute::getTimeOfUMesh() const
+{
+ const MEDCouplingUMesh *m(_m);
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getTimeOfUMesh : unmesh is null !");
+ return m->getTimeOfThis();
+}
+
+std::size_t MEDFileUMeshAggregateCompute::getHeapMemorySizeWithoutChildren() const
+{
+ std::size_t ret(_m_parts.size()*sizeof(MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh>));
+ return ret;
+}
+
+std::vector<const BigMemoryObject *> MEDFileUMeshAggregateCompute::getDirectChildren() const
+{
+ std::vector<const BigMemoryObject *> ret;
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ {
+ const MEDCoupling1GTUMesh *cur(*it);
+ if(cur)
+ ret.push_back(cur);
+ }
+ const MEDCouplingUMesh *m(_m);
+ if(m)
+ ret.push_back(m);
+ return ret;
+}
+
+MEDFileUMeshAggregateCompute MEDFileUMeshAggregateCompute::deepCpy(DataArrayDouble *coords) const
+{
+ MEDFileUMeshAggregateCompute ret;
+ ret._m_parts.resize(_m_parts.size());
+ for(std::size_t i=0;i<_m_parts.size();i++)
+ {
+ const MEDCoupling1GTUMesh *elt(_m_parts[i]);
+ if(elt)
+ {
+ ret._m_parts[i]=static_cast<ParaMEDMEM::MEDCoupling1GTUMesh*>(elt->deepCpy());
+ ret._m_parts[i]->setCoords(coords);
+ }
+ }
+ ret._mp_time=_mp_time; ret._m_time=_m_time;
+ if((const MEDCouplingUMesh *)_m)
+ {
+ ret._m=static_cast<ParaMEDMEM::MEDCouplingUMesh*>(_m->deepCpy());
+ ret._m->setCoords(coords);
+ }
+ return ret;
+}
+
+bool MEDFileUMeshAggregateCompute::isEqual(const MEDFileUMeshAggregateCompute& other, double eps, std::string& what) const
+{
+ const MEDCouplingUMesh *m1(getUmesh());
+ const MEDCouplingUMesh *m2(other.getUmesh());
+ if((m1==0 && m2!=0) || (m1!=0 && m2==0))
+ {
+ what="Presence of mesh in one sublevel and not in other!";
+ return false;
+ }
+ if(m1)
+ {
+ std::string what2;
+ if(!m1->isEqualIfNotWhy(m2,eps,what2))
+ {
+ what=std::string("meshes at a sublevel are not deeply equal (")+what2+std::string(")!");
+ return false;
+ }
+ }
+ return true;
+}
+
+void MEDFileUMeshAggregateCompute::clearNonDiscrAttributes() const
+{
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ MEDFileUMeshSplitL1::ClearNonDiscrAttributes(*it);
+ MEDFileUMeshSplitL1::ClearNonDiscrAttributes(_m);
+}
+
+void MEDFileUMeshAggregateCompute::synchronizeTinyInfo(const MEDFileMesh& master) const
+{
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ {
+ const MEDCoupling1GTUMesh *tmp(*it);
+ if(tmp)
+ {
+ (const_cast<MEDCoupling1GTUMesh *>(tmp))->setName(master.getName().c_str());
+ (const_cast<MEDCoupling1GTUMesh *>(tmp))->setDescription(master.getDescription().c_str());
+ (const_cast<MEDCoupling1GTUMesh *>(tmp))->setTime(master.getTimeValue(),master.getIteration(),master.getOrder());
+ (const_cast<MEDCoupling1GTUMesh *>(tmp))->setTimeUnit(master.getTimeUnit());
+ }
+ }
+ const MEDCouplingUMesh *m(_m);
+ if(m)
+ {
+ (const_cast<MEDCouplingUMesh *>(m))->setName(master.getName().c_str());
+ (const_cast<MEDCouplingUMesh *>(m))->setDescription(master.getDescription().c_str());
+ (const_cast<MEDCouplingUMesh *>(m))->setTime(master.getTimeValue(),master.getIteration(),master.getOrder());
+ (const_cast<MEDCouplingUMesh *>(m))->setTimeUnit(master.getTimeUnit());
+ }
+}
+
+bool MEDFileUMeshAggregateCompute::empty() const
+{
+ if(_mp_time<_m_time)
+ return ((const MEDCouplingUMesh *)_m)==0;
+ //else _mp_time>=_m_time)
+ return _m_parts.empty();
+
+}
+
+int MEDFileUMeshAggregateCompute::getMeshDimension() const
+{
+ if(_mp_time<_m_time)
+ {
+ const MEDCouplingUMesh *m(_m);
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getMeshDimension : no umesh in this !");
+ return m->getMeshDimension();
+ }
+ else
+ {
+ if(_m_parts.empty())
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getMeshDimension : part mesh is empty !");
+ const MEDCoupling1GTUMesh *m(_m_parts[0]);
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getMeshDimension : part mesh contains null instance !");
+ return m->getMeshDimension();
+ }
+}
+
+std::vector<int> MEDFileUMeshAggregateCompute::getDistributionOfTypes() const
+{
+ if(_mp_time<_m_time)
+ {
+ const MEDCouplingUMesh *m(_m);
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getDistributionOfTypes : no umesh in this !");
+ return m->getDistributionOfTypes();
+ }
+ else
+ {
+ std::vector<int> ret;
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ {
+ const MEDCoupling1GTUMesh *tmp(*it);
+ if(!tmp)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getDistributionOfTypes : part mesh contains null instance !");
+ std::vector<int> ret0(tmp->getDistributionOfTypes());
+ ret.insert(ret.end(),ret0.begin(),ret0.end());
+ }
+ return ret;
+ }
+}
+
+int MEDFileUMeshAggregateCompute::getSize() const
+{
+ if(_mp_time<_m_time)
+ {
+ const MEDCouplingUMesh *m(_m);
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getSize : no umesh in this !");
+ return m->getNumberOfCells();
+ }
+ else
+ {
+ int ret=0;
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ {
+ const MEDCoupling1GTUMesh *m(*it);
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDFileUMeshAggregateCompute::getSize : part mesh contains null instance !");
+ ret+=m->getNumberOfCells();
+ }
+ return ret;
+ }
+}
+
+void MEDFileUMeshAggregateCompute::setCoords(DataArrayDouble *coords)
+{
+ for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::iterator it=_m_parts.begin();it!=_m_parts.end();it++)
+ {
+ MEDCoupling1GTUMesh *tmp(*it);
+ if(tmp)
+ (*it)->setCoords(coords);
+ }
+ MEDCouplingUMesh *m(_m);
+ if(m)
+ m->setCoords(coords);
+}
