Building igl statically and moving to the dep scripts

Fixing dep build script on Windows and removing some warnings.

Use bundled igl by default.

Not building with the dependency scripts if not explicitly stated. This way, it will stay in
Fix the libigl patch to include C source files in header only mode.

src/libigl/igl/arap_linear_block.cpp

@@ -0,0 +1,253 @@
+// This file is part of libigl, a simple c++ geometry processing library.
+// 
+// Copyright (C) 2013 Alec Jacobson <alecjacobson@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 "arap_linear_block.h"
+#include "verbose.h"
+#include "cotmatrix_entries.h"
+#include <Eigen/Dense>
+
+template <typename MatV, typename MatF, typename Scalar>
+IGL_INLINE void igl::arap_linear_block(
+  const MatV & V,
+  const MatF & F,
+  const int d,
+  const igl::ARAPEnergyType energy,
+  Eigen::SparseMatrix<Scalar> & Kd)
+{
+  switch(energy)
+  {
+    case ARAP_ENERGY_TYPE_SPOKES:
+      return igl::arap_linear_block_spokes(V,F,d,Kd);
+      break;
+    case ARAP_ENERGY_TYPE_SPOKES_AND_RIMS:
+      return igl::arap_linear_block_spokes_and_rims(V,F,d,Kd);
+      break;
+    case ARAP_ENERGY_TYPE_ELEMENTS:
+      return igl::arap_linear_block_elements(V,F,d,Kd);
+      break;
+    default:
+      verbose("Unsupported energy type: %d\n",energy);
+      assert(false);
+  }
+}
+
+
+template <typename MatV, typename MatF, typename Scalar>
+IGL_INLINE void igl::arap_linear_block_spokes(
+  const MatV & V,
+  const MatF & F,
+  const int d,
+  Eigen::SparseMatrix<Scalar> & Kd)
+{
+  using namespace std;
+  using namespace Eigen;
+  // simplex size (3: triangles, 4: tetrahedra)
+  int simplex_size = F.cols();
+  // Number of elements
+  int m = F.rows();
+  // Temporary output
+  Matrix<int,Dynamic,2> edges;
+  Kd.resize(V.rows(), V.rows());
+  vector<Triplet<Scalar> > Kd_IJV;
+  if(simplex_size == 3)
+  {
+    // triangles
+    Kd.reserve(7*V.rows());
+    Kd_IJV.reserve(7*V.rows());
+    edges.resize(3,2);
+    edges << 
+      1,2,
+      2,0,
+      0,1;
+  }else if(simplex_size == 4)
+  {
+    // tets
+    Kd.reserve(17*V.rows());
+    Kd_IJV.reserve(17*V.rows());
+    edges.resize(6,2);
+    edges << 
+      1,2,
+      2,0,
+      0,1,
+      3,0,
+      3,1,
+      3,2;
+  }
+  // gather cotangent weights
+  Matrix<Scalar,Dynamic,Dynamic> C;
+  cotmatrix_entries(V,F,C);
+  // should have weights for each edge
+  assert(C.cols() == edges.rows());
+  // loop over elements
+  for(int i = 0;i<m;i++)
+  {
+    // loop over edges of element
+    for(int e = 0;e<edges.rows();e++)
+    {
+      int source = F(i,edges(e,0));
+      int dest = F(i,edges(e,1));
+      double v = 0.5*C(i,e)*(V(source,d)-V(dest,d));
+      Kd_IJV.push_back(Triplet<Scalar>(source,dest,v));
+      Kd_IJV.push_back(Triplet<Scalar>(dest,source,-v));
+      Kd_IJV.push_back(Triplet<Scalar>(source,source,v));
+      Kd_IJV.push_back(Triplet<Scalar>(dest,dest,-v));
+    }
+  }
+  Kd.setFromTriplets(Kd_IJV.begin(),Kd_IJV.end());
+  Kd.makeCompressed();
+}
+
+template <typename MatV, typename MatF, typename Scalar>
+IGL_INLINE void igl::arap_linear_block_spokes_and_rims(
+  const MatV & V,
+  const MatF & F,
+  const int d,
+  Eigen::SparseMatrix<Scalar> & Kd)
+{
+  using namespace std;
+  using namespace Eigen;
+  // simplex size (3: triangles, 4: tetrahedra)
+  int simplex_size = F.cols();
+  // Number of elements
+  int m = F.rows();
+  // Temporary output
+  Kd.resize(V.rows(), V.rows());
+  vector<Triplet<Scalar> > Kd_IJV;
+  Matrix<int,Dynamic,2> edges;
+  if(simplex_size == 3)
+  {
+    // triangles
+    Kd.reserve(7*V.rows());
+    Kd_IJV.reserve(7*V.rows());
+    edges.resize(3,2);
+    edges << 
+      1,2,
+      2,0,
+      0,1;
+  }else if(simplex_size == 4)
+  {
+    // tets
+    Kd.reserve(17*V.rows());
+    Kd_IJV.reserve(17*V.rows());
+    edges.resize(6,2);
+    edges << 
+      1,2,
+      2,0,
+      0,1,
+      3,0,
+      3,1,
+      3,2;
+    // Not implemented yet for tets
+    assert(false);
+  }
+  // gather cotangent weights
+  Matrix<Scalar,Dynamic,Dynamic> C;
+  cotmatrix_entries(V,F,C);
+  // should have weights for each edge
+  assert(C.cols() == edges.rows());
+  // loop over elements
+  for(int i = 0;i<m;i++)
+  {
+    // loop over edges of element
+    for(int e = 0;e<edges.rows();e++)
+    {
+      int source = F(i,edges(e,0));
+      int dest = F(i,edges(e,1));
+      double v = C(i,e)*(V(source,d)-V(dest,d))/3.0;
+      // loop over edges again
+      for(int f = 0;f<edges.rows();f++)
+      {
+        int Rs = F(i,edges(f,0));
+        int Rd = F(i,edges(f,1));
+        if(Rs == source && Rd == dest)
+        {
+          Kd_IJV.push_back(Triplet<Scalar>(Rs,Rd,v));
+          Kd_IJV.push_back(Triplet<Scalar>(Rd,Rs,-v));
+        }else if(Rd == source)
+        {
+          Kd_IJV.push_back(Triplet<Scalar>(Rd,Rs,v));
+        }else if(Rs == dest)
+        {
+          Kd_IJV.push_back(Triplet<Scalar>(Rs,Rd,-v));
+        }
+      }
+      Kd_IJV.push_back(Triplet<Scalar>(source,source,v));
+      Kd_IJV.push_back(Triplet<Scalar>(dest,dest,-v));
+    }
+  }
+  Kd.setFromTriplets(Kd_IJV.begin(),Kd_IJV.end());
+  Kd.makeCompressed();
+}
+
+template <typename MatV, typename MatF, typename Scalar>
+IGL_INLINE void igl::arap_linear_block_elements(
+  const MatV & V,
+  const MatF & F,
+  const int d,
+  Eigen::SparseMatrix<Scalar> & Kd)
+{
+  using namespace std;
+  using namespace Eigen;
+  // simplex size (3: triangles, 4: tetrahedra)
+  int simplex_size = F.cols();
+  // Number of elements
+  int m = F.rows();
+  // Temporary output
+  Kd.resize(V.rows(), F.rows());
+  vector<Triplet<Scalar> > Kd_IJV;
+  Matrix<int,Dynamic,2> edges;
+  if(simplex_size == 3)
+  {
+    // triangles
+    Kd.reserve(7*V.rows());
+    Kd_IJV.reserve(7*V.rows());
+    edges.resize(3,2);
+    edges << 
+      1,2,
+      2,0,
+      0,1;
+  }else if(simplex_size == 4)
+  {
+    // tets
+    Kd.reserve(17*V.rows());
+    Kd_IJV.reserve(17*V.rows());
+    edges.resize(6,2);
+    edges << 
+      1,2,
+      2,0,
+      0,1,
+      3,0,
+      3,1,
+      3,2;
+  }
+  // gather cotangent weights
+  Matrix<Scalar,Dynamic,Dynamic> C;
+  cotmatrix_entries(V,F,C);
+  // should have weights for each edge
+  assert(C.cols() == edges.rows());
+  // loop over elements
+  for(int i = 0;i<m;i++)
+  {
+    // loop over edges of element
+    for(int e = 0;e<edges.rows();e++)
+    {
+      int source = F(i,edges(e,0));
+      int dest = F(i,edges(e,1));
+      double v = C(i,e)*(V(source,d)-V(dest,d));
+      Kd_IJV.push_back(Triplet<Scalar>(source,i,v));
+      Kd_IJV.push_back(Triplet<Scalar>(dest,i,-v));
+    }
+  }
+  Kd.setFromTriplets(Kd_IJV.begin(),Kd_IJV.end());
+  Kd.makeCompressed();
+}
+
+
+#ifdef IGL_STATIC_LIBRARY
+// Explicit template instantiation
+template IGL_INLINE void igl::arap_linear_block<Eigen::Matrix<double, -1, -1, 0, -1, -1>, Eigen::Matrix<int, -1, -1, 0, -1, -1>, double>(Eigen::Matrix<double, -1, -1, 0, -1, -1> const&, Eigen::Matrix<int, -1, -1, 0, -1, -1> const&, int, igl::ARAPEnergyType, Eigen::SparseMatrix<double, 0, int>&);
+#endif