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|
/*=========================================================================
Program: Visualization Toolkit
Module: TestExtraction.cxx
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm 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.
=========================================================================*/
// This tests vtkSelection and vtkExtractSelection.
//
// The command line arguments are:
// -I => run in interactive mode; unless this is used, the program will
// not allow interaction and exit
// -W => write data files at each step for closer inspection
// -S => draw sample data set in wireframe with each result
#include "vtkTestUtilities.h"
#include "vtkRegressionTestImage.h"
#include <vtkImageData.h>
#include <vtkUnstructuredGrid.h>
#include <vtkUnstructuredGridWriter.h>
#include <vtkXMLDataSetWriter.h>
#include <vtkPolyDataWriter.h>
#include <vtkPoints.h>
#include <vtkPointData.h>
#include <vtkCellData.h>
#include <vtkIdTypeArray.h>
#include <vtkDoubleArray.h>
#include <vtkCell.h>
#include <vtkDataSetMapper.h>
#include <vtkActor.h>
#include <vtkProperty.h>
#include <vtkRenderer.h>
#include <vtkCamera.h>
#include <vtkRenderWindow.h>
#include <vtkRenderWindowInteractor.h>
#include <vtkInteractorStyleRubberBandPick.h>
#include <vtkIdList.h>
#include <vtkThreshold.h>
#include <vtkInformation.h>
#include <vtkSelection.h>
#include <vtkSelectionNode.h>
#include <vtkExtractSelection.h>
#define XCELLS 3
#define YCELLS 3
#define ZCELLS 3
static vtkRenderer *renderer = NULL;
static vtkImageData *sampleData = NULL;
static int DrawSampleData = 0;
enum {COLORBYCELL, COLORBYPOINT};
void showMe(vtkDataSet *result, int X, int Y, int CellOrPoint, vtkDataArray *array)
{
vtkDataSet *copy = result->NewInstance();
copy->DeepCopy(result);
vtkDataSetMapper *mapper = vtkDataSetMapper::New();
mapper->SetInputData(copy);
double *range = array->GetRange();
if (CellOrPoint == COLORBYCELL)
{
copy->GetCellData()->SetActiveScalars(array->GetName());
mapper->SetScalarModeToUseCellData();
}
else
{
copy->GetPointData()->SetActiveScalars(array->GetName());
mapper->SetScalarModeToUsePointData();
}
mapper->SetScalarRange(range[0], range[1]);
vtkActor *actor = vtkActor::New();
actor->SetPosition(X*4,Y*4, 0);
actor->SetMapper(mapper);
actor->GetProperty()->SetPointSize(6.0);
mapper->Delete();
renderer->AddActor(actor);
actor->Delete();
copy->Delete();
if (DrawSampleData)
{
vtkDataSetMapper *mapper2 = vtkDataSetMapper::New();
mapper2->SetScalarModeToUseCellFieldData();
if (CellOrPoint == COLORBYCELL)
{
mapper2->SetScalarModeToUseCellFieldData();
mapper2->SelectColorArray("Forward Cell Ids");
mapper2->SetScalarRange(10, 36);
}
else
{
mapper2->SetScalarModeToUsePointFieldData();
mapper2->SelectColorArray("Forward Point Ids");
mapper2->SetScalarRange(10, 73);
}
mapper2->SetInputData(sampleData);
vtkActor *actor2 = vtkActor::New();
actor2->GetProperty()->SetRepresentationToWireframe();
actor2->SetMapper(mapper2);
actor2->SetPosition(X*4,Y*4, 0);
renderer->AddActor(actor2);
mapper2->Delete();
actor2->Delete();
}
}
int TestExtraction(int argc, char *argv[])
{
int DoWrite = 0;
for (int i = 0; i < argc; i++)
{
if (!strcmp(argv[i], "-W"))
{
DoWrite = 1;
}
if (!strcmp(argv[i], "-S"))
{
DrawSampleData = 1;
}
}
//--------------------------------------------------------------------------
//create a visualization pipeline to see the results
renderer = vtkRenderer::New();
vtkRenderWindow *renwin = vtkRenderWindow::New();
renwin->SetMultiSamples(0);
renwin->SetSize(600,600);
renwin->AddRenderer(renderer);
vtkRenderWindowInteractor *rwi = vtkRenderWindowInteractor::New();
rwi->SetRenderWindow(renwin);
//--------------------------------------------------------------------------
//create a test data set with known structure and data values
//the structure will look like a Rubix' cube
//the values will be:
//three double arrays containing X,Y,and Z coordinates for
//each point and cell, where the cell coordinates are the center of the cell
//two id type arrays containing Id's or labels that range from 10 to
//numpts/cells+10, with one array being the reverse of the other
//the scalars datasetattibute will be the X array
//the globalids datasetattribute will be the forward running id array
sampleData = vtkImageData::New();
sampleData->Initialize();
sampleData->SetSpacing(1.0,1.0,1.0);
sampleData->SetOrigin(0.0,0.0,0.0);
sampleData->SetDimensions(XCELLS+1,YCELLS+1,ZCELLS+1);
sampleData->AllocateScalars(VTK_DOUBLE, 1);
vtkIdTypeArray *pia = vtkIdTypeArray::New();
pia->SetNumberOfComponents(1);
pia->SetName("Point Counter");
sampleData->GetPointData()->AddArray(pia);
vtkIdTypeArray *piaF = vtkIdTypeArray::New();
piaF->SetNumberOfComponents(1);
piaF->SetName("Forward Point Ids");
sampleData->GetPointData()->AddArray(piaF);
vtkIdTypeArray *piaR = vtkIdTypeArray::New();
piaR->SetNumberOfComponents(1);
piaR->SetName("Reverse Point Ids");
sampleData->GetPointData()->AddArray(piaR);
vtkDoubleArray *pxa = vtkDoubleArray::New();
pxa->SetNumberOfComponents(1);
pxa->SetName("Point X");
sampleData->GetPointData()->AddArray(pxa);
vtkDoubleArray *pya = vtkDoubleArray::New();
pya->SetNumberOfComponents(1);
pya->SetName("Point Y");
sampleData->GetPointData()->AddArray(pya);
vtkDoubleArray *pza = vtkDoubleArray::New();
pza->SetNumberOfComponents(1);
pza->SetName("Point Z");
sampleData->GetPointData()->AddArray(pza);
//vtkPoints *points = vtkPoints::New();
vtkIdType pcnt = 0;
for (int i = 0; i < ZCELLS+1; i++)
{
for (int j = 0; j < YCELLS+1; j++)
{
for (int k = 0; k < XCELLS+1; k++)
{
//points->InsertNextPoint(k,j,i);
pia->InsertNextValue(pcnt);
int idF = pcnt + 10;
int idR = (XCELLS+1)*(YCELLS+1)*(ZCELLS+1)-1 - pcnt + 10;
piaF->InsertNextValue(idF);
piaR->InsertNextValue(idR);
pcnt++;
pxa->InsertNextValue((double)k);
pya->InsertNextValue((double)j);
pza->InsertNextValue((double)i);
}
}
}
//sampleData->SetPoints(points);
//points->Delete();
//vtkIdList *ids = vtkIdList::New();
vtkIdTypeArray *cia = vtkIdTypeArray::New();
cia->SetNumberOfComponents(1);
cia->SetName("Cell Count");
sampleData->GetCellData()->AddArray(cia);
vtkIdTypeArray *ciaF = vtkIdTypeArray::New();
ciaF->SetNumberOfComponents(1);
ciaF->SetName("Forward Cell Ids");
sampleData->GetCellData()->AddArray(ciaF);
vtkIdTypeArray *ciaR = vtkIdTypeArray::New();
ciaR->SetNumberOfComponents(1);
ciaR->SetName("Reverse Cell Ids");
sampleData->GetCellData()->AddArray(ciaR);
vtkDoubleArray *cxa = vtkDoubleArray::New();
cxa->SetNumberOfComponents(1);
cxa->SetName("Cell X");
sampleData->GetCellData()->AddArray(cxa);
vtkDoubleArray *cya = vtkDoubleArray::New();
cya->SetNumberOfComponents(1);
cya->SetName("Cell Y");
sampleData->GetCellData()->AddArray(cya);
vtkDoubleArray *cza = vtkDoubleArray::New();
cza->SetNumberOfComponents(1);
cza->SetName("Cell Z");
sampleData->GetCellData()->AddArray(cza);
vtkIdType ccnt = 0;
for (int i = 0; i < ZCELLS; i++)
{
for (int j = 0; j < YCELLS; j++)
{
for (int k = 0; k < XCELLS; k++)
{
/*
ids->Reset();
if (ZCELLS > 1)
{
ids->InsertId(0, (i)*(YCELLS+1)*(XCELLS+1) + (j)*(XCELLS+1) + (k));
ids->InsertId(1, (i)*(YCELLS+1)*(XCELLS+1) + (j)*(XCELLS+1) + (k+1));
ids->InsertId(2, (i)*(YCELLS+1)*(XCELLS+1) + (j+1)*(XCELLS+1) + (k));
ids->InsertId(3, (i)*(YCELLS+1)*(XCELLS+1) + (j+1)*(XCELLS+1) + (k+1));
ids->InsertId(4, (i+1)*(YCELLS+1)*(XCELLS+1) + (j)*(XCELLS+1) + (k));
ids->InsertId(5, (i+1)*(YCELLS+1)*(XCELLS+1) + (j)*(XCELLS+1) + (k+1));
ids->InsertId(6, (i+1)*(YCELLS+1)*(XCELLS+1) + (j+1)*(XCELLS+1) + (k));
ids->InsertId(7, (i+1)*(YCELLS+1)*(XCELLS+1) + (j+1)*(XCELLS+1) + (k+1));
sampleData->InsertNextCell(VTK_VOXEL, ids);
}
else
{
ids->InsertId(0, (i)*(YCELLS+1)*(XCELLS+1) + (j)*(XCELLS+1) + (k));
ids->InsertId(1, (i)*(YCELLS+1)*(XCELLS+1) + (j)*(XCELLS+1) + (k+1));
ids->InsertId(2, (i)*(YCELLS+1)*(XCELLS+1) + (j+1)*(XCELLS+1) + (k));
ids->InsertId(3, (i)*(YCELLS+1)*(XCELLS+1) + (j+1)*(XCELLS+1) + (k+1));
sampleData->InsertNextCell(VTK_PIXEL, ids);
}
*/
cia->InsertNextValue(ccnt);
int idF = ccnt + 10;
int idR = (XCELLS)*(YCELLS)*(ZCELLS)-1 - ccnt + 10;
ciaF->InsertNextValue(idF);
ciaR->InsertNextValue(idR);
ccnt++;
cxa->InsertNextValue(((double)k+0.5));
cya->InsertNextValue(((double)j+0.5));
cza->InsertNextValue(((double)i+0.5));
}
}
}
//ids->Delete();
sampleData->GetPointData()->SetGlobalIds(piaF);
sampleData->GetPointData()->SetScalars(pxa);
sampleData->GetCellData()->SetGlobalIds(ciaF);
sampleData->GetCellData()->SetScalars(cxa);
//save the test data set
vtkXMLDataSetWriter *xwriter = vtkXMLDataSetWriter::New();
xwriter->SetInputData(sampleData);
xwriter->SetFileName("sampleData.vti");
if (DoWrite)
{
xwriter->Write();
}
//-------------------------------------------------------------------------
//Setup the components of the pipeline
vtkSelection *selection = vtkSelection::New();
vtkSelectionNode *sel = vtkSelectionNode::New();
selection->AddNode(sel);
vtkExtractSelection *ext = vtkExtractSelection::New();
ext->SetInputData(0, sampleData);
ext->SetInputData(1, selection);
ext->PreserveTopologyOff();
vtkUnstructuredGridWriter *writer = vtkUnstructuredGridWriter::New();
vtkUnstructuredGrid *extGrid;
vtkImageData *extIData;
vtkDataArray *insideArray;
//-------------------------------------------------------------------------
//Test extract GLOBALIDS filter on cells
vtkIdTypeArray *cellIds = NULL;
sel->Initialize();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::GLOBALIDS);
cellIds = vtkIdTypeArray::New();
cellIds->SetNumberOfComponents(1);
cellIds->SetNumberOfTuples(5);
cellIds->SetTuple1(0, 9); //just before first cell -miss
cellIds->SetTuple1(1, 10); //first cell
cellIds->SetTuple1(2, 11); //second cells (distinguishes from reverse ids)
cellIds->SetTuple1(3, 36); //last cell
cellIds->SetTuple1(4, 37); //just beyond last cell -miss
sel->SetSelectionList(cellIds);
cellIds->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_GID.vtk");
writer->Write();
}
showMe(extGrid, 0, 0, COLORBYCELL, ciaF);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_GID_I.vtk");
writer->Write();
}
showMe(extGrid, 1, 0, COLORBYCELL, ciaF);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_C_GID_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 2, 0, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
//Test extract GLOBALIDS filter on points
vtkIdTypeArray *pointIds = NULL;
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::GLOBALIDS);
sel->GetProperties()->Set(
vtkSelectionNode::FIELD_TYPE(), vtkSelectionNode::POINT);
pointIds = vtkIdTypeArray::New();
pointIds->SetNumberOfComponents(1);
pointIds->SetNumberOfTuples(5);
pointIds->SetTuple1(0, 9); //just before first -miss
pointIds->SetTuple1(1, 10); //first
pointIds->SetTuple1(2, 11); //second
pointIds->SetTuple1(3, 73); //last
pointIds->SetTuple1(4, 74); //just passed last -miss
sel->SetSelectionList(pointIds);
pointIds->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_GID.vtk");
writer->Write();
}
showMe(extGrid, 3, 0, COLORBYPOINT, piaF);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_GID_I.vtk");
writer->Write();
}
showMe(extGrid, 4, 0, COLORBYPOINT, piaF);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_GID_WC.vtk");
writer->Write();
}
showMe(extGrid, 5, 0, COLORBYPOINT, piaF);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_GID_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
if (insideArray)
{
cerr << "ERROR: Extract point global id without containing cells made cell inside array." << endl;
}
insideArray = extIData->GetPointData()->GetArray("vtkInsidedness");
showMe(extIData, 6, 0, COLORBYPOINT, insideArray);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_GID_WC_PT.vtk");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 7, 0, COLORBYCELL, insideArray);
//--------------------------------------------------------------------------
//Test extract INDICES filter on cells
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::INDICES);
cellIds = vtkIdTypeArray::New();
cellIds->SetNumberOfComponents(1);
cellIds->SetNumberOfTuples(5);
cellIds->SetTuple1(0, 0);
cellIds->SetTuple1(1, 1);
cellIds->SetTuple1(2, 2);
cellIds->SetTuple1(3, 26); //last
cellIds->SetTuple1(4, 27); //just outside -miss
sel->SetSelectionList(cellIds);
cellIds->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Ind.vtk");
writer->Write();
}
showMe(extGrid, 0, 1, COLORBYCELL, cia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Ind_I.vtk");
writer->Write();
}
showMe(extGrid, 1, 1, COLORBYCELL, cia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_C_Ind_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 2, 1, COLORBYCELL, insideArray);
//--------------------------------------------------------------------------
//Test extract INDICES filter on points
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::INDICES);
sel->GetProperties()->Set(
vtkSelectionNode::FIELD_TYPE(), vtkSelectionNode::POINT);
pointIds = vtkIdTypeArray::New();
pointIds->SetNumberOfComponents(1);
pointIds->SetNumberOfTuples(5);
pointIds->SetTuple1(0, 0); //first
pointIds->SetTuple1(1, 1); //second
pointIds->SetTuple1(2, 2); //third
pointIds->SetTuple1(3, 63);//last
pointIds->SetTuple1(4, 64); //just beyond last -miss
sel->SetSelectionList(pointIds);
pointIds->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Ind_I.vtk");
writer->Write();
}
showMe(extGrid, 3, 1, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Ind_I.vtk");
writer->Write();
}
showMe(extGrid, 4, 1, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Ind_WC.vtk");
writer->Write();
}
showMe(extGrid, 5, 1, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Ind_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
if (insideArray)
{
cerr << "ERROR: Extract point indices without containing cells made cell inside array." << endl;
}
insideArray = extIData->GetPointData()->GetArray("vtkInsidedness");
showMe(extIData, 6, 1, COLORBYPOINT, insideArray);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Ind_PT_WC.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 7, 1, COLORBYCELL, insideArray);
//--------------------------------------------------------------------------
//Test extract VALUES filter on cells
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::VALUES);
cellIds = vtkIdTypeArray::New();
cellIds->SetName("Reverse Cell Ids");
cellIds->SetNumberOfComponents(1);
cellIds->SetNumberOfTuples(5);
cellIds->SetTuple1(0, 9); //just passed last -miss
cellIds->SetTuple1(1, 10); //last
cellIds->SetTuple1(2, 11); //next to last (distinguishes from forward ids)
cellIds->SetTuple1(3, 36); //first
cellIds->SetTuple1(4, 37); //just before first -miss
sel->SetSelectionList(cellIds);
cellIds->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Val.vtk");
writer->Write();
}
showMe(extGrid, 0, 2, COLORBYCELL, ciaR);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Val_I.vtk");
writer->Write();
}
showMe(extGrid, 1, 2, COLORBYCELL, ciaR);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_C_Val_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 2, 2, COLORBYCELL, insideArray);
//--------------------------------------------------------------------------
//Test extract VALUES filter on points
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::VALUES);
sel->GetProperties()->Set(
vtkSelectionNode::FIELD_TYPE(), vtkSelectionNode::POINT);
pointIds = vtkIdTypeArray::New();
pointIds->SetName("Reverse Point Ids");
pointIds->SetNumberOfComponents(1);
pointIds->SetNumberOfTuples(5);
pointIds->SetTuple1(0, 9); //just beyond last -miss
pointIds->SetTuple1(1, 10); //last
pointIds->SetTuple1(2, 11); //next to last
pointIds->SetTuple1(3, 73); //first
pointIds->SetTuple1(4, 74); //just before first -miss
sel->SetSelectionList(pointIds);
pointIds->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Val.vtk");
writer->Write();
}
showMe(extGrid, 3, 2, COLORBYPOINT, piaR);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Val_I.vtk");
writer->Write();
}
showMe(extGrid, 4, 2, COLORBYPOINT, piaR);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Val_WC.vtk");
writer->Write();
}
showMe(extGrid, 5, 2, COLORBYPOINT, piaR);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Val_PT.vtk");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
if (insideArray)
{
cerr << "ERROR: Extract point values without containing cells made cell inside array." << endl;
}
insideArray = extIData->GetPointData()->GetArray("vtkInsidedness");
showMe(extIData, 6, 2, COLORBYPOINT, insideArray);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Val_PT_WC.vtk");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 7, 2, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
//test the extract THRESHOLD filter on cell data
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::THRESHOLDS);
vtkDoubleArray *cellThresh = vtkDoubleArray::New();
cellThresh->SetNumberOfComponents(1);
cellThresh->SetNumberOfTuples(2);
cellThresh->SetTuple1(0, 1.9); //the nine rightmost(+X) cells are in here
cellThresh->SetTuple1(1, 3.1);
sel->SetSelectionList(cellThresh);
cellThresh->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Thr.vtk");
writer->Write();
}
showMe(extGrid, 0, 3, COLORBYCELL, cxa);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Thr_I.vtk");
writer->Write();
}
showMe(extGrid, 1, 3, COLORBYCELL, cxa);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_C_Thr_PT.vtk");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 2, 3, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
//test the extract THRESHOLD filter on point data
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::THRESHOLDS);
sel->GetProperties()->Set(vtkSelectionNode::FIELD_TYPE(), vtkSelectionNode::POINT);
vtkDoubleArray *pointThresh = vtkDoubleArray::New();
pointThresh->SetNumberOfComponents(1);
pointThresh->SetNumberOfTuples(2);
pointThresh->SetTuple1(0, 0.9); //the 18 leftmost cells have points in here
pointThresh->SetTuple1(1, 1.1);
sel->SetSelectionList(pointThresh);
pointThresh->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Thr.vtk");
writer->Write();
}
showMe(extGrid, 3, 3, COLORBYPOINT, pxa);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Thr_I.vtk");
writer->Write();
}
showMe(extGrid, 4, 3, COLORBYPOINT, pxa);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Thr_WC.vtk");
writer->Write();
}
showMe(extGrid, 5, 3, COLORBYPOINT, pxa);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Thr_PT.vtk");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
if (insideArray)
{
cerr << "ERROR: Extract point thresh without containing cells made cell inside array." << endl;
}
insideArray = extIData->GetPointData()->GetArray("vtkInsidedness");
showMe(extIData, 6, 3, COLORBYPOINT, insideArray);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Thr_PT_WC.vtk");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 7, 3, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
//test the extract LOCATIONS filter on cells
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::LOCATIONS);
vtkDoubleArray *cellLocs = vtkDoubleArray::New();
cellLocs->SetNumberOfComponents(3);
cellLocs->SetNumberOfTuples(4);
cellLocs->SetTuple3(0, 0.0, 0.99, 0.5); //on the edge of two cells, pick one
//grr different data set types cell locators return different cells so I could not use 1.0 and had to make it 0.99 to make it consistent
cellLocs->SetTuple3(1, 2.5, 1.5, 0.5); //inside a cell
cellLocs->SetTuple3(2, 2.5, 2.1, 2.9); //inside a cell
cellLocs->SetTuple3(3, 5.0, 5.0, 5.0); //outside of all cells
sel->SetSelectionList(cellLocs);
cellLocs->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Loc.vtk");
writer->Write();
}
showMe(extGrid, 0, 4, COLORBYCELL, cia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_C_Loc_I.vtk");
writer->Write();
}
showMe(extGrid, 1, 4, COLORBYCELL, cia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_C_Loc_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 2, 4, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
//test the extract LOCATIONS filter on points
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::LOCATIONS);
sel->GetProperties()->Set(vtkSelectionNode::FIELD_TYPE(), vtkSelectionNode::POINT);
sel->GetProperties()->Set(vtkSelectionNode::EPSILON(), 0.3);
vtkDoubleArray *pointLocs = vtkDoubleArray::New();
pointLocs->SetNumberOfComponents(3);
pointLocs->SetNumberOfTuples(3);
pointLocs->SetTuple3(0, 0.0, 0.0, 0.29); //just close enough to the first point
pointLocs->SetTuple3(1, 1.0, 0.0, 0.31); //just a bit outside
pointLocs->SetTuple3(2, 1.0, 1.0, 3.1); //outside the dataset, but close enough
sel->SetSelectionList(pointLocs);
pointLocs->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Loc.vtk");
writer->Write();
}
showMe(extGrid, 3, 4, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Loc_I.vtk");
writer->Write();
}
showMe(extGrid, 4, 4, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Loc_WC.vtk");
writer->Write();
}
showMe(extGrid, 5, 4, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Loc_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetPointData()->GetArray("vtkInsidedness");
showMe(extIData, 6, 4, COLORBYPOINT, insideArray);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Loc_PT_WC.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 7, 4, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
//test the extract FRUSTUM filter
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::FRUSTUM);
vtkDoubleArray *frustcorners = vtkDoubleArray::New();
frustcorners->SetNumberOfComponents(4);
frustcorners->SetNumberOfTuples(8);
//a small frustum within the 3 lower left (-X,-Y) cells
frustcorners->SetTuple4(0, 0.1, 0.1, 3.1, 0.0);
frustcorners->SetTuple4(1, 0.1, 0.1, 0.1, 0.0);
frustcorners->SetTuple4(2, 0.1, 0.9, 3.1, 0.0);
frustcorners->SetTuple4(3, 0.1, 0.9, 0.1, 0.0);
frustcorners->SetTuple4(4, 0.9, 0.1, 3.1, 0.0);
frustcorners->SetTuple4(5, 0.9, 0.1, 0.1, 0.0);
frustcorners->SetTuple4(6, 0.9, 0.9, 3.1, 0.0);
frustcorners->SetTuple4(7, 0.9, 0.9, 0.1, 0.0);
sel->SetSelectionList(frustcorners);
frustcorners->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_Fru.vtk");
writer->Write();
}
showMe(extGrid, 0, 5, COLORBYCELL, cia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_Fru_I.vtk");
writer->Write();
}
showMe(extGrid, 1, 5, COLORBYCELL, cia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_Fru_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 2, 5, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
//test the extract FRUSTUM filter on points
sel->Initialize();
ext->PreserveTopologyOff();
sel->GetProperties()->Set(
vtkSelectionNode::CONTENT_TYPE(), vtkSelectionNode::FRUSTUM);
sel->GetProperties()->Set(vtkSelectionNode::FIELD_TYPE(), vtkSelectionNode::POINT);
frustcorners = vtkDoubleArray::New();
frustcorners->SetNumberOfComponents(4);
frustcorners->SetNumberOfTuples(8);
//a frustum containing the 4 lower left (-X,-Y) vertices
frustcorners->SetTuple4(0, -0.1, -0.1, 3.1, 0.0);
frustcorners->SetTuple4(1, -0.1, -0.1, -0.1, 0.0);
frustcorners->SetTuple4(2, -0.1, 0.1, 3.1, 0.0);
frustcorners->SetTuple4(3, -0.1, 0.1, -0.1, 0.0);
frustcorners->SetTuple4(4, 0.1, -0.1, 3.1, 0.0);
frustcorners->SetTuple4(5, 0.1, -0.1, -0.1, 0.0);
frustcorners->SetTuple4(6, 0.1, 0.1, 3.1, 0.0);
frustcorners->SetTuple4(7, 0.1, 0.1, -0.1, 0.0);
sel->SetSelectionList(frustcorners);
frustcorners->Delete();
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Fru.vtk");
writer->Write();
}
showMe(extGrid, 3, 5, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 1);
ext->Update();
extGrid = vtkUnstructuredGrid::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
writer->SetInputConnection(ext->GetOutputPort());
writer->SetFileName("ext_P_Fru_I.vtk");
writer->Write();
}
showMe(extGrid, 4, 5, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Fru_WC.vti");
xwriter->Write();
}
showMe(extGrid, 5, 5, COLORBYPOINT, pia);
sel->GetProperties()->Set(vtkSelectionNode::INVERSE(), 0);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 0);
ext->PreserveTopologyOn();
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Fru_PT.vti");
xwriter->Write();
}
insideArray = extIData->GetPointData()->GetArray("vtkInsidedness");
showMe(extIData, 6, 5, COLORBYPOINT, insideArray);
sel->GetProperties()->Set(vtkSelectionNode::CONTAINING_CELLS(), 1);
ext->Update();
extIData = vtkImageData::SafeDownCast(ext->GetOutput());
if (DoWrite)
{
xwriter->SetInputConnection(ext->GetOutputPort());
xwriter->SetFileName("ext_P_Fru_PT_WC.vti");
xwriter->Write();
}
insideArray = extIData->GetCellData()->GetArray("vtkInsidedness");
showMe(extIData, 7, 5, COLORBYCELL, insideArray);
//-------------------------------------------------------------------------
/*
vtkCamera *cam = renderer->GetActiveCamera();
cam->SetPosition(-6, -2, 45);
cam->SetFocalPoint(10, 11, 2);
cam->SetViewUp(0,1,0);
renderer->SetActiveCamera(cam);
*/
int retVal = vtkRegressionTestImageThreshold( renwin, 85 );
if ( retVal == vtkRegressionTester::DO_INTERACTOR)
{
rwi->Start();
}
//cleanup
selection->Delete();
sel->Delete();
ext->Delete();
pia->Delete();
piaF->Delete();
piaR->Delete();
pxa->Delete();
pya->Delete();
pza->Delete();
cia->Delete();
ciaF->Delete();
ciaR->Delete();
cxa->Delete();
cya->Delete();
cza->Delete();
xwriter->Delete();
writer->Delete();
renderer->Delete();
sampleData->Delete();
renwin->Delete();
rwi->Delete();
return !retVal;
}
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