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|
// File: BRepAlgo_OrthogonalProjection.cxx
// Created: Mon Oct 13 16:36:58 1997
// Author: Roman BORISOV
// <rbv@velox.nnov.matra-dtv.fr>
#include <BRepAlgo_NormalProjection.ixx>
#include <ProjLib_CompProjectedCurve.hxx>
#include <TopTools_HSequenceOfShape.hxx>
#include <TopExp_Explorer.hxx>
#include <TopAbs.hxx>
#include <BRepAdaptor_Curve.hxx>
#include <BRepAdaptor_HCurve.hxx>
#include <BRepAdaptor_Surface.hxx>
#include <BRepAdaptor_HSurface.hxx>
#include <ProjLib_HCompProjectedCurve.hxx>
#include <TopoDS_Edge.hxx>
#include <TopoDS_Shape.hxx>
#include <Approx_CurveOnSurface.hxx>
#include <TopoDS.hxx>
#include <BRep_Builder.hxx>
#include <BRepLib_MakeVertex.hxx>
#include <BRepLib_MakeWire.hxx>
#include <Geom2dAdaptor_HCurve.hxx>
#include <Geom2d_Curve.hxx>
#include <Geom_BSplineCurve.hxx>
#include <GeomAdaptor.hxx>
#include <BRepLib_MakeEdge.hxx>
#include <BRepAlgo_BooleanOperations.hxx>
#include <TopOpeBRepBuild_HBuilder.hxx>
#include <BRepTopAdaptor_FClass2d.hxx>
#include <Precision.hxx>
#include <BRepAlgo_SequenceOfSequenceOfInteger.hxx>
#include <TopExp.hxx>
#include <BRepTools.hxx>
#include <TColgp_Array1OfPnt2d.hxx>
#include <TColStd_Array1OfReal.hxx>
#include <TColStd_Array1OfInteger.hxx>
#include <Geom2d_TrimmedCurve.hxx>
#include <Geom2d_BSplineCurve.hxx>
#include <TopTools_ListIteratorOfListOfShape.hxx>
#ifdef DEBUG
#include <OSD_Timer.hxx>
OSD_Chronometer chr_total, chr_init, chr_approx, chr_booltool;
Standard_Real t_total, t_init, t_approx, t_booltool;
Standard_IMPORT Standard_Real t_init_point, t_dicho_bound;
Standard_IMPORT Standard_Integer init_point_count, dicho_bound_count;
void InitChron(OSD_Chronometer& ch)
{
ch.Reset();
ch.Start();
}
void ResultChron( OSD_Chronometer & ch, Standard_Real & time)
{
Standard_Real tch ;
ch.Stop();
ch.Show(tch);
time=time +tch;
}
#endif
//=======================================================================
//function : BRepAlgo_NormalProjection
//purpose :
//=======================================================================
BRepAlgo_NormalProjection::BRepAlgo_NormalProjection()
: myWith3d(Standard_True)
{
BRep_Builder BB;
BB.MakeCompound(TopoDS::Compound(myToProj));
myFaceBounds=Standard_True;
SetDefaultParams();
myMaxDist = -1;
}
//=======================================================================
//function : BRepAlgo_NormalProjection
//purpose :
//=======================================================================
BRepAlgo_NormalProjection::BRepAlgo_NormalProjection(const TopoDS_Shape& S)
: myWith3d(Standard_True)
{
BRep_Builder BB;
BB.MakeCompound(TopoDS::Compound(myToProj));
SetDefaultParams();
myMaxDist = -1;
Init(S);
}
//=======================================================================
//function : Init
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::Init(const TopoDS_Shape& S)
{
myShape = S;
}
//=======================================================================
//function : Add
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::Add(const TopoDS_Shape& ToProj)
{
BRep_Builder BB;
BB.Add(myToProj, ToProj);
}
//=======================================================================
//function : SetParams
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::SetParams(const Standard_Real Tol3D,
const Standard_Real Tol2D,
const GeomAbs_Shape InternalContinuity,
const Standard_Integer MaxDegree,
const Standard_Integer MaxSeg)
{
myTol3d = Tol3D;
myTol2d = Tol2D;
myContinuity = InternalContinuity;
myMaxDegree = MaxDegree;
myMaxSeg = MaxSeg;
}
//=======================================================================
//function : SetDefaultParams
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::SetDefaultParams()
{
myTol3d = 1.e-4;
myTol2d = Pow(myTol3d, 2./3);
myContinuity = GeomAbs_C2;
myMaxDegree = 14;
myMaxSeg = 16;
}
//=======================================================================
//function : SetLimits
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::SetLimit(const Standard_Boolean FaceBounds)
{
myFaceBounds = FaceBounds;
}
//=======================================================================
//function : SetMaxDistance
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::SetMaxDistance(const Standard_Real MaxDist)
{
myMaxDist = MaxDist;
}
//=======================================================================
//function : Compute3d
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::Compute3d(const Standard_Boolean With3d)
{
myWith3d = With3d;
}
//=======================================================================
//function : Build
//purpose :
//=======================================================================
void BRepAlgo_NormalProjection::Build()
{
#ifdef DEBUG
Standard_Integer init_count = 0, approx_count = 0, booltool_count = 0;
t_total = 0;
t_init = 0;
t_approx = 0;
t_booltool = 0;
t_init_point = 0;
init_point_count = 0;
t_dicho_bound = 0;
dicho_bound_count = 0;
InitChron(chr_total);
#endif
myIsDone = Standard_False;
ProjLib_CompProjectedCurve Projector;
Handle(TopTools_HSequenceOfShape) Edges = new TopTools_HSequenceOfShape();
Handle(TopTools_HSequenceOfShape) Faces = new TopTools_HSequenceOfShape();
TopTools_ListOfShape DescenList;
Standard_Integer NbEdges = 0, NbFaces = 0, i, j, k;
TopExp_Explorer ExpOfWire, ExpOfShape;
Standard_Real Udeb, Ufin;
TopoDS_Shape VertexRes;
Standard_Boolean Only3d, Only2d, Elementary;
// for isoparametric cases
TColgp_Array1OfPnt2d Poles(1, 2);
TColStd_Array1OfReal Knots(1, 2);
TColStd_Array1OfInteger Mults(1,2);
Standard_Integer Deg;
Deg = 1;
Mults(1) = Deg + 1;
Mults(2) = Deg + 1;
//
for(ExpOfWire.Init(myToProj, TopAbs_EDGE);
ExpOfWire.More();
ExpOfWire.Next(), NbEdges++) {
Edges->Append(ExpOfWire.Current());
}
for(ExpOfShape.Init(myShape, TopAbs_FACE);
ExpOfShape.More();
ExpOfShape.Next(), NbFaces++) {
Faces->Append(ExpOfShape.Current());
}
BRep_Builder BB;
BB.MakeCompound(TopoDS::Compound(myRes));
BB.MakeCompound(TopoDS::Compound(VertexRes));
Standard_Boolean YaVertexRes = Standard_False;
for(i = 1; i <= NbEdges; i++){
DescenList.Clear();
BRepAdaptor_Curve cur(TopoDS::Edge(Edges->Value(i)));
Handle(BRepAdaptor_HCurve) hcur = new BRepAdaptor_HCurve();
hcur->Set(cur);
Elementary = IsElementary(cur);
for(j = 1; j <= NbFaces; j++){
BRepAdaptor_Surface sur(TopoDS::Face(Faces->Value(j)));
Handle(BRepAdaptor_HSurface) hsur = new BRepAdaptor_HSurface();
hsur->Set(sur);
// computation of TolU and TolV
Standard_Real TolU, TolV;
TolU = hsur->UResolution(myTol3d)/20;
TolV = hsur->VResolution(myTol3d)/20;
// Projection
#ifdef DEBUG
InitChron(chr_init);
#endif
Projector =
ProjLib_CompProjectedCurve(hsur, hcur, TolU, TolV, myMaxDist);
#ifdef DEBUG
ResultChron(chr_init,t_init);
init_count++;
#endif
//
Handle(ProjLib_HCompProjectedCurve) HProjector =
new ProjLib_HCompProjectedCurve();
HProjector->Set(Projector);
TopoDS_Shape prj;
Standard_Boolean Degenerated = Standard_False;
gp_Pnt2d P2d, Pdeb, Pfin;
gp_Pnt P;
Standard_Real UIso, VIso;
Handle(Adaptor2d_HCurve2d) HPCur;
Handle(Geom2d_Curve) PCur2d; // Only for isoparametric projection
for(k = 1; k <= Projector.NbCurves(); k++){
if(Projector.IsSinglePnt(k, P2d)){
#ifdef DEBUG
cout << "Projection of edge "<<i<<" on face "<<j;
cout << " is punctual"<<endl<<endl;
#endif
Projector.GetSurface()->D0(P2d.X(), P2d.Y(), P);
prj = BRepLib_MakeVertex(P).Shape();
DescenList.Append(prj);
BB.Add(VertexRes, prj);
YaVertexRes = Standard_True;
myAncestorMap.Bind(prj, Edges->Value(i));
}
else {
Only2d = Only3d = Standard_False;
Projector.Bounds(k, Udeb, Ufin);
/**************************************************************/
if (Projector.IsUIso(k, UIso)) {
#ifdef DEBUG
cout << "Projection of edge "<<i<<" on face "<<j;
cout << " is U-isoparametric"<<endl<<endl;
#endif
Projector.D0(Udeb, Pdeb);
Projector.D0(Ufin, Pfin);
Poles(1) = Pdeb;
Poles(2) = Pfin;
Knots(1) = Udeb;
Knots(2) = Ufin;
Handle(Geom2d_BSplineCurve) BS2d =
new Geom2d_BSplineCurve(Poles, Knots, Mults, Deg);
PCur2d = new Geom2d_TrimmedCurve( BS2d, Udeb, Ufin);
HPCur = new Geom2dAdaptor_HCurve(PCur2d);
Only3d = Standard_True;
}
else if (Projector.IsVIso(k, VIso)) {
#ifdef DEBUG
cout << "Projection of edge "<<i<<" on face "<<j;
cout << " is V-isoparametric"<<endl<<endl;
#endif
Projector.D0(Udeb, Pdeb);
Projector.D0(Ufin, Pfin);
Poles(1) = Pdeb;
Poles(2) = Pfin;
Knots(1) = Udeb;
Knots(2) = Ufin;
Handle(Geom2d_BSplineCurve) BS2d =
new Geom2d_BSplineCurve(Poles, Knots, Mults, Deg);
PCur2d = new Geom2d_TrimmedCurve(BS2d, Udeb, Ufin);
HPCur = new Geom2dAdaptor_HCurve(PCur2d);
Only3d = Standard_True;
}
else HPCur = HProjector;
if((myWith3d == Standard_False || Elementary) &&
(Projector.MaxDistance(k) <= myTol3d) )
Only2d = Standard_True;
if(Only2d && Only3d) {
BRepLib_MakeEdge MKed(GeomAdaptor::MakeCurve(hcur->Curve()),
Ufin, Udeb);
prj = MKed.Edge();
BB.UpdateEdge(TopoDS::Edge(prj),
PCur2d,
TopoDS::Face(Faces->Value(j)),
myTol3d);
BB.UpdateVertex(TopExp::FirstVertex(TopoDS::Edge(prj)),myTol3d);
BB.UpdateVertex(TopExp::LastVertex(TopoDS::Edge(prj)),myTol3d);
}
else {
#ifdef DEBUG
InitChron(chr_approx);
#endif
Approx_CurveOnSurface appr(HPCur, hsur, Udeb, Ufin, myTol3d,
myContinuity, myMaxDegree, myMaxSeg,
Only3d, Only2d);
#ifdef DEBUG
ResultChron(chr_approx,t_approx);
approx_count++;
cout<<"Approximation.IsDone = "<<appr.IsDone()<<endl;
if(!Only2d)
cout<<"MaxError3d = "<<appr.MaxError3d()<<endl<<endl;
if(!Only3d) {
cout<<"MaxError2dU = "<<appr.MaxError2dU()<<endl;
cout<<"MaxError2dV = "<<appr.MaxError2dV()<<endl<<endl;
}
#endif
if(!Only3d) PCur2d = appr.Curve2d();
if(Only2d) {
BRepLib_MakeEdge MKed(GeomAdaptor::MakeCurve(hcur->Curve()),
Udeb, Ufin);
prj = MKed.Edge();
}
else {
// On teste si la solution n'est pas degeneree pour mettre le
// flag a l'edge, on prend quelques points, on regarde si le nuage de
// points a un diametre inferieur a la tolerance 3D
Degenerated = Standard_True;
Standard_Real Dist;
Handle(Geom_BSplineCurve) BS3d = Handle(Geom_BSplineCurve)::DownCast( appr.Curve3d());
gp_Pnt P1(0.,0.,0.),PP; // skl : I change "P" to "PP"
Standard_Integer NbPoint,ii ; // skl : I change "i" to "ii"
Standard_Real Par,DPar;
// on commence avec 3 points pour rejeter les aretes non degenerees
// tres rapidement
NbPoint =3;
DPar = (BS3d->LastParameter()-BS3d->FirstParameter())/(NbPoint-1);
for (ii=0;ii<NbPoint;ii++)
{
Par=BS3d->FirstParameter()+ii*DPar;
PP=BS3d->Value(Par);
P1.SetXYZ(P1.XYZ() + PP.XYZ()/NbPoint);
}
for (ii=0;ii<NbPoint && Degenerated ;ii++)
{
Par=BS3d->FirstParameter()+ii*DPar;
PP=BS3d->Value(Par);
Dist=P1.Distance(PP);
if(Dist > myTol3d) {
Degenerated = Standard_False;
break;
}
}
// si le test passe on fait un test plus precis
// avec 10 points
if (Degenerated) {
P1.SetCoord(0.,0.,0.);
NbPoint =10;
DPar = (BS3d->LastParameter()-BS3d->FirstParameter())/(NbPoint-1);
for (ii=0;ii<NbPoint;ii++)
{
Par=BS3d->FirstParameter()+ii*DPar;
PP=BS3d->Value(Par);
P1.SetXYZ(P1.XYZ() + PP.XYZ()/NbPoint);
}
for (ii=0;ii<NbPoint && Degenerated ;ii++)
{
Par=BS3d->FirstParameter()+ii*DPar;
PP=BS3d->Value(Par);
Dist=P1.Distance(PP);
if(Dist > myTol3d) {
Degenerated = Standard_False;
break;
}
}
}
if (Degenerated) {
#ifdef DEBUG
cout << "Projection of edge "<<i<<" on face "<<j;
cout << " is degenerated "<<endl<<endl;
#endif
TopoDS_Vertex VV;
BB.MakeVertex(VV);
BB.UpdateVertex(VV,P1,myTol3d);
BB.MakeEdge(TopoDS::Edge(prj));
BB.Add(TopoDS::Edge(prj),VV.Oriented(TopAbs_FORWARD));
BB.Add(TopoDS::Edge(prj),VV.Oriented(TopAbs_REVERSED));
BB.Degenerated(TopoDS::Edge(prj), Standard_True);
}
else {
prj = BRepLib_MakeEdge(BS3d).Edge();
}
}
BB.UpdateEdge(TopoDS::Edge(prj),
PCur2d,
TopoDS::Face(Faces->Value(j)),
appr.MaxError3d());
BB.UpdateVertex(TopExp::FirstVertex(TopoDS::Edge(prj)),appr.MaxError3d());
BB.UpdateVertex(TopExp::LastVertex(TopoDS::Edge(prj)),appr.MaxError3d());
if (Degenerated) {
BB.Range(TopoDS::Edge(prj),
TopoDS::Face(Faces->Value(j)),
Udeb,Ufin);
}
}
if(myFaceBounds) {
// Trimming edges by face bounds
// si la solution est degeneree, on evite d'utiliser le BoolTool
// qui n'aime pas ca.
#ifdef DEBUG
InitChron(chr_booltool);
#endif
if(!Degenerated){
BRepAlgo_BooleanOperations BoolTool;
BoolTool.Shapes2d(Faces->Value(j),prj);
BoolTool.Common();
Handle(TopOpeBRepBuild_HBuilder) HB;
TopTools_ListOfShape LS;
TopTools_ListIteratorOfListOfShape Iter;
HB = BoolTool.Builder();
LS.Clear();
if (HB->IsSplit(prj, TopAbs_IN))
LS = HB->Splits(prj, TopAbs_IN);
Iter.Initialize(LS);
if(Iter.More()) {
#ifdef DEBUG
cout << " BooleanOperations :" << Iter.More()<<" solutions " << endl;
#endif
for(; Iter.More(); Iter.Next()) {
BB.Add(myRes, Iter.Value());
myAncestorMap.Bind(Iter.Value(), Edges->Value(i));
myCorresp.Bind(Iter.Value(),Faces->Value(j));
}
}
else {
BRepTopAdaptor_FClass2d classifier(TopoDS::Face(Faces->Value(j)),
Precision::Confusion());
gp_Pnt2d Puv;
Standard_Real f = PCur2d->FirstParameter();
Standard_Real l = PCur2d->LastParameter();
Standard_Real pmil = (f + l )/2;
PCur2d->D0(pmil, Puv);
TopAbs_State state;
state = classifier.Perform(Puv);
if(state == TopAbs_IN || state == TopAbs_ON) {
BB.Add(myRes, prj);
DescenList.Append(prj);
myAncestorMap.Bind(prj, Edges->Value(i));
myCorresp.Bind(prj, Faces->Value(j));
}
}
}
else {
#ifdef DEB
cout << " BooleanOperations : pas de solution " << endl;
#endif
BRepTopAdaptor_FClass2d classifier(TopoDS::Face(Faces->Value(j)),
Precision::Confusion());
gp_Pnt2d Puv;
Standard_Real f = PCur2d->FirstParameter();
Standard_Real l = PCur2d->LastParameter();
Standard_Real pmil = (f + l )/2;
PCur2d->D0(pmil, Puv);
TopAbs_State state;
state = classifier.Perform(Puv);
if(state == TopAbs_IN || state == TopAbs_ON) {
BB.Add(myRes, prj);
DescenList.Append(prj);
myAncestorMap.Bind(prj, Edges->Value(i));
myCorresp.Bind(prj, Faces->Value(j));
}
#ifdef DEBUG
ResultChron(chr_booltool,t_booltool);
booltool_count++;
#endif
}
}
else {
BB.Add(myRes, prj);
DescenList.Append(prj);
myAncestorMap.Bind(prj, Edges->Value(i));
myCorresp.Bind(prj, Faces->Value(j));
}
}
}
}
myDescendants.Bind(Edges->Value(i), DescenList);
}
// JPI : la creation eventuelle d'un wire est reportee dans une methode specifique
// BuilWire qui pourra etre appelee par l'utilisateur. Sinon, on perdait les
// relations des map myAncestorMap, myCorresp.
if(YaVertexRes) BB.Add(myRes, VertexRes);
myIsDone = Standard_True;
#if DEBUG
ResultChron(chr_total,t_total);
cout<<"Build - Total time : "<<t_total<<" includes:" <<endl;
cout<<"- Projection : "<<t_init<<endl;
cout<<" -- Initial point search : "<<t_init_point<<endl;
cout<<" -- DichoBound search : "<<t_dicho_bound<<endl;
cout<<"- Approximation : "<<t_approx<<endl;
cout<<"- Boolean operation : "<<t_booltool<<endl;
cout<<"- Rest of time : "<<t_total-(t_init + t_approx + t_booltool )<<endl<<endl;
if (init_count != 0)
t_init /= init_count;
if (init_point_count != 0)
t_init_point /= init_point_count;
if (dicho_bound_count != 0)
t_dicho_bound /= dicho_bound_count;
if (approx_count != 0)
t_approx /= approx_count;
if (booltool_count != 0)
t_booltool /= booltool_count;
cout<<"Unitary average time : "<<endl;
cout<<"- Projection : "<<t_init<<endl;
cout<<" -- Initial point search: "<<t_init_point<<endl;
cout<<" -- DichoBound search : "<<t_dicho_bound<<endl;
cout<<"- Approximation : "<<t_approx<<endl;
cout<<"- Boolean operation :"<<t_booltool<<endl;
cout<<endl<<"Number of initial point computations is "<<init_point_count<<endl<<endl;
#endif
}
//=======================================================================
//function : IsDone
//purpose :
//=======================================================================
Standard_Boolean BRepAlgo_NormalProjection::IsDone() const
{
return myIsDone;
}
//=======================================================================
//function : Projection
//purpose :
//=======================================================================
const TopoDS_Shape& BRepAlgo_NormalProjection::Projection() const
{
return myRes;
}
//=======================================================================
//function : Ancestor
//purpose :
//=======================================================================
const TopoDS_Shape& BRepAlgo_NormalProjection::Ancestor(const TopoDS_Edge& E) const
{
return myAncestorMap.Find(E);
}
//=======================================================================
//function : Couple
//purpose :
//=======================================================================
const TopoDS_Shape& BRepAlgo_NormalProjection::Couple(const TopoDS_Edge& E) const
{
return myCorresp.Find(E);
}
//=======================================================================
//function : Generated
//purpose :
//=======================================================================
const TopTools_ListOfShape& BRepAlgo_NormalProjection::Generated(const TopoDS_Shape& S)
{
return myDescendants.Find(S);
}
//=======================================================================
//function : IsElementary
//purpose :
//=======================================================================
Standard_Boolean BRepAlgo_NormalProjection::IsElementary(const Adaptor3d_Curve& C) const
{
GeomAbs_CurveType type;
type = C.GetType();
switch(type) {
case GeomAbs_Line:
case GeomAbs_Circle:
case GeomAbs_Ellipse:
case GeomAbs_Hyperbola:
case GeomAbs_Parabola: return Standard_True;
default: return Standard_False;
}
}
//=======================================================================
//function : BuildWire
//purpose :
//=======================================================================
Standard_Boolean BRepAlgo_NormalProjection::BuildWire(TopTools_ListOfShape& ListOfWire) const
{
TopExp_Explorer ExpOfWire, ExpOfShape;
Standard_Boolean IsWire=Standard_False;
ExpOfShape.Init(myRes, TopAbs_EDGE);
if(ExpOfShape.More())
{
TopTools_ListOfShape List;
for ( ; ExpOfShape.More(); ExpOfShape.Next())
{
const TopoDS_Shape& CurE = ExpOfShape.Current();
List.Append(CurE);
}
BRepLib_MakeWire MW;
MW.Add(List);
if (MW.IsDone())
{
const TopoDS_Shape& Wire = MW.Shape();
// Si le wire resultat contient le meme d'arete qu'au depart OK
// sinon le resultat est vraisemblablement constitue de plusieurs wires.
TopExp_Explorer exp2(Wire,TopAbs_EDGE);
Standard_Integer NbEdges = 0;
for (;exp2.More(); exp2.Next()) NbEdges++;
if ( NbEdges == List.Extent())
{
ListOfWire.Append(Wire);
IsWire = Standard_True;
}
}
}
return IsWire;
}
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