PolyConnectivity.cc 33.4 KB
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/*===========================================================================*\
 *                                                                           *
 *                               OpenMesh                                    *
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 *      Copyright (C) 2001-2011 by Computer Graphics Group, RWTH Aachen      *
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 *                           www.openmesh.org                                *
 *                                                                           *
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 *---------------------------------------------------------------------------* 
 *  This file is part of OpenMesh.                                           *
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 *                                                                           *
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 *  OpenMesh is free software: you can redistribute it and/or modify         * 
 *  it under the terms of the GNU Lesser General Public License as           *
 *  published by the Free Software Foundation, either version 3 of           *
 *  the License, or (at your option) any later version with the              *
 *  following exceptions:                                                    *
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 *  If other files instantiate templates or use macros                       *
 *  or inline functions from this file, or you compile this file and         *
 *  link it with other files to produce an executable, this file does        *
 *  not by itself cause the resulting executable to be covered by the        *
 *  GNU Lesser General Public License. This exception does not however       *
 *  invalidate any other reasons why the executable file might be            *
 *  covered by the GNU Lesser General Public License.                        *
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 *                                                                           *
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 *  OpenMesh is distributed in the hope that it will be useful,              *
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of           *
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the            *
 *  GNU Lesser General Public License for more details.                      *
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 *                                                                           *
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 *  You should have received a copy of the GNU LesserGeneral Public          *
 *  License along with OpenMesh.  If not,                                    *
 *  see <http://www.gnu.org/licenses/>.                                      *
 *                                                                           *
\*===========================================================================*/ 

/*===========================================================================*\
 *                                                                           *             
 *   $Revision$                                                         *
 *   $Date$                   *
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 *                                                                           *
\*===========================================================================*/

//== IMPLEMENTATION ==========================================================
#include <OpenMesh/Core/Mesh/PolyConnectivity.hh>
#include <set>

namespace OpenMesh {

const PolyConnectivity::VertexHandle    PolyConnectivity::InvalidVertexHandle;
const PolyConnectivity::HalfedgeHandle  PolyConnectivity::InvalidHalfedgeHandle;
const PolyConnectivity::EdgeHandle      PolyConnectivity::InvalidEdgeHandle;
const PolyConnectivity::FaceHandle      PolyConnectivity::InvalidFaceHandle;

//-----------------------------------------------------------------------------
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PolyConnectivity::HalfedgeHandle
PolyConnectivity::find_halfedge(VertexHandle _start_vh, VertexHandle _end_vh ) const
{
  assert(_start_vh.is_valid() && _end_vh.is_valid());

  for (ConstVertexVertexIter vvIt=cvv_iter(_start_vh); vvIt; ++vvIt)
    if (vvIt.handle() == _end_vh)
      return vvIt.current_halfedge_handle();

  return InvalidHalfedgeHandle;
}


bool PolyConnectivity::is_boundary(FaceHandle _fh, bool _check_vertex) const
{
  for (ConstFaceEdgeIter cfeit = cfe_iter( _fh ); cfeit; ++cfeit)
      if (is_boundary( cfeit.handle() ) )
        return true;

  if (_check_vertex)
  {
      for (ConstFaceVertexIter cfvit = cfv_iter( _fh ); cfvit; ++cfvit)
        if (is_boundary( cfvit.handle() ) )
            return true;
  }
  return false;
}

bool PolyConnectivity::is_manifold(VertexHandle _vh) const
{
  /* The vertex is non-manifold if more than one gap exists, i.e.
    more than one outgoing boundary halfedge. If (at least) one
    boundary halfedge exists, the vertex' halfedge must be a
    boundary halfedge. If iterating around the vertex finds another
    boundary halfedge, the vertex is non-manifold. */

  ConstVertexOHalfedgeIter vh_it(*this, _vh);
  if (vh_it)
    for (++vh_it; vh_it; ++vh_it)
        if (is_boundary(vh_it.handle()))
          return false;
  return true;
}

//-----------------------------------------------------------------------------
void PolyConnectivity::adjust_outgoing_halfedge(VertexHandle _vh)
{
  for (ConstVertexOHalfedgeIter vh_it=cvoh_iter(_vh); vh_it; ++vh_it)
  {
    if (is_boundary(vh_it.handle()))
    {
      set_halfedge_handle(_vh, vh_it.handle());
      break;
    }
  }
}

//-----------------------------------------------------------------------------

PolyConnectivity::FaceHandle
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PolyConnectivity::add_face(const VertexHandle* _vertex_handles, size_t _vhs_size)
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{
  VertexHandle                   vh;
  uint                           i, ii, n(_vhs_size), id;
  HalfedgeHandle                 inner_next, inner_prev,
                                 outer_next, outer_prev,
                                 boundary_next, boundary_prev,
                                 patch_start, patch_end;


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  // Check sufficient working storage available
  if (edgeData_.size() < n)
  {
    edgeData_.resize(n);
    next_cache_.resize(6*n);
  }
  next_cache_count_ = 0;

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  // don't allow degenerated faces
  assert (n > 2);

  // test for topological errors
  for (i=0, ii=1; i<n; ++i, ++ii, ii%=n)
  {
    if ( !is_boundary(_vertex_handles[i]) )
    {
      omerr() << "PolyMeshT::add_face: complex vertex\n";
      return InvalidFaceHandle;
    }

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    // Initialise edge attributes
    edgeData_[i].halfedge_handle = find_halfedge(_vertex_handles[i],
                                                 _vertex_handles[ii]);
    edgeData_[i].is_new = !edgeData_[i].halfedge_handle.is_valid();
    edgeData_[i].needs_adjust = false;
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    if (!edgeData_[i].is_new && !is_boundary(edgeData_[i].halfedge_handle))
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    {
      omerr() << "PolyMeshT::add_face: complex edge\n";
      return InvalidFaceHandle;
    }
  }

  // re-link patches if necessary
  for (i=0, ii=1; i<n; ++i, ++ii, ii%=n)
  {
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    if (!edgeData_[i].is_new && !edgeData_[ii].is_new)
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    {
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      inner_prev = edgeData_[i].halfedge_handle;
      inner_next = edgeData_[ii].halfedge_handle;

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      if (next_halfedge_handle(inner_prev) != inner_next)
      {
        // here comes the ugly part... we have to relink a whole patch

        // search a free gap
        // free gap will be between boundary_prev and boundary_next
        outer_prev = opposite_halfedge_handle(inner_next);
        outer_next = opposite_halfedge_handle(inner_prev);
        boundary_prev = outer_prev;
        do
          boundary_prev =
            opposite_halfedge_handle(next_halfedge_handle(boundary_prev));
        while (!is_boundary(boundary_prev) || boundary_prev==inner_prev);
        boundary_next = next_halfedge_handle(boundary_prev);
        assert(is_boundary(boundary_prev));
        assert(is_boundary(boundary_next));
        // ok ?
        if (boundary_next == inner_next)
        {
          omerr() << "PolyMeshT::add_face: patch re-linking failed\n";
          return InvalidFaceHandle;
        }

        // other halfedges' handles
        patch_start = next_halfedge_handle(inner_prev);
        patch_end   = prev_halfedge_handle(inner_next);

        // relink
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        next_cache_[next_cache_count_++] = std::make_pair(boundary_prev, patch_start);
        next_cache_[next_cache_count_++] = std::make_pair(patch_end, boundary_next);
        next_cache_[next_cache_count_++] = std::make_pair(inner_prev, inner_next);
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      }
    }
  }

  // create missing edges
  for (i=0, ii=1; i<n; ++i, ++ii, ii%=n)
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    if (edgeData_[i].is_new)
      edgeData_[i].halfedge_handle = new_edge(_vertex_handles[i], _vertex_handles[ii]);
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  // create the face
  FaceHandle fh(new_face());
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  set_halfedge_handle(fh, edgeData_[n-1].halfedge_handle);
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  // setup halfedges
  for (i=0, ii=1; i<n; ++i, ++ii, ii%=n)
  {
    vh         = _vertex_handles[ii];
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    inner_prev = edgeData_[i].halfedge_handle;
    inner_next = edgeData_[ii].halfedge_handle;
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    id = 0;
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    if (edgeData_[i].is_new)  id |= 1;
    if (edgeData_[ii].is_new) id |= 2;

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    if (id)
    {
      outer_prev = opposite_halfedge_handle(inner_next);
      outer_next = opposite_halfedge_handle(inner_prev);

      // set outer links
      switch (id)
      {
        case 1: // prev is new, next is old
          boundary_prev = prev_halfedge_handle(inner_next);
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          next_cache_[next_cache_count_++] = std::make_pair(boundary_prev, outer_next);
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          set_halfedge_handle(vh, outer_next);
          break;

        case 2: // next is new, prev is old
          boundary_next = next_halfedge_handle(inner_prev);
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          next_cache_[next_cache_count_++] = std::make_pair(outer_prev, boundary_next);
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          set_halfedge_handle(vh, boundary_next);
          break;

        case 3: // both are new
          if (!halfedge_handle(vh).is_valid())
          {
            set_halfedge_handle(vh, outer_next);
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            next_cache_[next_cache_count_++] = std::make_pair(outer_prev, outer_next);
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          }
          else
          {
            boundary_next = halfedge_handle(vh);
            boundary_prev = prev_halfedge_handle(boundary_next);
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            next_cache_[next_cache_count_++] = std::make_pair(boundary_prev, outer_next);
            next_cache_[next_cache_count_++] = std::make_pair(outer_prev, boundary_next);
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          }
          break;
      }

      // set inner link
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      next_cache_[next_cache_count_++] = std::make_pair(inner_prev, inner_next);
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    }
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    else edgeData_[ii].needs_adjust = (halfedge_handle(vh) == inner_next);

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    // set face handle
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    set_face_handle(edgeData_[i].halfedge_handle, fh);
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  }

  // process next halfedge cache
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  for (i = 0; i < next_cache_count_; ++i)
    set_next_halfedge_handle(next_cache_[i].first, next_cache_[i].second);

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  // adjust vertices' halfedge handle
  for (i=0; i<n; ++i)
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    if (edgeData_[i].needs_adjust)
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      adjust_outgoing_halfedge(_vertex_handles[i]);

  return fh;
}

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//-----------------------------------------------------------------------------

FaceHandle PolyConnectivity::add_face(VertexHandle _vh0, VertexHandle _vh1, VertexHandle _vh2, VertexHandle _vh3)
{
  VertexHandle vhs[4] = { _vh0, _vh1, _vh2, _vh3 };
  return add_face(vhs, 4);
}

//-----------------------------------------------------------------------------

FaceHandle PolyConnectivity::add_face(VertexHandle _vh0, VertexHandle _vh1, VertexHandle _vh2)
{
  VertexHandle vhs[3] = { _vh0, _vh1, _vh2 };
  return add_face(vhs, 3);
}

//-----------------------------------------------------------------------------

FaceHandle PolyConnectivity::add_face(const std::vector<VertexHandle>& _vhandles)
{ return add_face(&_vhandles.front(), _vhandles.size()); }
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//-----------------------------------------------------------------------------
bool PolyConnectivity::is_collapse_ok(HalfedgeHandle v0v1)
{
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  //is edge already deleteed?
  if (status(edge_handle(v0v1)).deleted())
  {
    return false;
  }

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  HalfedgeHandle v1v0(opposite_halfedge_handle(v0v1));
  VertexHandle v0(to_vertex_handle(v1v0));
  VertexHandle v1(to_vertex_handle(v0v1));  

  bool v0v1_triangle = false;
  bool v1v0_triangle = false;
  
  if (!is_boundary(v0v1))
    v0v1_triangle = valence(face_handle(v0v1)) == 3;
  
  if (!is_boundary(v1v0))
    v1v0_triangle = valence(face_handle(v1v0)) == 3;

  //in a quadmesh we dont have the "next" or "previous" vhandle, so we need to look at previous and next on both sides
  VertexHandle v_01_p = from_vertex_handle(prev_halfedge_handle(v0v1));
  VertexHandle v_01_n = to_vertex_handle(next_halfedge_handle(v0v1));  

  VertexHandle v_10_p = from_vertex_handle(prev_halfedge_handle(v1v0));
  VertexHandle v_10_n = to_vertex_handle(next_halfedge_handle(v1v0));

  //are the vertices already deleted ?
  if (status(v0).deleted() || status(v1).deleted())
  {
    return false;
  }

  //the edges v1-vl and vl-v0 must not be both boundary edges
  //this test makes only sense in a polymesh if the side face is a triangle
  if (!is_boundary(v0v1))
  {
    if (v0v1_triangle)
    {
      VertexHandle vl = to_vertex_handle(next_halfedge_handle(v0v1));

      HalfedgeHandle h1 = next_halfedge_handle(v0v1);
      HalfedgeHandle h2 = next_halfedge_handle(h1);
      if (is_boundary(opposite_halfedge_handle(h1)) && is_boundary(opposite_halfedge_handle(h2)))
	return false;
    }
  }

  //the edges v0-vr and vr-v1 must not be both boundary edges
  //this test makes only sense in a polymesh if the side face is a triangle
  if (!is_boundary(v1v0))
  {
    if (v1v0_triangle)
    {
      VertexHandle vr = to_vertex_handle(next_halfedge_handle(v1v0));

      HalfedgeHandle h1 = next_halfedge_handle(v1v0);
      HalfedgeHandle h2 = next_halfedge_handle(h1);
      if (is_boundary(opposite_halfedge_handle(h1)) && is_boundary(opposite_halfedge_handle(h2)))
	return false;
    }
  }

  // edge between two boundary vertices should be a boundary edge
  if ( is_boundary(v0) && is_boundary(v1) && !is_boundary(v0v1) && !is_boundary(v1v0))
    return false;
  
  VertexVertexIter vv_it;
  // test intersection of the one-rings of v0 and v1
  for (vv_it = vv_iter(v0); vv_it; ++vv_it)
  {
    status(vv_it).set_tagged(false);
  }

  for (vv_it = vv_iter(v1); vv_it; ++vv_it)
  {
    status(vv_it).set_tagged(true);
  }

  for (vv_it = vv_iter(v0); vv_it; ++vv_it)
  {
    if (status(vv_it).tagged() &&
      !(vv_it.handle() == v_01_n && v0v1_triangle) &&
      !(vv_it.handle() == v_10_n && v1v0_triangle)
      )
    {
      return false;
    }
  }
  
  //test for a face on the backside/other side that might degenerate
  if (v0v1_triangle)
  {
    HalfedgeHandle one, two;
    one = next_halfedge_handle(v0v1);
    two = next_halfedge_handle(one);
    
    one = opposite_halfedge_handle(one);
    two = opposite_halfedge_handle(two);
    
    if (face_handle(one) == face_handle(two) && valence(face_handle(one)) != 3)
    {
      return false;
    }
  }
  
  if (v1v0_triangle)
  {
    HalfedgeHandle one, two;
    one = next_halfedge_handle(v1v0);
    two = next_halfedge_handle(one);
    
    one = opposite_halfedge_handle(one);
    two = opposite_halfedge_handle(two);
    
    if (face_handle(one) == face_handle(two) && valence(face_handle(one)) != 3)
    {
      return false;
    }
  }

  if (status(vv_it).tagged() && v_01_n == v_10_n && v0v1_triangle && v1v0_triangle)
  {
    return false;
  }

  // passed all tests
  return true;
}

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//-----------------------------------------------------------------------------

void PolyConnectivity::delete_vertex(VertexHandle _vh, bool _delete_isolated_vertices)
{
  // store incident faces
  std::vector<FaceHandle> face_handles;
  face_handles.reserve(8);
  for (VFIter vf_it(vf_iter(_vh)); vf_it; ++vf_it)
    face_handles.push_back(vf_it.handle());


  // delete collected faces
  std::vector<FaceHandle>::iterator fh_it(face_handles.begin()),
                                    fh_end(face_handles.end());

  for (; fh_it!=fh_end; ++fh_it)
    delete_face(*fh_it, _delete_isolated_vertices);

  status(_vh).set_deleted(true);
}

//-----------------------------------------------------------------------------

void PolyConnectivity::delete_edge(EdgeHandle _eh, bool _delete_isolated_vertices)
{
  FaceHandle fh0(face_handle(halfedge_handle(_eh, 0)));
  FaceHandle fh1(face_handle(halfedge_handle(_eh, 1)));

  if (fh0.is_valid())  delete_face(fh0, _delete_isolated_vertices);
  if (fh1.is_valid())  delete_face(fh1, _delete_isolated_vertices);
}

//-----------------------------------------------------------------------------

void PolyConnectivity::delete_face(FaceHandle _fh, bool _delete_isolated_vertices)
{
  assert(_fh.is_valid() && !status(_fh).deleted());

  // mark face deleted
  status(_fh).set_deleted(true);


  // this vector will hold all boundary edges of face _fh
  // these edges will be deleted
  std::vector<EdgeHandle> deleted_edges;
  deleted_edges.reserve(3);


  // this vector will hold all vertices of face _fh
  // for updating their outgoing halfedge
  std::vector<VertexHandle>  vhandles;
  vhandles.reserve(3);


  // for all halfedges of face _fh do:
  //   1) invalidate face handle.
  //   2) collect all boundary halfedges, set them deleted
  //   3) store vertex handles
  HalfedgeHandle hh;
  for (FaceHalfedgeIter fh_it(fh_iter(_fh)); fh_it; ++fh_it)
  {
    hh = fh_it.handle();

    set_boundary(hh);//set_face_handle(hh, InvalidFaceHandle);

    if (is_boundary(opposite_halfedge_handle(hh)))
        deleted_edges.push_back(edge_handle(hh));

    vhandles.push_back(to_vertex_handle(hh));
  }


  // delete all collected (half)edges
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  // these edges were all boundary
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  // delete isolated vertices (if _delete_isolated_vertices is true)
  if (!deleted_edges.empty())
  {
    std::vector<EdgeHandle>::iterator del_it(deleted_edges.begin()),
                                      del_end(deleted_edges.end());
    HalfedgeHandle h0, h1, next0, next1, prev0, prev1;
    VertexHandle   v0, v1;

    for (; del_it!=del_end; ++del_it)
    {
      h0    = halfedge_handle(*del_it, 0);
      v0    = to_vertex_handle(h0);
      next0 = next_halfedge_handle(h0);
      prev0 = prev_halfedge_handle(h0);

      h1    = halfedge_handle(*del_it, 1);
      v1    = to_vertex_handle(h1);
      next1 = next_halfedge_handle(h1);
      prev1 = prev_halfedge_handle(h1);

      // adjust next and prev handles
      set_next_halfedge_handle(prev0, next1);
      set_next_halfedge_handle(prev1, next0);

      // mark edge deleted
      status(*del_it).set_deleted(true);

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      // mark corresponding halfedges as deleted
      // As the deleted edge is boundary,
      // all corresponding halfedges will also e deleted.
      if ( has_halfedge_status() ) {
        status(h0).set_deleted(true);
        status(h1).set_deleted(true);
      }

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      // update v0
      if (halfedge_handle(v0) == h1)
      {
        // isolated ?
        if (next0 == h1)
        {
          if (_delete_isolated_vertices)
            status(v0).set_deleted(true);
          set_isolated(v0);
        }
        else set_halfedge_handle(v0, next0);
      }

      // update v1
      if (halfedge_handle(v1) == h0)
      {
        // isolated ?
        if (next1 == h0)
        {
          if (_delete_isolated_vertices)
            status(v1).set_deleted(true);
          set_isolated(v1);
        }
        else  set_halfedge_handle(v1, next1);
      }
    }
  }

  // update outgoing halfedge handles of remaining vertices
  std::vector<VertexHandle>::iterator v_it(vhandles.begin()),
                                      v_end(vhandles.end());
  for (; v_it!=v_end; ++v_it)
    adjust_outgoing_halfedge(*v_it);
}

//-----------------------------------------------------------------------------
void PolyConnectivity::collapse(HalfedgeHandle _hh)
{
  HalfedgeHandle h0 = _hh;
  HalfedgeHandle h1 = next_halfedge_handle(h0);
  HalfedgeHandle o0 = opposite_halfedge_handle(h0);
  HalfedgeHandle o1 = next_halfedge_handle(o0);

  // remove edge
  collapse_edge(h0);

  // remove loops
  if (next_halfedge_handle(next_halfedge_handle(h1)) == h1)
    collapse_loop(next_halfedge_handle(h1));
  if (next_halfedge_handle(next_halfedge_handle(o1)) == o1)
    collapse_loop(o1);
}

//-----------------------------------------------------------------------------
void PolyConnectivity::collapse_edge(HalfedgeHandle _hh)
{
  HalfedgeHandle  h  = _hh;
  HalfedgeHandle  hn = next_halfedge_handle(h);
  HalfedgeHandle  hp = prev_halfedge_handle(h);

  HalfedgeHandle  o  = opposite_halfedge_handle(h);
  HalfedgeHandle  on = next_halfedge_handle(o);
  HalfedgeHandle  op = prev_halfedge_handle(o);

  FaceHandle      fh = face_handle(h);
  FaceHandle      fo = face_handle(o);

  VertexHandle    vh = to_vertex_handle(h);
  VertexHandle    vo = to_vertex_handle(o);



  // halfedge -> vertex
  for (VertexIHalfedgeIter vih_it(vih_iter(vo)); vih_it; ++vih_it)
    set_vertex_handle(vih_it.handle(), vh);


  // halfedge -> halfedge
  set_next_halfedge_handle(hp, hn);
  set_next_halfedge_handle(op, on);


  // face -> halfedge
  if (fh.is_valid())  set_halfedge_handle(fh, hn);
  if (fo.is_valid())  set_halfedge_handle(fo, on);


  // vertex -> halfedge
  if (halfedge_handle(vh) == o)  set_halfedge_handle(vh, hn);
  adjust_outgoing_halfedge(vh);
  set_isolated(vo);

  // delete stuff
  status(edge_handle(h)).set_deleted(true);
  status(vo).set_deleted(true);
}

//-----------------------------------------------------------------------------
void PolyConnectivity::collapse_loop(HalfedgeHandle _hh)
{
  HalfedgeHandle  h0 = _hh;
  HalfedgeHandle  h1 = next_halfedge_handle(h0);

  HalfedgeHandle  o0 = opposite_halfedge_handle(h0);
  HalfedgeHandle  o1 = opposite_halfedge_handle(h1);

  VertexHandle    v0 = to_vertex_handle(h0);
  VertexHandle    v1 = to_vertex_handle(h1);

  FaceHandle      fh = face_handle(h0);
  FaceHandle      fo = face_handle(o0);



  // is it a loop ?
  assert ((next_halfedge_handle(h1) == h0) && (h1 != o0));


  // halfedge -> halfedge
  set_next_halfedge_handle(h1, next_halfedge_handle(o0));
  set_next_halfedge_handle(prev_halfedge_handle(o0), h1);


  // halfedge -> face
  set_face_handle(h1, fo);


  // vertex -> halfedge
  set_halfedge_handle(v0, h1);  adjust_outgoing_halfedge(v0);
  set_halfedge_handle(v1, o1);  adjust_outgoing_halfedge(v1);


  // face -> halfedge
  if (fo.is_valid() && halfedge_handle(fo) == o0)
  {
    set_halfedge_handle(fo, h1);
  }

  // delete stuff
  if (fh.is_valid())  
  {
    set_halfedge_handle(fh, InvalidHalfedgeHandle);
    status(fh).set_deleted(true);
  }
  status(edge_handle(h0)).set_deleted(true);
}

//-----------------------------------------------------------------------------
bool PolyConnectivity::is_simple_link(EdgeHandle _eh) const
{
  HalfedgeHandle heh0 = halfedge_handle(_eh, 0);
  HalfedgeHandle heh1 = halfedge_handle(_eh, 1);
  
  FaceHandle fh0 = face_handle(heh0);//fh0 or fh1 might be a invalid,
  FaceHandle fh1 = face_handle(heh1);//i.e., representing the boundary
  
  HalfedgeHandle next_heh = next_halfedge_handle(heh0);
  while (next_heh != heh0)
  {//check if there are no other edges shared between fh0 & fh1
    if (opposite_face_handle(next_heh) == fh1)
    {
      return false;
    }
    next_heh = next_halfedge_handle(next_heh);
  }
  return true;
}

//-----------------------------------------------------------------------------
bool PolyConnectivity::is_simply_connected(FaceHandle _fh) const
{
  std::set<FaceHandle> nb_fhs;
  for (ConstFaceFaceIter cff_it = cff_iter(_fh); cff_it; ++cff_it)
  {
    if (nb_fhs.find(cff_it) == nb_fhs.end())
    {
      nb_fhs.insert(cff_it);
    }
    else
    {//there is more than one link
      return false;
    }
  }
  return true;
}
  
//-----------------------------------------------------------------------------
PolyConnectivity::FaceHandle 
PolyConnectivity::remove_edge(EdgeHandle _eh)
{
  //don't allow "dangling" vertices and edges
  assert(!status(_eh).deleted() && is_simple_link(_eh));
  
  HalfedgeHandle heh0 = halfedge_handle(_eh, 0);
  HalfedgeHandle heh1 = halfedge_handle(_eh, 1);
  
  //deal with the faces
  FaceHandle rem_fh = face_handle(heh0), del_fh = face_handle(heh1);
  if (!del_fh.is_valid())
  {//boundary case - we must delete the rem_fh
    std::swap(del_fh, rem_fh);
  }
  assert(del_fh.is_valid());
/*  for (FaceHalfedgeIter fh_it = fh_iter(del_fh); fh_it; ++fh_it)
  {//set the face handle of the halfedges of del_fh to point to rem_fh
    set_face_handle(fh_it, rem_fh);  
  } */
  //fix the halfedge relations
  HalfedgeHandle prev_heh0 = prev_halfedge_handle(heh0);
  HalfedgeHandle prev_heh1 = prev_halfedge_handle(heh1);

  HalfedgeHandle next_heh0 = next_halfedge_handle(heh0);
  HalfedgeHandle next_heh1 = next_halfedge_handle(heh1);
  
  set_next_halfedge_handle(prev_heh0, next_heh1);
  set_next_halfedge_handle(prev_heh1, next_heh0);
  //correct outgoing vertex handles for the _eh vertices (if needed)
  VertexHandle vh0 = to_vertex_handle(heh0);
  VertexHandle vh1 = to_vertex_handle(heh1);
  
  if (halfedge_handle(vh0) == heh1)
  {
    set_halfedge_handle(vh0, next_heh0);
  }
  if (halfedge_handle(vh1) == heh0)
  {
    set_halfedge_handle(vh1, next_heh1);
  }
  
  //correct the hafledge handle of rem_fh if needed and preserve its first vertex
  if (halfedge_handle(rem_fh) == heh0)
  {//rem_fh is the face at heh0
    set_halfedge_handle(rem_fh, prev_heh1);
  }
  else if (halfedge_handle(rem_fh) == heh1)
  {//rem_fh is the face at heh1
    set_halfedge_handle(rem_fh, prev_heh0);
  }
  for (FaceHalfedgeIter fh_it = fh_iter(rem_fh); fh_it; ++fh_it)
  {//set the face handle of the halfedges of del_fh to point to rem_fh
    set_face_handle(fh_it, rem_fh);  
  } 
  
  status(_eh).set_deleted(true);  
  status(del_fh).set_deleted(true);  
  return rem_fh;//returns the remaining face handle
}

//-----------------------------------------------------------------------------
void PolyConnectivity::reinsert_edge(EdgeHandle _eh)
{
  //this does not work without prev_halfedge_handle
  assert_compile(sizeof(Halfedge) == sizeof(Halfedge_with_prev));
  //shoudl be deleted  
  assert(status(_eh).deleted());
  status(_eh).set_deleted(false);  
  
  HalfedgeHandle heh0 = halfedge_handle(_eh, 0);
  HalfedgeHandle heh1 = halfedge_handle(_eh, 1);
  FaceHandle rem_fh = face_handle(heh0), del_fh = face_handle(heh1);
  if (!del_fh.is_valid())
  {//boundary case - we must delete the rem_fh
    std::swap(del_fh, rem_fh);
  }
  assert(status(del_fh).deleted());
  status(del_fh).set_deleted(false); 
  
  //restore halfedge relations
  HalfedgeHandle prev_heh0 = prev_halfedge_handle(heh0);
  HalfedgeHandle prev_heh1 = prev_halfedge_handle(heh1);

  HalfedgeHandle next_heh0 = next_halfedge_handle(heh0);
  HalfedgeHandle next_heh1 = next_halfedge_handle(heh1);
  
  set_next_halfedge_handle(prev_heh0, heh0);
  set_prev_halfedge_handle(next_heh0, heh0);
  
  set_next_halfedge_handle(prev_heh1, heh1);
  set_prev_halfedge_handle(next_heh1, heh1);
  
  for (FaceHalfedgeIter fh_it = fh_iter(del_fh); fh_it; ++fh_it)
  {//reassign halfedges to del_fh  
    set_face_handle(fh_it, del_fh);
  }
   
  if (face_handle(halfedge_handle(rem_fh)) == del_fh)
  {//correct the halfedge handle of rem_fh
    if (halfedge_handle(rem_fh) == prev_heh0)
    {//rem_fh is the face at heh1
      set_halfedge_handle(rem_fh, heh1);
    }
    else
    {//rem_fh is the face at heh0
      assert(halfedge_handle(rem_fh) == prev_heh1);
      set_halfedge_handle(rem_fh, heh0);
    }
  }
}

//-----------------------------------------------------------------------------
PolyConnectivity::HalfedgeHandle
PolyConnectivity::insert_edge(HalfedgeHandle _prev_heh, HalfedgeHandle _next_heh)
{
  assert(face_handle(_prev_heh) == face_handle(_next_heh));//only the manifold case
  assert(next_halfedge_handle(_prev_heh) != _next_heh);//this can not be done
  VertexHandle vh0 = to_vertex_handle(_prev_heh);
  VertexHandle vh1 = from_vertex_handle(_next_heh);
  //create the link between vh0 and vh1
  HalfedgeHandle heh0 = new_edge(vh0, vh1);
  HalfedgeHandle heh1 = opposite_halfedge_handle(heh0);
  HalfedgeHandle next_prev_heh = next_halfedge_handle(_prev_heh);
  HalfedgeHandle prev_next_heh = prev_halfedge_handle(_next_heh);
  set_next_halfedge_handle(_prev_heh, heh0);
  set_next_halfedge_handle(heh0, _next_heh);
  set_next_halfedge_handle(prev_next_heh, heh1);
  set_next_halfedge_handle(heh1, next_prev_heh);
  
  //now set the face handles - the new face is assigned to heh0
  FaceHandle new_fh = new_face();
  set_halfedge_handle(new_fh, heh0);
  for (FaceHalfedgeIter fh_it = fh_iter(new_fh); fh_it; ++fh_it)
  {
    set_face_handle(fh_it, new_fh);
  }  
  FaceHandle old_fh = face_handle(next_prev_heh);
  set_face_handle(heh1, old_fh);   
  if (old_fh.is_valid() && face_handle(halfedge_handle(old_fh)) == new_fh)
  {//fh pointed to one of the halfedges now assigned to new_fh
    set_halfedge_handle(old_fh, heh1);
  }
  adjust_outgoing_halfedge(vh0);  
  adjust_outgoing_halfedge(vh1);  
  return heh0;
}

//-----------------------------------------------------------------------------
void PolyConnectivity::triangulate(FaceHandle _fh)
{
  /*
    Split an arbitrary face into triangles by connecting
    each vertex of fh after its second to vh.

    - fh will remain valid (it will become one of the
      triangles)
    - the halfedge handles of the new triangles will
      point to the old halfedges
  */

  HalfedgeHandle base_heh(halfedge_handle(_fh));
  VertexHandle start_vh = from_vertex_handle(base_heh);
  HalfedgeHandle next_heh(next_halfedge_handle(base_heh));

  while (to_vertex_handle(next_halfedge_handle(next_heh)) != start_vh)
  {
    HalfedgeHandle next_next_heh(next_halfedge_handle(next_heh));

    FaceHandle new_fh = new_face();
    set_halfedge_handle(new_fh, base_heh);

    HalfedgeHandle new_heh = new_edge(to_vertex_handle(next_heh), start_vh);

    set_next_halfedge_handle(base_heh, next_heh);
    set_next_halfedge_handle(next_heh, new_heh);
    set_next_halfedge_handle(new_heh, base_heh);

    set_face_handle(base_heh, new_fh);
    set_face_handle(next_heh, new_fh);
    set_face_handle(new_heh,  new_fh);

    base_heh = opposite_halfedge_handle(new_heh);
    next_heh = next_next_heh;
  }
  set_halfedge_handle(_fh, base_heh);  //the last face takes the handle _fh

  set_next_halfedge_handle(base_heh, next_heh);
  set_next_halfedge_handle(next_halfedge_handle(next_heh), base_heh);

  set_face_handle(base_heh, _fh);
}

//-----------------------------------------------------------------------------
void PolyConnectivity::triangulate()
{
  /* The iterators will stay valid, even though new faces are added,
     because they are now implemented index-based instead of
     pointer-based.
  */
  FaceIter f_it(faces_begin()), f_end(faces_end());
  for (; f_it!=f_end; ++f_it)
    triangulate(f_it);
}

//-----------------------------------------------------------------------------
void PolyConnectivity::split(FaceHandle fh, VertexHandle vh)
{
  /*
    Split an arbitrary face into triangles by connecting
    each vertex of fh to vh.

    - fh will remain valid (it will become one of the
      triangles)
    - the halfedge handles of the new triangles will
      point to the old halfeges
  */

  HalfedgeHandle hend = halfedge_handle(fh);
  HalfedgeHandle hh   = next_halfedge_handle(hend);

  HalfedgeHandle hold = new_edge(to_vertex_handle(hend), vh);

  set_next_halfedge_handle(hend, hold);
  set_face_handle(hold, fh);

  hold = opposite_halfedge_handle(hold);

  while (hh != hend) {

    HalfedgeHandle hnext = next_halfedge_handle(hh);

    FaceHandle fnew = new_face();
    set_halfedge_handle(fnew, hh);

    HalfedgeHandle hnew = new_edge(to_vertex_handle(hh), vh);

    set_next_halfedge_handle(hnew, hold);
    set_next_halfedge_handle(hold, hh);
    set_next_halfedge_handle(hh, hnew);

    set_face_handle(hnew, fnew);
    set_face_handle(hold, fnew);
    set_face_handle(hh,   fnew);

    hold = opposite_halfedge_handle(hnew);

    hh = hnext;
  }

  set_next_halfedge_handle(hold, hend);
  set_next_halfedge_handle(next_halfedge_handle(hend), hold);

  set_face_handle(hold, fh);

  set_halfedge_handle(vh, hold);
}

//-----------------------------------------------------------------------------
uint PolyConnectivity::valence(VertexHandle _vh) const
{
  uint count(0);
  for (ConstVertexVertexIter vv_it=cvv_iter(_vh); vv_it; ++vv_it)
    ++count;
  return count;
}

//-----------------------------------------------------------------------------
uint PolyConnectivity::valence(FaceHandle _fh) const
{
  uint count(0);
  for (ConstFaceVertexIter fv_it=cfv_iter(_fh); fv_it; ++fv_it)
    ++count;
  return count;
}

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//-----------------------------------------------------------------------------
void PolyConnectivity::split_edge(EdgeHandle _eh, VertexHandle _vh)
{
  HalfedgeHandle h0 = halfedge_handle(_eh, 0);
  HalfedgeHandle h1 = halfedge_handle(_eh, 1);
  
  VertexHandle vfrom = from_vertex_handle(h0);

  HalfedgeHandle ph0 = prev_halfedge_handle(h0);
  HalfedgeHandle ph1 = prev_halfedge_handle(h1);
  
  HalfedgeHandle nh0 = next_halfedge_handle(h0);
  HalfedgeHandle nh1 = next_halfedge_handle(h1);
  
  bool boundary0 = is_boundary(h0);
  bool boundary1 = is_boundary(h1);
  
  //add the new edge
  HalfedgeHandle new_e = new_edge(from_vertex_handle(h0), _vh);
  
  //fix the vertex of the opposite halfedge
  set_vertex_handle(h1, _vh);
  
  //fix the halfedge connectivity
  set_next_halfedge_handle(new_e, h0);
  set_next_halfedge_handle(h1, opposite_halfedge_handle(new_e));
  
  set_next_halfedge_handle(ph0, new_e);
  set_next_halfedge_handle(opposite_halfedge_handle(new_e), nh1);
  
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//  set_prev_halfedge_handle(new_e, ph0);
//  set_prev_halfedge_handle(opposite_halfedge_handle(new_e), h1);
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//  set_prev_halfedge_handle(nh1, opposite_halfedge_handle(new_e));
//  set_prev_halfedge_handle(h0, new_e);
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  if (!boundary0)
  {
    set_face_handle(new_e, face_handle(h0));
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  }
  else
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  {
    set_boundary(new_e);
  }
  
  if (!boundary1)
  {
    set_face_handle(opposite_halfedge_handle(new_e), face_handle(h1));
  }
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  else
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  {
    set_boundary(opposite_halfedge_handle(new_e));
  }
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  set_halfedge_handle( _vh, h0 );
  adjust_outgoing_halfedge( _vh );
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  if (halfedge_handle(vfrom) == h0)
  {
    set_halfedge_handle(vfrom, new_e);
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    adjust_outgoing_halfedge( vfrom );
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  }
}

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}//namespace OpenMesh