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* Update eigen from v3.3.7 to v5.0.1. This updates eigen from v3.3.7 released on December 11, 2018-12-11 to v5.0.1 released on 2025-11-11. There have be a large number of bug-fixes, optimizations, and improvements between these releases. See the details at; https://gitlab.com/libeigen/eigen/-/releases It retains the previous custom minimal `CMakeLists.txt`, and adds a README-OrcaSlicer.md that explains what version and parts of the upstream eigen release have been included, and where the full release can be found. * Update libigl from v2.0.0 (or older) to v2.6.0. This updates libigl from what was probably v2.0.0 released on 2018-10-16 to v2.6.0 released on 2025-05-15. It's possible the old version was even older than that but there is no version indicators in the code and I ran out of patience identifying missing changes and only went back as far as v2.0.0. There have been a large number of bug-fixes, optimizations, and improvements between these versions. See the following for details; https://github.com/libigl/libigl/releases I retained the minimal custom `CMakeLists.txt`, added `README.md` from the libigl distribution which identifies the version, and added a README-OrcaSlicer.md that details the version and parts that have been included. * Update libslic3r for libigl v2.6.0 changes. This updates libslic3r for all changes moving to eigen v5.0.1 and libigl v2.6.0. Despite the large number of updates to both dependencies, no changes were required for the eigen update, and only one change was required for the libigl update. For libigl, `igl::Hit` was changed to a template taking the Scalar type to use. Previously it was hard-coded to `float`, so to minimize possible impact I've updated all places it is used from `igl::Hit` to `igl::Hit<float>`. * Add compiler option `-DNOMINMAX` for libigl with MSVC. MSVC by default defines `min(()` and `max()` macros that break `std::numeric_limits<>::max()`. The upstream cmake that we don't include adds `-DNOMINMAX` for the libigl module when compiling with MSVC, so we need to add the same thing here. * Fix src/libslic3r/TriangleMeshDeal.cpp for the unmodified upstream libigl. This fixes `TriangleMeshDeal.cpp` to work with the unmodified upstream libigl v2.6.0. loop.{h,cpp} implementation. This file and feature was added in PR "BBS Port: Mesh Subdivision" (#12150) which included changes to `loop.{h,cpp}` in the old version of libigl. This PR avoids modifying the included dependencies, and uses the updated upstream versions of those files without any modifications, which requires fixing TriangleMeshDeal.cpp to work with them. In particular, the modifications made to `loop.{h,cpp}` included changing the return type from void to bool, adding additional validation checking of the input meshes, and returning false if they failed validation. These added checks looked unnecessary and would only have caught problems if the input mesh was very corrupt. To make `TriangleMeshDeal.cpp` work without this built-in checking functionality, I removed checking/handling of any `false` return value. There was also a hell of a lot of redundant copying and casting back and forth between float and double, so I cleaned that up. The input and output meshs use floats for the vertexes, and there would be no accuracy benefits from casting to and from doubles for the simple weighted average operations done by igl::loop(). So this just uses `Eigen:Map` to use the original input mesh vertex data directly without requiring any copy or casting. * Move eigen from included `deps_src` to externaly fetched `deps`. This copys what PrusaSlicer did and moved it from an included dependency under `deps_src` to an externaly fetched dependency under `deps`. This requires updating some `CMakeList.txt` configs and removing the old and obsolete `cmake/modules/FindEigen3.cmake`. The details of when this was done in PrusaSlicer and the followup fixes are at; *21116995d7* https://github.com/prusa3d/PrusaSlicer/issues/13608 * https://github.com/prusa3d/PrusaSlicer/pull/13609 *e3c277b9eeFor some reason I don't fully understand this also required fixing `src/slic3r/GUI/GUI_App.cpp` by adding `#include <boost/nowide/cstdio.hpp>` to fix an `error: ‘remove’ is not a member of ‘boost::nowide'`. The main thing I don't understand is how it worked before. Note that this include is in the PrusaSlicer version of this file, but it also significantly deviates from what is currently in OrcaSlicer in many other ways. * Whups... I missed adding the deps/Eigen/Eigen.cmake file... * Tidy some whitespace indenting in CMakeLists.txt. * Ugh... tabs indenting needing fixes. * Change the include order of deps/Eigen. It turns out that although Boost includes some references to Eigen, Eigen also includes some references to Boost for supporting some of it's additional numeric types. I don't think it matters much since we are not using these features, but I think technically its more correct to say Eigen depends on Boost than the other way around, so I've re-ordered them. * Add source for Eigen 5.0.1 download to flatpak yml config. * Add explicit `DEPENDS dep_Boost to deps/Eigen. I missed this before. This ensures we don't rely on include orders to make sure Boost is installed before we configure Eigen. * Add `DEPENDS dep_Boost dep_GMP dep_MPFR` to deps/Eigen. It turns out Eigen can also use GMP and MPFR for multi-precision and multi-precision-rounded numeric types if they are available. Again, I don't think we are using these so it doesn't really matter, but it is technically correct and ensures they are there if we ever do need them. * Fix deps DEPENDENCY ordering for GMP, MPFR, Eigen, and CGAL. I think this is finally correct. Apparently CGAL also optionally depends on Eigen, so the correct dependency order from lowest to highest is GMP, MPFR, Eigen, and CGAL. --------- Co-authored-by: Donovan Baarda <dbaarda@google.com> Co-authored-by: Noisyfox <timemanager.rick@gmail.com>
178 lines
7.2 KiB
C++
178 lines
7.2 KiB
C++
#include "octree.h"
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#include <vector>
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namespace igl {
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template <typename DerivedP, typename IndexType, typename DerivedCH,
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typename DerivedCN, typename DerivedW>
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IGL_INLINE void octree(const Eigen::MatrixBase<DerivedP>& P,
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std::vector<std::vector<IndexType> > & point_indices,
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Eigen::PlainObjectBase<DerivedCH>& CH,
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Eigen::PlainObjectBase<DerivedCN>& CN,
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Eigen::PlainObjectBase<DerivedW>& W)
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{
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const int MAX_DEPTH = 30000;
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typedef typename DerivedCH::Scalar ChildrenType;
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typedef typename DerivedCN::Scalar CentersType;
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typedef typename DerivedW::Scalar WidthsType;
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typedef typename DerivedP::Scalar PointScalar;
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typedef Eigen::Matrix<ChildrenType,8,1> Vector8i;
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typedef Eigen::Matrix<PointScalar, 1, 3> RowVector3PType;
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typedef Eigen::Matrix<CentersType, 1, 3> RowVector3CentersType;
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std::vector<Eigen::Matrix<ChildrenType,8,1>,
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Eigen::aligned_allocator<Eigen::Matrix<ChildrenType,8,1> > > children;
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std::vector<Eigen::Matrix<CentersType,1,3>,
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Eigen::aligned_allocator<Eigen::Matrix<CentersType,1,3> > > centers;
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std::vector<WidthsType> widths;
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auto get_octant = [](const RowVector3PType& location,
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const RowVector3CentersType& center){
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// We use a binary numbering of children. Treating the parent cell's
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// center as the origin, we number the octants in the following manner:
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// The first bit is 1 iff the octant's x coordinate is positive
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// The second bit is 1 iff the octant's y coordinate is positive
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// The third bit is 1 iff the octant's z coordinate is positive
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//
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// For example, the octant with negative x, positive y, positive z is:
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// 110 binary = 6 decimal
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IndexType index = 0;
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if( location(0) >= center(0)){
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index = index + 1;
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}
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if( location(1) >= center(1)){
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index = index + 2;
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}
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if( location(2) >= center(2)){
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index = index + 4;
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}
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return index;
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};
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std::function< RowVector3CentersType(const RowVector3CentersType,
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const CentersType,
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const ChildrenType) >
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translate_center =
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[](const RowVector3CentersType & parent_center,
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const CentersType h,
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const ChildrenType child_index){
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RowVector3CentersType change_vector;
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change_vector << -h,-h,-h;
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//positive x chilren are 1,3,4,7
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if(child_index % 2){
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change_vector(0) = h;
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}
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//positive y children are 2,3,6,7
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if(child_index == 2 || child_index == 3 ||
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child_index == 6 || child_index == 7){
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change_vector(1) = h;
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}
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//positive z children are 4,5,6,7
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if(child_index > 3){
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change_vector(2) = h;
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}
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RowVector3CentersType output = parent_center + change_vector;
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return output;
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};
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// How many cells do we have so far?
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IndexType m = 0;
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// Useful list of number 0..7
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const Vector8i zero_to_seven = (Vector8i()<<0,1,2,3,4,5,6,7).finished();
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const Vector8i neg_ones = Vector8i::Constant(-1);
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std::function< void(const ChildrenType, const int) > helper;
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// VSC and clang don't agree on whether MAX_DEPTH needs to be in the capture
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// list.
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helper = [&helper,&translate_center,&get_octant,&m,
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&zero_to_seven,&neg_ones,&P,
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&point_indices,&children,¢ers,&widths,&MAX_DEPTH]
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(const ChildrenType index, const int depth)-> void
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{
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if(point_indices.at(index).size() > 1 && depth < MAX_DEPTH){
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//give the parent access to the children
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children.at(index) = zero_to_seven.array() + m;
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//make the children's data in our arrays
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//Add the children to the lists, as default children
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CentersType h = widths.at(index)/2;
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RowVector3CentersType curr_center = centers.at(index);
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for(ChildrenType i = 0; i < 8; i++){
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children.emplace_back(neg_ones);
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point_indices.emplace_back(std::vector<IndexType>());
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centers.emplace_back(translate_center(curr_center,h/2,i));
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widths.emplace_back(h);
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}
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//Split up the points into the corresponding children
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for(int j = 0; j < point_indices.at(index).size(); j++){
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IndexType curr_point_index = point_indices.at(index).at(j);
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IndexType cell_of_curr_point =
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get_octant(P.row(curr_point_index),curr_center)+m;
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point_indices.at(cell_of_curr_point).emplace_back(curr_point_index);
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}
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//Now increase m
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m += 8;
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// Look ma, I'm calling myself.
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for(int i = 0; i < 8; i++){
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helper(children.at(index)(i),depth+1);
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}
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}
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};
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{
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std::vector<IndexType> all(P.rows());
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for(IndexType i = 0;i<all.size();i++) all[i]=i;
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point_indices.emplace_back(all);
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}
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children.emplace_back(neg_ones);
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//Get the minimum AABB for the points
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RowVector3PType backleftbottom = P.colwise().minCoeff();
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RowVector3PType frontrighttop = P.colwise().maxCoeff();
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RowVector3CentersType aabb_center = (backleftbottom+frontrighttop)/PointScalar(2.0);
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WidthsType aabb_width = (frontrighttop - backleftbottom).maxCoeff();
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centers.emplace_back( aabb_center );
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//Widths are the side length of the cube, (not half the side length):
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widths.emplace_back( aabb_width );
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m++;
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// then you have to actually call the function
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helper(0,0);
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//Now convert from vectors to Eigen matricies:
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CH.resize(children.size(),8);
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CN.resize(centers.size(),3);
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W.resize(widths.size(),1);
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for(int i = 0; i < children.size(); i++){
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CH.row(i) = children.at(i);
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}
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for(int i = 0; i < centers.size(); i++){
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CN.row(i) = centers.at(i);
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}
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for(int i = 0; i < widths.size(); i++){
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W(i) = widths.at(i);
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}
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}
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}
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#ifdef IGL_STATIC_LIBRARY
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// Explicit template instantiation
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// generated by autoexplicit.sh
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template void igl::octree<Eigen::Matrix<double, -1, -1, 0, -1, -1>, int, Eigen::Matrix<int, -1, -1, 0, -1, -1>, Eigen::Matrix<double, -1, -1, 0, -1, -1>, Eigen::Matrix<double, -1, 1, 0, -1, 1> >(Eigen::MatrixBase<Eigen::Matrix<double, -1, -1, 0, -1, -1> > const&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<double, -1, -1, 0, -1, -1> >&, Eigen::PlainObjectBase<Eigen::Matrix<double, -1, 1, 0, -1, 1> >&);
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template void igl::octree<Eigen::Matrix<double, -1, -1, 0, -1, -1>, int, Eigen::Matrix<int, -1, 8, 0, -1, 8>, Eigen::Matrix<double, -1, 3, 0, -1, 3>, Eigen::Matrix<double, -1, 1, 0, -1, 1> >(Eigen::MatrixBase<Eigen::Matrix<double, -1, -1, 0, -1, -1> > const&, std::vector<std::vector<int, std::allocator<int> >, std::allocator<std::vector<int, std::allocator<int> > > >&, Eigen::PlainObjectBase<Eigen::Matrix<int, -1, 8, 0, -1, 8> >&, Eigen::PlainObjectBase<Eigen::Matrix<double, -1, 3, 0, -1, 3> >&, Eigen::PlainObjectBase<Eigen::Matrix<double, -1, 1, 0, -1, 1> >&);
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#endif
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