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Merge topic 'fe-structured'
1538fc02f Implement Flying Edges for all structured CellSets Acked-by: Kitware Robot <kwrobot@kitware.com> Acked-by: Kenneth Moreland <morelandkd@ornl.gov> Merge-request: !3056
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5
docs/changelog/flying-edges-structured.md
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5
docs/changelog/flying-edges-structured.md
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@ -0,0 +1,5 @@
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# Implement Flying Edges for structured cellsets with rectilinear and curvilinear coordinates
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When Flying Edges was introduced to compute contours of a 3D structured cellset, it could only process uniform coordinates. This limitation is now lifted : an alternative interpolation function can be used in the fourth pass of the algorithm in order to support rectilinear and curvilinear coordinate systems.
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Accordingly, the `Contour` filter now calls `ContourFlyingEdges` instead of `ContourMarchingCells` for these newly supported cases.
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@ -13,7 +13,7 @@
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#include <vtkm/cont/ArrayCopy.h>
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#include <vtkm/cont/testing/MakeTestDataSet.h>
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#include <vtkm/cont/testing/Testing.h>
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#include <vtkm/filter/contour/Contour.h>
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#include <vtkm/filter/contour/ContourMarchingCells.h>
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namespace
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{
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@ -72,13 +72,7 @@ void TestPointMerging()
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vtkm::cont::testing::MakeTestDataSet makeDataSet;
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vtkm::cont::DataSet baseData = makeDataSet.Make3DUniformDataSet3(vtkm::Id3(4, 4, 4));
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//Convert the baseData implicit points to explicit points, since the contour
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//filter for uniform data always does point merging
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vtkm::cont::ArrayHandle<vtkm::Vec3f> newcoords;
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vtkm::cont::ArrayCopy(baseData.GetCoordinateSystem().GetData(), newcoords);
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baseData.AddPointField(baseData.GetCoordinateSystemName(), newcoords);
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vtkm::filter::contour::Contour marchingCubes;
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vtkm::filter::contour::ContourMarchingCells marchingCubes;
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marchingCubes.SetIsoValue(0.05);
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marchingCubes.SetMergeDuplicatePoints(false);
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marchingCubes.SetActiveField("pointvar");
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@ -34,11 +34,8 @@ vtkm::cont::DataSet Contour::DoExecute(const vtkm::cont::DataSet& inDataSet)
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auto inCoords = inDataSet.GetCoordinateSystem(this->GetActiveCoordinateSystemIndex()).GetData();
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std::unique_ptr<vtkm::filter::contour::AbstractContour> implementation;
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// For now, Flying Edges is only used for 3D Structured CellSets,
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// using Uniform coordinates.
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if (inCellSet.template IsType<vtkm::cont::CellSetStructured<3>>() &&
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inCoords.template IsType<
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vtkm::cont::ArrayHandle<vtkm::Vec3f, vtkm::cont::StorageTagUniformPoints>>())
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// Flying Edges is only used for 3D Structured CellSets
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if (inCellSet.template IsType<vtkm::cont::CellSetStructured<3>>())
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{
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VTKM_LOG_S(vtkm::cont::LogLevel::Info, "Using flying edges");
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implementation.reset(new vtkm::filter::contour::ContourFlyingEdges);
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@ -44,13 +44,10 @@ vtkm::cont::DataSet ContourFlyingEdges::DoExecute(const vtkm::cont::DataSet& inD
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const vtkm::cont::CoordinateSystem& inCoords =
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inDataSet.GetCoordinateSystem(this->GetActiveCoordinateSystemIndex());
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if (!inCellSet.template IsType<vtkm::cont::CellSetStructured<3>>() ||
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!inCoords.GetData()
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.template IsType<
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vtkm::cont::ArrayHandle<vtkm::Vec3f, vtkm::cont::StorageTagUniformPoints>>())
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if (!inCellSet.template IsType<vtkm::cont::CellSetStructured<3>>())
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{
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throw vtkm::cont::ErrorFilterExecution("This filter is only available for 3-Dimensional "
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"Structured Cell Sets using uniform point coordinates.");
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"Structured Cell Sets");
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}
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// Get the CellSet's known dynamic type
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@ -74,22 +71,11 @@ vtkm::cont::DataSet ContourFlyingEdges::DoExecute(const vtkm::cont::DataSet& inD
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if (this->GenerateNormals && !this->GetComputeFastNormals())
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{
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outputCells = worklet.Run(
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ivalues,
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inputCells,
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inCoords.GetData().AsArrayHandle<vtkm::cont::ArrayHandleUniformPointCoordinates>(),
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concrete,
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vertices,
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normals);
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outputCells = worklet.Run(ivalues, inputCells, inCoords, concrete, vertices, normals);
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}
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else
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{
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outputCells = worklet.Run(
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ivalues,
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inputCells,
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inCoords.GetData().AsArrayHandle<vtkm::cont::ArrayHandleUniformPointCoordinates>(),
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concrete,
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vertices);
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outputCells = worklet.Run(ivalues, inputCells, inCoords, concrete, vertices);
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}
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};
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@ -176,24 +176,12 @@ public:
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void TestUnsupportedFlyingEdges() const
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{
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vtkm::cont::testing::MakeTestDataSet maker;
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vtkm::cont::DataSet rectilinearDataset = maker.Make3DRectilinearDataSet0();
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vtkm::cont::DataSet explicitDataSet = maker.Make3DExplicitDataSet0();
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vtkm::filter::contour::ContourFlyingEdges filter;
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filter.SetIsoValue(2.0);
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filter.SetActiveField("pointvar");
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try
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{
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filter.Execute(rectilinearDataset);
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VTKM_TEST_FAIL("Flying Edges filter should not run on datasets with rectilinear coordinates");
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}
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catch (vtkm::cont::ErrorFilterExecution&)
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{
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std::cout << "Execution successfully aborted" << std::endl;
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}
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try
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{
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filter.Execute(explicitDataSet);
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@ -205,6 +193,58 @@ public:
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}
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}
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template <typename ContourFilterType>
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void TestNonUniformStructured() const
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{
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auto pathname =
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vtkm::cont::testing::Testing::DataPath("rectilinear/simple_rectilinear1_ascii.vtk");
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vtkm::io::VTKDataSetReader reader(pathname);
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vtkm::cont::DataSet rectilinearDataset = reader.ReadDataSet();
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// Single-cell contour
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ContourFilterType filter;
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filter.SetActiveField("var");
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filter.SetIsoValue(2.0);
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vtkm::cont::DataSet outputSingleCell = filter.Execute(rectilinearDataset);
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auto coordinates = outputSingleCell.GetCoordinateSystem()
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.GetData()
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.AsArrayHandle<vtkm::cont::ArrayHandle<vtkm::Vec3f>>();
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VTKM_TEST_ASSERT(outputSingleCell.GetNumberOfPoints() == 3,
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"Wrong number of points in rectilinear contour");
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VTKM_TEST_ASSERT(outputSingleCell.GetNumberOfCells() == 1,
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"Wrong number of cells in rectilinear contour");
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VTKM_TEST_ASSERT(outputSingleCell.GetCellSet().GetCellShape(0) == vtkm::CELL_SHAPE_TRIANGLE,
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"Wrong contour cell shape");
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auto expectedCoordinates =
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vtkm::cont::make_ArrayHandle<vtkm::Vec3f>({ vtkm::Vec3f{ 10.0f, -10.0f, 9.66341f },
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vtkm::Vec3f{ 9.30578f, -10.0f, 10.0f },
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vtkm::Vec3f{ 10.0f, -9.78842f, 10.0f } });
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VTKM_TEST_ASSERT(test_equal_ArrayHandles(coordinates, expectedCoordinates),
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"Wrong contour coordinates");
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// Generating normals triggers a different worklet for Flying Edges pass 4,
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// But it should not change anything on the contour itself.
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filter.SetGenerateNormals(true);
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vtkm::cont::DataSet outputNormals = filter.Execute(rectilinearDataset);
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coordinates = outputSingleCell.GetCoordinateSystem()
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.GetData()
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.AsArrayHandle<vtkm::cont::ArrayHandle<vtkm::Vec3f>>();
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VTKM_TEST_ASSERT(test_equal_ArrayHandles(coordinates, expectedCoordinates),
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"Wrong contour coordinates");
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// Full contour
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filter.SetIsoValue(3.0);
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filter.SetGenerateNormals(false);
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vtkm::cont::DataSet output = filter.Execute(rectilinearDataset);
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VTKM_TEST_ASSERT(output.GetNumberOfPoints() == 93,
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"Wrong number of points in rectilinear contour");
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VTKM_TEST_ASSERT(output.GetNumberOfCells() == 144,
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"Wrong number of cells in rectilinear contour");
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}
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void operator()() const
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{
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this->TestContourUniformGrid<vtkm::filter::contour::Contour>(72);
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@ -220,6 +260,10 @@ public:
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this->TestContourWedges<vtkm::filter::contour::Contour>();
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this->TestContourWedges<vtkm::filter::contour::ContourMarchingCells>();
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this->TestNonUniformStructured<vtkm::filter::contour::Contour>();
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this->TestNonUniformStructured<vtkm::filter::contour::ContourFlyingEdges>();
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this->TestNonUniformStructured<vtkm::filter::contour::ContourMarchingCells>();
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this->TestUnsupportedFlyingEdges();
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}
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@ -67,13 +67,14 @@ public:
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// Filter called without normals generation
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template <typename ValueType,
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typename CoordsType,
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typename StorageTagField,
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typename CoordinateType,
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typename StorageTagVertices>
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vtkm::cont::CellSetSingleType<> Run(
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const std::vector<ValueType>& isovalues,
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const vtkm::cont::CellSetStructured<3>& cells,
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const vtkm::cont::ArrayHandleUniformPointCoordinates& coordinateSystem,
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const CoordsType& coordinateSystem,
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const vtkm::cont::ArrayHandle<ValueType, StorageTagField>& input,
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vtkm::cont::ArrayHandle<vtkm::Vec<CoordinateType, 3>, StorageTagVertices>& vertices)
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{
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@ -87,6 +88,7 @@ public:
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// Filter called with normals generation
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template <typename ValueType,
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typename CoordsType,
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typename StorageTagField,
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typename CoordinateType,
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typename StorageTagVertices,
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@ -94,7 +96,7 @@ public:
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vtkm::cont::CellSetSingleType<> Run(
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const std::vector<ValueType>& isovalues,
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const vtkm::cont::CellSetStructured<3>& cells,
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const vtkm::cont::ArrayHandleUniformPointCoordinates& coordinateSystem,
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const CoordsType& coordinateSystem,
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const vtkm::cont::ArrayHandle<ValueType, StorageTagField>& input,
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vtkm::cont::ArrayHandle<vtkm::Vec<CoordinateType, 3>, StorageTagVertices>& vertices,
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vtkm::cont::ArrayHandle<vtkm::Vec<CoordinateType, 3>, StorageTagNormals>& normals)
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@ -41,6 +41,7 @@ vtkm::Id extend_by(vtkm::cont::ArrayHandle<T, S>& handle, vtkm::Id size)
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//----------------------------------------------------------------------------
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template <typename ValueType,
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typename CoordsType,
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typename StorageTagField,
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typename StorageTagVertices,
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typename StorageTagNormals,
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@ -48,7 +49,7 @@ template <typename ValueType,
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typename NormalType>
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vtkm::cont::CellSetSingleType<> execute(
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const vtkm::cont::CellSetStructured<3>& cells,
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const vtkm::cont::ArrayHandleUniformPointCoordinates& coordinateSystem,
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const CoordsType coordinateSystem,
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const std::vector<ValueType>& isovalues,
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const vtkm::cont::ArrayHandle<ValueType, StorageTagField>& inputField,
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vtkm::cont::ArrayHandle<vtkm::Vec<CoordinateType, 3>, StorageTagVertices>& points,
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@ -56,18 +57,10 @@ vtkm::cont::CellSetSingleType<> execute(
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vtkm::worklet::contour::CommonState& sharedState)
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{
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vtkm::cont::Invoker invoke;
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vtkm::Vec3f origin, spacing;
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{ //extract out the origin and spacing as these are needed for Pass4 to properly
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//interpolate the new points
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auto portal = coordinateSystem.ReadPortal();
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origin = portal.GetOrigin();
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spacing = portal.GetSpacing();
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}
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auto pdims = cells.GetPointDimensions();
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vtkm::cont::ArrayHandle<vtkm::UInt8> edgeCases;
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edgeCases.Allocate(coordinateSystem.GetNumberOfValues());
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edgeCases.Allocate(coordinateSystem.GetData().GetNumberOfValues());
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vtkm::cont::CellSetStructured<2> metaDataMesh2D;
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vtkm::cont::ArrayHandle<vtkm::Id> metaDataLinearSums; //per point of metaDataMesh
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@ -158,8 +151,7 @@ vtkm::cont::CellSetSingleType<> execute(
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{
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VTKM_LOG_SCOPE(vtkm::cont::LogLevel::Perf, "FlyingEdges Pass4");
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launchComputePass4 pass4(
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pdims, origin, spacing, multiContourCellOffset, multiContourPointOffset);
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auto pass4 = launchComputePass4(pdims, multiContourCellOffset, multiContourPointOffset);
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detail::extend_by(points, newPointSize);
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if (sharedState.GenerateNormals)
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@ -171,6 +163,7 @@ vtkm::cont::CellSetSingleType<> execute(
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pass4,
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newPointSize,
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isoval,
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coordinateSystem,
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inputField,
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edgeCases,
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metaDataMesh2D,
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@ -28,20 +28,14 @@ namespace flying_edges
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struct launchComputePass4
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{
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vtkm::Id3 PointDims;
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vtkm::Vec3f Origin;
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vtkm::Vec3f Spacing;
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vtkm::Id CellWriteOffset;
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vtkm::Id PointWriteOffset;
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launchComputePass4(const vtkm::Id3& pdims,
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const vtkm::Vec3f& origin,
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const vtkm::Vec3f& spacing,
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vtkm::Id multiContourCellOffset,
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vtkm::Id multiContourPointOffset)
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: PointDims(pdims)
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, Origin(origin)
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, Spacing(spacing)
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, CellWriteOffset(multiContourCellOffset)
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, PointWriteOffset(multiContourPointOffset)
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{
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@ -49,6 +43,7 @@ struct launchComputePass4
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template <typename DeviceAdapterTag,
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typename T,
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typename CoordsType,
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typename StorageTagField,
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typename MeshSums,
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typename PointType,
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@ -56,6 +51,7 @@ struct launchComputePass4
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VTKM_CONT bool LaunchXAxis(DeviceAdapterTag device,
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vtkm::Id vtkmNotUsed(newPointSize),
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T isoval,
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CoordsType coordinateSystem,
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const vtkm::cont::ArrayHandle<T, StorageTagField>& inputField,
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vtkm::cont::ArrayHandle<vtkm::UInt8> edgeCases,
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vtkm::cont::CellSetStructured<2>& metaDataMesh2D,
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@ -71,12 +67,8 @@ struct launchComputePass4
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vtkm::cont::Invoker invoke(device);
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if (sharedState.GenerateNormals)
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{
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ComputePass4XWithNormals<T> worklet4(isoval,
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this->PointDims,
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this->Origin,
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this->Spacing,
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this->CellWriteOffset,
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this->PointWriteOffset);
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ComputePass4XWithNormals<T> worklet4(
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isoval, this->PointDims, this->CellWriteOffset, this->PointWriteOffset);
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invoke(worklet4,
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metaDataMesh2D,
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metaDataSums,
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@ -84,6 +76,7 @@ struct launchComputePass4
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metaDataMax,
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metaDataNumTris,
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edgeCases,
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coordinateSystem,
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inputField,
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triangle_topology,
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sharedState.InterpolationEdgeIds,
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@ -94,12 +87,8 @@ struct launchComputePass4
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}
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else
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{
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ComputePass4X<T> worklet4(isoval,
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this->PointDims,
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this->Origin,
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this->Spacing,
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this->CellWriteOffset,
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this->PointWriteOffset);
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ComputePass4X<T> worklet4(
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isoval, this->PointDims, this->CellWriteOffset, this->PointWriteOffset);
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invoke(worklet4,
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metaDataMesh2D,
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metaDataSums,
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@ -107,6 +96,7 @@ struct launchComputePass4
|
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metaDataMax,
|
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metaDataNumTris,
|
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edgeCases,
|
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coordinateSystem,
|
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inputField,
|
||||
triangle_topology,
|
||||
sharedState.InterpolationEdgeIds,
|
||||
@ -120,6 +110,7 @@ struct launchComputePass4
|
||||
|
||||
template <typename DeviceAdapterTag,
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typename T,
|
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typename CoordsType,
|
||||
typename StorageTagField,
|
||||
typename MeshSums,
|
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typename PointType,
|
||||
@ -127,6 +118,7 @@ struct launchComputePass4
|
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VTKM_CONT bool LaunchYAxis(DeviceAdapterTag device,
|
||||
vtkm::Id newPointSize,
|
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T isoval,
|
||||
CoordsType coordinateSystem,
|
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const vtkm::cont::ArrayHandle<T, StorageTagField>& inputField,
|
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vtkm::cont::ArrayHandle<vtkm::UInt8> edgeCases,
|
||||
vtkm::cont::CellSetStructured<2>& metaDataMesh2D,
|
||||
@ -157,11 +149,8 @@ struct launchComputePass4
|
||||
sharedState.CellIdMap);
|
||||
|
||||
//This needs to be done on array handle view ( start = this->PointWriteOffset, len = newPointSize)
|
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ComputePass5Y<T> worklet5(this->PointDims,
|
||||
this->Origin,
|
||||
this->Spacing,
|
||||
this->PointWriteOffset,
|
||||
sharedState.GenerateNormals);
|
||||
ComputePass5Y<T> worklet5(this->PointDims, this->PointWriteOffset, sharedState.GenerateNormals);
|
||||
|
||||
invoke(worklet5,
|
||||
vtkm::cont::make_ArrayHandleView(
|
||||
sharedState.InterpolationEdgeIds, this->PointWriteOffset, newPointSize),
|
||||
@ -169,6 +158,7 @@ struct launchComputePass4
|
||||
sharedState.InterpolationWeights, this->PointWriteOffset, newPointSize),
|
||||
vtkm::cont::make_ArrayHandleView(points, this->PointWriteOffset, newPointSize),
|
||||
inputField,
|
||||
coordinateSystem,
|
||||
normals);
|
||||
|
||||
return true;
|
||||
|
@ -32,9 +32,6 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
{
|
||||
|
||||
vtkm::Id3 PointDims;
|
||||
vtkm::Vec3f Origin;
|
||||
vtkm::Vec3f Spacing;
|
||||
|
||||
T IsoValue;
|
||||
|
||||
vtkm::Id CellWriteOffset;
|
||||
@ -43,13 +40,9 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
ComputePass4X() {}
|
||||
ComputePass4X(T value,
|
||||
const vtkm::Id3& pdims,
|
||||
const vtkm::Vec3f& origin,
|
||||
const vtkm::Vec3f& spacing,
|
||||
vtkm::Id multiContourCellOffset,
|
||||
vtkm::Id multiContourPointOffset)
|
||||
: PointDims(pdims)
|
||||
, Origin(origin)
|
||||
, Spacing(spacing)
|
||||
, IsoValue(value)
|
||||
, CellWriteOffset(multiContourCellOffset)
|
||||
, PointWriteOffset(multiContourPointOffset)
|
||||
@ -62,6 +55,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
FieldInPoint axis_maxs,
|
||||
WholeArrayIn cell_tri_count,
|
||||
WholeArrayIn edgeData,
|
||||
WholeArrayIn coords,
|
||||
WholeArrayIn data,
|
||||
WholeArrayOut connectivity,
|
||||
WholeArrayOut edgeIds,
|
||||
@ -69,13 +63,14 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
WholeArrayOut inputCellIds,
|
||||
WholeArrayOut points);
|
||||
using ExecutionSignature =
|
||||
void(ThreadIndices, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, WorkIndex);
|
||||
void(ThreadIndices, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, WorkIndex);
|
||||
|
||||
template <typename ThreadIndices,
|
||||
typename FieldInPointId3,
|
||||
typename FieldInPointId,
|
||||
typename WholeTriField,
|
||||
typename WholeEdgeField,
|
||||
typename WholeCoordsField,
|
||||
typename WholeDataField,
|
||||
typename WholeConnField,
|
||||
typename WholeEdgeIdField,
|
||||
@ -88,6 +83,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
const FieldInPointId& axis_maxs,
|
||||
const WholeTriField& cellTriCount,
|
||||
const WholeEdgeField& edges,
|
||||
const WholeCoordsField& coords,
|
||||
const WholeDataField& field,
|
||||
const WholeConnField& conn,
|
||||
const WholeEdgeIdField& interpolatedEdgeIds,
|
||||
@ -141,6 +137,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
field,
|
||||
interpolatedEdgeIds,
|
||||
weights,
|
||||
coords,
|
||||
points,
|
||||
state.startPos,
|
||||
increments,
|
||||
@ -158,12 +155,14 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
template <typename WholeDataField,
|
||||
typename WholeIEdgeField,
|
||||
typename WholeWeightField,
|
||||
typename WholeCoordsField,
|
||||
typename WholePointField>
|
||||
VTKM_EXEC inline void Generate(const vtkm::Vec<vtkm::UInt8, 3>& boundaryStatus,
|
||||
const vtkm::Id3& ijk,
|
||||
const WholeDataField& field,
|
||||
const WholeIEdgeField& interpolatedEdgeIds,
|
||||
const WholeWeightField& weights,
|
||||
const WholeCoordsField coords,
|
||||
const WholePointField& points,
|
||||
const vtkm::Id4& startPos,
|
||||
const vtkm::Id3& incs,
|
||||
@ -188,7 +187,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
interpolatedEdgeIds.Set(writeIndex, pos);
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto coord = this->InterpolateCoordinate(t, ijk, ijk + vtkm::Id3{ 1, 0, 0 });
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk, ijk + vtkm::Id3{ 1, 0, 0 });
|
||||
points.Set(writeIndex, coord);
|
||||
}
|
||||
if (edgeUses[4])
|
||||
@ -201,7 +200,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
interpolatedEdgeIds.Set(writeIndex, pos);
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto coord = this->InterpolateCoordinate(t, ijk, ijk + vtkm::Id3{ 0, 1, 0 });
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk, ijk + vtkm::Id3{ 0, 1, 0 });
|
||||
points.Set(writeIndex, coord);
|
||||
}
|
||||
if (edgeUses[8])
|
||||
@ -214,7 +213,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
interpolatedEdgeIds.Set(writeIndex, pos);
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto coord = this->InterpolateCoordinate(t, ijk, ijk + vtkm::Id3{ 0, 0, 1 });
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk, ijk + vtkm::Id3{ 0, 0, 1 });
|
||||
points.Set(writeIndex, coord);
|
||||
}
|
||||
}
|
||||
@ -231,30 +230,30 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
const bool onZ = boundaryStatus[AxisToSum::zindex] & FlyingEdges3D::MaxBoundary;
|
||||
if (onX) //+x boundary
|
||||
{
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 5, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 9, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 5, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 9, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
if (onY) //+x +y
|
||||
{
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 11, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 11, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
}
|
||||
if (onZ) //+x +z
|
||||
{
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 7, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 7, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
}
|
||||
}
|
||||
if (onY) //+y boundary
|
||||
{
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 1, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 10, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 1, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 10, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
if (onZ) //+y +z boundary
|
||||
{
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 3, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 3, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
}
|
||||
}
|
||||
if (onZ) //+z boundary
|
||||
{
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 2, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 6, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 2, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
this->InterpolateEdge(ijk, pos[0], incs, 6, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points);
|
||||
}
|
||||
// clang-format on
|
||||
}
|
||||
@ -264,6 +263,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
template <typename WholeField,
|
||||
typename WholeIEdgeField,
|
||||
typename WholeWeightField,
|
||||
typename WholeCoordsField,
|
||||
typename WholePointField>
|
||||
VTKM_EXEC inline void InterpolateEdge(const vtkm::Id3& ijk,
|
||||
vtkm::Id currentIdx,
|
||||
@ -274,6 +274,7 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
const WholeField& field,
|
||||
const WholeIEdgeField& interpolatedEdgeIds,
|
||||
const WholeWeightField& weights,
|
||||
const WholeCoordsField& coords,
|
||||
const WholePointField& points) const
|
||||
{
|
||||
using AxisToSum = SumXAxis;
|
||||
@ -300,30 +301,49 @@ struct ComputePass4X : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
T t = static_cast<T>((this->IsoValue - s0) / (s1 - s0));
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto coord = this->InterpolateCoordinate(t, ijk + offsets1, ijk + offsets2);
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk + offsets1, ijk + offsets2);
|
||||
points.Set(writeIndex, coord);
|
||||
}
|
||||
|
||||
// Fast interpolation method for uniform coordinates
|
||||
//----------------------------------------------------------------------------
|
||||
inline VTKM_EXEC vtkm::Vec3f InterpolateCoordinate(T t,
|
||||
const vtkm::Id3& ijk0,
|
||||
const vtkm::Id3& ijk1) const
|
||||
inline VTKM_EXEC vtkm::Vec3f InterpolateCoordinate(
|
||||
vtkm::internal::ArrayPortalUniformPointCoordinates coords,
|
||||
T t,
|
||||
const vtkm::Id3& ijk0,
|
||||
const vtkm::Id3& ijk1) const
|
||||
{
|
||||
return vtkm::Vec3f(
|
||||
this->Origin[0] +
|
||||
this->Spacing[0] *
|
||||
coords.GetOrigin()[0] +
|
||||
coords.GetSpacing()[0] *
|
||||
(static_cast<vtkm::FloatDefault>(ijk0[0]) +
|
||||
static_cast<vtkm::FloatDefault>(t) * static_cast<vtkm::FloatDefault>(ijk1[0] - ijk0[0])),
|
||||
this->Origin[1] +
|
||||
this->Spacing[1] *
|
||||
coords.GetOrigin()[1] +
|
||||
coords.GetSpacing()[1] *
|
||||
(static_cast<vtkm::FloatDefault>(ijk0[1]) +
|
||||
static_cast<vtkm::FloatDefault>(t) * static_cast<vtkm::FloatDefault>(ijk1[1] - ijk0[1])),
|
||||
this->Origin[2] +
|
||||
this->Spacing[2] *
|
||||
coords.GetOrigin()[2] +
|
||||
coords.GetSpacing()[2] *
|
||||
(static_cast<vtkm::FloatDefault>(ijk0[2]) +
|
||||
static_cast<vtkm::FloatDefault>(t) *
|
||||
static_cast<vtkm::FloatDefault>(ijk1[2] - ijk0[2])));
|
||||
}
|
||||
|
||||
// Interpolation for explicit coordinates
|
||||
//----------------------------------------------------------------------------
|
||||
template <typename CoordsPortal>
|
||||
inline VTKM_EXEC vtkm::Vec3f InterpolateCoordinate(CoordsPortal coords,
|
||||
T t,
|
||||
const vtkm::Id3& ijk0,
|
||||
const vtkm::Id3& ijk1) const
|
||||
{
|
||||
return (1.0f - static_cast<vtkm::FloatDefault>(t)) *
|
||||
coords.Get(ijk0[0] + this->PointDims[0] * ijk0[1] +
|
||||
this->PointDims[0] * this->PointDims[1] * ijk0[2]) +
|
||||
static_cast<vtkm::FloatDefault>(t) *
|
||||
coords.Get(ijk1[0] + this->PointDims[0] * ijk1[1] +
|
||||
this->PointDims[0] * this->PointDims[1] * ijk1[2]);
|
||||
}
|
||||
};
|
||||
}
|
||||
}
|
||||
|
@ -31,9 +31,6 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
{
|
||||
|
||||
vtkm::Id3 PointDims;
|
||||
vtkm::Vec3f Origin;
|
||||
vtkm::Vec3f Spacing;
|
||||
|
||||
T IsoValue;
|
||||
|
||||
vtkm::Id CellWriteOffset;
|
||||
@ -42,13 +39,9 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
ComputePass4XWithNormals() {}
|
||||
ComputePass4XWithNormals(T value,
|
||||
const vtkm::Id3& pdims,
|
||||
const vtkm::Vec3f& origin,
|
||||
const vtkm::Vec3f& spacing,
|
||||
vtkm::Id multiContourCellOffset,
|
||||
vtkm::Id multiContourPointOffset)
|
||||
: PointDims(pdims)
|
||||
, Origin(origin)
|
||||
, Spacing(spacing)
|
||||
, IsoValue(value)
|
||||
, CellWriteOffset(multiContourCellOffset)
|
||||
, PointWriteOffset(multiContourPointOffset)
|
||||
@ -61,6 +54,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
FieldInPoint axis_maxs,
|
||||
WholeArrayIn cell_tri_count,
|
||||
WholeArrayIn edgeData,
|
||||
WholeArrayIn coords,
|
||||
WholeArrayIn data,
|
||||
WholeArrayOut connectivity,
|
||||
WholeArrayOut edgeIds,
|
||||
@ -69,13 +63,14 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
WholeArrayOut points,
|
||||
WholeArrayOut normals);
|
||||
using ExecutionSignature =
|
||||
void(ThreadIndices, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, WorkIndex);
|
||||
void(ThreadIndices, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, WorkIndex);
|
||||
|
||||
template <typename ThreadIndices,
|
||||
typename FieldInPointId3,
|
||||
typename FieldInPointId,
|
||||
typename WholeTriField,
|
||||
typename WholeEdgeField,
|
||||
typename WholeCoordsField,
|
||||
typename WholeDataField,
|
||||
typename WholeConnField,
|
||||
typename WholeEdgeIdField,
|
||||
@ -89,6 +84,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
const FieldInPointId& axis_maxs,
|
||||
const WholeTriField& cellTriCount,
|
||||
const WholeEdgeField& edges,
|
||||
const WholeCoordsField& coords,
|
||||
const WholeDataField& field,
|
||||
const WholeConnField& conn,
|
||||
const WholeEdgeIdField& interpolatedEdgeIds,
|
||||
@ -144,6 +140,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
field,
|
||||
interpolatedEdgeIds,
|
||||
weights,
|
||||
coords,
|
||||
points,
|
||||
normals,
|
||||
state.startPos,
|
||||
@ -162,6 +159,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
template <typename WholeDataField,
|
||||
typename WholeIEdgeField,
|
||||
typename WholeWeightField,
|
||||
typename WholeCoordsField,
|
||||
typename WholePointField,
|
||||
typename WholeNormalField>
|
||||
VTKM_EXEC inline void Generate(const vtkm::Vec<vtkm::UInt8, 3>& boundaryStatus,
|
||||
@ -169,6 +167,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
const WholeDataField& field,
|
||||
const WholeIEdgeField& interpolatedEdgeIds,
|
||||
const WholeWeightField& weights,
|
||||
const WholeCoordsField coords,
|
||||
const WholePointField& points,
|
||||
const WholeNormalField& normals,
|
||||
const vtkm::Id4& startPos,
|
||||
@ -197,7 +196,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto ijk1 = ijk + vtkm::Id3{ 1, 0, 0 };
|
||||
auto coord = this->InterpolateCoordinate(t, ijk, ijk1);
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk, ijk1);
|
||||
points.Set(writeIndex, coord);
|
||||
|
||||
//gradient generation
|
||||
@ -216,7 +215,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto ijk1 = ijk + vtkm::Id3{ 0, 1, 0 };
|
||||
auto coord = this->InterpolateCoordinate(t, ijk, ijk1);
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk, ijk1);
|
||||
points.Set(writeIndex, coord);
|
||||
|
||||
//gradient generation
|
||||
@ -235,7 +234,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto ijk1 = ijk + vtkm::Id3{ 0, 0, 1 };
|
||||
auto coord = this->InterpolateCoordinate(t, ijk, ijk1);
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk, ijk1);
|
||||
points.Set(writeIndex, coord);
|
||||
|
||||
//gradient generation
|
||||
@ -258,38 +257,38 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
if (onX) //+x boundary
|
||||
{
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 5, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 5, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 9, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 9, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
if (onY) //+x +y
|
||||
{
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 11, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 11, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
}
|
||||
if (onZ) //+x +z
|
||||
{
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 7, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 7, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
}
|
||||
}
|
||||
if (onY) //+y boundary
|
||||
{
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 1, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 1, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 10, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 10, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
if (onZ) //+y +z boundary
|
||||
{
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 3, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 3, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
}
|
||||
}
|
||||
if (onZ) //+z boundary
|
||||
{
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 2, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 2, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
this->InterpolateEdge(
|
||||
fullyInterior, ijk, pos[0], incs, 6, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, points, normals);
|
||||
fullyInterior, ijk, pos[0], incs, 6, edgeUses, edgeIds, field, interpolatedEdgeIds, weights, coords, points, normals);
|
||||
}
|
||||
// clang-format on
|
||||
}
|
||||
@ -300,6 +299,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
typename WholeIEdgeField,
|
||||
typename WholeWeightField,
|
||||
typename WholePointField,
|
||||
typename WholeCoordsField,
|
||||
typename WholeNormalField>
|
||||
VTKM_EXEC inline void InterpolateEdge(bool fullyInterior,
|
||||
const vtkm::Id3& ijk,
|
||||
@ -311,6 +311,7 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
const WholeField& field,
|
||||
const WholeIEdgeField& interpolatedEdgeIds,
|
||||
const WholeWeightField& weights,
|
||||
const WholeCoordsField& coords,
|
||||
const WholePointField& points,
|
||||
const WholeNormalField& normals) const
|
||||
{
|
||||
@ -338,36 +339,55 @@ struct ComputePass4XWithNormals : public vtkm::worklet::WorkletVisitCellsWithPoi
|
||||
T t = static_cast<T>((this->IsoValue - s0) / (s1 - s0));
|
||||
weights.Set(writeIndex, static_cast<vtkm::FloatDefault>(t));
|
||||
|
||||
auto coord = this->InterpolateCoordinate(t, ijk + offsets1, ijk + offsets2);
|
||||
auto coord = this->InterpolateCoordinate(coords, t, ijk + offsets1, ijk + offsets2);
|
||||
points.Set(writeIndex, coord);
|
||||
|
||||
auto g0 = this->ComputeGradient(fullyInterior, ijk + offsets1, incs, iEdge[0], field);
|
||||
auto g1 = this->ComputeGradient(fullyInterior, ijk + offsets2, incs, iEdge[1], field);
|
||||
auto g0 = this->ComputeGradient(fullyInterior, ijk + offsets1, incs, iEdge[0], field);
|
||||
g1 = g0 + (t * (g1 - g0));
|
||||
normals.Set(writeIndex, vtkm::Normal(g1));
|
||||
}
|
||||
|
||||
// Fast interpolation method for uniform coordinates
|
||||
//----------------------------------------------------------------------------
|
||||
inline VTKM_EXEC vtkm::Vec3f InterpolateCoordinate(T t,
|
||||
const vtkm::Id3& ijk0,
|
||||
const vtkm::Id3& ijk1) const
|
||||
inline VTKM_EXEC vtkm::Vec3f InterpolateCoordinate(
|
||||
const vtkm::internal::ArrayPortalUniformPointCoordinates& coords,
|
||||
T t,
|
||||
const vtkm::Id3& ijk0,
|
||||
const vtkm::Id3& ijk1) const
|
||||
{
|
||||
return vtkm::Vec3f(
|
||||
this->Origin[0] +
|
||||
this->Spacing[0] *
|
||||
coords.GetOrigin()[0] +
|
||||
coords.GetSpacing()[0] *
|
||||
(static_cast<vtkm::FloatDefault>(ijk0[0]) +
|
||||
static_cast<vtkm::FloatDefault>(t) * static_cast<vtkm::FloatDefault>(ijk1[0] - ijk0[0])),
|
||||
this->Origin[1] +
|
||||
this->Spacing[1] *
|
||||
coords.GetOrigin()[1] +
|
||||
coords.GetSpacing()[1] *
|
||||
(static_cast<vtkm::FloatDefault>(ijk0[1]) +
|
||||
static_cast<vtkm::FloatDefault>(t) * static_cast<vtkm::FloatDefault>(ijk1[1] - ijk0[1])),
|
||||
this->Origin[2] +
|
||||
this->Spacing[2] *
|
||||
coords.GetOrigin()[2] +
|
||||
coords.GetSpacing()[2] *
|
||||
(static_cast<vtkm::FloatDefault>(ijk0[2]) +
|
||||
static_cast<vtkm::FloatDefault>(t) *
|
||||
static_cast<vtkm::FloatDefault>(ijk1[2] - ijk0[2])));
|
||||
}
|
||||
|
||||
// Interpolation for explicit coordinates
|
||||
//----------------------------------------------------------------------------
|
||||
template <typename CoordsPortal>
|
||||
inline VTKM_EXEC vtkm::Vec3f InterpolateCoordinate(const CoordsPortal& coords,
|
||||
T t,
|
||||
const vtkm::Id3& ijk0,
|
||||
const vtkm::Id3& ijk1) const
|
||||
{
|
||||
return (1.0f - static_cast<vtkm::FloatDefault>(t)) *
|
||||
coords.Get(ijk0[0] + this->PointDims[0] * ijk0[1] +
|
||||
this->PointDims[0] * this->PointDims[1] * ijk0[2]) +
|
||||
static_cast<vtkm::FloatDefault>(t) *
|
||||
coords.Get(ijk1[0] + this->PointDims[0] * ijk1[1] +
|
||||
this->PointDims[0] * this->PointDims[1] * ijk1[2]);
|
||||
}
|
||||
|
||||
//----------------------------------------------------------------------------
|
||||
template <typename WholeDataField>
|
||||
VTKM_EXEC vtkm::Vec3f ComputeGradient(bool fullyInterior,
|
||||
|
@ -276,17 +276,11 @@ struct ComputePass4Y : public vtkm::worklet::WorkletVisitCellsWithPoints
|
||||
template <typename T>
|
||||
struct ComputePass5Y : public vtkm::worklet::WorkletMapField
|
||||
{
|
||||
|
||||
vtkm::internal::ArrayPortalUniformPointCoordinates Coordinates;
|
||||
vtkm::Id3 PointDims;
|
||||
vtkm::Id NormalWriteOffset;
|
||||
|
||||
ComputePass5Y() {}
|
||||
ComputePass5Y(const vtkm::Id3& pdims,
|
||||
const vtkm::Vec3f& origin,
|
||||
const vtkm::Vec3f& spacing,
|
||||
vtkm::Id normalWriteOffset,
|
||||
bool generateNormals)
|
||||
: Coordinates(pdims, origin, spacing)
|
||||
ComputePass5Y(const vtkm::Id3& pdims, vtkm::Id normalWriteOffset, bool generateNormals)
|
||||
: PointDims(pdims)
|
||||
, NormalWriteOffset(normalWriteOffset)
|
||||
{
|
||||
if (!generateNormals)
|
||||
@ -299,20 +293,25 @@ struct ComputePass5Y : public vtkm::worklet::WorkletMapField
|
||||
FieldIn interpWeight,
|
||||
FieldOut points,
|
||||
WholeArrayIn field,
|
||||
WholeArrayIn coords,
|
||||
WholeArrayOut normals);
|
||||
using ExecutionSignature = void(_1, _2, _3, _4, _5, WorkIndex);
|
||||
using ExecutionSignature = void(_1, _2, _3, _4, _5, _6, WorkIndex);
|
||||
|
||||
template <typename PT, typename WholeInputField, typename WholeNormalField>
|
||||
template <typename PT,
|
||||
typename WholeInputField,
|
||||
typename WholeNormalField,
|
||||
typename WholeCoordsField>
|
||||
VTKM_EXEC void operator()(const vtkm::Id2& interpEdgeIds,
|
||||
vtkm::FloatDefault weight,
|
||||
vtkm::Vec<PT, 3>& outPoint,
|
||||
const WholeInputField& field,
|
||||
const WholeCoordsField& coords,
|
||||
WholeNormalField& normals,
|
||||
vtkm::Id oidx) const
|
||||
{
|
||||
{
|
||||
vtkm::Vec3f point1 = this->Coordinates.Get(interpEdgeIds[0]);
|
||||
vtkm::Vec3f point2 = this->Coordinates.Get(interpEdgeIds[1]);
|
||||
vtkm::Vec3f point1 = coords.Get(interpEdgeIds[0]);
|
||||
vtkm::Vec3f point2 = coords.Get(interpEdgeIds[1]);
|
||||
outPoint = vtkm::Lerp(point1, point2, weight);
|
||||
}
|
||||
|
||||
@ -320,15 +319,13 @@ struct ComputePass5Y : public vtkm::worklet::WorkletMapField
|
||||
if (this->NormalWriteOffset >= 0)
|
||||
{
|
||||
vtkm::Vec<T, 3> g0, g1;
|
||||
const vtkm::Id3& dims = this->Coordinates.GetDimensions();
|
||||
vtkm::Id3 ijk{ interpEdgeIds[0] % dims[0],
|
||||
(interpEdgeIds[0] / dims[0]) % dims[1],
|
||||
interpEdgeIds[0] / (dims[0] * dims[1]) };
|
||||
vtkm::Id3 ijk{ interpEdgeIds[0] % this->PointDims[0],
|
||||
(interpEdgeIds[0] / this->PointDims[0]) % this->PointDims[1],
|
||||
interpEdgeIds[0] / (this->PointDims[0] * this->PointDims[1]) };
|
||||
|
||||
vtkm::worklet::gradient::StructuredPointGradient gradient;
|
||||
vtkm::exec::BoundaryState boundary(ijk, dims);
|
||||
vtkm::exec::FieldNeighborhood<vtkm::internal::ArrayPortalUniformPointCoordinates>
|
||||
coord_neighborhood(this->Coordinates, boundary);
|
||||
vtkm::exec::BoundaryState boundary(ijk, this->PointDims);
|
||||
vtkm::exec::FieldNeighborhood<WholeCoordsField> coord_neighborhood(coords, boundary);
|
||||
|
||||
vtkm::exec::FieldNeighborhood<WholeInputField> field_neighborhood(field, boundary);
|
||||
|
||||
@ -337,9 +334,9 @@ struct ComputePass5Y : public vtkm::worklet::WorkletMapField
|
||||
gradient(boundary, coord_neighborhood, field_neighborhood, g0);
|
||||
|
||||
//compute the gradient at point 2. This optimization can be optimized
|
||||
boundary.IJK = vtkm::Id3{ interpEdgeIds[1] % dims[0],
|
||||
(interpEdgeIds[1] / dims[0]) % dims[1],
|
||||
interpEdgeIds[1] / (dims[0] * dims[1]) };
|
||||
boundary.IJK = vtkm::Id3{ interpEdgeIds[1] % this->PointDims[0],
|
||||
(interpEdgeIds[1] / this->PointDims[0]) % this->PointDims[1],
|
||||
interpEdgeIds[1] / (this->PointDims[0] * this->PointDims[1]) };
|
||||
gradient(boundary, coord_neighborhood, field_neighborhood, g1);
|
||||
|
||||
vtkm::Vec3f n = vtkm::Lerp(g0, g1, weight);
|
||||
|
Loading…
Reference in New Issue
Block a user