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/* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup freestyle
* \brief Classes to define a silhouette structure
*/
#include "Silhouette.h"
#include "ViewMap.h"
namespace Freestyle {
/**********************************/
/* */
/* */
/* SVertex */
/* */
/* */
/**********************************/
Nature::VertexNature SVertex::getNature() const
{
Nature::VertexNature nature = Nature::S_VERTEX;
if (_pViewVertex) {
nature |= _pViewVertex->getNature();
}
return nature;
}
SVertex *SVertex::castToSVertex()
{
return this;
}
ViewVertex *SVertex::castToViewVertex()
{
return _pViewVertex;
}
NonTVertex *SVertex::castToNonTVertex()
{
return dynamic_cast<NonTVertex *>(_pViewVertex);
}
TVertex *SVertex::castToTVertex()
{
return dynamic_cast<TVertex *>(_pViewVertex);
}
float SVertex::shape_importance() const
{
return shape()->importance();
}
#if 0
Material SVertex::material() const
{
return _Shape->material();
}
#endif
Id SVertex::shape_id() const
{
return _Shape->getId();
}
const SShape *SVertex::shape() const
{
return _Shape;
}
int SVertex::qi() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->qi();
}
occluder_container::const_iterator SVertex::occluders_begin() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->occluders_begin();
}
occluder_container::const_iterator SVertex::occluders_end() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->occluders_end();
}
bool SVertex::occluders_empty() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->occluders_empty();
}
int SVertex::occluders_size() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->occluders_size();
}
const Polygon3r &SVertex::occludee() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->occludee();
}
const SShape *SVertex::occluded_shape() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->occluded_shape();
}
bool SVertex::occludee_empty() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->occludee_empty();
}
real SVertex::z_discontinuity() const
{
if (getNature() & Nature::T_VERTEX) {
Exception::raiseException();
}
return (_FEdges[0])->z_discontinuity();
}
FEdge *SVertex::fedge()
{
if (getNature() & Nature::T_VERTEX) {
return nullptr;
}
return _FEdges[0];
}
FEdge *SVertex::getFEdge(Interface0D &inter)
{
FEdge *result = nullptr;
SVertex *iVertexB = dynamic_cast<SVertex *>(&inter);
if (!iVertexB) {
return result;
}
vector<FEdge *>::const_iterator fe = _FEdges.begin(), feend = _FEdges.end();
for (; fe != feend; ++fe) {
if ((((*fe)->vertexA() == this) && ((*fe)->vertexB() == iVertexB)) ||
(((*fe)->vertexB() == this) && ((*fe)->vertexA() == iVertexB))) {
result = (*fe);
}
}
if ((result == nullptr) && (getNature() & Nature::T_VERTEX)) {
SVertex *brother;
ViewVertex *vvertex = viewvertex();
TVertex *tvertex = dynamic_cast<TVertex *>(vvertex);
if (tvertex) {
brother = tvertex->frontSVertex();
if (this == brother) {
brother = tvertex->backSVertex();
}
const vector<FEdge *> &fedges = brother->fedges();
for (fe = fedges.begin(), feend = fedges.end(); fe != feend; ++fe) {
if ((((*fe)->vertexA() == brother) && ((*fe)->vertexB() == iVertexB)) ||
(((*fe)->vertexB() == brother) && ((*fe)->vertexA() == iVertexB))) {
result = (*fe);
}
}
}
}
if ((result == nullptr) && (iVertexB->getNature() & Nature::T_VERTEX)) {
SVertex *brother;
ViewVertex *vvertex = iVertexB->viewvertex();
TVertex *tvertex = dynamic_cast<TVertex *>(vvertex);
if (tvertex) {
brother = tvertex->frontSVertex();
if (iVertexB == brother) {
brother = tvertex->backSVertex();
}
for (fe = _FEdges.begin(), feend = _FEdges.end(); fe != feend; ++fe) {
if ((((*fe)->vertexA() == this) && ((*fe)->vertexB() == brother)) ||
(((*fe)->vertexB() == this) && ((*fe)->vertexA() == brother))) {
result = (*fe);
}
}
}
}
return result;
}
/**********************************/
/* */
/* */
/* FEdge */
/* */
/* */
/**********************************/
int FEdge::viewedge_nature() const
{
return _ViewEdge->getNature();
}
#if 0
float FEdge::viewedge_length() const
{
return _ViewEdge->viewedge_length();
}
#endif
const SShape *FEdge::occluded_shape() const
{
ViewShape *aShape = _ViewEdge->aShape();
if (aShape == nullptr) {
return nullptr;
}
return aShape->sshape();
}
float FEdge::shape_importance() const
{
return _VertexA->shape()->importance();
}
int FEdge::invisibility() const
{
return _ViewEdge->qi();
}
occluder_container::const_iterator FEdge::occluders_begin() const
{
return _ViewEdge->occluders_begin();
}
occluder_container::const_iterator FEdge::occluders_end() const
{
return _ViewEdge->occluders_end();
}
bool FEdge::occluders_empty() const
{
return _ViewEdge->occluders_empty();
}
int FEdge::occluders_size() const
{
return _ViewEdge->occluders_size();
}
bool FEdge::occludee_empty() const
{
return _ViewEdge->occludee_empty();
}
Id FEdge::shape_id() const
{
return _VertexA->shape()->getId();
}
const SShape *FEdge::shape() const
{
return _VertexA->shape();
}
real FEdge::z_discontinuity() const
{
if (!(getNature() & Nature::SILHOUETTE) && !(getNature() & Nature::BORDER)) {
return 0;
}
BBox<Vec3r> box = ViewMap::getInstance()->getScene3dBBox();
Vec3r bbox_size_vec(box.getMax() - box.getMin());
real bboxsize = bbox_size_vec.norm();
if (occludee_empty()) {
// return FLT_MAX;
return 1.0;
// return bboxsize;
}
#if 0
real result;
z_discontinuity_functor<SVertex> _functor;
Evaluate<SVertex, z_discontinuity_functor<SVertex>>(&_functor, iCombination, result);
#endif
Vec3r middle(_VertexB->point3d() - _VertexA->point3d());
middle /= 2;
Vec3r disc_vec(middle - _occludeeIntersection);
real res = disc_vec.norm() / bboxsize;
return res;
// return fabs((middle.z() - _occludeeIntersection.z()));
}
#if 0
float FEdge::local_average_depth(int iCombination) const
{
float result;
local_average_depth_functor<SVertex> functor;
Evaluate(&functor, iCombination, result);
return result;
}
float FEdge::local_depth_variance(int iCombination) const
{
float result;
local_depth_variance_functor<SVertex> functor;
Evaluate(&functor, iCombination, result);
return result;
}
real FEdge::local_average_density(float sigma, int iCombination) const
{
float result;
density_functor<SVertex> functor(sigma);
Evaluate(&functor, iCombination, result);
return result;
}
Vec3r FEdge::normal(int &oException /* = Exception::NO_EXCEPTION */)
{
Vec3r Na = _VertexA->normal(oException);
if (oException != Exception::NO_EXCEPTION) {
return Na;
}
Vec3r Nb = _VertexB->normal(oException);
if (oException != Exception::NO_EXCEPTION) {
return Nb;
}
return (Na + Nb) / 2.0;
}
Vec3r FEdge::curvature2d_as_vector(int iCombination) const
{
Vec3r result;
curvature2d_as_vector_functor<SVertex> _functor;
Evaluate<Vec3r, curvature2d_as_vector_functor<SVertex>>(&_functor, iCombination, result);
return result;
}
real FEdge::curvature2d_as_angle(int iCombination) const
{
real result;
curvature2d_as_angle_functor<SVertex> _functor;
Evaluate<real, curvature2d_as_angle_functor<SVertex>>(&_functor, iCombination, result);
return result;
}
#endif
/**********************************/
/* */
/* */
/* FEdgeSharp */
/* */
/* */
/**********************************/
#if 0
Material FEdge::material() const
{
return _VertexA->shape()->material();
}
#endif
const FrsMaterial &FEdgeSharp::aFrsMaterial() const
{
return _VertexA->shape()->frs_material(_aFrsMaterialIndex);
}
const FrsMaterial &FEdgeSharp::bFrsMaterial() const
{
return _VertexA->shape()->frs_material(_bFrsMaterialIndex);
}
/**********************************/
/* */
/* */
/* FEdgeSmooth */
/* */
/* */
/**********************************/
const FrsMaterial &FEdgeSmooth::frs_material() const
{
return _VertexA->shape()->frs_material(_FrsMaterialIndex);
}
} /* namespace Freestyle */
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