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241 lines
9.6 KiB
C++
241 lines
9.6 KiB
C++
//============================================================================
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// Copyright (c) Kitware, Inc.
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// All rights reserved.
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// See LICENSE.txt for details.
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// This software is distributed WITHOUT ANY WARRANTY; without even
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// the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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// PURPOSE. See the above copyright notice for more information.
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//
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// Copyright 2014 National Technology & Engineering Solutions of Sandia, LLC (NTESS).
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// Copyright 2014 UT-Battelle, LLC.
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// Copyright 2014 Los Alamos National Security.
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//
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// Under the terms of Contract DE-NA0003525 with NTESS,
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// the U.S. Government retains certain rights in this software.
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//
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// Under the terms of Contract DE-AC52-06NA25396 with Los Alamos National
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// Laboratory (LANL), the U.S. Government retains certain rights in
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// this software.
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//============================================================================
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#include <vtkm/worklet/DispatcherMapTopology.h>
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#include <vtkm/worklet/Gradient.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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namespace
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{
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template <typename DeviceAdapter>
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void TestPointGradientUniform2D()
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{
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std::cout << "Testing PointGradient Worklet on 2D structured data" << std::endl;
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vtkm::cont::testing::MakeTestDataSet testDataSet;
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vtkm::cont::DataSet dataSet = testDataSet.Make2DUniformDataSet0();
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vtkm::cont::ArrayHandle<vtkm::Float32> fieldArray;
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dataSet.GetField("pointvar").GetData().CopyTo(fieldArray);
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vtkm::worklet::PointGradient gradient;
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auto result =
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gradient.Run(dataSet.GetCellSet(), dataSet.GetCoordinateSystem(), fieldArray, DeviceAdapter());
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vtkm::Vec<vtkm::Float32, 3> expected[2] = { { 10, 30, 0 }, { 10, 30, 0 } };
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for (int i = 0; i < 2; ++i)
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{
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VTKM_TEST_ASSERT(test_equal(result.GetPortalConstControl().Get(i), expected[i]),
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"Wrong result for PointGradient worklet on 2D uniform data");
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}
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}
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template <typename DeviceAdapter>
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void TestPointGradientUniform3D()
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{
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std::cout << "Testing PointGradient Worklet on 3D structured data" << std::endl;
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vtkm::cont::testing::MakeTestDataSet testDataSet;
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vtkm::cont::DataSet dataSet = testDataSet.Make3DUniformDataSet0();
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vtkm::cont::ArrayHandle<vtkm::Float32> fieldArray;
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dataSet.GetField("pointvar").GetData().CopyTo(fieldArray);
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vtkm::worklet::PointGradient gradient;
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auto result =
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gradient.Run(dataSet.GetCellSet(), dataSet.GetCoordinateSystem(), fieldArray, DeviceAdapter());
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vtkm::Vec<vtkm::Float32, 3> expected[4] = {
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{ 10.0f, 30.f, 60.1f },
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{ 10.0f, 30.1f, 60.1f },
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{ 10.0f, 30.1f, 60.2f },
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{ 10.1f, 30.f, 60.2f },
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};
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for (int i = 0; i < 4; ++i)
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{
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VTKM_TEST_ASSERT(test_equal(result.GetPortalConstControl().Get(i), expected[i]),
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"Wrong result for PointGradient worklet on 3D uniform data");
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}
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}
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template <typename DeviceAdapter>
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void TestPointGradientUniform3DWithVectorField()
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{
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std::cout << "Testing PointGradient Worklet with a vector field on 3D structured data"
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<< std::endl;
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vtkm::cont::testing::MakeTestDataSet testDataSet;
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vtkm::cont::DataSet dataSet = testDataSet.Make3DUniformDataSet0();
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//Verify that we can compute the gradient of a 3 component vector
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const int nVerts = 18;
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vtkm::Float64 vars[nVerts] = { 10.1, 20.1, 30.1, 40.1, 50.2, 60.2, 70.2, 80.2, 90.3,
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100.3, 110.3, 120.3, 130.4, 140.4, 150.4, 160.4, 170.5, 180.5 };
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std::vector<vtkm::Vec<vtkm::Float64, 3>> vec(18);
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for (std::size_t i = 0; i < vec.size(); ++i)
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{
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vec[i] = vtkm::make_Vec(vars[i], vars[i], vars[i]);
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}
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vtkm::cont::ArrayHandle<vtkm::Vec<vtkm::Float64, 3>> input = vtkm::cont::make_ArrayHandle(vec);
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vtkm::worklet::PointGradient gradient;
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auto result =
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gradient.Run(dataSet.GetCellSet(), dataSet.GetCoordinateSystem(), input, DeviceAdapter());
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vtkm::Vec<vtkm::Vec<vtkm::Float64, 3>, 3> expected[4] = {
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{ { 10.0, 10.0, 10.0 }, { 30.0, 30.0, 30.0 }, { 60.1, 60.1, 60.1 } },
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{ { 10.0, 10.0, 10.0 }, { 30.1, 30.1, 30.1 }, { 60.1, 60.1, 60.1 } },
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{ { 10.0, 10.0, 10.0 }, { 30.1, 30.1, 30.1 }, { 60.2, 60.2, 60.2 } },
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{ { 10.1, 10.1, 10.1 }, { 30.0, 30.0, 30.0 }, { 60.2, 60.2, 60.2 } }
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};
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for (int i = 0; i < 4; ++i)
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{
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vtkm::Vec<vtkm::Vec<vtkm::Float64, 3>, 3> e = expected[i];
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vtkm::Vec<vtkm::Vec<vtkm::Float64, 3>, 3> r = result.GetPortalConstControl().Get(i);
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VTKM_TEST_ASSERT(test_equal(e[0], r[0]),
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"Wrong result for vec field PointGradient worklet on 3D uniform data");
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VTKM_TEST_ASSERT(test_equal(e[1], r[1]),
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"Wrong result for vec field PointGradient worklet on 3D uniform data");
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VTKM_TEST_ASSERT(test_equal(e[2], r[2]),
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"Wrong result for vec field PointGradient worklet on 3D uniform data");
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}
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}
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template <typename DeviceAdapter>
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void TestPointGradientUniform3DWithVectorField2()
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{
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std::cout << "Testing PointGradient Worklet with a vector field on 3D structured data"
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<< std::endl
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<< "Disabling Gradient computation and enabling Divergence, Vorticity, and QCriterion"
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<< std::endl;
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vtkm::cont::testing::MakeTestDataSet testDataSet;
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vtkm::cont::DataSet dataSet = testDataSet.Make3DUniformDataSet0();
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//Verify that we can compute the gradient of a 3 component vector
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const int nVerts = 18;
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vtkm::Float64 vars[nVerts] = { 10.1, 20.1, 30.1, 40.1, 50.2, 60.2, 70.2, 80.2, 90.3,
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100.3, 110.3, 120.3, 130.4, 140.4, 150.4, 160.4, 170.5, 180.5 };
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std::vector<vtkm::Vec<vtkm::Float64, 3>> vec(18);
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for (std::size_t i = 0; i < vec.size(); ++i)
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{
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vec[i] = vtkm::make_Vec(vars[i], vars[i], vars[i]);
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}
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vtkm::cont::ArrayHandle<vtkm::Vec<vtkm::Float64, 3>> input = vtkm::cont::make_ArrayHandle(vec);
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vtkm::worklet::GradientOutputFields<vtkm::Vec<vtkm::Float64, 3>> extraOutput;
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extraOutput.SetComputeGradient(false);
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extraOutput.SetComputeDivergence(true);
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extraOutput.SetComputeVorticity(true);
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extraOutput.SetComputeQCriterion(true);
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vtkm::worklet::PointGradient gradient;
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auto result = gradient.Run(
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dataSet.GetCellSet(), dataSet.GetCoordinateSystem(), input, extraOutput, DeviceAdapter());
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//Verify that the result is 0 size
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VTKM_TEST_ASSERT((result.GetNumberOfValues() == 0), "Gradient field shouldn't be generated");
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//Verify that the extra arrays are the correct size
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VTKM_TEST_ASSERT((extraOutput.Gradient.GetNumberOfValues() == 0),
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"Gradient field shouldn't be generated");
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VTKM_TEST_ASSERT((extraOutput.Divergence.GetNumberOfValues() == nVerts),
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"Divergence field should be generated");
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VTKM_TEST_ASSERT((extraOutput.Vorticity.GetNumberOfValues() == nVerts),
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"Vorticity field should be generated");
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VTKM_TEST_ASSERT((extraOutput.QCriterion.GetNumberOfValues() == nVerts),
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"QCriterion field should be generated");
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vtkm::Vec<vtkm::Vec<vtkm::Float64, 3>, 3> expected_gradients[4] = {
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{ { 10.0, 10.0, 10.0 }, { 30.0, 30.0, 30.0 }, { 60.1, 60.1, 60.1 } },
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{ { 10.0, 10.0, 10.0 }, { 30.1, 30.1, 30.1 }, { 60.1, 60.1, 60.1 } },
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{ { 10.0, 10.0, 10.0 }, { 30.1, 30.1, 30.1 }, { 60.2, 60.2, 60.2 } },
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{ { 10.1, 10.1, 10.1 }, { 30.0, 30.0, 30.0 }, { 60.2, 60.2, 60.2 } }
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};
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for (int i = 0; i < 4; ++i)
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{
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vtkm::Vec<vtkm::Vec<vtkm::Float64, 3>, 3> eg = expected_gradients[i];
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vtkm::Float64 d = extraOutput.Divergence.GetPortalConstControl().Get(i);
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VTKM_TEST_ASSERT(test_equal((eg[0][0] + eg[1][1] + eg[2][2]), d),
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"Wrong result for Divergence on 3D uniform data");
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vtkm::Vec<vtkm::Float64, 3> ev(eg[1][2] - eg[2][1], eg[2][0] - eg[0][2], eg[0][1] - eg[1][0]);
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vtkm::Vec<vtkm::Float64, 3> v = extraOutput.Vorticity.GetPortalConstControl().Get(i);
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VTKM_TEST_ASSERT(test_equal(ev, v), "Wrong result for Vorticity on 3D uniform data");
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const vtkm::Vec<vtkm::Float64, 3> es(
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eg[1][2] + eg[2][1], eg[2][0] + eg[0][2], eg[0][1] + eg[1][0]);
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const vtkm::Vec<vtkm::Float64, 3> ed(eg[0][0], eg[1][1], eg[2][2]);
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//compute QCriterion
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vtkm::Float64 qcriterion =
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((vtkm::Dot(ev, ev) / 2.0f) - (vtkm::Dot(ed, ed) + (vtkm::Dot(es, es) / 2.0f))) / 2.0f;
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vtkm::Float64 q = extraOutput.QCriterion.GetPortalConstControl().Get(i);
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VTKM_TEST_ASSERT(
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test_equal(qcriterion, q),
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"Wrong result for QCriterion field of PointGradient worklet on 3D uniform data");
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}
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}
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template <typename DeviceAdapter>
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void TestPointGradientExplicit()
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{
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std::cout << "Testing PointGradient Worklet on Explicit data" << std::endl;
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vtkm::cont::testing::MakeTestDataSet testDataSet;
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vtkm::cont::DataSet dataSet = testDataSet.Make3DExplicitDataSet0();
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vtkm::cont::ArrayHandle<vtkm::Float32> fieldArray;
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dataSet.GetField("pointvar").GetData().CopyTo(fieldArray);
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vtkm::worklet::PointGradient gradient;
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auto result =
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gradient.Run(dataSet.GetCellSet(), dataSet.GetCoordinateSystem(), fieldArray, DeviceAdapter());
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vtkm::Vec<vtkm::Float32, 3> expected[2] = { { 10.f, 10.1f, 0.0f }, { 10.f, 10.1f, 0.0f } };
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for (int i = 0; i < 2; ++i)
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{
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VTKM_TEST_ASSERT(test_equal(result.GetPortalConstControl().Get(i), expected[i]),
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"Wrong result for PointGradient worklet on 3D explicit data");
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}
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}
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void TestPointGradient()
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{
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using DeviceAdapter = VTKM_DEFAULT_DEVICE_ADAPTER_TAG;
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TestPointGradientUniform2D<DeviceAdapter>();
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TestPointGradientUniform3D<DeviceAdapter>();
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TestPointGradientUniform3DWithVectorField<DeviceAdapter>();
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TestPointGradientUniform3DWithVectorField2<DeviceAdapter>();
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TestPointGradientExplicit<DeviceAdapter>();
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}
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}
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int UnitTestPointGradient(int, char* [])
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{
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return vtkm::cont::testing::Testing::Run(TestPointGradient);
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}
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