359 lines
12 KiB
C++
359 lines
12 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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//
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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 (c) 2018, The Regents of the University of California, through
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// Lawrence Berkeley National Laboratory (subject to receipt of any required approvals
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// from the U.S. Dept. of Energy). All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without modification,
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// are permitted provided that the following conditions are met:
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//
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// (1) Redistributions of source code must retain the above copyright notice, this
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// list of conditions and the following disclaimer.
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//
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// (2) Redistributions in binary form must reproduce the above copyright notice,
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// this list of conditions and the following disclaimer in the documentation
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// and/or other materials provided with the distribution.
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//
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// (3) Neither the name of the University of California, Lawrence Berkeley National
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// Laboratory, U.S. Dept. of Energy nor the names of its contributors may be
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// used to endorse or promote products derived from this software without
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// specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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// IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
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// INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
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// OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
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// OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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//=============================================================================
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//
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// This code is an extension of the algorithm presented in the paper:
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// Parallel Peak Pruning for Scalable SMP Contour Tree Computation.
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// Hamish Carr, Gunther Weber, Christopher Sewell, and James Ahrens.
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// Proceedings of the IEEE Symposium on Large Data Analysis and Visualization
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// (LDAV), October 2016, Baltimore, Maryland.
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//
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// The PPP2 algorithm and software were jointly developed by
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// Hamish Carr (University of Leeds), Gunther H. Weber (LBNL), and
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// Oliver Ruebel (LBNL)
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//==============================================================================
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//
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// Parallel Peak Pruning v. 2.0
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//
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// Mesh_2D_DEM_Triangulation.h - a 2D regular mesh
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//
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//==============================================================================
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//
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// COMMENTS:
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//
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// This is an abstraction to separate out the mesh from the graph algorithm
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// that we will be executing.
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//
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// In this version, we will sort the values up front, and then keep track of
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// them using indices only, without looking up their values. This should
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// simplify several parts of code significantly, and reduce the memory bandwidth.
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// Of course, in moving to 64-bit indices, we will not necessarily see gains.
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//
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//==============================================================================
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#ifndef vtkm_worklet_contourtree_augmented_mesh_dem_triangulation_h
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#define vtkm_worklet_contourtree_augmented_mesh_dem_triangulation_h
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#include <vtkm/cont/Algorithm.h>
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#include <vtkm/cont/ArrayCopy.h>
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#include <vtkm/cont/ArrayHandle.h>
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#include <vtkm/cont/ArrayHandleIndex.h>
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#include <vtkm/cont/ArrayHandlePermutation.h>
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#include <vtkm/cont/Invoker.h>
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#include <vtkm/worklet/contourtree_augmented/PrintVectors.h>
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#include <vtkm/worklet/contourtree_augmented/Types.h>
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#include <vtkm/worklet/contourtree_augmented/mesh_dem/IdRelabler.h>
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#include <vtkm/worklet/contourtree_augmented/mesh_dem/SimulatedSimplicityComperator.h>
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#include <vtkm/worklet/contourtree_augmented/mesh_dem/SortIndices.h>
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//Define namespace alias for the freudenthal types to make the code a bit more readable
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namespace mesh_dem_ns = vtkm::worklet::contourtree_augmented::mesh_dem;
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namespace vtkm
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{
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namespace worklet
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{
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namespace contourtree_augmented
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{
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template <typename T, typename StorageType>
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class Mesh_DEM_Triangulation
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{
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public:
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// common mesh size parameters
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vtkm::Id nVertices, nLogSteps;
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// Define dimensionality of the mesh
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vtkm::Id nDims;
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// Array with the sorted order of the mesh vertices
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IdArrayType sortOrder;
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// Array with the sort index for each vertex
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// i.e. the inverse permutation for sortOrder
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IdArrayType sortIndices;
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//empty constructor
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Mesh_DEM_Triangulation()
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: nVertices(0)
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, nLogSteps(0)
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, nDims(2)
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{
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}
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// Getter function for nVertices
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vtkm::Id GetNumberOfVertices() const { return nVertices; }
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// sorts the data and initializes the sortIndex & indexReverse
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void SortData(const vtkm::cont::ArrayHandle<T, StorageType>& values);
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//routine that dumps out the contents of the mesh
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void DebugPrint(const char* message, const char* fileName, long lineNum);
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protected:
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virtual void DebugPrintExtends() = 0;
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virtual void DebugPrintValues(const vtkm::cont::ArrayHandle<T, StorageType>& values) = 0;
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}; // class Mesh_DEM_Triangulation
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template <typename T, typename StorageType>
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class Mesh_DEM_Triangulation_2D : public Mesh_DEM_Triangulation<T, StorageType>
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{
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public:
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// 2D mesh size parameters
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vtkm::Id nCols, nRows;
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// Maximum outdegree
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static constexpr int MAX_OUTDEGREE = 3;
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// empty constructor
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Mesh_DEM_Triangulation_2D()
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: Mesh_DEM_Triangulation<T, StorageType>()
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, nCols(0)
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, nRows(0)
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{
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this->nDims = 2;
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}
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// base constructor
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Mesh_DEM_Triangulation_2D(vtkm::Id ncols, vtkm::Id nrows)
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: Mesh_DEM_Triangulation<T, StorageType>()
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, nCols(ncols)
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, nRows(nrows)
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{
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this->nDims = 2;
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this->nVertices = nRows * nCols;
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// compute the number of log-jumping steps (i.e. lg_2 (nVertices))
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this->nLogSteps = 1;
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for (vtkm::Id shifter = this->nVertices; shifter > 0; shifter >>= 1)
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this->nLogSteps++;
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}
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protected:
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virtual void DebugPrintExtends();
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virtual void DebugPrintValues(const vtkm::cont::ArrayHandle<T, StorageType>& values);
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}; // class Mesh_DEM_Triangulation_2D
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template <typename T, typename StorageType>
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class Mesh_DEM_Triangulation_3D : public Mesh_DEM_Triangulation<T, StorageType>
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{
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public:
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// 2D mesh size parameters
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vtkm::Id nCols, nRows, nSlices;
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// Maximum outdegree
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static constexpr int MAX_OUTDEGREE = 6; // True for Freudenthal and Marching Cubes
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// empty constructor
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Mesh_DEM_Triangulation_3D()
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: Mesh_DEM_Triangulation<T, StorageType>()
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, nCols(0)
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, nRows(0)
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, nSlices(0)
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{
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this->nDims = 3;
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}
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// base constructor
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Mesh_DEM_Triangulation_3D(vtkm::Id ncols, vtkm::Id nrows, vtkm::Id nslices)
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: Mesh_DEM_Triangulation<T, StorageType>()
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, nCols(ncols)
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, nRows(nrows)
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, nSlices(nslices)
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{
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this->nDims = 3;
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this->nVertices = nRows * nCols * nSlices;
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// compute the number of log-jumping steps (i.e. lg_2 (nVertices))
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this->nLogSteps = 1;
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for (vtkm::Id shifter = this->nVertices; shifter > 0; shifter >>= 1)
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this->nLogSteps++;
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}
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protected:
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virtual void DebugPrintExtends();
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virtual void DebugPrintValues(const vtkm::cont::ArrayHandle<T, StorageType>& values);
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}; // class Mesh_DEM_Triangulation_3D
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// sorts the data and initialises the sortIndices & sortOrder
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template <typename T, typename StorageType>
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void Mesh_DEM_Triangulation<T, StorageType>::SortData(
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const vtkm::cont::ArrayHandle<T, StorageType>& values)
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{
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// Define namespace alias for mesh dem worklets
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namespace mesh_dem_worklets = vtkm::worklet::contourtree_augmented::mesh_dem;
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// Make sure that the values have the correct size
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assert(values.GetNumberOfValues() == nVertices);
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// Just in case, make sure that everything is cleaned up
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sortIndices.ReleaseResources();
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sortOrder.ReleaseResources();
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// allocate memory for the sort arrays
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sortOrder.Allocate(nVertices);
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sortIndices.Allocate(nVertices);
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// now sort the sort order vector by the values, i.e,. initialize the sortOrder member variable
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vtkm::cont::ArrayHandleIndex initVertexIds(nVertices); // create sequence 0, 1, .. nVertices
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vtkm::cont::ArrayCopy(initVertexIds, sortOrder);
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vtkm::cont::Algorithm::Sort(sortOrder,
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mesh_dem::SimulatedSimplicityIndexComparator<T, StorageType>(values));
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// now set the index lookup, i.e., initialize the sortIndices member variable
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// In serial this would be
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// for (indexType vertex = 0; vertex < nVertices; vertex++)
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// sortIndices[sortOrder[vertex]] = vertex;
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mesh_dem_worklets::SortIndices sortIndicesWorklet;
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vtkm::cont::Invoker invoke;
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invoke(sortIndicesWorklet, sortOrder, sortIndices);
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// Debug print statement
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DebugPrint("Data Sorted", __FILE__, __LINE__);
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DebugPrintValues(values);
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} // SortData()
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template <typename T, typename StorageType>
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void Mesh_DEM_Triangulation<T, StorageType>::DebugPrint(const char* message,
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const char* fileName,
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long lineNum)
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{ // DebugPrint()
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#ifdef DEBUG_PRINT
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std::cout << "------------------------------------------------------" << std::endl;
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std::cout << std::setw(30) << std::left << fileName << ":" << std::right << std::setw(4)
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<< lineNum << std::endl;
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std::cout << std::left << std::string(message) << std::endl;
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std::cout << "Mesh Contains: " << std::endl;
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std::cout << "------------------------------------------------------" << std::endl;
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//DebugPrintExtents();
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printLabel("nVertices");
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printIndexType(nVertices);
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std::cout << std::endl;
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printLabel("nLogSteps");
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printIndexType(nLogSteps);
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std::cout << std::endl;
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printIndices("Sort Indices", sortIndices);
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printIndices("Sort Order", sortOrder);
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std::cout << std::endl;
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#else
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// Avoid unused parameter warning
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(void)message;
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(void)fileName;
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(void)lineNum;
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#endif
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} // DebugPrint()
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// print mesh extends for 2D mesh
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template <typename T, typename StorageType>
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void Mesh_DEM_Triangulation_2D<T, StorageType>::DebugPrintExtends()
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{
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printLabel("nRows");
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printIndexType(nRows);
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std::cout << std::endl;
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printLabel("nCols");
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printIndexType(nCols);
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std::cout << std::endl;
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} // DebugPrintExtends for 2D
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// print mesh extends for 3D mesh
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template <typename T, typename StorageType>
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void Mesh_DEM_Triangulation_3D<T, StorageType>::DebugPrintExtends()
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{
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printLabel("nRows");
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printIndexType(nRows);
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std::cout << std::endl;
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printLabel("nCols");
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printIndexType(nCols);
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std::cout << std::endl;
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printLabel("nSlices");
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printIndexType(nSlices);
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std::cout << std::endl;
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}
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template <typename T, typename StorageType>
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void Mesh_DEM_Triangulation_2D<T, StorageType>::DebugPrintValues(
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const vtkm::cont::ArrayHandle<T, StorageType>& values)
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{
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#ifdef DEBUG_PRINT
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if (nCols > 0)
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{
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printLabelledDataBlock<T, StorageType>("Value", values, nCols);
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printSortedValues("Sorted Values", values, this->sortOrder);
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}
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printHeader(values.GetNumberOfValues());
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#else
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// Avoid unused parameter warning
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(void)values;
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#endif
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} // DebugPrintValues
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template <typename T, typename StorageType>
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void Mesh_DEM_Triangulation_3D<T, StorageType>::DebugPrintValues(
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const vtkm::cont::ArrayHandle<T, StorageType>& values)
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{
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#ifdef DEBUG_PRINT
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if (nCols > 0)
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{
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printLabelledDataBlock<T, StorageType>("Value", values, nCols);
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}
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printHeader(values.GetNumberOfValues());
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#else
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// Avoid unused parameter warning
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(void)values;
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#endif
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} // DebugPrintValues
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} // namespace contourtree_augmented
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} // worklet
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} // vtkm
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#include <vtkm/worklet/contourtree_augmented/mesh_dem_meshtypes/Freudenthal_2D_Triangulation.h> // include Mesh_DEM_Triangulation_2D_Freudenthal
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#include <vtkm/worklet/contourtree_augmented/mesh_dem_meshtypes/Freudenthal_3D_Triangulation.h> // include Mesh_DEM_Triangulation_3D_Freudenthal
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#include <vtkm/worklet/contourtree_augmented/mesh_dem_meshtypes/MarchingCubes_3D_Triangulation.h> // include Mesh_DEM_Triangulation_3D_MarchinCubes
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#endif
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