InterpolateFieldDataDemo
VTKExamples/Cxx/Meshes/InterpolateFieldDataDemo
Description¶
This example uses vtkPointInterpolator probe a high resolution dataset with a lower resolution dataset. Then, using vtkInterpolateDataSetAttributes, interpolate between the original low resolution data and the probed, low resolution data.
Warning
For the vtkPointInterpolator, point arrays will not be interpolated unless PassPointArrays is off. vtkPointInterpolator does not interpolate vtkFieldData. To interpolate vtkFieldData it must be added as the active scalar.
Warning
vtkInterpolateDataSetAttibutes does not interpolate vtkFieldData. To interpolate vtkFieldData it must be added as the active scalar.
Thanks
This example was inspired by Andrew E. Slaughter, Idaho National Laboratory.
Code¶
InterpolateFieldDataDemo.cxx
// This example was derived a python script created by Andrew E. Slaughter #include <vtkSmartPointer.h> #include <vtkCompositeDataGeometryFilter.h> #include <vtkExodusIIReader.h> #include <vtkGaussianKernel.h> #include <vtkInterpolateDataSetAttributes.h> #include <vtkPointInterpolator.h> #include <vtkStaticPointLocator.h> #include <vtkNamedColors.h> #include <vtkActor.h> #include <vtkCamera.h> #include <vtkPolyDataMapper.h> #include <vtkDataSetMapper.h> #include <vtkLookupTable.h> #include <vtkPointData.h> #include <vtkProperty.h> #include <vtkRenderWindow.h> #include <vtkRenderWindowInteractor.h> #include <vtkRenderer.h> #include <vtkRenderer.h> #include <vtkUnstructuredGrid.h> #include <vtkMultiBlockDataSet.h> int main (int argc, char *argv[]) { std::string variable = "u"; double range[2] = {0, 10}; if (argc < 3) { std::cout << "Usage: " << argv[0] << " coarseMesh fineMesh" << std::endl; return EXIT_FAILURE; } std::string file0 = argv[1]; std::string file1 = argv[2]; /////////////////////////////////////////////////////////////////////////// // FILE 0: COARSE MESH WITH SOLUTION 0 vtkSmartPointer<vtkExodusIIReader> coarseReader = vtkSmartPointer<vtkExodusIIReader>::New(); coarseReader->SetFileName(file0.c_str()); coarseReader->UpdateInformation(); coarseReader->SetTimeStep(0); coarseReader->SetAllArrayStatus(vtkExodusIIReader::NODAL, 1); coarseReader->Update(); vtkSmartPointer<vtkCompositeDataGeometryFilter> coarseGeometry = vtkSmartPointer<vtkCompositeDataGeometryFilter>::New(); coarseGeometry->SetInputConnection(0, coarseReader->GetOutputPort(0)); coarseGeometry->Update(); vtkSmartPointer<vtkPolyDataMapper> coarseMapper = vtkSmartPointer<vtkPolyDataMapper>::New(); coarseMapper->SetInputConnection(coarseGeometry->GetOutputPort()); coarseMapper->SelectColorArray(variable.c_str()); coarseMapper->SetScalarModeToUsePointFieldData(); coarseMapper->InterpolateScalarsBeforeMappingOn(); coarseMapper->SetScalarRange(range); vtkSmartPointer<vtkActor> coarseActor = vtkSmartPointer<vtkActor>::New(); coarseActor->SetMapper(coarseMapper); coarseActor->GetProperty()->SetEdgeVisibility(true); vtkSmartPointer<vtkRenderer> coarseRenderer = vtkSmartPointer<vtkRenderer>::New(); coarseRenderer->AddViewProp(coarseActor); ///////////////////////////////////////////////////////////////////// // FILE 1: FINE MESH WITH SOLUTION 1 vtkSmartPointer<vtkExodusIIReader> fineReader = vtkSmartPointer<vtkExodusIIReader>::New(); fineReader->SetFileName(file1.c_str()); fineReader->UpdateInformation(); fineReader->SetTimeStep(0); fineReader->SetAllArrayStatus(vtkExodusIIReader::NODAL, 1); fineReader->Update(); vtkSmartPointer<vtkCompositeDataGeometryFilter> fineGeometry = vtkSmartPointer<vtkCompositeDataGeometryFilter>::New(); fineGeometry->SetInputConnection(0, fineReader->GetOutputPort(0)); fineGeometry->Update(); fineGeometry->GetOutput()->GetPointData()->SetActiveScalars(variable.c_str()); vtkSmartPointer<vtkPolyDataMapper> fineGeometryMapper = vtkSmartPointer<vtkPolyDataMapper>::New(); fineGeometryMapper->SetInputConnection(fineGeometry->GetOutputPort()); fineGeometryMapper->SelectColorArray(variable.c_str()); fineGeometryMapper->SetScalarModeToUsePointFieldData(); fineGeometryMapper->InterpolateScalarsBeforeMappingOn(); fineGeometryMapper->SetScalarRange(range); vtkSmartPointer<vtkActor> fineGeometryActor = vtkSmartPointer<vtkActor>::New(); fineGeometryActor->SetMapper(fineGeometryMapper); fineGeometryActor->GetProperty()->SetEdgeVisibility(true); vtkSmartPointer<vtkRenderer> fineGeometryRenderer = vtkSmartPointer<vtkRenderer>::New(); fineGeometryRenderer->AddViewProp(fineGeometryActor); ////////////////////////////////////////////////////////////////////// // PROJECT SOLUTION FROM FILE 0 to GRID FROM FILE 1 // Build the structure to interpolate onto vtkSmartPointer<vtkUnstructuredGrid> coarseInterpolatedGrid = // output to be interpolated on to vtkSmartPointer<vtkUnstructuredGrid>::New(); vtkMultiBlockDataSet *coarseMultiBlock = dynamic_cast<vtkMultiBlockDataSet *>(coarseReader->GetOutput()->GetBlock(0)); coarseInterpolatedGrid->DeepCopy(dynamic_cast<vtkUnstructuredGrid*>(coarseMultiBlock->GetBlock(0))); vtkSmartPointer<vtkStaticPointLocator> locator = vtkSmartPointer<vtkStaticPointLocator>::New(); locator->SetDataSet(fineGeometry->GetOutput()); locator->BuildLocator(); vtkSmartPointer<vtkGaussianKernel> kernel = vtkSmartPointer<vtkGaussianKernel>::New(); kernel->SetSharpness(4); kernel->SetKernelFootprintToNClosest(); kernel->SetNumberOfPoints(10); kernel->SetSharpness(4.0); // Probe the fine geometry with the course geometry. // NOTE: The point arrays will not be interpolated unless PassPointArrays is off. vtkSmartPointer<vtkPointInterpolator> coarseInterpolator = vtkSmartPointer<vtkPointInterpolator>::New(); coarseInterpolator->SetSourceData(fineGeometry->GetOutput()); // Pc data set to be probed by input points P coarseInterpolator->SetInputData(coarseGeometry->GetOutput()); coarseInterpolator->SetKernel(kernel); coarseInterpolator->SetLocator(locator); coarseInterpolator->SetNullPointsStrategyToClosestPoint(); coarseInterpolator->PassPointArraysOff(); coarseInterpolator->Update(); vtkSmartPointer<vtkDataSetMapper> coarseInterpolatorMapper = vtkSmartPointer<vtkDataSetMapper>::New(); coarseInterpolatorMapper->SetInputConnection(coarseInterpolator->GetOutputPort()); coarseInterpolatorMapper->SelectColorArray(variable.c_str()); coarseInterpolatorMapper->SetScalarModeToUsePointFieldData(); coarseInterpolatorMapper->InterpolateScalarsBeforeMappingOn(); coarseInterpolatorMapper->SetScalarRange(range); vtkSmartPointer<vtkActor> coarseInterpolatorActor = vtkSmartPointer<vtkActor>::New(); coarseInterpolatorActor->SetMapper(coarseInterpolatorMapper); coarseInterpolatorActor->GetProperty()->SetEdgeVisibility(true); vtkSmartPointer<vtkRenderer> coarseInterpolatorRenderer = vtkSmartPointer<vtkRenderer>::New(); coarseInterpolatorRenderer->AddActor(coarseInterpolatorActor); // Set the active scalar for the two inputs. // NOTE: InterpolateDataSetAttibutes does not interpolate field data. // To interpolate field data it must be added as the active scalar coarseInterpolatedGrid->GetPointData()->SetActiveScalars(variable.c_str()); coarseInterpolator->GetOutput()->GetPointData()->SetActiveScalars(variable.c_str()); vtkSmartPointer<vtkInterpolateDataSetAttributes> coarseInterpolateAttributes = vtkSmartPointer<vtkInterpolateDataSetAttributes>::New(); coarseInterpolateAttributes->AddInputData(0, coarseInterpolatedGrid); coarseInterpolateAttributes->AddInputData(0, coarseInterpolator->GetOutput()); coarseInterpolateAttributes->SetT(0.5); coarseInterpolateAttributes->Update(); vtkSmartPointer<vtkDataSetMapper> coarseInterpolateAttibutesMapper = vtkSmartPointer<vtkDataSetMapper>::New(); coarseInterpolateAttibutesMapper->SetInputConnection(coarseInterpolateAttributes->GetOutputPort()); coarseInterpolateAttibutesMapper->SelectColorArray(variable.c_str()); coarseInterpolateAttibutesMapper->SetScalarModeToUsePointFieldData(); coarseInterpolateAttibutesMapper->InterpolateScalarsBeforeMappingOn(); coarseInterpolateAttibutesMapper->SetScalarRange(range); vtkSmartPointer<vtkActor> coarseInterpolateAttributesActor = vtkSmartPointer<vtkActor>::New(); coarseInterpolateAttributesActor->SetMapper(coarseInterpolateAttibutesMapper); coarseInterpolateAttributesActor->GetProperty()->SetEdgeVisibility(true); vtkSmartPointer<vtkRenderer> coarseInterpolateAttributesRenderer = vtkSmartPointer<vtkRenderer>::New(); coarseInterpolateAttributesRenderer->AddActor(coarseInterpolateAttributesActor); ///////////////////////// // Window and Interactor vtkSmartPointer<vtkRenderWindow> window = vtkSmartPointer<vtkRenderWindow>::New(); // Use the same camera for each renderer fineGeometryRenderer->SetActiveCamera(coarseRenderer->GetActiveCamera()); coarseInterpolatorRenderer->SetActiveCamera(coarseRenderer->GetActiveCamera()); coarseInterpolateAttributesRenderer->SetActiveCamera(coarseRenderer->GetActiveCamera()); // Set each renderer color vtkSmartPointer<vtkNamedColors> colors = vtkSmartPointer<vtkNamedColors>::New(); coarseRenderer->SetBackground( colors->GetColor3d("Gainsboro").GetData()); coarseInterpolatorRenderer->SetBackground( colors->GetColor3d("LightGrey").GetData()); coarseInterpolateAttributesRenderer->SetBackground( colors->GetColor3d("Silver").GetData()); fineGeometryRenderer->SetBackground( colors->GetColor3d("DarkGray").GetData()); // Set the viewport for each renderer coarseRenderer->SetViewport(0, 0, 0.25, 1); coarseInterpolatorRenderer->SetViewport(0.25, 0, 0.5, 1); coarseInterpolateAttributesRenderer->SetViewport(0.5, 0, 0.75, 1); fineGeometryRenderer->SetViewport(0.75, 0, 1, 1); // Add the renderers window->AddRenderer(coarseRenderer); // low res window->AddRenderer(coarseInterpolatorRenderer); // interpolated geometry window->AddRenderer(coarseInterpolateAttributesRenderer); // interpolated attributes window->AddRenderer(fineGeometryRenderer); // hi res with point data // The size the window to hold 4 viewports of width 320 window->SetSize(1280, 320); // Create the interactor vtkSmartPointer<vtkRenderWindowInteractor> interactor = vtkSmartPointer<vtkRenderWindowInteractor>::New(); interactor->SetRenderWindow(window); window->Render(); interactor->Initialize(); // Reset the camera to a default view, shared by all coarseRenderer->ResetCamera(); interactor->Start(); return EXIT_SUCCESS; }
CMakeLists.txt¶
cmake_minimum_required(VERSION 3.3 FATAL_ERROR) project(InterpolateFieldDataDemo) find_package(VTK COMPONENTS vtkCommonColor vtkCommonCore vtkCommonDataModel vtkFiltersGeneral vtkFiltersGeometry vtkFiltersPoints vtkIOExodus vtkInteractionStyle vtkRenderingContextOpenGL2 vtkRenderingCore vtkRenderingFreeType vtkRenderingGL2PSOpenGL2 vtkRenderingOpenGL2 QUIET) if (NOT VTK_FOUND) message("Skipping InterpolateFieldDataDemo: ${VTK_NOT_FOUND_MESSAGE}") return () endif() message (STATUS "VTK_VERSION: ${VTK_VERSION}") if (VTK_VERSION VERSION_LESS "8.90.0") # old system include(${VTK_USE_FILE}) add_executable(InterpolateFieldDataDemo MACOSX_BUNDLE InterpolateFieldDataDemo.cxx ) target_link_libraries(InterpolateFieldDataDemo PRIVATE ${VTK_LIBRARIES}) else () # include all components add_executable(InterpolateFieldDataDemo MACOSX_BUNDLE InterpolateFieldDataDemo.cxx ) target_link_libraries(InterpolateFieldDataDemo PRIVATE ${VTK_LIBRARIES}) # vtk_module_autoinit is needed vtk_module_autoinit( TARGETS InterpolateFieldDataDemo MODULES ${VTK_LIBRARIES} ) endif ()
Download and Build InterpolateFieldDataDemo¶
Click here to download InterpolateFieldDataDemo and its CMakeLists.txt file. Once the tarball InterpolateFieldDataDemo.tar has been downloaded and extracted,
cd InterpolateFieldDataDemo/build
If VTK is installed:
cmake ..
If VTK is not installed but compiled on your system, you will need to specify the path to your VTK build:
cmake -DVTK_DIR:PATH=/home/me/vtk_build ..
Build the project:
make
and run it:
./InterpolateFieldDataDemo
WINDOWS USERS
Be sure to add the VTK bin directory to your path. This will resolve the VTK dll's at run time.