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/*=========================================================================


  Program:   ParaView

  Module:    PIOAdaptor.h


  Copyright (c) Kitware, Inc.

  All rights reserved.

  See Copyright.txt or http://www.paraview.org/HTML/Copyright.html for details.


     This software is distributed WITHOUT ANY WARRANTY; without even

     the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR

     PURPOSE.  See the above copyright notice for more information.


=========================================================================*/

#ifndef PIOAdaptor_h

#define PIOAdaptor_h


#include "vtkDataArraySelection.h"

#include "vtkHyperTreeGridNonOrientedCursor.h"

#include "vtkMultiBlockDataSet.h"


#include "PIOData.h"


#include <vector>


class vtkMultiProcessController;


class PIOAdaptor

{

public:

  PIOAdaptor(vtkMultiProcessController* ctrl);

  ~PIOAdaptor();


  int initializeGlobal(const char* DumpDescFile);

  int initializeDump(int timeStep);


  // Time step change requires new geometry and data

  void create_geometry(vtkMultiBlockDataSet* grid);

  void load_variable_data(vtkMultiBlockDataSet* grid, vtkDataArraySelection* cellSelection);


  int GetNumberOfTimeSteps() { return static_cast<int>(this->CycleIndex.size()); }

  double GetSimulationTime(int step) { return this->SimulationTime[step]; }

  double GetCycleIndex(int step) { return this->CycleIndex[step]; }

  double GetPIOFileIndex(int step) { return this->PIOFileIndex[step]; }


  int GetNumberOfVariables() { return (int)this->variableName.size(); }

  const char* GetVariableName(int indx) { return this->variableName[indx].c_str(); }

  int GetNumberOfDefaultVariables() { return (int)this->variableDefault.size(); }

  const char* GetVariableDefault(int indx) { return this->variableDefault[indx].c_str(); }


  // Read pio dump file AMR as hypertree grid rather than unstructured grid

  bool GetHyperTreeGrid() { return this->useHTG; }

  void SetHyperTreeGrid(bool val) { this->useHTG = val; }


  // Read pio dump file tracer information

  bool GetTracers() { return this->useTracer; }

  void SetTracers(bool val) { this->useTracer = val; }


  // Read pio dump file variable data as 64 bit float

  bool GetFloat64() { return this->useFloat64; }

  void SetFloat64(bool val) { this->useFloat64 = val; }


protected:

  // Collect the metadata

  int parsePIOFile(const char* DumpDescFile);

  int collectMetaData(const char* DumpDescFile);

  void collectVariableMetaData();

  std::string trimString(const std::string& str);


  // Create the unstructured grid for tracers

  void create_tracer_UG(vtkMultiBlockDataSet* grid);


  // Create the unstructured grid for AMR

  void create_amr_UG(vtkMultiBlockDataSet* grid);


  void create_amr_UG_1D(vtkMultiBlockDataSet* grid,

    int numberOfCells,       // Number of cells all levels

    int* cell_level,         // Level within AMR

    int64_t* cell_daughter,  // Daughter ID, 0 indicates no daughter

    double* cell_center[1]); // Cell center


  void create_amr_UG_2D(vtkMultiBlockDataSet* grid,

    int numberOfCells,       // Number of cells all levels

    int* cell_level,         // Level within AMR

    int64_t* cell_daughter,  // Daughter ID, 0 indicates no daughter

    double* cell_center[2]); // Cell center


  void create_amr_UG_3D(vtkMultiBlockDataSet* grid,

    int numberOfCells,       // Number of cells all levels

    int* cell_level,         // Level within AMR

    int64_t* cell_daughter,  // Daughter ID, 0 indicates no daughter

    double* cell_center[3]); // Cell center


  // Create the hypertree grid

  void create_amr_HTG(vtkMultiBlockDataSet* grid);


  int count_hypertree(int64_t curIndex, int64_t* daughter);


  void build_hypertree(

    vtkHyperTreeGridNonOrientedCursor* treeCursor, int64_t curIndex, int64_t* daughter);


  // Add variable data to the unstructured grid

  void load_variable_data_UG(vtkMultiBlockDataSet* grid, vtkDataArraySelection* cellSelection);

  void add_amr_UG_scalar(vtkMultiBlockDataSet* grid, vtkStdString varName,

    int64_t* daughter, // Indicates top level cell or not

    double* data[],    // Data for all cells

    int numberOfCells,

    int numberOfComponents); // Number of components in data


  // Add variable data to the hypertree grid

  void load_variable_data_HTG(vtkMultiBlockDataSet* grid, vtkDataArraySelection* cellSelection);

  void add_amr_HTG_scalar(vtkMultiBlockDataSet* grid, vtkStdString varName,

    double* data[],          // Data for all cells

    int numberOfComponents); // Number of components in data


  // Used in parallel reader and load balancing

  vtkMultiProcessController* Controller;

  int Rank;

  int TotalRank;


  // Structure to access the dump file data

  PIO_DATA* pioData;


  // Fields of interest in dump file

  std::list<std::string> fieldsToRead;


  // Time series of dumps

  std::string descFileName;               // name.pio

  std::string dumpBaseName;               // base name to use for dumps

  std::vector<std::string> dumpDirectory; // directories holding dumps

  std::vector<std::string> dumpFileName;  // all dump files


  // Time step information

  std::vector<double> CycleIndex;     // Times as cycle index

  std::vector<double> SimulationTime; // Times as simulation time

  std::vector<double> PIOFileIndex;   // Index into dump files


  // Type of block structures to create within multiblock dataset

  bool useHTG;

  bool useTracer;

  bool useFloat64;

  bool hasTracers;


  // Cell variable data and initially enabled variables

  std::vector<std::string> variableName;

  std::vector<std::string> variableDefault;


  // Record the ordering of the cells when building the hypertree grid

  // Needed so that the data will line up correctly

  std::vector<int> indexNodeLeaf;

};


#endif

PIOData.h

PIOAdaptor
Definition: PIOAdaptor.h:29

PIOAdaptor::SimulationTime
std::vector< double > SimulationTime
Definition: PIOAdaptor.h:135

PIOAdaptor::create_amr_UG_3D
void create_amr_UG_3D(vtkMultiBlockDataSet *grid, int numberOfCells, int *cell_level, int64_t *cell_daughter, double *cell_center[3])

PIOAdaptor::build_hypertree
void build_hypertree(vtkHyperTreeGridNonOrientedCursor *treeCursor, int64_t curIndex, int64_t *daughter)

PIOAdaptor::GetNumberOfVariables
int GetNumberOfVariables()
Definition: PIOAdaptor.h:46

PIOAdaptor::create_amr_UG_1D
void create_amr_UG_1D(vtkMultiBlockDataSet *grid, int numberOfCells, int *cell_level, int64_t *cell_daughter, double *cell_center[1])

PIOAdaptor::create_amr_UG
void create_amr_UG(vtkMultiBlockDataSet *grid)

PIOAdaptor::useTracer
bool useTracer
Definition: PIOAdaptor.h:140

PIOAdaptor::fieldsToRead
std::list< std::string > fieldsToRead
Definition: PIOAdaptor.h:125

PIOAdaptor::count_hypertree
int count_hypertree(int64_t curIndex, int64_t *daughter)

PIOAdaptor::GetSimulationTime
double GetSimulationTime(int step)
Definition: PIOAdaptor.h:42

PIOAdaptor::add_amr_UG_scalar
void add_amr_UG_scalar(vtkMultiBlockDataSet *grid, vtkStdString varName, int64_t *daughter, double *data[], int numberOfCells, int numberOfComponents)

PIOAdaptor::Controller
vtkMultiProcessController * Controller
Definition: PIOAdaptor.h:117

PIOAdaptor::pioData
PIO_DATA * pioData
Definition: PIOAdaptor.h:122

PIOAdaptor::GetHyperTreeGrid
bool GetHyperTreeGrid()
Definition: PIOAdaptor.h:52

PIOAdaptor::create_geometry
void create_geometry(vtkMultiBlockDataSet *grid)

PIOAdaptor::SetTracers
void SetTracers(bool val)
Definition: PIOAdaptor.h:57

PIOAdaptor::~PIOAdaptor
~PIOAdaptor()

PIOAdaptor::descFileName
std::string descFileName
Definition: PIOAdaptor.h:128

PIOAdaptor::parsePIOFile
int parsePIOFile(const char *DumpDescFile)

PIOAdaptor::GetCycleIndex
double GetCycleIndex(int step)
Definition: PIOAdaptor.h:43

PIOAdaptor::hasTracers
bool hasTracers
Definition: PIOAdaptor.h:142

PIOAdaptor::initializeDump
int initializeDump(int timeStep)

PIOAdaptor::load_variable_data_HTG
void load_variable_data_HTG(vtkMultiBlockDataSet *grid, vtkDataArraySelection *cellSelection)

PIOAdaptor::create_tracer_UG
void create_tracer_UG(vtkMultiBlockDataSet *grid)

PIOAdaptor::GetTracers
bool GetTracers()
Definition: PIOAdaptor.h:56

PIOAdaptor::indexNodeLeaf
std::vector< int > indexNodeLeaf
Definition: PIOAdaptor.h:150

PIOAdaptor::dumpFileName
std::vector< std::string > dumpFileName
Definition: PIOAdaptor.h:131

PIOAdaptor::variableDefault
std::vector< std::string > variableDefault
Definition: PIOAdaptor.h:146

PIOAdaptor::trimString
std::string trimString(const std::string &str)

PIOAdaptor::add_amr_HTG_scalar
void add_amr_HTG_scalar(vtkMultiBlockDataSet *grid, vtkStdString varName, double *data[], int numberOfComponents)

PIOAdaptor::GetFloat64
bool GetFloat64()
Definition: PIOAdaptor.h:60

PIOAdaptor::load_variable_data
void load_variable_data(vtkMultiBlockDataSet *grid, vtkDataArraySelection *cellSelection)

PIOAdaptor::PIOFileIndex
std::vector< double > PIOFileIndex
Definition: PIOAdaptor.h:136

PIOAdaptor::GetNumberOfTimeSteps
int GetNumberOfTimeSteps()
Definition: PIOAdaptor.h:41

PIOAdaptor::useHTG
bool useHTG
Definition: PIOAdaptor.h:139

PIOAdaptor::create_amr_UG_2D
void create_amr_UG_2D(vtkMultiBlockDataSet *grid, int numberOfCells, int *cell_level, int64_t *cell_daughter, double *cell_center[2])

PIOAdaptor::GetNumberOfDefaultVariables
int GetNumberOfDefaultVariables()
Definition: PIOAdaptor.h:48

PIOAdaptor::dumpDirectory
std::vector< std::string > dumpDirectory
Definition: PIOAdaptor.h:130

PIOAdaptor::GetPIOFileIndex
double GetPIOFileIndex(int step)
Definition: PIOAdaptor.h:44

PIOAdaptor::collectVariableMetaData
void collectVariableMetaData()

PIOAdaptor::initializeGlobal
int initializeGlobal(const char *DumpDescFile)

PIOAdaptor::GetVariableDefault
const char * GetVariableDefault(int indx)
Definition: PIOAdaptor.h:49

PIOAdaptor::SetFloat64
void SetFloat64(bool val)
Definition: PIOAdaptor.h:61

PIOAdaptor::PIOAdaptor
PIOAdaptor(vtkMultiProcessController *ctrl)

PIOAdaptor::CycleIndex
std::vector< double > CycleIndex
Definition: PIOAdaptor.h:134

PIOAdaptor::useFloat64
bool useFloat64
Definition: PIOAdaptor.h:141

PIOAdaptor::Rank
int Rank
Definition: PIOAdaptor.h:118

PIOAdaptor::collectMetaData
int collectMetaData(const char *DumpDescFile)

PIOAdaptor::TotalRank
int TotalRank
Definition: PIOAdaptor.h:119

PIOAdaptor::SetHyperTreeGrid
void SetHyperTreeGrid(bool val)
Definition: PIOAdaptor.h:53

PIOAdaptor::GetVariableName
const char * GetVariableName(int indx)
Definition: PIOAdaptor.h:47

PIOAdaptor::dumpBaseName
std::string dumpBaseName
Definition: PIOAdaptor.h:129

PIOAdaptor::variableName
std::vector< std::string > variableName
Definition: PIOAdaptor.h:145

PIOAdaptor::load_variable_data_UG
void load_variable_data_UG(vtkMultiBlockDataSet *grid, vtkDataArraySelection *cellSelection)

PIOAdaptor::create_amr_HTG
void create_amr_HTG(vtkMultiBlockDataSet *grid)

PIO_DATA
Definition: PIOData.h:50

vtkDataArraySelection
Store on/off settings for data arrays for a vtkSource.
Definition: vtkDataArraySelection.h:35

vtkHyperTreeGridNonOrientedCursor
Objects for traversal a HyperTreeGrid.
Definition: vtkHyperTreeGridNonOrientedCursor.h:51

vtkMultiBlockDataSet
Composite dataset that organizes datasets into blocks.
Definition: vtkMultiBlockDataSet.h:155

vtkMultiProcessController
Multiprocessing communication superclass.
Definition: vtkMultiProcessController.h:77

vtkStdString
Wrapper around std::string to keep symbols short.
Definition: vtkStdString.h:105

vtkX3D::data
@ data
Definition: vtkX3D.h:321

vtkX3D::string
@ string
Definition: vtkX3D.h:496

vtkDataArraySelection.h

vtkHyperTreeGridNonOrientedCursor.h

vtkMultiBlockDataSet.h