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

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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 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 "qslim.h"
#include "collapse_edge.h"
#include "connect_boundary_to_infinity.h"
#include "decimate.h"
#include "edge_flaps.h"
#include "is_edge_manifold.h"
#include "max_faces_stopping_condition.h"
#include "per_vertex_point_to_plane_quadrics.h"
#include "qslim_optimal_collapse_edge_callbacks.h"
#include "quadric_binary_plus_operator.h"
#include "remove_unreferenced.h"
#include "slice.h"
#include "slice_mask.h"
IGL_INLINE bool igl::qslim(
const Eigen::MatrixXd & V,
const Eigen::MatrixXi & F,
const size_t max_m,
Eigen::MatrixXd & U,
Eigen::MatrixXi & G,
Eigen::VectorXi & J,
Eigen::VectorXi & I)
{
using namespace igl;
// Original number of faces
const int orig_m = F.rows();
// Tracking number of faces
int m = F.rows();
typedef Eigen::MatrixXd DerivedV;
typedef Eigen::MatrixXi DerivedF;
DerivedV VO;
DerivedF FO;
igl::connect_boundary_to_infinity(V,F,VO,FO);
// decimate will not work correctly on non-edge-manifold meshes. By extension
// this includes meshes with non-manifold vertices on the boundary since these
// will create a non-manifold edge when connected to infinity.
if(!is_edge_manifold(FO))
{
return false;
}
Eigen::VectorXi EMAP;
Eigen::MatrixXi E,EF,EI;
edge_flaps(FO,E,EMAP,EF,EI);
// Quadrics per vertex
typedef std::tuple<Eigen::MatrixXd,Eigen::RowVectorXd,double> Quadric;
std::vector<Quadric> quadrics;
per_vertex_point_to_plane_quadrics(VO,FO,EMAP,EF,EI,quadrics);
// State variables keeping track of edge we just collapsed
int v1 = -1;
int v2 = -1;
// Callbacks for computing and updating metric
std::function<void(
const int e,
const Eigen::MatrixXd &,
const Eigen::MatrixXi &,
const Eigen::MatrixXi &,
const Eigen::VectorXi &,
const Eigen::MatrixXi &,
const Eigen::MatrixXi &,
double &,
Eigen::RowVectorXd &)> cost_and_placement;
std::function<bool(
const Eigen::MatrixXd & ,/*V*/
const Eigen::MatrixXi & ,/*F*/
const Eigen::MatrixXi & ,/*E*/
const Eigen::VectorXi & ,/*EMAP*/
const Eigen::MatrixXi & ,/*EF*/
const Eigen::MatrixXi & ,/*EI*/
const std::set<std::pair<double,int> > & ,/*Q*/
const std::vector<std::set<std::pair<double,int> >::iterator > &,/*Qit*/
const Eigen::MatrixXd & ,/*C*/
const int /*e*/
)> pre_collapse;
std::function<void(
const Eigen::MatrixXd & , /*V*/
const Eigen::MatrixXi & , /*F*/
const Eigen::MatrixXi & , /*E*/
const Eigen::VectorXi & ,/*EMAP*/
const Eigen::MatrixXi & , /*EF*/
const Eigen::MatrixXi & , /*EI*/
const std::set<std::pair<double,int> > & , /*Q*/
const std::vector<std::set<std::pair<double,int> >::iterator > &, /*Qit*/
const Eigen::MatrixXd & , /*C*/
const int , /*e*/
const int , /*e1*/
const int , /*e2*/
const int , /*f1*/
const int , /*f2*/
const bool /*collapsed*/
)> post_collapse;
qslim_optimal_collapse_edge_callbacks(
E,quadrics,v1,v2, cost_and_placement, pre_collapse,post_collapse);
// Call to greedy decimator
bool ret = decimate(
VO, FO,
cost_and_placement,
max_faces_stopping_condition(m,orig_m,max_m),
pre_collapse,
post_collapse,
E, EMAP, EF, EI,
U, G, J, I);
// Remove phony boundary faces and clean up
const Eigen::Array<bool,Eigen::Dynamic,1> keep = (J.array()<orig_m);
igl::slice_mask(Eigen::MatrixXi(G),keep,1,G);
igl::slice_mask(Eigen::VectorXi(J),keep,1,J);
Eigen::VectorXi _1,I2;
igl::remove_unreferenced(Eigen::MatrixXd(U),Eigen::MatrixXi(G),U,G,_1,I2);
igl::slice(Eigen::VectorXi(I),I2,1,I);
return ret;
}