dust3d/third_party/libigl/include/igl/swept_volume_signed_distanc...

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// This file is part of libigl, a simple c++ geometry processing library.
//
// Copyright (C) 2016 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 "swept_volume_signed_distance.h"
#include "LinSpaced.h"
#include "flood_fill.h"
#include "signed_distance.h"
#include "AABB.h"
#include "pseudonormal_test.h"
#include "per_face_normals.h"
#include "per_vertex_normals.h"
#include "per_edge_normals.h"
#include <Eigen/Geometry>
#include <cmath>
#include <algorithm>
IGL_INLINE void igl::swept_volume_signed_distance(
const Eigen::MatrixXd & V,
const Eigen::MatrixXi & F,
const std::function<Eigen::Affine3d(const double t)> & transform,
const size_t & steps,
const Eigen::MatrixXd & GV,
const Eigen::RowVector3i & res,
const double h,
const double isolevel,
const Eigen::VectorXd & S0,
Eigen::VectorXd & S)
{
using namespace std;
using namespace igl;
using namespace Eigen;
S = S0;
const VectorXd t = igl::LinSpaced<VectorXd >(steps,0,1);
const bool finite_iso = isfinite(isolevel);
const double extension = (finite_iso ? isolevel : 0) + sqrt(3.0)*h;
Eigen::AlignedBox3d box(
V.colwise().minCoeff().array()-extension,
V.colwise().maxCoeff().array()+extension);
// Precomputation
Eigen::MatrixXd FN,VN,EN;
Eigen::MatrixXi E;
Eigen::VectorXi EMAP;
per_face_normals(V,F,FN);
per_vertex_normals(V,F,PER_VERTEX_NORMALS_WEIGHTING_TYPE_ANGLE,FN,VN);
per_edge_normals(
V,F,PER_EDGE_NORMALS_WEIGHTING_TYPE_UNIFORM,FN,EN,E,EMAP);
AABB<MatrixXd,3> tree;
tree.init(V,F);
for(int ti = 0;ti<t.size();ti++)
{
const Affine3d At = transform(t(ti));
for(int g = 0;g<GV.rows();g++)
{
// Don't bother finding out how deep inside points are.
if(finite_iso && S(g)==S(g) && S(g)<isolevel-sqrt(3.0)*h)
{
continue;
}
const RowVector3d gv =
(GV.row(g) - At.translation().transpose())*At.linear();
// If outside of extended box, then consider it "far away enough"
if(finite_iso && !box.contains(gv.transpose()))
{
continue;
}
RowVector3d c,n;
int i;
double sqrd,s;
//signed_distance_pseudonormal(tree,V,F,FN,VN,EN,EMAP,gv,s,sqrd,i,c,n);
const double min_sqrd =
finite_iso ?
pow(sqrt(3.)*h+isolevel,2) :
numeric_limits<double>::infinity();
sqrd = tree.squared_distance(V,F,gv,min_sqrd,i,c);
if(sqrd<min_sqrd)
{
pseudonormal_test(V,F,FN,VN,EN,EMAP,gv,i,c,s,n);
if(S(g) == S(g))
{
S(g) = std::min(S(g),s*sqrt(sqrd));
}else
{
S(g) = s*sqrt(sqrd);
}
}
}
}
if(finite_iso)
{
flood_fill(res,S);
}else
{
#ifndef NDEBUG
// Check for nans
std::for_each(S.data(),S.data()+S.size(),[](const double s){assert(s==s);});
#endif
}
}
IGL_INLINE void igl::swept_volume_signed_distance(
const Eigen::MatrixXd & V,
const Eigen::MatrixXi & F,
const std::function<Eigen::Affine3d(const double t)> & transform,
const size_t & steps,
const Eigen::MatrixXd & GV,
const Eigen::RowVector3i & res,
const double h,
const double isolevel,
Eigen::VectorXd & S)
{
using namespace std;
using namespace igl;
using namespace Eigen;
S = VectorXd::Constant(GV.rows(),1,numeric_limits<double>::quiet_NaN());
return
swept_volume_signed_distance(V,F,transform,steps,GV,res,h,isolevel,S,S);
}