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/*=========================================================================
Program: Visualization Toolkit
Module: $RCSfile: TestGenericDataSetTessellator.cxx,v $
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 example demonstrates how to implement a vtkGenericDataSet
// (here vtkBridgeDataSet) and to use vtkGenericDataSetTessellator filter on
// it.
//
// The command line arguments are:
// -I => run in interactive mode; unless this is used, the program will
// not allow interaction and exit
// -D <path> => path to the data; the data should be in <path>/Data/
#define WRITE_GENERIC_RESULT
#define WITH_GEOMETRY_FILTER
#include "vtkActor.h"
#include "vtkDebugLeaks.h"
#include "vtkPointData.h"
#include "vtkProperty.h"
#include "vtkTestUtilities.h"
#include "vtkRegressionTestImage.h"
#include "vtkRenderer.h"
#include "vtkRenderWindow.h"
#include "vtkRenderWindowInteractor.h"
#include "vtkUnstructuredGrid.h"
#include "vtkXMLUnstructuredGridReader.h"
#include "vtkBridgeDataSet.h"
#include "vtkGenericDataSetTessellator.h"
#include "vtkGenericCellTessellator.h"
#include "vtkGenericSubdivisionErrorMetric.h"
#include <assert.h>
#include "vtkLookupTable.h"
#include "vtkDataSetMapper.h"
#include "vtkLabeledDataMapper.h"
#include "vtkActor2D.h"
#include "vtkCommand.h"
#include "vtkGeometricErrorMetric.h"
#include "vtkAttributesErrorMetric.h"
#include "vtkSimpleCellTessellator.h"
#ifdef WITH_GEOMETRY_FILTER
#include "vtkGeometryFilter.h"
#include "vtkPolyDataMapper.h"
#endif
#ifdef WRITE_GENERIC_RESULT
# include "vtkXMLUnstructuredGridWriter.h"
#endif // #ifdef WRITE_GENERIC_RESULT
// debugging when clipping on n=(1,1,1) c=(0.5,0,0)
//#include "vtkExtractGeometry.h"
//#include "vtkSphere.h"
// Remark about the lookup tables that seem different between the
// GenericGeometryFilter and GenericDataSetTessellator:
// the lookup table is set for the whole unstructured grid, the tetra plus
// the triangle. The lookup table changed because of the tetra: the
// GenericDataSetTessellator need to create inside sub-tetra that have
// minimal attributes, the GenericGeometryFilter just need to tessellate the
// face of the tetra, for which the values at points are not minimal.
class SwitchLabelsCallback
: public vtkCommand
{
public:
static SwitchLabelsCallback *New()
{ return new SwitchLabelsCallback; }
void SetLabeledDataMapper(vtkLabeledDataMapper *aLabeledDataMapper)
{
this->LabeledDataMapper=aLabeledDataMapper;
}
void SetRenderWindow(vtkRenderWindow *aRenWin)
{
this->RenWin=aRenWin;
}
virtual void Execute(vtkObject *vtkNotUsed(caller), unsigned long, void*)
{
if(this->LabeledDataMapper->GetLabelMode()==VTK_LABEL_SCALARS)
{
this->LabeledDataMapper->SetLabelMode(VTK_LABEL_IDS);
}
else
{
this->LabeledDataMapper->SetLabelMode(VTK_LABEL_SCALARS);
}
this->RenWin->Render();
}
protected:
vtkLabeledDataMapper *LabeledDataMapper;
vtkRenderWindow *RenWin;
};
int TestGenericDataSetTessellator(int argc, char* argv[])
{
// Standard rendering classes
vtkRenderer *renderer = vtkRenderer::New();
vtkRenderWindow *renWin = vtkRenderWindow::New();
renWin->AddRenderer(renderer);
vtkRenderWindowInteractor *iren = vtkRenderWindowInteractor::New();
iren->SetRenderWindow(renWin);
// Load the mesh geometry and data from a file
vtkXMLUnstructuredGridReader *reader = vtkXMLUnstructuredGridReader::New();
char *cfname = vtkTestUtilities::ExpandDataFileName(argc, argv, "Data/quadraticTetra01.vtu");
// char *cfname = vtkTestUtilities::ExpandDataFileName(argc, argv, "Data/quadTet4.vtu");
// char *cfname = vtkTestUtilities::ExpandDataFileName(argc, argv, "Data/tetraMesh.vtu");
// char *cfname = vtkTestUtilities::ExpandDataFileName(argc, argv, "Data/Test2_Volume.vtu");
// char *cfname = vtkTestUtilities::ExpandDataFileName(argc, argv, "Data/quadHexa01.vtu");
// char *cfname = vtkTestUtilities::ExpandDataFileName(argc, argv, "Data/quadQuad01.vtu");
reader->SetFileName( cfname );
delete[] cfname;
// Force reading
reader->Update();
// Initialize the bridge
vtkBridgeDataSet *ds=vtkBridgeDataSet::New();
ds->SetDataSet( reader->GetOutput() );
reader->Delete();
// Set the error metric thresholds:
// 1. for the geometric error metric
vtkGeometricErrorMetric *geometricError=vtkGeometricErrorMetric::New();
geometricError->SetRelativeGeometricTolerance(0.1,ds);
ds->GetTessellator()->GetErrorMetrics()->AddItem(geometricError);
geometricError->Delete();
// 2. for the attribute error metric
vtkAttributesErrorMetric *attributesError=vtkAttributesErrorMetric::New();
attributesError->SetAttributeTolerance(0.01); // 0.11, 0.005
ds->GetTessellator()->GetErrorMetrics()->AddItem(attributesError);
attributesError->Delete();
cout<<"input unstructured grid: "<<ds<<endl;
static_cast<vtkSimpleCellTessellator *>(ds->GetTessellator())->SetSubdivisionLevels(0,100);
vtkIndent indent;
ds->PrintSelf(cout,indent);
// Create the filter
vtkGenericDataSetTessellator *tessellator = vtkGenericDataSetTessellator::New();
tessellator->SetInput(ds);
tessellator->Update(); //So that we can call GetRange() on the scalars
assert(tessellator->GetOutput()!=0);
// for debugging clipping on the hexa
#if 0
vtkExtractGeometry *eg=vtkExtractGeometry::New();
eg->SetInputConnection(tessellator->GetOutputPort());
vtkSphere *sphere=vtkSphere::New();
sphere->SetRadius(0.1);
sphere->SetCenter(0,0,0);
eg->SetImplicitFunction(sphere);
eg->SetExtractInside(1);
eg->SetExtractBoundaryCells(0);
vtkXMLUnstructuredGridWriter *cwriter=vtkXMLUnstructuredGridWriter::New();
cwriter->SetInputConnection(eg->GetOutputPort());
cwriter->SetFileName("extracted_tessellated.vtu");
cwriter->SetDataModeToAscii();
cwriter->Write();
cwriter->Delete();
sphere->Delete();
eg->Delete();
#endif
// This creates a blue to red lut.
vtkLookupTable *lut = vtkLookupTable::New();
lut->SetHueRange (0.667, 0.0);
#ifdef WITH_GEOMETRY_FILTER
vtkGeometryFilter *geom = vtkGeometryFilter::New();
geom->SetInputConnection(tessellator->GetOutputPort());
vtkPolyDataMapper *mapper = vtkPolyDataMapper::New();
mapper->SetInputConnection( geom->GetOutputPort() );
geom->Delete();
#else
vtkDataSetMapper *mapper = vtkDataSetMapper::New();
mapper->SetInputConnection( tessellator->GetOutputPort() );
#endif
mapper->SetLookupTable(lut);
if(tessellator->GetOutput()->GetPointData()!=0)
{
if(tessellator->GetOutput()->GetPointData()->GetScalars()!=0)
{
mapper->SetScalarRange( tessellator->GetOutput()->GetPointData()->
GetScalars()->GetRange());
}
}
vtkActor *actor = vtkActor::New();
actor->SetMapper(mapper);
renderer->AddActor(actor);
#ifdef WRITE_GENERIC_RESULT
// Save the result of the filter in a file
vtkXMLUnstructuredGridWriter *writer=vtkXMLUnstructuredGridWriter::New();
writer->SetInputConnection(tessellator->GetOutputPort());
writer->SetFileName("tessellated.vtu");
writer->SetDataModeToAscii();
writer->Write();
writer->Delete();
#endif // #ifdef WRITE_GENERIC_RESULT
vtkActor2D *actorLabel=vtkActor2D::New();
vtkLabeledDataMapper *labeledDataMapper=vtkLabeledDataMapper::New();
labeledDataMapper->SetLabelMode(VTK_LABEL_IDS);
labeledDataMapper->SetInputConnection(tessellator->GetOutputPort());
actorLabel->SetMapper(labeledDataMapper);
labeledDataMapper->Delete();
renderer->AddActor(actorLabel);
actorLabel->SetVisibility(0);
actorLabel->Delete();
// Standard testing code.
renderer->SetBackground(0.5,0.5,0.5);
renWin->SetSize(300,300);
renWin->Render();
tessellator->GetOutput()->PrintSelf(cout,indent);
int retVal = vtkRegressionTestImage( renWin );
if ( retVal == vtkRegressionTester::DO_INTERACTOR)
{
SwitchLabelsCallback *switchLabels=SwitchLabelsCallback::New();
switchLabels->SetRenderWindow(renWin);
switchLabels->SetLabeledDataMapper(labeledDataMapper);
iren->AddObserver(vtkCommand::UserEvent,switchLabels);
switchLabels->Delete();
iren->Start();
}
// Cleanup
renderer->Delete();
renWin->Delete();
iren->Delete();
mapper->Delete();
actor->Delete();
tessellator->Delete();
ds->Delete();
lut->Delete();
return !retVal;
}
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