ThirdParty-6/ParaView-5.0.1/Examples/Catalyst/CxxParticlePathExample/FEAdaptor.cxx

#include <iostream>
#include "FEAdaptor.h"
#include "FEDataStructures.h"

#include <vtkCellData.h>
#include <vtkCellType.h>
#include <vtkCPDataDescription.h>
#include <vtkCPInputDataDescription.h>
#include <vtkCPProcessor.h>
#include <vtkCPPythonScriptPipeline.h>
#include <vtkDoubleArray.h>
#include <vtkFloatArray.h>
#include <vtkNew.h>
#include <vtkPoints.h>
#include <vtkPointData.h>
#include <vtkUnstructuredGrid.h>

namespace
{
  vtkCPProcessor* Processor = NULL;

  void BuildVTKGrid(Grid& grid, vtkUnstructuredGrid* vtkgrid)
  {
    // create the points information
    vtkNew<vtkDoubleArray> pointArray;
    pointArray->SetNumberOfComponents(3);
    pointArray->SetArray(grid.GetPointsArray(), static_cast<vtkIdType>(grid.GetNumberOfPoints()*3), 1);
    vtkNew<vtkPoints> points;
    points->SetData(pointArray.GetPointer());
    vtkgrid->SetPoints(points.GetPointer());

    // create the cells
    size_t numCells = grid.GetNumberOfCells();
    vtkgrid->Allocate(static_cast<vtkIdType>(numCells*9));
    for(size_t cell=0;cell<numCells;cell++)
      {
      unsigned int* cellPoints = grid.GetCellPoints(cell);
      vtkIdType tmp[8] = {cellPoints[0], cellPoints[1], cellPoints[2], cellPoints[3],
                          cellPoints[4], cellPoints[5], cellPoints[6], cellPoints[7]};
      vtkgrid->InsertNextCell(VTK_HEXAHEDRON, 8, tmp);
      }
  }

  void UpdateVTKAttributes(Grid& grid, Attributes& attributes, vtkUnstructuredGrid* vtkgrid)
  {
    if(vtkgrid->GetPointData()->GetNumberOfArrays() == 0)
      {
      // velocity array
      vtkNew<vtkDoubleArray> velocity;
      velocity->SetName("velocity");
      velocity->SetNumberOfComponents(3);
      velocity->SetNumberOfTuples(static_cast<vtkIdType>(grid.GetNumberOfPoints()));
      vtkgrid->GetPointData()->AddArray(velocity.GetPointer());
      }
    if(vtkgrid->GetCellData()->GetNumberOfArrays() == 0)
      {
      // pressure array
      vtkNew<vtkFloatArray> pressure;
      pressure->SetName("pressure");
      pressure->SetNumberOfComponents(1);
      vtkgrid->GetCellData()->AddArray(pressure.GetPointer());
      }
    vtkDoubleArray* velocity = vtkDoubleArray::SafeDownCast(
      vtkgrid->GetPointData()->GetArray("velocity"));
    // The velocity array is ordered as vx0,vx1,vx2,..,vy0,vy1,vy2,..,vz0,vz1,vz2,..
    // so we need to create a full copy of it with VTK's ordering of
    // vx0,vy0,vz0,vx1,vy1,vz1,..
    double* velocityData = attributes.GetVelocityArray();
    vtkIdType numTuples = velocity->GetNumberOfTuples();
    for(vtkIdType i=0;i<numTuples;i++)
      {
      double values[3] = {velocityData[i], velocityData[i+numTuples],
                          velocityData[i+2*numTuples]};
      velocity->SetTupleValue(i, values);
      }

    vtkFloatArray* pressure = vtkFloatArray::SafeDownCast(
      vtkgrid->GetCellData()->GetArray("pressure"));
    // The pressure array is a scalar array so we can reuse
    // memory as long as we ordered the points properly.
    float* pressureData = attributes.GetPressureArray();
    pressure->SetArray(pressureData, static_cast<vtkIdType>(grid.GetNumberOfCells()), 1);
  }

  void BuildVTKDataStructures(Grid& grid, Attributes& attributes, vtkUnstructuredGrid* vtkgrid)
  {
    BuildVTKGrid(grid, vtkgrid);
    UpdateVTKAttributes(grid, attributes, vtkgrid);
  }
}

namespace FEAdaptor
{
  void Initialize(std::vector<std::string>& scripts)
  {
    if(Processor == NULL)
      {
      Processor = vtkCPProcessor::New();
      Processor->Initialize();
      }
    else
      {
      Processor->RemoveAllPipelines();
      }
    for(std::vector<std::string>::iterator it=scripts.begin();it!=scripts.end();it++)
      {
      vtkNew<vtkCPPythonScriptPipeline> pipeline;
      pipeline->Initialize(it->c_str());
      Processor->AddPipeline(pipeline.GetPointer());
      }
  }

  void Finalize()
  {
    if(Processor)
      {
      Processor->Delete();
      Processor = NULL;
      }
  }

  void CoProcess(Grid& grid, Attributes& attributes, double time,
                 unsigned int timeStep, bool lastTimeStep)
  {
    vtkNew<vtkCPDataDescription> dataDescription;
    dataDescription->AddInput("input");
    dataDescription->SetTimeData(time, timeStep);
    if(lastTimeStep == true)
      {
      // assume that we want to all the pipelines to execute if it
      // is the last time step.
      dataDescription->ForceOutputOn();
      }
    if(Processor->RequestDataDescription(dataDescription.GetPointer()) != 0)
      {
      vtkNew<vtkUnstructuredGrid> vtkgrid;
      BuildVTKDataStructures(grid, attributes, vtkgrid.GetPointer());
      dataDescription->GetInputDescriptionByName("input")->SetGrid(vtkgrid.GetPointer());
      Processor->CoProcess(dataDescription.GetPointer());
      }
  }
} // end of Catalyst namespace