Chombo + EB + MF  3.2
Macros | Functions
EBAMRIO.H File Reference
#include "LevelData.H"
#include "REAL.H"
#include "Vector.H"
#include "EBCellFAB.H"
#include "IntVectSet.H"
#include "EBISBox.H"
#include "EBISLayout.H"
#include "EBFaceFAB.H"
#include "EBFluxFAB.H"
#include <string>
#include "NamespaceHeader.H"
#include "NamespaceFooter.H"
Include dependency graph for EBAMRIO.H:
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Go to the source code of this file.

Macros

#define _EBAMRIO_H_
 

Functions

void writeEBHDF5 (const string &filename, const Vector< DisjointBoxLayout > &a_vectGrids, const Vector< LevelData< EBCellFAB > * > &a_vectData, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const Real &a_dx, const Real &a_dt, const Real &a_time, const Vector< int > &a_vectRatio, const int &a_numLevels, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBHDF5 (const string &filename, const Vector< DisjointBoxLayout > &a_vectGrids, const Vector< LevelData< EBCellFAB > * > *a_phase1, const Vector< LevelData< EBCellFAB > * > *a_phase2, const Vector< LevelData< FArrayBox > * > *a_levelSet, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const Real &a_dx, const Real &a_dt, const Real &a_time, const Vector< int > &a_vectRatio, const int &a_numLevels, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBHDF5 (const string &a_filename, const DisjointBoxLayout &a_grids, const LevelData< EBCellFAB > &a_data, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const Real &a_dx, const Real &a_dt, const Real &a_time, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBHDF5 (const string &a_filename, const Box &a_grid, const EBCellFAB &a_data, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const Real &a_dx, const Real &a_dt, const Real &a_time, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBHDF5 (const string &filename, const Vector< DisjointBoxLayout > &a_vectGrids, const Vector< LevelData< EBCellFAB > * > &a_vectData, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const RealVect &a_vectDx, const Real &a_dt, const Real &a_time, const Vector< IntVect > &a_vectRatios, const int &a_numLevels, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBHDF5 (const string &filename, const Vector< DisjointBoxLayout > &a_vectGrids, const Vector< LevelData< EBCellFAB > * > *a_phase1, const Vector< LevelData< EBCellFAB > * > *a_phase2, const Vector< LevelData< FArrayBox > * > *a_levelSet, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const RealVect &a_vectDx, const Real &a_dt, const Real &a_time, const Vector< IntVect > &a_vectRatios, const int &a_numLevels, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBHDF5 (const string &a_filename, const DisjointBoxLayout &a_grids, const LevelData< EBCellFAB > &a_data, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const RealVect &a_vectDx, const Real &a_dt, const Real &a_time, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBHDF5 (const string &a_filename, const Box &a_grid, const EBCellFAB &a_data, const Vector< string > &a_vectNames, const ProblemDomain &a_domain, const RealVect &a_vectDx, const Real &a_dt, const Real &a_time, const bool &a_replaceCovered, const Vector< Real > &a_coveredValues, IntVect a_ghostVect=IntVect::Zero)
 
void writeEBFAB (const EBCellFAB *a_dataPtr)
 
void viewEBFAB (const EBCellFAB *a_dataPtr)
 
void browseEBFAB (const EBCellFAB *a_dataPtr)
 
void writeEBFABname (const EBCellFAB *a_dataPtr, const char *a_filename)
 
void viewEBFluxLD (const LevelData< EBFluxFAB > *a_dataPtr, int a_dir)
 
void writeEBFluxLDname (const LevelData< EBFluxFAB > *a_fluxLD, int a_dir, const char *a_filename)
 
void viewEBFace (const EBFaceFAB *a_dataPtr)
 
void browseEBFace (const EBFaceFAB *a_dataPtr)
 
void writeEBLevel (const LevelData< EBCellFAB > *a_dataPtr)
 
void viewEBLevel (const LevelData< EBCellFAB > *a_dataPtr)
 
void browseEBLevel (const LevelData< EBCellFAB > *a_dataPtr)
 
void writeEBLevelname (const LevelData< EBCellFAB > *a_dataPtr, const char *a_filename)
 
void writeEBLevelName (const LevelData< EBCellFAB > &a_data, const std::string &a_filename)
 saner programmatic interface More...
 
void writeEBAMR (const Vector< LevelData< EBCellFAB > * > *a_dataPtr)
 
void viewEBAMR (const Vector< LevelData< EBCellFAB > * > *a_dataPtr)
 
void visEBAMR (const Vector< LevelData< EBCellFAB > * > *a_dataPtr)
 
void browseEBAMR (const Vector< LevelData< EBCellFAB > * > *a_dataPtr)
 
void writeEBAMRname (const Vector< LevelData< EBCellFAB > * > *a_dataPtr, const char *a_filename)
 
void writeIVFAB (const BaseIVFAB< Real > *a_dataPtr)
 
void viewIVFAB (const BaseIVFAB< Real > *a_dataPtr)
 
void browseIVFAB (const BaseIVFAB< Real > *a_dataPtr)
 
void writeIVFABname (const BaseIVFAB< Real > *a_dataPtr, const char *a_filename)
 
void writeIVLevel (const LevelData< BaseIVFAB< Real > > *a_dataPtr)
 
void viewIVLevel (const LevelData< BaseIVFAB< Real > > *a_dataPtr)
 
void browseIVLevel (const LevelData< BaseIVFAB< Real > > *a_dataPtr)
 
void writeIVLevelname (const LevelData< BaseIVFAB< Real > > *a_dataPtr, const char *a_filename)
 
void createEBFile (HDF5Handle &a_handle, const std::string &a_filename, int a_numLevels, const Vector< int > &a_refRatios, const ProblemDomain &a_coarseDomain, const RealVect &a_coarseDx, const IntVect &a_ghost)
 
void createEBFile (HDF5Handle &a_handle, const std::string &a_filename, int a_numLevels, const Vector< int > &a_refRatios, const ProblemDomain &a_coarseDomain, const RealVect &a_origin, const RealVect &a_coarseDx, const RealVect &a_aspect, const IntVect &a_ghost)
 
void headerEBFile (HDF5Handle &a_handle, int a_numLevels, const Vector< int > &a_refRatios, const ProblemDomain &a_coarseDomain, const RealVect &a_coarseDx, const IntVect &a_ghost)
 
void headerEBFile (HDF5Handle &a_handle, int a_numLevels, const Vector< int > &a_refRatios, const ProblemDomain &a_coarseDomain, const RealVect &a_origin, const RealVect &a_coarseDx, const RealVect &a_aspect, const IntVect &a_ghost)
 
void writeCellCenteredNames (HDF5Handle &a_handle, const Vector< std::string > &a_names)
 
void writeNodeCenteredNames (HDF5Handle &a_handle, const Vector< std::string > &a_names)
 
void writeFaceCenteredNames (HDF5Handle &a_handle, int a_direction, const Vector< std::string > &a_names)
 
void writeCellCentered (HDF5Handle &a_handle, int a_level, const LevelData< EBCellFAB > *a_data, Interval interval=Interval())
 if no CellCenteredNames have been assigned, then dummy values of CC1..CCn are set More...
 
void writeCellCentered (HDF5Handle &a_handle, int a_level, const LevelData< FArrayBox > *a_data, Interval interval=Interval())
 
void writeNodeCentered (HDF5Handle &a_handle, int a_level, const LevelData< FArrayBox > *a_data, Interval interval=Interval())
 
void writeFaceCentered (HDF5Handle &a_handle, int a_level, int a_direction, const LevelData< EBFaceFAB > *a_data, Interval interval=Interval())
 
void metaDataEBFile (HDF5Handle &a_handle, int &a_numLevels, Vector< int > &a_refRatios, ProblemDomain &a_coarseDomain, IntVect &a_ghost)
 
void readCellCentered (HDF5Handle &a_handle, int a_level, const EBIndexSpace *eb, const int ebghost, LevelData< EBCellFAB > *a_data)
 
void setWhichCellIndex (int a_whichCellIndex)
 
int getWhichCellIndex ()
 
void setCoveredCellValue (Real a_coveredCellValue)
 
Real getCoveredCellValue ()
 
void multiFaceValues (const EBFaceFAB *a_face, const int a_side, const int a_iv0, const int a_iv1, const int a_iv2)
 
void multiCellValues (const EBCellFAB *a_face, const int a_iv0, const int a_iv1, const int a_iv2)
 

Macro Definition Documentation

◆ _EBAMRIO_H_

#define _EBAMRIO_H_

Function Documentation

◆ writeEBHDF5() [1/8]

void writeEBHDF5 ( const string &  filename,
const Vector< DisjointBoxLayout > &  a_vectGrids,
const Vector< LevelData< EBCellFAB > * > &  a_vectData,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const Real a_dx,
const Real a_dt,
const Real a_time,
const Vector< int > &  a_vectRatio,
const int &  a_numLevels,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

Writes hierarchy of levels in HDF5 format. Only available if the preprocessor macro HDF5 is defined at compilation. Writes single-valued data using regular Chombo WriteAMRHierarchyHDF5

{ Arguments:}\ a_filename : file to output to.\ a_vectGrids : grids at each level.\ a_vectData : data at each level.\ a_vectNames: names of variables.\ a_domain : domain at coarsest level.\ a_dx : grid spacing at coarsest level.\ a_dt : time step at coarsest level.\ a_time : time.\ a_vectRatio : refinement ratio at all level.\ a_numLevels : number of levels to output.\ a_replaceCovered: flag for replacing covered values with a_coveredVal.\ a_coveredVal: sets Covered values to these if a_replaceCovered is true.\ (ith entry is refinement ratio between levels i and i + 1).\ This is blocking.

◆ writeEBHDF5() [2/8]

void writeEBHDF5 ( const string &  filename,
const Vector< DisjointBoxLayout > &  a_vectGrids,
const Vector< LevelData< EBCellFAB > * > *  a_phase1,
const Vector< LevelData< EBCellFAB > * > *  a_phase2,
const Vector< LevelData< FArrayBox > * > *  a_levelSet,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const Real a_dx,
const Real a_dt,
const Real a_time,
const Vector< int > &  a_vectRatio,
const int &  a_numLevels,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

Two phases (each a Vector<LevelData<EBCellFAB>>) : most general case.

◆ writeEBHDF5() [3/8]

void writeEBHDF5 ( const string &  a_filename,
const DisjointBoxLayout a_grids,
const LevelData< EBCellFAB > &  a_data,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const Real a_dx,
const Real a_dt,
const Real a_time,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

Write a single LevelData<EBCellFAB>.

◆ writeEBHDF5() [4/8]

void writeEBHDF5 ( const string &  a_filename,
const Box a_grid,
const EBCellFAB a_data,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const Real a_dx,
const Real a_dt,
const Real a_time,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

Write a single EBCellFAB.

◆ writeEBHDF5() [5/8]

void writeEBHDF5 ( const string &  filename,
const Vector< DisjointBoxLayout > &  a_vectGrids,
const Vector< LevelData< EBCellFAB > * > &  a_vectData,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const RealVect a_vectDx,
const Real a_dt,
const Real a_time,
const Vector< IntVect > &  a_vectRatios,
const int &  a_numLevels,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

◆ writeEBHDF5() [6/8]

void writeEBHDF5 ( const string &  filename,
const Vector< DisjointBoxLayout > &  a_vectGrids,
const Vector< LevelData< EBCellFAB > * > *  a_phase1,
const Vector< LevelData< EBCellFAB > * > *  a_phase2,
const Vector< LevelData< FArrayBox > * > *  a_levelSet,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const RealVect a_vectDx,
const Real a_dt,
const Real a_time,
const Vector< IntVect > &  a_vectRatios,
const int &  a_numLevels,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

Two phases (each a Vector<LevelData<EBCellFAB>>) : most general case.

◆ writeEBHDF5() [7/8]

void writeEBHDF5 ( const string &  a_filename,
const DisjointBoxLayout a_grids,
const LevelData< EBCellFAB > &  a_data,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const RealVect a_vectDx,
const Real a_dt,
const Real a_time,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

Write a single LevelData<EBCellFAB>.

◆ writeEBHDF5() [8/8]

void writeEBHDF5 ( const string &  a_filename,
const Box a_grid,
const EBCellFAB a_data,
const Vector< string > &  a_vectNames,
const ProblemDomain a_domain,
const RealVect a_vectDx,
const Real a_dt,
const Real a_time,
const bool &  a_replaceCovered,
const Vector< Real > &  a_coveredValues,
IntVect  a_ghostVect = IntVect::Zero 
)

Write a single EBCellFAB.

◆ writeEBFAB()

void writeEBFAB ( const EBCellFAB a_dataPtr)

Writes a plotfile using the same format as writeEBHDF5, but for a EBCellFAB. This is useful for debugging. *a_dataPtr is written to a file named fab.hdf5

Referenced by InitWriteEBFAB().

◆ viewEBFAB()

void viewEBFAB ( const EBCellFAB a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running ChomboVis with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single EBCellFAB. This is useful for debugging.

Referenced by InitWriteEBFAB().

◆ browseEBFAB()

void browseEBFAB ( const EBCellFAB a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running browse with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single EBCellFAB. This is useful for debugging.

◆ writeEBFABname()

void writeEBFABname ( const EBCellFAB a_dataPtr,
const char *  a_filename 
)

Writes a plotfile using the same format as writeEBHDF5, but for a EBCellFAB. This is useful for debugging. *a_dataPtr is written to the file given by a_filename.

Referenced by InitWriteEBFAB().

◆ viewEBFluxLD()

void viewEBFluxLD ( const LevelData< EBFluxFAB > *  a_dataPtr,
int  a_dir 
)

View the face centered, regular data (as cell center data) in *a_dataPtr by writing data on the a_dir face to an HDF5 plotfile (a temporary file). Then, run VisIt with a python script, bringing up a data browser by default. The file has the same format as writeEBHDF5, but the components of the EBFluxFAB are written out successively. This is useful for debugging.

◆ writeEBFluxLDname()

void writeEBFluxLDname ( const LevelData< EBFluxFAB > *  a_fluxLD,
int  a_dir,
const char *  a_filename 
)

View the faced centered, regular data (as cell center data) in *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running ChomboVis with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single EBFaceFAB. This is useful for debugging.

◆ viewEBFace()

void viewEBFace ( const EBFaceFAB a_dataPtr)

Write the faced centered, regular data (as cell center data) in *a_dataPtr by writing it to a named HDF5 plotfile

Referenced by InitWriteEBFAB().

◆ browseEBFace()

void browseEBFace ( const EBFaceFAB a_dataPtr)

View the faced centered, regular data (as cell center data) in *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running chombobrowser with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single EBFaceFAB. This is useful for debugging.

◆ writeEBLevel()

void writeEBLevel ( const LevelData< EBCellFAB > *  a_dataPtr)

Write a plotfile using the same format as writeEBHDF5, but for a single LevelData<EBCellFAB>. Useful for debugging. *a_dataPtr is written to a file named EBLDF.hdf5.

Referenced by InitWriteEBFAB().

◆ viewEBLevel()

void viewEBLevel ( const LevelData< EBCellFAB > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running ChomboVis with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single LevelData<EBCellFAB>. This is useful for debugging.

Referenced by InitWriteEBFAB().

◆ browseEBLevel()

void browseEBLevel ( const LevelData< EBCellFAB > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running chombobrowser with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single LevelData<EBCellFAB>. This is useful for debugging.

◆ writeEBLevelname()

void writeEBLevelname ( const LevelData< EBCellFAB > *  a_dataPtr,
const char *  a_filename 
)

Write a plotfile using the same format as writeEBHDF5, but for a single LevelData<EBCellFAB>. Useful for debugging. *a_dataPtr is written to the file given by a_filename.

Referenced by EBConductivityOp::dumpLevel(), EBAMRPoissonOp::dumpLevel(), InitWriteEBFAB(), EBViscousTensorOp::outputLevel(), and NWOEBViscousTensorOp::outputLevel().

◆ writeEBLevelName()

void writeEBLevelName ( const LevelData< EBCellFAB > &  a_data,
const std::string &  a_filename 
)

saner programmatic interface

◆ writeEBAMR()

void writeEBAMR ( const Vector< LevelData< EBCellFAB > * > *  a_dataPtr)

Write a plotfile using writeEBHDF5. Useful for debugging. *a_dataPtr is written to a file named EBAMR.hdf5.

Referenced by InitWriteEBFAB().

◆ viewEBAMR()

void viewEBAMR ( const Vector< LevelData< EBCellFAB > * > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running ChomboVis with a python script which brings up a data browser by default. This is useful for debugging.

Referenced by InitWriteEBFAB().

◆ visEBAMR()

void visEBAMR ( const Vector< LevelData< EBCellFAB > * > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running VisIt. This is useful for debugging.

◆ browseEBAMR()

void browseEBAMR ( const Vector< LevelData< EBCellFAB > * > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running chombobrowser with a python script which brings up a data browser by default. This is useful for debugging.

◆ writeEBAMRname()

void writeEBAMRname ( const Vector< LevelData< EBCellFAB > * > *  a_dataPtr,
const char *  a_filename 
)

Write a plotfile using writeEBHDF5. Useful for debugging. *a_dataPtr is written to the file given by a_filename.

Referenced by EBConductivityOp::dumpAMR(), EBAMRPoissonOp::dumpAMR(), InitWriteEBFAB(), EBViscousTensorOp::outputAMR(), and NWOEBViscousTensorOp::outputAMR().

◆ writeIVFAB()

void writeIVFAB ( const BaseIVFAB< Real > *  a_dataPtr)

Writes a plotfile using the basic Chombovis format, but for a BaseIVFAB<Real>. This is somewhat limited in functionality, since all it does is copy the BaseIVFAB to a FArrayBox in the appropriate cells, and then call writeFAB. This is useful for debugging. a_dataPtr is written to a file named ivfab.hdf5

Referenced by InitWriteEBFAB().

◆ viewIVFAB()

void viewIVFAB ( const BaseIVFAB< Real > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) using writeIVFAB and then running ChomboVis with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single EBCellFAB. This is useful for debugging.

Referenced by InitWriteEBFAB().

◆ browseIVFAB()

void browseIVFAB ( const BaseIVFAB< Real > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running browse with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single BaseIVFAB<Real>. This is useful for debugging.

Referenced by InitWriteEBFAB().

◆ writeIVFABname()

void writeIVFABname ( const BaseIVFAB< Real > *  a_dataPtr,
const char *  a_filename 
)

Writes a plotfile using the same format as writeEBHDF5, but for a BaseIVFAB<Real>. This is useful for debugging. a_dataPtr is written to the file given by a_filename.

Referenced by InitWriteEBFAB().

◆ writeIVLevel()

void writeIVLevel ( const LevelData< BaseIVFAB< Real > > *  a_dataPtr)

Write a plotfile using the same format as writeLevel, but for a single LevelData<BaseIVFAB<Real> >. Useful for debugging. a_dataPtr is written to a file named IVLDF.hdf5.

Referenced by InitWriteEBFAB().

◆ viewIVLevel()

void viewIVLevel ( const LevelData< BaseIVFAB< Real > > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running ChomboVis with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single LevelData<BaseIVFAB<Real> >. This is useful for debugging.

Referenced by InitWriteEBFAB().

◆ browseIVLevel()

void browseIVLevel ( const LevelData< BaseIVFAB< Real > > *  a_dataPtr)

View *a_dataPtr by writing it to an HDF5 plotfile (to a temporary file) and then running chombobrowser with a python script which brings up a data browser by default. The file has the same format as writeEBHDF5, but for a single LevelData<BaseIVFAB<Real> >. This is useful for debugging.

Referenced by InitWriteEBFAB().

◆ writeIVLevelname()

void writeIVLevelname ( const LevelData< BaseIVFAB< Real > > *  a_dataPtr,
const char *  a_filename 
)

Write a plotfile using the same format as writeEBHDF5, but for a single LevelData<BaseIVFAB<Real> >. Useful for debugging. a_dataPtr is written to the file given by a_filename.

Referenced by InitWriteEBFAB().

◆ createEBFile() [1/2]

void createEBFile ( HDF5Handle a_handle,
const std::string &  a_filename,
int  a_numLevels,
const Vector< int > &  a_refRatios,
const ProblemDomain a_coarseDomain,
const RealVect a_coarseDx,
const IntVect a_ghost 
)

◆ createEBFile() [2/2]

void createEBFile ( HDF5Handle a_handle,
const std::string &  a_filename,
int  a_numLevels,
const Vector< int > &  a_refRatios,
const ProblemDomain a_coarseDomain,
const RealVect a_origin,
const RealVect a_coarseDx,
const RealVect a_aspect,
const IntVect a_ghost 
)

◆ headerEBFile() [1/2]

void headerEBFile ( HDF5Handle a_handle,
int  a_numLevels,
const Vector< int > &  a_refRatios,
const ProblemDomain a_coarseDomain,
const RealVect a_coarseDx,
const IntVect a_ghost 
)

◆ headerEBFile() [2/2]

void headerEBFile ( HDF5Handle a_handle,
int  a_numLevels,
const Vector< int > &  a_refRatios,
const ProblemDomain a_coarseDomain,
const RealVect a_origin,
const RealVect a_coarseDx,
const RealVect a_aspect,
const IntVect a_ghost 
)

◆ writeCellCenteredNames()

void writeCellCenteredNames ( HDF5Handle a_handle,
const Vector< std::string > &  a_names 
)

◆ writeNodeCenteredNames()

void writeNodeCenteredNames ( HDF5Handle a_handle,
const Vector< std::string > &  a_names 
)

◆ writeFaceCenteredNames()

void writeFaceCenteredNames ( HDF5Handle a_handle,
int  a_direction,
const Vector< std::string > &  a_names 
)

◆ writeCellCentered() [1/2]

void writeCellCentered ( HDF5Handle a_handle,
int  a_level,
const LevelData< EBCellFAB > *  a_data,
Interval  interval = Interval() 
)

if no CellCenteredNames have been assigned, then dummy values of CC1..CCn are set

◆ writeCellCentered() [2/2]

void writeCellCentered ( HDF5Handle a_handle,
int  a_level,
const LevelData< FArrayBox > *  a_data,
Interval  interval = Interval() 
)

◆ writeNodeCentered()

void writeNodeCentered ( HDF5Handle a_handle,
int  a_level,
const LevelData< FArrayBox > *  a_data,
Interval  interval = Interval() 
)

◆ writeFaceCentered()

void writeFaceCentered ( HDF5Handle a_handle,
int  a_level,
int  a_direction,
const LevelData< EBFaceFAB > *  a_data,
Interval  interval = Interval() 
)

◆ metaDataEBFile()

void metaDataEBFile ( HDF5Handle a_handle,
int &  a_numLevels,
Vector< int > &  a_refRatios,
ProblemDomain a_coarseDomain,
IntVect a_ghost 
)

◆ readCellCentered()

void readCellCentered ( HDF5Handle a_handle,
int  a_level,
const EBIndexSpace eb,
const int  ebghost,
LevelData< EBCellFAB > *  a_data 
)

◆ setWhichCellIndex()

void setWhichCellIndex ( int  a_whichCellIndex)

Referenced by InitWriteEBFAB().

◆ getWhichCellIndex()

int getWhichCellIndex ( )

Referenced by InitWriteEBFAB().

◆ setCoveredCellValue()

void setCoveredCellValue ( Real  a_coveredCellValue)

Referenced by InitWriteEBFAB().

◆ getCoveredCellValue()

Real getCoveredCellValue ( )

Referenced by InitWriteEBFAB().

◆ multiFaceValues()

void multiFaceValues ( const EBFaceFAB a_face,
const int  a_side,
const int  a_iv0,
const int  a_iv1,
const int  a_iv2 
)

Referenced by InitWriteEBFAB().

◆ multiCellValues()

void multiCellValues ( const EBCellFAB a_face,
const int  a_iv0,
const int  a_iv1,
const int  a_iv2 
)

Referenced by InitWriteEBFAB().