-// Copyright (C) 2007-2014 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2015 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 "MEDLoader.hxx"
#include "MEDLoaderBase.hxx"
#include "MEDFileUtilities.hxx"
+#include "MEDFileSafeCaller.txx"
#include "MEDFileMesh.hxx"
#include "MEDFileField.hxx"
#include "CellModel.hxx"
#include <algorithm>
med_geometry_type typmai[MED_N_CELL_FIXED_GEO] = { MED_POINT1,
- MED_SEG2,
- MED_SEG3,
- MED_SEG4,
- MED_TRIA3,
- MED_QUAD4,
- MED_TRIA6,
- MED_TRIA7,
- MED_QUAD8,
- MED_QUAD9,
- MED_TETRA4,
- MED_PYRA5,
- MED_PENTA6,
- MED_HEXA8,
- MED_OCTA12,
- MED_TETRA10,
- MED_PYRA13,
- MED_PENTA15,
- MED_HEXA20,
- MED_HEXA27,
- MED_POLYGON,
- MED_POLYGON2,
- MED_POLYHEDRON };
+ MED_SEG2,
+ MED_SEG3,
+ MED_SEG4,
+ MED_TRIA3,
+ MED_QUAD4,
+ MED_TRIA6,
+ MED_TRIA7,
+ MED_QUAD8,
+ MED_QUAD9,
+ MED_TETRA4,
+ MED_PYRA5,
+ MED_PENTA6,
+ MED_HEXA8,
+ MED_OCTA12,
+ MED_TETRA10,
+ MED_PYRA13,
+ MED_PENTA15,
+ MED_HEXA20,
+ MED_HEXA27,
+ MED_POLYGON,
+ MED_POLYGON2,
+ MED_POLYHEDRON };
med_geometry_type typmainoeud[1] = { MED_NONE };
INTERP_KERNEL::NormalizedCellType typmai2[MED_N_CELL_FIXED_GEO] = { INTERP_KERNEL::NORM_POINT1,
- INTERP_KERNEL::NORM_SEG2,
- INTERP_KERNEL::NORM_SEG3,
- INTERP_KERNEL::NORM_SEG4,
- INTERP_KERNEL::NORM_TRI3,
- INTERP_KERNEL::NORM_QUAD4,
- INTERP_KERNEL::NORM_TRI6,
- INTERP_KERNEL::NORM_TRI7,
- INTERP_KERNEL::NORM_QUAD8,
- INTERP_KERNEL::NORM_QUAD9,
- INTERP_KERNEL::NORM_TETRA4,
- INTERP_KERNEL::NORM_PYRA5,
- INTERP_KERNEL::NORM_PENTA6,
- INTERP_KERNEL::NORM_HEXA8,
- INTERP_KERNEL::NORM_HEXGP12,
- INTERP_KERNEL::NORM_TETRA10,
- INTERP_KERNEL::NORM_PYRA13,
- INTERP_KERNEL::NORM_PENTA15,
- INTERP_KERNEL::NORM_HEXA20,
- INTERP_KERNEL::NORM_HEXA27,
- INTERP_KERNEL::NORM_POLYGON,
- INTERP_KERNEL::NORM_QPOLYG,
- INTERP_KERNEL::NORM_POLYHED };
+ INTERP_KERNEL::NORM_SEG2,
+ INTERP_KERNEL::NORM_SEG3,
+ INTERP_KERNEL::NORM_SEG4,
+ INTERP_KERNEL::NORM_TRI3,
+ INTERP_KERNEL::NORM_QUAD4,
+ INTERP_KERNEL::NORM_TRI6,
+ INTERP_KERNEL::NORM_TRI7,
+ INTERP_KERNEL::NORM_QUAD8,
+ INTERP_KERNEL::NORM_QUAD9,
+ INTERP_KERNEL::NORM_TETRA4,
+ INTERP_KERNEL::NORM_PYRA5,
+ INTERP_KERNEL::NORM_PENTA6,
+ INTERP_KERNEL::NORM_HEXA8,
+ INTERP_KERNEL::NORM_HEXGP12,
+ INTERP_KERNEL::NORM_TETRA10,
+ INTERP_KERNEL::NORM_PYRA13,
+ INTERP_KERNEL::NORM_PENTA15,
+ INTERP_KERNEL::NORM_HEXA20,
+ INTERP_KERNEL::NORM_HEXA27,
+ INTERP_KERNEL::NORM_POLYGON,
+ INTERP_KERNEL::NORM_QPOLYG,
+ INTERP_KERNEL::NORM_POLYHED };
med_geometry_type typmai3[34] = { MED_POINT1,//0
- MED_SEG2,//1
- MED_SEG3,//2
- MED_TRIA3,//3
- MED_QUAD4,//4
- MED_POLYGON,//5
- MED_TRIA6,//6
- MED_TRIA7,//7
- MED_QUAD8,//8
- MED_QUAD9,//9
- MED_SEG4,//10
- MED_NONE,//11
- MED_NONE,//12
- MED_NONE,//13
- MED_TETRA4,//14
- MED_PYRA5,//15
- MED_PENTA6,//16
- MED_NONE,//17
- MED_HEXA8,//18
- MED_NONE,//19
- MED_TETRA10,//20
- MED_NONE,//21
- MED_OCTA12,//22
- MED_PYRA13,//23
- MED_NONE,//24
- MED_PENTA15,//25
- MED_NONE,//26
- MED_HEXA27,//27
- MED_NONE,//28
- MED_NONE,//29
- MED_HEXA20,//30
- MED_POLYHEDRON,//31
- MED_POLYGON2,//32
- MED_NONE//33
+ MED_SEG2,//1
+ MED_SEG3,//2
+ MED_TRIA3,//3
+ MED_QUAD4,//4
+ MED_POLYGON,//5
+ MED_TRIA6,//6
+ MED_TRIA7,//7
+ MED_QUAD8,//8
+ MED_QUAD9,//9
+ MED_SEG4,//10
+ MED_NONE,//11
+ MED_NONE,//12
+ MED_NONE,//13
+ MED_TETRA4,//14
+ MED_PYRA5,//15
+ MED_PENTA6,//16
+ MED_NONE,//17
+ MED_HEXA8,//18
+ MED_NONE,//19
+ MED_TETRA10,//20
+ MED_NONE,//21
+ MED_OCTA12,//22
+ MED_PYRA13,//23
+ MED_NONE,//24
+ MED_PENTA15,//25
+ MED_NONE,//26
+ MED_HEXA27,//27
+ MED_NONE,//28
+ MED_NONE,//29
+ MED_HEXA20,//30
+ MED_POLYHEDRON,//31
+ MED_POLYGON2,//32
+ MED_NONE//33
};
double MEDLoader::_EPS_FOR_NODE_COMP=1.e-12;
int readUMeshDimFromFile(const std::string& fileName, const std::string& meshName, std::vector<int>& possibilities);
void dispatchElems(int nbOfElemCell, int nbOfElemFace, int& nbOfElem, med_entity_type& whichEntity);
void writeFieldWithoutReadingAndMappingOfMeshInFile(const std::string& fileName, const ParaMEDMEM::MEDCouplingFieldDouble *f, bool writeFromScratch);
- med_int getIdFromMeshName(med_idt fid, const std::string& meshName, std::string& trueMeshName) throw(INTERP_KERNEL::Exception);
+ med_int getIdFromMeshName(med_idt fid, const std::string& meshName, std::string& trueMeshName);
std::vector<std::string> getMeshNamesFid(med_idt fid);
}
med_sorting_type sortingType;
med_int nstep;
med_axis_type axisType;
- int naxis=MEDmeshnAxis(fid,meshId);
+ int naxis(MEDmeshnAxis(fid,meshId));
INTERP_KERNEL::AutoPtr<char> axisname=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
INTERP_KERNEL::AutoPtr<char> axisunit=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
- MEDmeshInfo(fid,meshId,nommaa,&Sdim,&Mdim,&type_maillage,maillage_description,dt_unit,&sortingType,&nstep,&axisType,axisname,axisunit);
+ MEDFILESAFECALLERRD0(MEDmeshInfo,(fid,meshId,nommaa,&Sdim,&Mdim,&type_maillage,maillage_description,dt_unit,&sortingType,&nstep,&axisType,axisname,axisunit));
// limitation
if(nstep!=1)
{
}
med_int numdt,numit;
med_float dt;
- MEDmeshComputationStepInfo(fid,nommaa,1,&numdt,&numit,&dt);
+ MEDFILESAFECALLERRD0(MEDmeshComputationStepInfo,(fid,nommaa,1,&numdt,&numit,&dt));
// endlimitation
for(int i=0;i<MED_N_CELL_GEO_FIXED_CON;i++)
{
med_geometry_type curMedType=typmai[i];
med_bool changement,transformation;
- int curNbOfElemM=MEDmeshnEntity(fid,nommaa,numdt,numit,MED_CELL,curMedType,MED_CONNECTIVITY,MED_NODAL,&changement,&transformation);
- int curNbOfElemF=MEDmeshnEntity(fid,nommaa,numdt,numit,MED_CELL,curMedType,MED_CONNECTIVITY,MED_NODAL,&changement,&transformation);//limitation
+ int curNbOfElemM(MEDmeshnEntity(fid,nommaa,numdt,numit,MED_CELL,curMedType,MED_CONNECTIVITY,MED_NODAL,&changement,&transformation));
+ int curNbOfElemF(MEDmeshnEntity(fid,nommaa,numdt,numit,MED_CELL,curMedType,MED_CONNECTIVITY,MED_NODAL,&changement,&transformation));//limitation
int curNbOfElem;
med_entity_type whichEntity;
MEDLoaderNS::dispatchElems(curNbOfElemM,curNbOfElemF,curNbOfElem,whichEntity);
return ret;
}
-med_int MEDLoaderNS::getIdFromMeshName(med_idt fid, const std::string& meshName, std::string& trueMeshName) throw(INTERP_KERNEL::Exception)
-{
+med_int MEDLoaderNS::getIdFromMeshName(med_idt fid, const std::string& meshName, std::string& trueMeshName)
+ {
if(meshName.empty())
{
std::vector<std::string> meshes=getMeshNamesFid(fid);
}
trueMeshName=meshName;
return iter-meshes.begin()+1;
-}
+ }
std::vector<std::string> MEDLoaderNS::getMeshNamesFid(med_idt fid)
{
std::vector<std::string> ret(n);
for(int i=0;i<n;i++)
{
- int naxis=MEDmeshnAxis(fid,i+1);
+ int naxis(MEDmeshnAxis(fid,i+1));
INTERP_KERNEL::AutoPtr<char> axisname=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
INTERP_KERNEL::AutoPtr<char> axisunit=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
int nstep;
- MEDmeshInfo(fid,i+1,nommaa,&space_dim,&mesh_dim,&type_maillage,maillage_description,dtunit,&stype,&nstep,&axistype,axisname,axisunit);
+ MEDFILESAFECALLERRD0(MEDmeshInfo,(fid,i+1,nommaa,&space_dim,&mesh_dim,&type_maillage,maillage_description,dtunit,&stype,&nstep,&axistype,axisname,axisunit));
std::string cur=MEDLoaderBase::buildStringFromFortran(nommaa,sizeof(nommaa));
ret[i]=cur;
}
med_sorting_type sortingType;
med_int nstep;
med_axis_type axisType;
- int naxis=MEDmeshnAxis(fid,meshId);
+ int naxis(MEDmeshnAxis(fid,meshId));
INTERP_KERNEL::AutoPtr<char> axisname=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
INTERP_KERNEL::AutoPtr<char> axisunit=MEDLoaderBase::buildEmptyString(naxis*MED_SNAME_SIZE);
- MEDmeshInfo(fid,meshId,nommaa,&spaceDim,&meshDim,&type_maillage,maillage_description,dt_unit,&sortingType,&nstep,&axisType,axisname,axisunit);
+ MEDFILESAFECALLERRD0(MEDmeshInfo,(fid,meshId,nommaa,&spaceDim,&meshDim,&type_maillage,maillage_description,dt_unit,&sortingType,&nstep,&axisType,axisname,axisunit));
if(type_maillage!=MED_UNSTRUCTURED_MESH)
{
std::ostringstream oss; oss << "MEDLoader::GetUMeshGlobalInfo : Mesh \""<< meshName << "\" in file \"" << fileName;
throw INTERP_KERNEL::Exception("MEDLoader::GetUMeshGlobalInfo : multisteps on mesh not managed !");
med_int numdt,numit;
med_float dt;
- MEDmeshComputationStepInfo(fid,nommaa,1,&numdt,&numit,&dt);
+ MEDFILESAFECALLERRD0(MEDmeshComputationStepInfo,(fid,nommaa,1,&numdt,&numit,&dt));
// endlimitation
std::vector<int> dims;
std::vector< std::pair<INTERP_KERNEL::NormalizedCellType,int> > geoTypes;
for(int i=0;i<MED_N_CELL_FIXED_GEO;i++)
{
med_geometry_type curMedType=typmai[i];
- int curNbOfElemM=MEDmeshnEntity(fid,nommaa,numdt,numit,MED_CELL,curMedType,MED_CONNECTIVITY,MED_NODAL,&changement,&transformation);
+ int curNbOfElemM(MEDmeshnEntity(fid,nommaa,numdt,numit,MED_CELL,curMedType,MED_CONNECTIVITY,MED_NODAL,&changement,&transformation));
if(curNbOfElemM>0)
{
INTERP_KERNEL::NormalizedCellType typp=typmai2[i];
{
CheckFileForRead(fileName);
MEDFileUtilities::AutoFid fid=MEDfileOpen(fileName.c_str(),MED_ACC_RDONLY);
- med_int nbFields=MEDnField(fid);
+ med_int nbFields(MEDnField(fid));
std::vector<std::string> fields(nbFields);
med_field_type typcha;
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> dt_unit=MEDLoaderBase::buildEmptyString(MED_LNAME_SIZE);
med_bool localmesh;
INTERP_KERNEL::AutoPtr<char> maa_ass=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
INTERP_KERNEL::AutoPtr<char> nomcha=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string meshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE);
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
if(curFieldName==fieldName)
std::vector< std::pair<std::string,std::string> > ret(ncomp);
for(int j=0;j<ncomp;j++)
ret[j]=std::pair<std::string,std::string>(MEDLoaderBase::buildStringFromFortran(((char *)comp)+j*MED_SNAME_SIZE,MED_SNAME_SIZE),
- MEDLoaderBase::buildStringFromFortran(((char *)unit)+j*MED_SNAME_SIZE,MED_SNAME_SIZE));
+ MEDLoaderBase::buildStringFromFortran(((char *)unit)+j*MED_SNAME_SIZE,MED_SNAME_SIZE));
return ret;
}
fields[i]=curFieldName;
//
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
med_int nbPdt;
INTERP_KERNEL::AutoPtr<char> maa_ass=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string meshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE);
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
if(curFieldName==fieldName)
return ret;
}
-
+
std::vector<std::string> MEDLoader::GetMeshGroupsNames(const std::string& fileName, const std::string& meshName)
{
CheckFileForRead(fileName);
}
return ret;
}
+
std::vector<ParaMEDMEM::TypeOfField> MEDLoader::GetTypesOfField(const std::string& fileName, const std::string& meshName, const std::string& fieldName)
{
- CheckFileForRead(fileName);
std::vector<ParaMEDMEM::TypeOfField> ret;
- MEDFileUtilities::AutoFid fid=MEDfileOpen(fileName.c_str(),MED_ACC_RDONLY);
- med_int nbFields=MEDnField(fid);
- //
- med_field_type typcha;
- //med_int nbpdtnor=0,pflsize,*pflval,lnsize;
- med_int numdt=0,numo=0;
- med_float dt=0.0;
- char pflname[MED_NAME_SIZE+1]="";
- char locname[MED_NAME_SIZE+1]="";
- char *maa_ass=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
- char *nomcha=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
- med_bool localmesh;
- //
- for(int i=0;i<nbFields;i++)
+ MEDCouplingAutoRefCountObjectPtr<MEDFileAnyTypeFieldMultiTS> fs(MEDFileAnyTypeFieldMultiTS::New(fileName,fieldName,false));
+ if(fs->getMeshName()!=meshName)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
- INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
- INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
- INTERP_KERNEL::AutoPtr<char> dt_unit=new char[MED_LNAME_SIZE+1];
- med_int nbPdt;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
- std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
- std::string curMeshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE+1);
- if(curMeshName==meshName)
- {
- if(curFieldName==fieldName)
- {
- int profilesize,nbi;
- if(nbPdt>0)
- {
- bool found=false;
- for(int ii=0;ii<nbPdt && !found;ii++)
- {
- MEDfieldComputingStepInfo(fid,nomcha,1,&numdt,&numo,&dt);
- med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_NODE,MED_NONE,1,MED_COMPACT_PFLMODE,
- pflname,&profilesize,locname,&nbi);
- if(nbOfVal>0)
- {
- ret.push_back(ON_NODES);
- found=true;
- }
- }
- }
- bool found=false;
- for(int j=0;j<MED_N_CELL_FIXED_GEO && !found;j++)
- {
- if(nbPdt>0)
- {
- MEDfieldComputingStepInfo(fid,nomcha,1,&numdt,&numo,&dt);
- med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_CELL,typmai[j],1,MED_COMPACT_PFLMODE,
- pflname,&profilesize,locname,&nbi);
- if(nbOfVal>0)
- {
- found=true;
- ret.push_back(ON_CELLS);
- }
- }
- }
- }
- }
+ std::ostringstream oss; oss << "MEDLoader::GetTypesOfField : The field \"" << fieldName << "\" in file \"" << fileName << "\" is not lying on mesh \"" << meshName << "\"";
+ oss << " The name of the mesh in file is \"" << fs->getMeshName() << "\"!";
+ throw INTERP_KERNEL::Exception(oss.str().c_str());
}
- delete [] maa_ass;
- delete [] nomcha;
- return ret;
+ int nbTS(fs->getNumberOfTS());
+ if(nbTS==0)
+ return ret;
+ for(int i=0;i<nbTS;i++)
+ {
+ MEDCouplingAutoRefCountObjectPtr<MEDFileAnyTypeField1TS> f1ts(fs->getTimeStepAtPos(i));
+ std::vector<ParaMEDMEM::TypeOfField> tof(f1ts->getTypesOfFieldAvailable());
+ for(std::vector<ParaMEDMEM::TypeOfField>::const_iterator it=tof.begin();it!=tof.end();it++)
+ if(std::find(ret.begin(),ret.end(),*it)==ret.end())
+ ret.push_back(*it);
+ }
+ // sort ret to put before ON_NODES then ON_CELLS then the remaining.
+ std::vector<ParaMEDMEM::TypeOfField> ret2;
+ if(std::find(ret.begin(),ret.end(),ON_NODES)!=ret.end())
+ ret2.push_back(ON_NODES);
+ if(std::find(ret.begin(),ret.end(),ON_CELLS)!=ret.end())
+ ret2.push_back(ON_CELLS);
+ for(std::vector<ParaMEDMEM::TypeOfField>::const_iterator it=ret.begin();it!=ret.end();it++)
+ if(*it!=ON_NODES && *it!=ON_CELLS)
+ ret2.push_back(*it);
+ return ret2;
}
std::vector<std::string> MEDLoader::GetAllFieldNames(const std::string& fileName)
med_field_type typcha;
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> nomcha=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
INTERP_KERNEL::AutoPtr<char> dt_unit=new char[MED_LNAME_SIZE+1];
med_int nbPdt;
med_bool localmesh;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
ret.push_back(std::string(nomcha));
}
return ret;
//
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> dt_unit=new char[MED_LNAME_SIZE+1];
med_int nbPdt;
med_bool localmesh;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
std::string curMeshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE+1);
//
{
CheckFileForRead(fileName);
switch(type)
- {
+ {
case ON_CELLS:
return GetCellFieldNamesOnMesh(fileName,meshName);
case ON_NODES:
return GetNodeFieldNamesOnMesh(fileName,meshName);
default:
throw INTERP_KERNEL::Exception("Type of field specified not managed ! manages are ON_NODES or ON_CELLS !");
- }
+ }
}
std::vector<std::string> MEDLoader::GetCellFieldNamesOnMesh(const std::string& fileName, const std::string& meshName)
//
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
std::string curMeshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE+1);
int profilesize,nbi;
{
if(nbPdt>0)
{
- MEDfieldComputingStepInfo(fid,nomcha,1,&numdt,&numo,&dt);
- med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_CELL,typmai[j],1,MED_COMPACT_PFLMODE,
- pflname,&profilesize,locname,&nbi);
+ MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nomcha,1,&numdt,&numo,&dt));
+ med_int nbOfVal(MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_CELL,typmai[j],1,MED_COMPACT_PFLMODE,
+ pflname,&profilesize,locname,&nbi));
if(nbOfVal>0)
{
found=true;
//
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
med_int nbPdt;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
std::string curMeshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE+1);
if(nbPdt>0)
{
int profilesize,nbi;
- MEDfieldComputingStepInfo(fid,nomcha,1,&numdt,&numo,&dt);
- med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_NODE,MED_NONE,1,MED_COMPACT_PFLMODE,
- pflname,&profilesize,locname,&nbi);
+ MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nomcha,1,&numdt,&numo,&dt));
+ med_int nbOfVal(MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_NODE,MED_NONE,1,MED_COMPACT_PFLMODE,
+ pflname,&profilesize,locname,&nbi));
if(curMeshName==meshName && nbOfVal>0)
{
ret.push_back(curFieldName);
std::ostringstream oss; oss << "MEDLoader::GetAllFieldIterations : No field with name \"" << fieldName<< "\" in file \"" << fileName << "\" ! Possible fields are : ";
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
med_int nbPdt;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
if(curFieldName==fieldName)
{
for(int k=0;k<nbPdt;k++)
{
- MEDfieldComputingStepInfo(fid,nomcha,k+1,&numdt,&numo,&dt);
+ MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nomcha,k+1,&numdt,&numo,&dt));
ret.push_back(std::make_pair(std::make_pair(numdt,numo),dt));
}
return ret;
double ret=std::numeric_limits<double>::max();
for(int i=0;i<nbFields && !found;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
med_int nbPdt;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&local,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&local,&typcha,comp,unit,dt_unit,&nbPdt));
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
if(curFieldName==fieldName)
{
found=true;
for(int k=0;k<nbPdt;k++)
{
- MEDfieldComputingStepInfo(fid,nomcha,k+1,&numdt,&numo,&dt);
+ MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nomcha,k+1,&numdt,&numo,&dt));
if(numdt==iteration && numo==order)
{
found2=true;
{
CheckFileForRead(fileName);
switch(type)
- {
+ {
case ON_CELLS:
return GetCellFieldIterations(fileName,meshName,fieldName);
case ON_NODES:
return GetNodeFieldIterations(fileName,meshName,fieldName);
default:
throw INTERP_KERNEL::Exception("Type of field specified not managed ! manages are ON_NODES or ON_CELLS !");
- }
+ }
}
std::vector< std::pair<int,int> > MEDLoader::GetCellFieldIterations(const std::string& fileName, const std::string& meshName, const std::string& fieldName)
std::set<std::string> s2;
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
med_int nbPdt;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
if(curFieldName==fieldName)
{
for(int k=0;k<nbPdt;k++)
{
int profilesize,nbi;
- MEDfieldComputingStepInfo(fid,nomcha,k+1,&numdt,&numo,&dt);
- med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_CELL,typmai[j],1,MED_COMPACT_PFLMODE,
- pflname,&profilesize,locname,&nbi);
+ MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nomcha,k+1,&numdt,&numo,&dt));
+ med_int nbOfVal(MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_CELL,typmai[j],1,MED_COMPACT_PFLMODE,
+ pflname,&profilesize,locname,&nbi));
std::string maa_ass_cpp(maa_ass);
if(nbOfVal>0)
{
std::set<std::string> s2;
for(int i=0;i<nbFields;i++)
{
- med_int ncomp=MEDfieldnComponent(fid,i+1);
+ med_int ncomp(MEDfieldnComponent(fid,i+1));
INTERP_KERNEL::AutoPtr<char> comp=new char[ncomp*MED_SNAME_SIZE+1];
INTERP_KERNEL::AutoPtr<char> unit=new char[ncomp*MED_SNAME_SIZE+1];
med_int nbPdt;
- MEDfieldInfo(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt);
+ MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,i+1,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt));
std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1);
if(curFieldName==fieldName)
{
for(int k=0;k<nbPdt;k++)
{
int profilesize,nbi;
- MEDfieldComputingStepInfo(fid,nomcha,k+1,&numdt,&numo,&dt);
- med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_NODE,MED_NONE,1,MED_COMPACT_PFLMODE,
- pflname,&profilesize,locname,&nbi);
- std::string maa_ass_cpp(maa_ass);
- if(nbOfVal>0)
- {
- if(meshNameCpp==maa_ass_cpp)
- { ret.push_back(std::make_pair(numdt,numo)); }
- else
- s2.insert(maa_ass_cpp);
- }
+ MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nomcha,k+1,&numdt,&numo,&dt));
+ med_int nbOfVal(MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,MED_NODE,MED_NONE,1,MED_COMPACT_PFLMODE,
+ pflname,&profilesize,locname,&nbi));
+ std::string maa_ass_cpp(maa_ass);
+ if(nbOfVal>0)
+ {
+ if(meshNameCpp==maa_ass_cpp)
+ { ret.push_back(std::make_pair(numdt,numo)); }
+ else
+ s2.insert(maa_ass_cpp);
+ }
}
}
else
std::ostringstream oss; oss << "MEDLoader::ReadUMeshFromFile : With fileName=\""<< fileName << "\", meshName=\""<< meshName << "\" exists but it is not an unstructured mesh !";
throw INTERP_KERNEL::Exception(oss.str().c_str());
}
- return mmuPtr->getMeshAtLevel(meshDimRelToMax,true);
+ return mmuPtr->getMeshAtLevel(meshDimRelToMax,true);
}
ParaMEDMEM::MEDCouplingUMesh *MEDLoader::ReadUMeshFromFile(const std::string& fileName, int meshDimRelToMax)
std::ostringstream oss; oss << "MEDLoader::ReadUMeshFromFile : With fileName=\""<< fileName << "\", meshName (the first) =\""<< mm->getName() << "\" exists but it is not an unstructured mesh !";
throw INTERP_KERNEL::Exception(oss.str().c_str());
}
- return mmuPtr->getMeshAtLevel(meshDimRelToMax,true);
+ return mmuPtr->getMeshAtLevel(meshDimRelToMax,true);
}
int MEDLoader::ReadUMeshDimFromFile(const std::string& fileName, const std::string& meshName)
std::ostringstream oss; oss << "MEDLoader::ReadUMeshFromFamilies : With fileName=\""<< fileName << "\", meshName (the first) =\""<< mm->getName() << "\" exists but it is not an unstructured mesh !";
throw INTERP_KERNEL::Exception(oss.str().c_str());
}
- return mmuPtr->getFamilies(meshDimRelToMax,fams,true);
+ return mmuPtr->getFamilies(meshDimRelToMax,fams,true);
}
ParaMEDMEM::MEDCouplingUMesh *MEDLoader::ReadUMeshFromGroups(const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::vector<std::string>& grps)
std::ostringstream oss; oss << "MEDLoader::ReadUMeshFromGroups : With fileName=\""<< fileName << "\", meshName (the first) =\""<< mm->getName() << "\" exists but it is not an unstructured mesh !";
throw INTERP_KERNEL::Exception(oss.str().c_str());
}
- return mmuPtr->getGroups(meshDimRelToMax,grps,true);
+ return mmuPtr->getGroups(meshDimRelToMax,grps,true);
}
ParaMEDMEM::MEDCouplingFieldDouble *MEDLoader::ReadField(ParaMEDMEM::TypeOfField type, const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName, int iteration, int order)
{
CheckFileForRead(fileName);
switch(type)
- {
+ {
case ON_CELLS:
return ReadFieldCell(fileName,meshName,meshDimRelToMax,fieldName,iteration,order);
case ON_NODES:
return ReadFieldGaussNE(fileName,meshName,meshDimRelToMax,fieldName,iteration,order);
default:
throw INTERP_KERNEL::Exception("Type of field specified not managed ! manages are ON_NODES, ON_CELLS, ON_GAUSS_PT or ON_GAUSS_NE !");
- }
+ }
}
std::vector<ParaMEDMEM::MEDCouplingFieldDouble *> MEDLoader::ReadFieldsOnSameMesh(ParaMEDMEM::TypeOfField type, const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName,
- const std::vector<std::pair<int,int> >& its) throw(INTERP_KERNEL::Exception)
+ const std::vector<std::pair<int,int> >& its)
{
if(its.empty())
return std::vector<ParaMEDMEM::MEDCouplingFieldDouble *>();
}
std::vector<ParaMEDMEM::MEDCouplingFieldDouble *> MEDLoader::ReadFieldsCellOnSameMesh(const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName,
- const std::vector<std::pair<int,int> >& its) throw(INTERP_KERNEL::Exception)
+ const std::vector<std::pair<int,int> >& its)
{
return ReadFieldsOnSameMesh(ON_CELLS,fileName,meshName,meshDimRelToMax,fieldName,its);
}
std::vector<ParaMEDMEM::MEDCouplingFieldDouble *> MEDLoader::ReadFieldsNodeOnSameMesh(const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName,
- const std::vector<std::pair<int,int> >& its) throw(INTERP_KERNEL::Exception)
+ const std::vector<std::pair<int,int> >& its)
{
return ReadFieldsOnSameMesh(ON_NODES,fileName,meshName,meshDimRelToMax,fieldName,its);
}
std::vector<ParaMEDMEM::MEDCouplingFieldDouble *> MEDLoader::ReadFieldsGaussOnSameMesh(const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName,
- const std::vector<std::pair<int,int> >& its) throw(INTERP_KERNEL::Exception)
+ const std::vector<std::pair<int,int> >& its)
{
return ReadFieldsOnSameMesh(ON_GAUSS_PT,fileName,meshName,meshDimRelToMax,fieldName,its);
}
std::vector<ParaMEDMEM::MEDCouplingFieldDouble *> MEDLoader::ReadFieldsGaussNEOnSameMesh(const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName,
- const std::vector<std::pair<int,int> >& its) throw(INTERP_KERNEL::Exception)
+ const std::vector<std::pair<int,int> >& its)
{
return ReadFieldsOnSameMesh(ON_GAUSS_NE,fileName,meshName,meshDimRelToMax,fieldName,its);
}