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detect_foldover.cpp
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detect_foldover.cpp
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#include "detect_foldover.h"
#include <vector>
// judge if p1, p2 on the same side of the straight line pass through uv1, uv2
bool two_points_on_same_side(
const Eigen::RowVectorXd uv1,
const Eigen::RowVectorXd uv2,
const Eigen::RowVectorXd p1,
const Eigen::RowVectorXd p2)
{
assert( uv1.size() == 2 );
assert( uv2.size() == 2 );
assert( p1.size() == 2 );
assert( p2.size() == 2 );
if( uv1 == uv2 ) return true;
if( uv1(0) == uv2(0) ) {
if( (uv1(0) - p1(0))*(uv1(0) - p2(0)) <= 0 ) {
return false;
}
}
else {
double k = (uv2(1)-uv1(1))/(uv2(0)-uv1(0));
double b = uv1(1)-uv1(0)*k;
if( (p1(0)*k+b-p1(1)) * (p2(0)*k+b-p2(1)) <= 0 ) {
return false;
}
}
return true;
}
bool try_attach_to_seam(
const int e,
const int vertex_off_seam,
const int ti,
const int tj,
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 Eigen::MatrixXd & TC,
const Eigen::MatrixXi & FT
)
{
using namespace std;
using namespace Eigen;
const int m = F.rows();
const auto & step = [&](
const int e,
const int ff,
const int dir,
int & ne,
int & nf,
int & ev)
{
assert( dir == 1 || dir == -1 );
assert((EF(e,1) == ff || EF(e,0) == ff) && "e should touch ff");
const int nside = EF(e,0)==ff?1:0;
const int nv = EI(e,nside);
// get next face
nf = EF(e,nside);
// get next edge
ne = EMAP(nf+m*((nv+dir+3)%3));
ev = (nv-dir+3)%3;
};
int ei = e;
assert( E(e,0) == vertex_off_seam || E(e,1) == vertex_off_seam );
const int nside = 0;
const int f0 = EF(e,nside);
int fi = f0;
int fvi;
int dir = -1;
{ // test dir
const int nv = EI(e,1-nside);
// get next face
const int nf = EF(e,1-nside);
// get next edge
const int ne = EMAP(nf+m*((nv+dir+3)%3));
if( E(ne,0) != vertex_off_seam && E(ne,1) != vertex_off_seam ) dir = -dir;
}
std::vector<std::pair<int,int>> boundary; // vertices on boundary of vertex_off_seam's neighborhood, except for the other vertex of e.
while(true)
{
step(ei,fi,dir,ei,fi,fvi);
boundary.push_back(std::make_pair(fi,fvi));
// back to start?
if(f0 == fi)
{
assert( ei == e );
break;
}
}
// if vertex_off_seam and vertex_on_seam are on different sides for any boundary edge
// in UV space, return false
assert( boundary.size() > 2 );
for( int i=1; i<boundary.size()-1; i++ ) {
RowVectorXd uv1 = TC.row(FT(boundary[i].first,(boundary[i].second+1)%3));
RowVectorXd uv2 = TC.row(FT(boundary[i].first,(boundary[i].second+2)%3));
if( !two_points_on_same_side(uv1, uv2, TC.row(ti), TC.row(tj)) )
return false;
}
return true;
}