dust3d/third_party/libigl/include/igl/flip_edge.cpp

// This file is part of libigl, a simple c++ geometry processing library.
// 
// Copyright (C) 2016 Qingan Zhou <qnzhou@gmail.com>
// 
// This Source Code Form is subject to the terms of the Mozilla Public License 
// v. 2.0. If a copy of the MPL was not distributed with this file, You can 
// obtain one at http://mozilla.org/MPL/2.0/.

#include "flip_edge.h"

template <
  typename DerivedF,
  typename DerivedE,
  typename DeriveduE,
  typename DerivedEMAP,
  typename uE2EType>
IGL_INLINE void igl::flip_edge(
  Eigen::PlainObjectBase<DerivedF> & F,
  Eigen::PlainObjectBase<DerivedE> & E,
  Eigen::PlainObjectBase<DeriveduE> & uE,
  Eigen::PlainObjectBase<DerivedEMAP> & EMAP,
  std::vector<std::vector<uE2EType> > & uE2E,
  const size_t uei)
{
  typedef typename DerivedF::Scalar Index;
  const size_t num_faces = F.rows();
  assert(F.cols() == 3);
  // Edge to flip [v1,v2] --> [v3,v4]
  // Before:
  // F(f1,:) = [v1,v2,v4] // in some cyclic order
  // F(f2,:) = [v1,v3,v2] // in some cyclic order
  // After: 
  // F(f1,:) = [v1,v3,v4] // in *this* order 
  // F(f2,:) = [v2,v4,v3] // in *this* order
  //
  //          v1                 v1
  //          /|\                / \
  //         / | \              /f1 \
  //     v3 /f2|f1\ v4  =>  v3 /_____\ v4
  //        \  |  /            \ f2  /
  //         \ | /              \   /
  //          \|/                \ /
  //          v2                 v2
  auto& half_edges = uE2E[uei];
  if (half_edges.size() != 2) {
    throw "Cannot flip non-manifold or boundary edge";
  }

  const size_t f1 = half_edges[0] % num_faces;
  const size_t f2 = half_edges[1] % num_faces;
  const size_t c1 = half_edges[0] / num_faces;
  const size_t c2 = half_edges[1] / num_faces;
  assert(c1 < 3);
  assert(c2 < 3);

  assert(f1 != f2);
  const size_t v1 = F(f1, (c1+1)%3);
  const size_t v2 = F(f1, (c1+2)%3);
  const size_t v4 = F(f1, c1);
  const size_t v3 = F(f2, c2);
  assert(F(f2, (c2+2)%3) == v1);
  assert(F(f2, (c2+1)%3) == v2);

  const size_t e_12 = half_edges[0];
  const size_t e_24 = f1 + ((c1 + 1) % 3) * num_faces;
  const size_t e_41 = f1 + ((c1 + 2) % 3) * num_faces;
  const size_t e_21 = half_edges[1];
  const size_t e_13 = f2 + ((c2 + 1) % 3) * num_faces;
  const size_t e_32 = f2 + ((c2 + 2) % 3) * num_faces;
  assert(E(e_12, 0) == v1);
  assert(E(e_12, 1) == v2);
  assert(E(e_24, 0) == v2);
  assert(E(e_24, 1) == v4);
  assert(E(e_41, 0) == v4);
  assert(E(e_41, 1) == v1);
  assert(E(e_21, 0) == v2);
  assert(E(e_21, 1) == v1);
  assert(E(e_13, 0) == v1);
  assert(E(e_13, 1) == v3);
  assert(E(e_32, 0) == v3);
  assert(E(e_32, 1) == v2);

  const size_t ue_24 = EMAP(e_24);
  const size_t ue_41 = EMAP(e_41);
  const size_t ue_13 = EMAP(e_13);
  const size_t ue_32 = EMAP(e_32);

  F(f1, 0) = v1;
  F(f1, 1) = v3;
  F(f1, 2) = v4;
  F(f2, 0) = v2;
  F(f2, 1) = v4;
  F(f2, 2) = v3;

  uE(uei, 0) = v3;
  uE(uei, 1) = v4;

  const size_t new_e_34 = f1;
  const size_t new_e_41 = f1 + num_faces;
  const size_t new_e_13 = f1 + num_faces*2;
  const size_t new_e_43 = f2;
  const size_t new_e_32 = f2 + num_faces;
  const size_t new_e_24 = f2 + num_faces*2;

  E(new_e_34, 0) = v3;
  E(new_e_34, 1) = v4;
  E(new_e_41, 0) = v4;
  E(new_e_41, 1) = v1;
  E(new_e_13, 0) = v1;
  E(new_e_13, 1) = v3;
  E(new_e_43, 0) = v4;
  E(new_e_43, 1) = v3;
  E(new_e_32, 0) = v3;
  E(new_e_32, 1) = v2;
  E(new_e_24, 0) = v2;
  E(new_e_24, 1) = v4;

  EMAP(new_e_34) = uei;
  EMAP(new_e_43) = uei;
  EMAP(new_e_41) = ue_41;
  EMAP(new_e_13) = ue_13;
  EMAP(new_e_32) = ue_32;
  EMAP(new_e_24) = ue_24;

  auto replace = [](std::vector<Index>& array, Index old_v, Index new_v) {
    std::replace(array.begin(), array.end(), old_v, new_v);
  };
  replace(uE2E[uei], e_12, new_e_34);
  replace(uE2E[uei], e_21, new_e_43);
  replace(uE2E[ue_13], e_13, new_e_13);
  replace(uE2E[ue_32], e_32, new_e_32);
  replace(uE2E[ue_24], e_24, new_e_24);
  replace(uE2E[ue_41], e_41, new_e_41);

#ifndef NDEBUG
  auto sanity_check = [&](size_t ue) {
    const auto& adj_faces = uE2E[ue];
    if (adj_faces.size() == 2) {
      const size_t first_f  = adj_faces[0] % num_faces;
      const size_t first_c  = adj_faces[0] / num_faces;
      const size_t second_f = adj_faces[1] % num_faces;
      const size_t second_c = adj_faces[1] / num_faces;
      const size_t vertex_0 = F(first_f, (first_c+1) % 3);
      const size_t vertex_1 = F(first_f, (first_c+2) % 3);
      assert(vertex_0 == F(second_f, (second_c+2) % 3));
      assert(vertex_1 == F(second_f, (second_c+1) % 3));
    }
  };

  sanity_check(uei);
  sanity_check(ue_13);
  sanity_check(ue_32);
  sanity_check(ue_24);
  sanity_check(ue_41);
#endif
}


#ifdef IGL_STATIC_LIBRARY
// Explicit template instantiation
// generated by autoexplicit.sh
template void igl::flip_edge<Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, 2, 0, -1, 2>, Eigen::Matrix<int, -1, 2, 0, -1, 2>, Eigen::Matrix<int, -1, 1, 0, -1, 1>, int>(Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 2, 0, -1, 2> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 2, 0, -1, 2> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 1, 0, -1, 1> >&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, unsigned long);
template void igl::flip_edge<Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, 1, 0, -1, 1>, int>(Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 1, 0, -1, 1> >&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, unsigned long);
#ifdef WIN32
template void igl::flip_edge<Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, 1, 0, -1, 1>, int>(Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 1, 0, -1, 1> >&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, unsigned __int64);
template void igl::flip_edge<class Eigen::Matrix<int,-1,-1,0,-1,-1>,class Eigen::Matrix<int,-1,2,0,-1,2>,class Eigen::Matrix<int,-1,2,0,-1,2>,class Eigen::Matrix<int,-1,1,0,-1,1>,int>(class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,-1,0,-1,-1> > &,class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,2,0,-1,2> > &,class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,2,0,-1,2> > &,class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,1,0,-1,1> > &,class std::vector<class std::vector<int,class std::allocator<int> >,class std::allocator<class std::vector<int,class std::allocator<int> > > > &,unsigned __int64);
#endif
#endif
Repleace the uv unwrapping library with simpleuv https://github.com/huxingyi/simpleuv 2018-10-15 15:02:31 +00:00			`// This file is part of libigl, a simple c++ geometry processing library.`
			`//`
			`// Copyright (C) 2016 Qingan Zhou <qnzhou@gmail.com>`
			`//`
			`// This Source Code Form is subject to the terms of the Mozilla Public License`
			`// v. 2.0. If a copy of the MPL was not distributed with this file, You can`
			`// obtain one at http://mozilla.org/MPL/2.0/.`

			`#include "flip_edge.h"`

			`template <`
			`typename DerivedF,`
			`typename DerivedE,`
			`typename DeriveduE,`
			`typename DerivedEMAP,`
			`typename uE2EType>`
			`IGL_INLINE void igl::flip_edge(`
			`Eigen::PlainObjectBase<DerivedF> & F,`
			`Eigen::PlainObjectBase<DerivedE> & E,`
			`Eigen::PlainObjectBase<DeriveduE> & uE,`
			`Eigen::PlainObjectBase<DerivedEMAP> & EMAP,`
			`std::vector<std::vector<uE2EType> > & uE2E,`
			`const size_t uei)`
			`{`
			`typedef typename DerivedF::Scalar Index;`
			`const size_t num_faces = F.rows();`
			`assert(F.cols() == 3);`
Update libigl and eigen libigl: v2.1.0 eigen: 3.3.7 Old version of eigen will cause QuadriFlow crash on windows becase of this bug: https://eigen.tuxfamily.org/bz/show_bug.cgi?id=1634 2019-12-31 11:46:33 +00:00			`// Edge to flip [v1,v2] --> [v3,v4]`
			`// Before:`
			`// F(f1,:) = [v1,v2,v4] // in some cyclic order`
			`// F(f2,:) = [v1,v3,v2] // in some cyclic order`
			`// After:`
			`// F(f1,:) = [v1,v3,v4] // in this order`
			`// F(f2,:) = [v2,v4,v3] // in this order`
			`//`
Repleace the uv unwrapping library with simpleuv https://github.com/huxingyi/simpleuv 2018-10-15 15:02:31 +00:00			`// v1 v1`
			`// /\|\ / \`
			`// / \| \ /f1 \`
			`// v3 /f2\|f1\ v4 => v3 /_____\ v4`
			`// \ \| / \ f2 /`
			`// \ \| / \ /`
			`// \\|/ \ /`
			`// v2 v2`
			`auto& half_edges = uE2E[uei];`
			`if (half_edges.size() != 2) {`
			`throw "Cannot flip non-manifold or boundary edge";`
			`}`

			`const size_t f1 = half_edges[0] % num_faces;`
			`const size_t f2 = half_edges[1] % num_faces;`
			`const size_t c1 = half_edges[0] / num_faces;`
			`const size_t c2 = half_edges[1] / num_faces;`
			`assert(c1 < 3);`
			`assert(c2 < 3);`

			`assert(f1 != f2);`
			`const size_t v1 = F(f1, (c1+1)%3);`
			`const size_t v2 = F(f1, (c1+2)%3);`
			`const size_t v4 = F(f1, c1);`
			`const size_t v3 = F(f2, c2);`
			`assert(F(f2, (c2+2)%3) == v1);`
			`assert(F(f2, (c2+1)%3) == v2);`

			`const size_t e_12 = half_edges[0];`
			`const size_t e_24 = f1 + ((c1 + 1) % 3) * num_faces;`
			`const size_t e_41 = f1 + ((c1 + 2) % 3) * num_faces;`
			`const size_t e_21 = half_edges[1];`
			`const size_t e_13 = f2 + ((c2 + 1) % 3) * num_faces;`
			`const size_t e_32 = f2 + ((c2 + 2) % 3) * num_faces;`
			`assert(E(e_12, 0) == v1);`
			`assert(E(e_12, 1) == v2);`
			`assert(E(e_24, 0) == v2);`
			`assert(E(e_24, 1) == v4);`
			`assert(E(e_41, 0) == v4);`
			`assert(E(e_41, 1) == v1);`
			`assert(E(e_21, 0) == v2);`
			`assert(E(e_21, 1) == v1);`
			`assert(E(e_13, 0) == v1);`
			`assert(E(e_13, 1) == v3);`
			`assert(E(e_32, 0) == v3);`
			`assert(E(e_32, 1) == v2);`

			`const size_t ue_24 = EMAP(e_24);`
			`const size_t ue_41 = EMAP(e_41);`
			`const size_t ue_13 = EMAP(e_13);`
			`const size_t ue_32 = EMAP(e_32);`

			`F(f1, 0) = v1;`
			`F(f1, 1) = v3;`
			`F(f1, 2) = v4;`
			`F(f2, 0) = v2;`
			`F(f2, 1) = v4;`
			`F(f2, 2) = v3;`

			`uE(uei, 0) = v3;`
			`uE(uei, 1) = v4;`

			`const size_t new_e_34 = f1;`
			`const size_t new_e_41 = f1 + num_faces;`
			`const size_t new_e_13 = f1 + num_faces*2;`
			`const size_t new_e_43 = f2;`
			`const size_t new_e_32 = f2 + num_faces;`
			`const size_t new_e_24 = f2 + num_faces*2;`

			`E(new_e_34, 0) = v3;`
			`E(new_e_34, 1) = v4;`
			`E(new_e_41, 0) = v4;`
			`E(new_e_41, 1) = v1;`
			`E(new_e_13, 0) = v1;`
			`E(new_e_13, 1) = v3;`
			`E(new_e_43, 0) = v4;`
			`E(new_e_43, 1) = v3;`
			`E(new_e_32, 0) = v3;`
			`E(new_e_32, 1) = v2;`
			`E(new_e_24, 0) = v2;`
			`E(new_e_24, 1) = v4;`

			`EMAP(new_e_34) = uei;`
			`EMAP(new_e_43) = uei;`
			`EMAP(new_e_41) = ue_41;`
			`EMAP(new_e_13) = ue_13;`
			`EMAP(new_e_32) = ue_32;`
			`EMAP(new_e_24) = ue_24;`

			`auto replace = [](std::vector<Index>& array, Index old_v, Index new_v) {`
			`std::replace(array.begin(), array.end(), old_v, new_v);`
			`};`
			`replace(uE2E[uei], e_12, new_e_34);`
			`replace(uE2E[uei], e_21, new_e_43);`
			`replace(uE2E[ue_13], e_13, new_e_13);`
			`replace(uE2E[ue_32], e_32, new_e_32);`
			`replace(uE2E[ue_24], e_24, new_e_24);`
			`replace(uE2E[ue_41], e_41, new_e_41);`

			`#ifndef NDEBUG`
			`auto sanity_check = [&](size_t ue) {`
			`const auto& adj_faces = uE2E[ue];`
			`if (adj_faces.size() == 2) {`
			`const size_t first_f = adj_faces[0] % num_faces;`
			`const size_t first_c = adj_faces[0] / num_faces;`
			`const size_t second_f = adj_faces[1] % num_faces;`
			`const size_t second_c = adj_faces[1] / num_faces;`
			`const size_t vertex_0 = F(first_f, (first_c+1) % 3);`
			`const size_t vertex_1 = F(first_f, (first_c+2) % 3);`
			`assert(vertex_0 == F(second_f, (second_c+2) % 3));`
			`assert(vertex_1 == F(second_f, (second_c+1) % 3));`
			`}`
			`};`

			`sanity_check(uei);`
			`sanity_check(ue_13);`
			`sanity_check(ue_32);`
			`sanity_check(ue_24);`
			`sanity_check(ue_41);`
			`#endif`
			`}`


			`#ifdef IGL_STATIC_LIBRARY`
Update libigl and eigen libigl: v2.1.0 eigen: 3.3.7 Old version of eigen will cause QuadriFlow crash on windows becase of this bug: https://eigen.tuxfamily.org/bz/show_bug.cgi?id=1634 2019-12-31 11:46:33 +00:00			`// Explicit template instantiation`
			`// generated by autoexplicit.sh`
			template void igl::flip_edge<Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, 2, 0, -1, 2>, Eigen::Matrix<int, -1, 2, 0, -1, 2>, Eigen::Matrix<int, -1, 1, 0, -1, 1>, int>(Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 2, 0, -1, 2> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 2, 0, -1, 2> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 1, 0, -1, 1> >&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, unsigned long);
Repleace the uv unwrapping library with simpleuv https://github.com/huxingyi/simpleuv 2018-10-15 15:02:31 +00:00			template void igl::flip_edge<Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, 1, 0, -1, 1>, int>(Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 1, 0, -1, 1> >&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, unsigned long);
Update libigl and eigen libigl: v2.1.0 eigen: 3.3.7 Old version of eigen will cause QuadriFlow crash on windows becase of this bug: https://eigen.tuxfamily.org/bz/show_bug.cgi?id=1634 2019-12-31 11:46:33 +00:00			`#ifdef WIN32`
			template void igl::flip_edge<Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, 1, 0, -1, 1>, int>(Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 1, 0, -1, 1> >&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, unsigned __int64);
			template void igl::flip_edge<class Eigen::Matrix<int,-1,-1,0,-1,-1>,class Eigen::Matrix<int,-1,2,0,-1,2>,class Eigen::Matrix<int,-1,2,0,-1,2>,class Eigen::Matrix<int,-1,1,0,-1,1>,int>(class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,-1,0,-1,-1> > &,class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,2,0,-1,2> > &,class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,2,0,-1,2> > &,class Eigen::PlainObjectBase<class Eigen::Matrix<int,-1,1,0,-1,1> > &,class std::vector<class std::vector<int,class std::allocator<int> >,class std::allocator<class std::vector<int,class std::allocator<int> > > > &,unsigned __int64);
			`#endif`
			`#endif`