CompactActiveEdgesTransferActiveEdges.h

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//  PURPOSE.  See the above copyright notice for more information.
//============================================================================
// Copyright (c) 2018, The Regents of the University of California, through
// Lawrence Berkeley National Laboratory (subject to receipt of any required approvals
// from the U.S. Dept. of Energy).  All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
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//     list of conditions and the following disclaimer.
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// (3) Neither the name of the University of California, Lawrence Berkeley National
//     Laboratory, U.S. Dept. of Energy nor the names of its contributors may be
//     used to endorse or promote products derived from this software without
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//=============================================================================
//
//  This code is an extension of the algorithm presented in the paper:
//  Parallel Peak Pruning for Scalable SMP Contour Tree Computation.
//  Hamish Carr, Gunther Weber, Christopher Sewell, and James Ahrens.
//  Proceedings of the IEEE Symposium on Large Data Analysis and Visualization
//  (LDAV), October 2016, Baltimore, Maryland.
//
//  The PPP2 algorithm and software were jointly developed by
//  Hamish Carr (University of Leeds), Gunther H. Weber (LBNL), and
//  Oliver Ruebel (LBNL)
//==============================================================================
 
#ifndef vtk_m_worklet_contourtree_augmented_active_graph_compact_active_edges_transfer_active_edges_h
#define vtk_m_worklet_contourtree_augmented_active_graph_compact_active_edges_transfer_active_edges_h
 
#include <vtkm/filter/scalar_topology/worklet/contourtree_augmented/Types.h>
#include <vtkm/worklet/WorkletMapField.h>
 
 
namespace vtkm
{
namespace worklet
{
namespace contourtree_augmented
{
namespace active_graph_inc
{
 
// Worklet for computing the sort indices from the sort order
class CompactActiveEdgesTransferActiveEdges : public vtkm::worklet::WorkletMapField
{
public:
  typedef void ControlSignature(FieldIn activeVertices,
                                WholeArrayIn newPosition,
                                WholeArrayIn newOutdegree,
                                WholeArrayIn activeEdges,
                                WholeArrayOut newActiveEdges,
                                WholeArrayInOut edgeFar,
                                WholeArrayInOut firstEdge,
                                WholeArrayInOut outdegree,
                                WholeArrayInOut hyperarcs);
  typedef void ExecutionSignature(_1, InputIndex, _2, _3, _4, _5, _6, _7, _8, _9);
  using InputDomain = _1;
 
  // Default Constructor
  VTKM_EXEC_CONT
  CompactActiveEdgesTransferActiveEdges() {}
 
  template <typename InFieldPortalType, typename OutFieldPortalType, typename InOutFieldPortalType>
  VTKM_EXEC void operator()(const vtkm::Id& vertexId,
                            const vtkm::Id activeVertex,
                            const InFieldPortalType& newPositionPortal,
                            const InFieldPortalType& newOutdegreePortal,
                            const InFieldPortalType& activeEdgesPortal,
                            const OutFieldPortalType& newActiveEdgesPortal,
                            const InOutFieldPortalType& edgeFarPortal,
                            const InOutFieldPortalType& firstEdgePortal,
                            const InOutFieldPortalType& outdegreePortal,
                            const InOutFieldPortalType& hyperarcsPortal) const
  {
    vtkm::Id edgeFirst = firstEdgePortal.Get(vertexId);
 
    // retrieve the IS_SUPERNODE flag
    vtkm::Id supernodeFlag = hyperarcsPortal.Get(vertexId) & IS_SUPERNODE;
 
    // internal counter for # of edges
    vtkm::Id whichEdge = newPositionPortal.Get(activeVertex);
 
    // now reset the firstEdge variable for this vertex
    firstEdgePortal.Set(vertexId, whichEdge);
 
    // find the sentinel index
    vtkm::Id edgeLast = edgeFirst + outdegreePortal.Get(vertexId);
 
    // now loop through the vertex' edges
    for (vtkm::Id edge = edgeFirst; edge < edgeLast; edge++)
    { // per edge
      // retrieve the edge ID
      vtkm::Id edgeId = activeEdgesPortal.Get(edge);
 
      // retrieve the vertex ID for the far end & update for pruning
      vtkm::Id farEnd = edgeFarPortal.Get(edgeId);
 
      // grab its hyperarc to see what pruning did
      vtkm::Id hyperFar = hyperarcsPortal.Get(farEnd);
 
      // now get rid of the mask to find the real ID
      farEnd = MaskedIndex(hyperFar);
 
      // we want to ignore edges that lead back to this vertex
      if (farEnd != vertexId)
      { // far end is different from the vertex
        // reset the high end of the edge, copying downwards
        edgeFarPortal.Set(edgeId, farEnd);
 
        // and keep the edge around
        newActiveEdgesPortal.Set(whichEdge++, edgeId);
 
        // and reset the extremum for good measure
        // preserving the supernode flag
        hyperarcsPortal.Set(vertexId, farEnd | supernodeFlag);
      } // far end is different from the vertex
    }   // per edge
 
    // now reset the outdegree
    outdegreePortal.Set(vertexId, newOutdegreePortal.Get(activeVertex));
 
    // In serial this worklet implements the following operation
    // for (indexType edge = 0; edge < edgeNear.size(); edge++)
    /*
      for (indexType activeVertex = 0; activeVertex < activeVertices.size(); activeVertex++)
      { // per vertex
        // retrieve actual vertex ID & first edge
        indexType vertexID = activeVertices[activeVertex];
        indexType edgeFirst = firstEdge[vertexID];
 
        // retrieve the IS_SUPERNODE flag
        indexType supernodeFlag = hyperarcs[vertexID] & IS_SUPERNODE;
 
        // internal counter for # of edges
        indexType whichEdge = newPosition[activeVertex];
 
        // now reset the firstEdge variable for this vertex
        firstEdge[vertexID] = whichEdge;
 
        // find the sentinel index
        indexType edgeLast = edgeFirst + outdegree[vertexID];
 
        // now loop through the vertex' edges
        for (indexType edge = edgeFirst; edge < edgeLast; edge++)
        { // per edge
          // retrieve the edge ID
          indexType edgeID = activeEdges[edge];
 
          // retrieve the vertex ID for the far end & update for pruning
          indexType farEnd = edgeFar[edgeID];
 
          // grab its hyperarc to see what pruning did
          indexType hyperFar = hyperarcs[farEnd];
 
          // now get rid of the mask to find the real ID
          farEnd = MaskedIndex(hyperFar);
 
          // we want to ignore edges that lead back to this vertex
          if (farEnd != vertexID)
          { // far end is different from the vertex
            // reset the high end of the edge, copying downwards
            edgeFar[edgeID] = farEnd;
 
            // and keep the edge around
            newActiveEdges[whichEdge++] = edgeID;
 
            // and reset the extremum for good measure
            // preserving the supernode flag
            hyperarcs[vertexID] = farEnd | supernodeFlag;
          } // far end is different from the vertex
        } // per edge
 
        // now reset the outdegree
        outdegree[vertexID] = newOutdegree[activeVertex];;
      } // per vertex
      */
  }
 
 
}; //  InitializeEdgeFarFromActiveIndices
 
 
} // namespace active_graph_inc
} // namespace contourtree_augmented
} // namespace worklet
} // namespace vtkm
 
#endif