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|
// File: BRepLib.cxx
// Created: Wed Dec 15 17:53:58 1993
// Author: Remi LEQUETTE
// <rle@zerox>
// History: pmn 26/09/97 Ajout des parametres d'approx dans BuildCurve3d
// Modified by skv - Thu Jun 3 12:39:19 2004 OCC5898
#include <BRepLib.ixx>
#include <BRepAdaptor_Surface.hxx>
#include <BRepAdaptor_HSurface.hxx>
#include <BRepAdaptor_HCurve2d.hxx>
#include <BRep_Tool.hxx>
#include <BRep_Builder.hxx>
#include <Geom_Surface.hxx>
#include <Geom_RectangularTrimmedSurface.hxx>
#include <Geom_Plane.hxx>
#include <Geom_Curve.hxx>
#include <Geom_BSplineCurve.hxx>
#include <Geom_TrimmedCurve.hxx>
#include <Geom2d_Curve.hxx>
#include <Geom2d_TrimmedCurve.hxx>
#include <Geom2d_BSplineCurve.hxx>
#include <GeomLib.hxx>
#include <TopExp_Explorer.hxx>
#include <TopoDS.hxx>
#include <TopoDS_Edge.hxx>
#include <TopoDS_Face.hxx>
#include <TopoDS_Vertex.hxx>
#include <TopTools_MapOfShape.hxx>
#include <TopTools_IndexedDataMapOfShapeListOfShape.hxx>
#include <TopTools_ListIteratorOfListOfShape.hxx>
#include <TopExp.hxx>
#include <gp.hxx>
#include <gp_Ax2.hxx>
#include <gp_Pln.hxx>
#include <Standard_Real.hxx>
#include <Precision.hxx>
#include <BRep_GCurve.hxx>
#include <BRep_TEdge.hxx>
#include <BRep_TFace.hxx>
#include <AppParCurves_MultiCurve.hxx>
#include <AppParCurves_MultiBSpCurve.hxx>
#include <BRep_ListOfCurveRepresentation.hxx>
#include <BRep_CurveRepresentation.hxx>
#include <BRep_ListIteratorOfListOfCurveRepresentation.hxx>
#include <BRep_TVertex.hxx>
#include <Approx_SameParameter.hxx>
#include <TColgp_Array1OfPnt.hxx>
#include <TColgp_Array1OfPnt2d.hxx>
#include <TColStd_Array1OfReal.hxx>
#include <TColStd_HArray1OfReal.hxx>
#include <TColStd_MapOfTransient.hxx>
#include <GeomAdaptor_Curve.hxx>
#include <GeomAdaptor_HCurve.hxx>
#include <GeomAdaptor_Surface.hxx>
#include <GeomAdaptor_HSurface.hxx>
#include <Geom2dAdaptor_Curve.hxx>
#include <Geom2dAdaptor_HCurve.hxx>
#include <Geom2dAdaptor.hxx>
#include <Geom2dConvert.hxx>
#include <GCPnts_QuasiUniformDeflection.hxx>
#include <BSplCLib.hxx>
#include <ElSLib.hxx>
#include <Adaptor3d_CurveOnSurface.hxx>
#include <Extrema_LocateExtPC.hxx>
#include <ProjLib_ProjectedCurve.hxx>
#include <BRepClass3d_SolidClassifier.hxx>
#include <Bnd_Box.hxx>
#include <BRepBndLib.hxx>
#include <Approx_CurvilinearParameter.hxx>
#include <Geom_BSplineSurface.hxx>
//
// comme on ne pas patcher en cdl GEOMLITE temporairement les GeomLib_ migrent
// dans BRepLib ...
//
static Standard_Real thePrecision = Precision::Confusion();
static Handle(Geom_Plane) thePlane;
//=======================================================================
//function : Precision
//purpose :
//=======================================================================
void BRepLib::Precision(const Standard_Real P)
{
thePrecision = P;
}
//=======================================================================
//function : Precision
//purpose :
//=======================================================================
Standard_Real BRepLib::Precision()
{
return thePrecision;
}
//=======================================================================
//function : Plane
//purpose :
//=======================================================================
void BRepLib::Plane(const Handle(Geom_Plane)& P)
{
thePlane = P;
}
//=======================================================================
//function : Plane
//purpose :
//=======================================================================
const Handle(Geom_Plane)& BRepLib::Plane()
{
if (thePlane.IsNull()) thePlane = new Geom_Plane(gp::XOY());
return thePlane;
}
//=======================================================================
//function : CheckSameRange
//purpose :
//=======================================================================
Standard_Boolean BRepLib::CheckSameRange(const TopoDS_Edge& AnEdge,
const Standard_Real Tolerance)
{
Standard_Boolean IsSameRange = Standard_True,
first_time_in = Standard_True ;
BRep_ListIteratorOfListOfCurveRepresentation an_Iterator
((*((Handle(BRep_TEdge)*)&AnEdge.TShape()))->ChangeCurves());
Standard_Real first, last;
#ifndef DEB
Standard_Real current_first =0., current_last =0. ;
#else
Standard_Real current_first,current_last ;
#endif
Handle(BRep_GCurve) geometric_representation_ptr ;
while (IsSameRange && an_Iterator.More()) {
geometric_representation_ptr =
Handle(BRep_GCurve)::DownCast(an_Iterator.Value());
if (!geometric_representation_ptr.IsNull()) {
first = geometric_representation_ptr->First();
last = geometric_representation_ptr->Last();
if (first_time_in ) {
current_first = first ;
current_last = last ;
first_time_in = Standard_False ;
}
else {
IsSameRange = (Abs(current_first - first) <= Tolerance)
&& (Abs(current_last -last) <= Tolerance ) ;
}
}
an_Iterator.Next() ;
}
return IsSameRange ;
}
//=======================================================================
//function : SameRange
//purpose :
//=======================================================================
void BRepLib::SameRange(const TopoDS_Edge& AnEdge,
const Standard_Real Tolerance)
{
BRep_ListIteratorOfListOfCurveRepresentation an_Iterator
((*((Handle(BRep_TEdge)*)&AnEdge.TShape()))->ChangeCurves());
Handle(Geom2d_Curve) Curve2dPtr, Curve2dPtr2, NewCurve2dPtr, NewCurve2dPtr2;
TopLoc_Location LocalLoc ;
Standard_Boolean first_time_in = Standard_True,
has_curve,
has_closed_curve ;
Handle(BRep_GCurve) geometric_representation_ptr ;
Standard_Real first,
current_first,
last,
current_last ;
const Handle(Geom_Curve) C = BRep_Tool::Curve(AnEdge,
LocalLoc,
current_first,
current_last);
if (!C.IsNull()) {
first_time_in = Standard_False ;
}
while (an_Iterator.More()) {
geometric_representation_ptr =
Handle(BRep_GCurve)::DownCast(an_Iterator.Value());
if (! geometric_representation_ptr.IsNull()) {
has_closed_curve =
has_curve = Standard_False ;
first = geometric_representation_ptr->First();
last = geometric_representation_ptr->Last();
if (geometric_representation_ptr->IsCurveOnSurface()) {
Curve2dPtr = geometric_representation_ptr->PCurve() ;
has_curve = Standard_True ;
}
if (geometric_representation_ptr->IsCurveOnClosedSurface()) {
Curve2dPtr2 = geometric_representation_ptr->PCurve2() ;
has_closed_curve = Standard_True ;
}
if (has_curve || has_closed_curve) {
if (first_time_in) {
current_first = first ;
current_last = last ;
first_time_in = Standard_False ;
}
if (Abs(first - current_first) > Precision::Confusion() ||
Abs(last - current_last) > Precision::Confusion() )
{
if (has_curve)
{
GeomLib::SameRange(Tolerance,
Curve2dPtr,
geometric_representation_ptr->First(),
geometric_representation_ptr->Last(),
current_first,
current_last,
NewCurve2dPtr);
geometric_representation_ptr->PCurve(NewCurve2dPtr) ;
}
if (has_closed_curve)
{
GeomLib::SameRange(Tolerance,
Curve2dPtr2,
geometric_representation_ptr->First(),
geometric_representation_ptr->Last(),
current_first,
current_last,
NewCurve2dPtr2);
geometric_representation_ptr->PCurve2(NewCurve2dPtr2) ;
}
}
}
}
an_Iterator.Next() ;
}
BRep_Builder B;
B.Range(TopoDS::Edge(AnEdge),
current_first,
current_last) ;
B.SameRange(AnEdge,
Standard_True) ;
}
//=======================================================================
//function : EvaluateMaxSegment
//purpose : return MaxSegment to pass in approximation, if MaxSegment==0 provided
//=======================================================================
static Standard_Integer evaluateMaxSegment(const Standard_Integer aMaxSegment,
const Adaptor3d_CurveOnSurface& aCurveOnSurface)
{
if (aMaxSegment != 0) return aMaxSegment;
Handle(Adaptor3d_HSurface) aSurf = aCurveOnSurface.GetSurface();
Handle(Adaptor2d_HCurve2d) aCurv2d = aCurveOnSurface.GetCurve();
Standard_Real aNbSKnots = 0, aNbC2dKnots = 0;
if (aSurf->GetType() == GeomAbs_BSplineSurface) {
Handle(Geom_BSplineSurface) aBSpline = aSurf->BSpline();
aNbSKnots = Max(aBSpline->NbUKnots(), aBSpline->NbVKnots());
}
if (aCurv2d->GetType() == GeomAbs_BSplineCurve) {
aNbC2dKnots = aCurv2d->NbKnots();
}
Standard_Integer aReturn = (Standard_Integer) ( 30 + Max(aNbSKnots, aNbC2dKnots) ) ;
return aReturn;
}
//=======================================================================
//function : BuildCurve3d
//purpose :
//=======================================================================
Standard_Boolean BRepLib::BuildCurve3d(const TopoDS_Edge& AnEdge,
const Standard_Real Tolerance,
const GeomAbs_Shape Continuity,
const Standard_Integer MaxDegree,
const Standard_Integer MaxSegment)
{
Standard_Integer //ErrorCode,
// ReturnCode = 0,
ii,
// num_knots,
jj;
TopLoc_Location LocalLoc,L[2],LC;
Standard_Real f,l,fc,lc, first[2], last[2],
tolerance,
max_deviation,
average_deviation ;
Handle(Geom2d_Curve) Curve2dPtr, Curve2dArray[2] ;
Handle(Geom_Surface) SurfacePtr, SurfaceArray[2] ;
Standard_Integer not_done ;
// if the edge has a 3d curve returns true
const Handle(Geom_Curve) C = BRep_Tool::Curve(AnEdge,LocalLoc,f,l);
if (!C.IsNull())
return Standard_True;
//
// this should not exists but UpdateEdge makes funny things
// if the edge is not same range
//
if (! CheckSameRange(AnEdge,
Precision::Confusion())) {
SameRange(AnEdge,
Tolerance) ;
}
// search a curve on a plane
Handle(Geom_Surface) S;
Handle(Geom2d_Curve) PC;
Standard_Integer i = 0;
Handle(Geom_Plane) P;
not_done = 1 ;
while (not_done) {
i++;
BRep_Tool::CurveOnSurface(AnEdge,PC,S,LocalLoc,f,l,i);
Handle(Geom_RectangularTrimmedSurface) RT =
Handle(Geom_RectangularTrimmedSurface)::DownCast(S);
if ( RT.IsNull()) {
P = Handle(Geom_Plane)::DownCast(S);
}
else {
P = Handle(Geom_Plane)::DownCast(RT->BasisSurface());
}
not_done = ! (S.IsNull() || !P.IsNull()) ;
}
if (! P.IsNull()) {
// compute the 3d curve
gp_Ax2 axes = P->Position().Ax2();
Handle(Geom_Curve) C3d = GeomLib::To3d(axes,PC);
// update the edge
Standard_Real First, Last;
BRep_Builder B;
Standard_Boolean is_closed ;
is_closed = AnEdge.Closed() ;
B.UpdateEdge(AnEdge,C3d,LocalLoc,0.0e0);
BRep_Tool::Range(AnEdge, S, LC, First, Last);
B.Range(AnEdge, First, Last); //Ne pas oublier le range du 3d.(PRO6412)
TopoDS_Edge E = AnEdge ;
E.Closed(is_closed) ;
}
else {
//
// compute the 3d curve using existing surface
//
fc = f ;
lc = l ;
if (!BRep_Tool::Degenerated(AnEdge)) {
jj = 0 ;
for (ii = 0 ; ii < 3 ; ii++ ) {
BRep_Tool::CurveOnSurface(TopoDS::Edge(AnEdge),
Curve2dPtr,
SurfacePtr,
LocalLoc,
fc,
lc,
ii) ;
if (!Curve2dPtr.IsNull() && jj < 2){
Curve2dArray[jj] = Curve2dPtr ;
SurfaceArray[jj] = SurfacePtr ;
L[jj] = LocalLoc ;
first[jj] = fc ;
last[jj] = lc ;
jj += 1 ;
}
}
f = first[0] ;
l = last[0] ;
Curve2dPtr = Curve2dArray[0] ;
SurfacePtr = SurfaceArray[0] ;
Geom2dAdaptor_Curve AnAdaptor3dCurve2d (Curve2dPtr, f, l) ;
GeomAdaptor_Surface AnAdaptor3dSurface (SurfacePtr) ;
Handle(Geom2dAdaptor_HCurve) AnAdaptor3dCurve2dPtr =
new Geom2dAdaptor_HCurve(AnAdaptor3dCurve2d) ;
Handle(GeomAdaptor_HSurface) AnAdaptor3dSurfacePtr =
new GeomAdaptor_HSurface (AnAdaptor3dSurface) ;
Adaptor3d_CurveOnSurface CurveOnSurface( AnAdaptor3dCurve2dPtr,
AnAdaptor3dSurfacePtr) ;
Handle(Geom_Curve) NewCurvePtr ;
GeomLib::BuildCurve3d(Tolerance,
CurveOnSurface,
f,
l,
NewCurvePtr,
max_deviation,
average_deviation,
Continuity,
MaxDegree,
evaluateMaxSegment(MaxSegment,CurveOnSurface)) ;
BRep_Builder B;
tolerance = BRep_Tool::Tolerance(AnEdge) ;
//Patch
//max_deviation = Max(tolerance, max_deviation) ;
max_deviation = Max( tolerance, Tolerance );
Standard_Boolean is_closed ;
is_closed = AnEdge.Closed() ;
B.UpdateEdge(TopoDS::Edge(AnEdge),
NewCurvePtr,
L[0],
max_deviation) ;
TopoDS_Edge E = AnEdge ;
E.Closed(is_closed) ;
if (jj == 1 ) {
//
// if there is only one curve on surface attached to the edge
// than it can be qualified sameparameter
//
B.SameParameter(TopoDS::Edge(AnEdge),
Standard_True) ;
}
}
else {
return Standard_False ;
}
}
return Standard_True;
}
//=======================================================================
//function : BuildCurves3d
//purpose :
//=======================================================================
Standard_Boolean BRepLib::BuildCurves3d(const TopoDS_Shape& S)
{
return BRepLib::BuildCurves3d(S,
1.0e-5) ;
}
//=======================================================================
//function : BuildCurves3d
//purpose :
//=======================================================================
Standard_Boolean BRepLib::BuildCurves3d(const TopoDS_Shape& S,
const Standard_Real Tolerance,
const GeomAbs_Shape Continuity,
const Standard_Integer MaxDegree,
const Standard_Integer MaxSegment)
{
Standard_Boolean boolean_value,
ok = Standard_True;
TopTools_MapOfShape a_counter ;
TopExp_Explorer ex(S,TopAbs_EDGE);
while (ex.More()) {
if (a_counter.Add(ex.Current())) {
boolean_value =
BuildCurve3d(TopoDS::Edge(ex.Current()),
Tolerance, Continuity,
MaxDegree, MaxSegment);
ok = ok && boolean_value ;
}
ex.Next();
}
return ok;
}
//=======================================================================
//function : UpdateEdgeTolerance
//purpose :
//=======================================================================
Standard_Boolean BRepLib::UpdateEdgeTol(const TopoDS_Edge& AnEdge,
const Standard_Real MinToleranceRequested,
const Standard_Real MaxToleranceToCheck)
{
Standard_Integer curve_on_surface_index,
curve_index,
not_done,
has_closed_curve,
has_curve,
jj,
ii,
geom_reference_curve_flag = 0,
max_sampling_points = 90,
min_sampling_points = 30 ;
Standard_Real factor = 100.0e0,
// sampling_array[2],
safe_factor = 1.4e0,
current_last,
current_first,
max_distance,
coded_edge_tolerance,
edge_tolerance = 0.0e0 ;
Handle(TColStd_HArray1OfReal) parameters_ptr ;
Handle(BRep_GCurve) geometric_representation_ptr ;
if (BRep_Tool::Degenerated(AnEdge)) return Standard_False ;
coded_edge_tolerance = BRep_Tool::Tolerance(AnEdge) ;
if (coded_edge_tolerance > MaxToleranceToCheck) return Standard_False ;
const Handle(BRep_TEdge)& TE = *((Handle(BRep_TEdge)*)&AnEdge.TShape());
BRep_ListOfCurveRepresentation& list_curve_rep = TE->ChangeCurves() ;
BRep_ListIteratorOfListOfCurveRepresentation an_iterator(list_curve_rep),
second_iterator(list_curve_rep) ;
Handle(Geom2d_Curve) curve2d_ptr, new_curve2d_ptr;
Handle(Geom_Surface) surface_ptr ;
TopLoc_Location local_location ;
GCPnts_QuasiUniformDeflection a_sampler ;
GeomAdaptor_Curve geom_reference_curve ;
Adaptor3d_CurveOnSurface curve_on_surface_reference ;
Handle(Geom_Curve) C = BRep_Tool::Curve(AnEdge,
local_location,
current_first,
current_last);
curve_on_surface_index = -1 ;
if (!C.IsNull()) {
if (! local_location.IsIdentity()) {
C = Handle(Geom_Curve)::
DownCast(C-> Transformed(local_location.Transformation()) ) ;
}
geom_reference_curve.Load(C) ;
geom_reference_curve_flag = 1 ;
a_sampler.Initialize(geom_reference_curve,
MinToleranceRequested * factor,
current_first,
current_last) ;
}
else {
not_done = 1 ;
curve_on_surface_index = 0 ;
while (not_done && an_iterator.More()) {
geometric_representation_ptr =
Handle(BRep_GCurve)::DownCast(second_iterator.Value());
if (!geometric_representation_ptr.IsNull()
&& geometric_representation_ptr->IsCurveOnSurface()) {
curve2d_ptr = geometric_representation_ptr->PCurve() ;
local_location = geometric_representation_ptr->Location() ;
current_first = geometric_representation_ptr->First();
//first = geometric_representation_ptr->First();
current_last = geometric_representation_ptr->Last();
// must be inverted
//
if (! local_location.IsIdentity() ) {
surface_ptr = Handle(Geom_Surface)::
DownCast( geometric_representation_ptr->Surface()->
Transformed(local_location.Transformation()) ) ;
}
else {
surface_ptr =
geometric_representation_ptr->Surface() ;
}
not_done = 0 ;
}
curve_on_surface_index += 1 ;
}
Geom2dAdaptor_Curve AnAdaptor3dCurve2d (curve2d_ptr) ;
GeomAdaptor_Surface AnAdaptor3dSurface (surface_ptr) ;
Handle(Geom2dAdaptor_HCurve) AnAdaptor3dCurve2dPtr =
new Geom2dAdaptor_HCurve(AnAdaptor3dCurve2d) ;
Handle(GeomAdaptor_HSurface) AnAdaptor3dSurfacePtr =
new GeomAdaptor_HSurface (AnAdaptor3dSurface) ;
curve_on_surface_reference.Load( AnAdaptor3dCurve2dPtr) ;
curve_on_surface_reference.Load( AnAdaptor3dSurfacePtr) ;
a_sampler.Initialize(curve_on_surface_reference,
MinToleranceRequested * factor,
current_first,
current_last) ;
}
TColStd_Array1OfReal sampling_parameters(1,a_sampler.NbPoints()) ;
for (ii = 1 ; ii <= a_sampler.NbPoints() ; ii++) {
sampling_parameters(ii) = a_sampler.Parameter(ii) ;
}
if (a_sampler.NbPoints() < min_sampling_points) {
GeomLib::DensifyArray1OfReal(min_sampling_points,
sampling_parameters,
parameters_ptr) ;
}
else if (a_sampler.NbPoints() > max_sampling_points) {
GeomLib::RemovePointsFromArray(max_sampling_points,
sampling_parameters,
parameters_ptr) ;
}
else {
jj = 1 ;
parameters_ptr =
new TColStd_HArray1OfReal(1,sampling_parameters.Length()) ;
for (ii = sampling_parameters.Lower() ; ii <= sampling_parameters.Upper() ; ii++) {
parameters_ptr->ChangeArray1()(jj) =
sampling_parameters(ii) ;
jj +=1 ;
}
}
curve_index = 0 ;
while (second_iterator.More()) {
geometric_representation_ptr =
Handle(BRep_GCurve)::DownCast(second_iterator.Value());
if (! geometric_representation_ptr.IsNull() &&
curve_index != curve_on_surface_index) {
has_closed_curve =
has_curve = Standard_False ;
// first = geometric_representation_ptr->First();
// last = geometric_representation_ptr->Last();
local_location = geometric_representation_ptr->Location() ;
if (geometric_representation_ptr->IsCurveOnSurface()) {
curve2d_ptr = geometric_representation_ptr->PCurve() ;
has_curve = Standard_True ;
}
if (geometric_representation_ptr->IsCurveOnClosedSurface()) {
curve2d_ptr = geometric_representation_ptr->PCurve2() ;
has_closed_curve = Standard_True ;
}
if (has_curve ||
has_closed_curve) {
if (! local_location.IsIdentity() ) {
surface_ptr = Handle(Geom_Surface)::
DownCast( geometric_representation_ptr->Surface()->
Transformed(local_location.Transformation()) ) ;
}
else {
surface_ptr =
geometric_representation_ptr->Surface() ;
}
Geom2dAdaptor_Curve an_adaptor_curve2d (curve2d_ptr) ;
GeomAdaptor_Surface an_adaptor_surface(surface_ptr) ;
Handle(Geom2dAdaptor_HCurve) an_adaptor_curve2d_ptr =
new Geom2dAdaptor_HCurve(an_adaptor_curve2d) ;
Handle(GeomAdaptor_HSurface) an_adaptor_surface_ptr =
new GeomAdaptor_HSurface (an_adaptor_surface) ;
Adaptor3d_CurveOnSurface a_curve_on_surface(an_adaptor_curve2d_ptr,
an_adaptor_surface_ptr) ;
if (BRep_Tool::SameParameter(AnEdge)) {
GeomLib::EvalMaxParametricDistance(a_curve_on_surface,
geom_reference_curve,
MinToleranceRequested,
parameters_ptr->Array1(),
max_distance) ;
}
else if (geom_reference_curve_flag) {
GeomLib::EvalMaxDistanceAlongParameter(a_curve_on_surface,
geom_reference_curve,
MinToleranceRequested,
parameters_ptr->Array1(),
max_distance) ;
}
else {
GeomLib::EvalMaxDistanceAlongParameter(a_curve_on_surface,
curve_on_surface_reference,
MinToleranceRequested,
parameters_ptr->Array1(),
max_distance) ;
}
max_distance *= safe_factor ;
edge_tolerance = Max(max_distance, edge_tolerance) ;
}
}
curve_index += 1 ;
second_iterator.Next() ;
}
TE->Tolerance(edge_tolerance);
return Standard_True ;
}
//=======================================================================
//function : UpdateEdgeTolerance
//purpose :
//=======================================================================
Standard_Boolean BRepLib::UpdateEdgeTolerance(const TopoDS_Shape& S,
const Standard_Real MinToleranceRequested,
const Standard_Real MaxToleranceToCheck)
{
TopExp_Explorer ex(S,TopAbs_EDGE);
TopTools_MapOfShape a_counter ;
Standard_Boolean return_status = Standard_False,
local_flag ;
while (ex.More()) {
if (a_counter.Add(ex.Current())) {
local_flag =
BRepLib::UpdateEdgeTol(TopoDS::Edge(ex.Current()),
MinToleranceRequested,
MaxToleranceToCheck) ;
if (local_flag && ! return_status) {
return_status = Standard_True ;
}
}
ex.Next();
}
return return_status ;
}
//=======================================================================
//function : SetEdgeTol
//purpose :
//=======================================================================
static void SetEdgeTol(const TopoDS_Edge& E,
const TopoDS_Face& F)
{
TopLoc_Location L;
const Handle(Geom_Surface)& S = BRep_Tool::Surface(F,L);
TopLoc_Location l = L.Predivided(E.Location());
const Handle(BRep_TEdge)& TE = *((Handle(BRep_TEdge)*)&E.TShape());
BRep_ListIteratorOfListOfCurveRepresentation itcr(TE->ChangeCurves());
while (itcr.More()) {
const Handle(BRep_CurveRepresentation)& cr = itcr.Value();
if(cr->IsCurveOnSurface(S,l)) return;
itcr.Next();
}
Handle(Geom_Plane) GP;
Handle(Geom_RectangularTrimmedSurface) GRTS;
GRTS = Handle(Geom_RectangularTrimmedSurface)::DownCast(S);
if(!GRTS.IsNull())
GP = Handle(Geom_Plane)::DownCast(GRTS->BasisSurface());
else
GP = Handle(Geom_Plane)::DownCast(S);
static Handle(GeomAdaptor_HCurve) HC;
static Handle(GeomAdaptor_HSurface) HS;
if (HC.IsNull()) {
HC = new GeomAdaptor_HCurve();
HS = new GeomAdaptor_HSurface();
}
TopLoc_Location LC;
Standard_Real First, Last;
GeomAdaptor_Curve& GAC = HC->ChangeCurve();
GAC.Load(BRep_Tool::Curve(E,LC,First,Last));
LC = L.Predivided(LC);
if (!LC.IsIdentity()) {
GP = Handle(Geom_Plane)::DownCast(
GP->Transformed(LC.Transformation()));
}
GeomAdaptor_Surface& GAS = HS->ChangeSurface();
GAS.Load(GP);
ProjLib_ProjectedCurve Proj(HS,HC);
Handle(Geom2d_Curve) pc = Geom2dAdaptor::MakeCurve(Proj);
gp_Pln pln = GAS.Plane();
Standard_Real d2 = 0.;
Standard_Integer nn = 23;
Standard_Real unsurnn = 1./nn;
for(Standard_Integer i = 0; i <= nn; i++){
Standard_Real t = unsurnn*i;
Standard_Real u = First*(1.-t) + Last*t;
gp_Pnt Pc3d = HC->Value(u);
gp_Pnt2d p2d = pc->Value(u);
gp_Pnt Pcons = ElSLib::Value(p2d.X(),p2d.Y(),pln);
Standard_Real temp = Pc3d.SquareDistance(Pcons);
if(temp > d2) d2 = temp;
}
d2 = 1.5*sqrt(d2);
TE->UpdateTolerance(d2);
}
//=======================================================================
//function : SameParameter
//purpose :
//=======================================================================
void BRepLib::SameParameter(const TopoDS_Shape& S,
const Standard_Real Tolerance,
const Standard_Boolean forced)
{
TopExp_Explorer ex(S,TopAbs_EDGE);
TopTools_MapOfShape Done;
BRep_Builder brB;
while (ex.More()) {
if (Done.Add(ex.Current())) {
if (forced) {
brB.SameRange(TopoDS::Edge(ex.Current()), Standard_False);
brB.SameParameter(TopoDS::Edge(ex.Current()), Standard_False);
}
BRepLib::SameParameter(TopoDS::Edge(ex.Current()),Tolerance);
}
ex.Next();
}
Done.Clear();
BRepAdaptor_Surface BS;
for(ex.Init(S,TopAbs_FACE); ex.More(); ex.Next()){
const TopoDS_Face& curface = TopoDS::Face(ex.Current());
if(!Done.Add(curface)) continue;
BS.Initialize(curface);
if(BS.GetType() != GeomAbs_Plane) continue;
TopExp_Explorer ex2;
for(ex2.Init(curface,TopAbs_EDGE); ex2.More(); ex2.Next()){
const TopoDS_Edge& E = TopoDS::Edge(ex2.Current());
SetEdgeTol(E,curface);
}
}
BRepLib::UpdateTolerances(S);
}
//=======================================================================
//function : SameParameter
//WARNING : Nouvelle spec DUB LBO 9/9/97.
// On recode dans l arete la meilleure tolerance trouvee,
// pour les vertex extremites il faudra trouver autre chose.
//=======================================================================
static Standard_Boolean EvalTol(const Handle(Geom2d_Curve)& pc,
const Handle(Geom_Surface)& s,
const GeomAdaptor_Curve& gac,
const Standard_Real tol,
Standard_Real& tolbail)
{
Standard_Integer ok = 0;
Standard_Real f = gac.FirstParameter();
Standard_Real l = gac.LastParameter();
Extrema_LocateExtPC Projector;
Projector.Initialize(gac,f,l,tol);
Standard_Real u,v;
gp_Pnt p;
tolbail = tol;
for(Standard_Integer i = 1; i <= 5; i++){
Standard_Real t = i/6.;
t = (1.-t) * f + t * l;
pc->Value(t).Coord(u,v);
p = s->Value(u,v);
Projector.Perform(p,t);
if (Projector.IsDone()) {
Standard_Real dist2 = Projector.SquareDistance();
if(dist2 > tolbail * tolbail) tolbail = sqrt (dist2);
ok++;
}
}
return (ok > 2);
}
static Standard_Real ComputeTol(const Handle(Adaptor3d_HCurve)& c3d,
const Handle(Adaptor2d_HCurve2d)& c2d,
const Handle(Adaptor3d_HSurface)& surf,
const Standard_Integer nbp)
{
TColStd_Array1OfReal dist(1,nbp+10);
dist.Init(-1.);
Adaptor3d_CurveOnSurface cons(c2d,surf);
Standard_Real d2 = 0.;
Standard_Integer nn = nbp;
Standard_Real unsurnn = 1./nn;
Standard_Real first = c3d->FirstParameter();
Standard_Real last = c3d->LastParameter();
Standard_Integer i = 0;
for(i = 0; i <= nn; i++){
Standard_Real t = unsurnn*i;
Standard_Real u = first*(1.-t) + last*t;
gp_Pnt Pc3d = c3d->Value(u);
gp_Pnt Pcons = cons.Value(u);
if (Precision::IsInfinite(Pcons.X()) ||
Precision::IsInfinite(Pcons.Y()) ||
Precision::IsInfinite(Pcons.Z())) {
d2=Precision::Infinite();
break;
}
Standard_Real temp = Pc3d.SquareDistance(Pcons);
dist(i+1) = temp;
if(temp > d2) d2 = temp;
}
Standard_Boolean ana = Standard_False;
Standard_Real D2 = 0;
Standard_Integer N1 = 0;
Standard_Integer N2 = 0;
Standard_Integer N3 = 0;
for( i = 1; i<= nbp+10; i++)
if( dist(i) > 0 ) {
if( dist(i) < 1.0 ) N1++;
else N2++;
}
if( N1 > N2 && N2 != 0 ) N3 = 100*N2/(N1+N2);
if( N3 < 10 && N3 != 0 ) {
ana = Standard_True;
for( i = 1; i<= nbp+10; i++)
if( dist(i) > 0 && dist(i) < 1.0 )
if( dist(i) > D2 ) D2 = dist(i);
}
//d2 = 1.5*sqrt(d2);
d2 = (!ana) ? 1.5*sqrt(d2) : 1.5*sqrt(D2);
if(d2<1.e-7) d2 = 1.e-7;
return d2;
}
void BRepLib::SameParameter(const TopoDS_Edge& AnEdge,
const Standard_Real Tolerance)
{
if (BRep_Tool::SameParameter(AnEdge)) return;
const Standard_Integer NCONTROL = 22;
static Handle(GeomAdaptor_HCurve) HC;
static Handle(Geom2dAdaptor_HCurve) HC2d;
static Handle(GeomAdaptor_HSurface) HS;
if(HC.IsNull()){
HC = new GeomAdaptor_HCurve();
HC2d = new Geom2dAdaptor_HCurve();
HS = new GeomAdaptor_HSurface();
}
GeomAdaptor_Curve& GAC = HC->ChangeCurve();
Geom2dAdaptor_Curve& GAC2d = HC2d->ChangeCurve2d();
GeomAdaptor_Surface& GAS = HS->ChangeSurface();
#ifndef DEB
Standard_Real f3d =0.,l3d =0.;
#else
Standard_Real f3d,l3d;
#endif
TopLoc_Location L3d;
Handle(Geom_Curve) C3d;
const Handle(BRep_TEdge)& TE = *((Handle(BRep_TEdge)*) &AnEdge.TShape());
BRep_ListOfCurveRepresentation& CList = TE->ChangeCurves();
BRep_ListIteratorOfListOfCurveRepresentation It(CList);
Standard_Boolean NotDone = Standard_True;
while (NotDone && It.More()) {
Handle(BRep_GCurve) GCurve = Handle(BRep_GCurve)::DownCast(It.Value());
if (!GCurve.IsNull() && GCurve->IsCurve3D()) {
C3d = GCurve->Curve3D() ;
f3d = GCurve->First();
l3d = GCurve->Last();
L3d = GCurve->Location() ;
NotDone = Standard_False;
}
It.Next() ;
}
if(C3d.IsNull()) return;
// modified by NIZHNY-OCC486 Tue Aug 27 17:15:13 2002 :
Standard_Boolean m_TrimmedPeriodical = Standard_False;
Handle(Standard_Type) TheType = C3d->DynamicType();
if( TheType == STANDARD_TYPE(Geom_TrimmedCurve))
{
const Handle(Geom_Curve)& gtC = (*((Handle(Geom_TrimmedCurve)*)&C3d))->BasisCurve();
m_TrimmedPeriodical = gtC->IsPeriodic();
}
// modified by NIZHNY-OCC486 Tue Aug 27 17:15:17 2002 .
BRep_Builder B;
if(!C3d->IsPeriodic()) {
Standard_Real Udeb = C3d->FirstParameter();
Standard_Real Ufin = C3d->LastParameter();
// modified by NIZHNY-OCC486 Tue Aug 27 17:17:14 2002 :
//if (Udeb > f3d) f3d = Udeb;
//if (l3d > Ufin) l3d = Ufin;
if(!m_TrimmedPeriodical)
{
if (Udeb > f3d) f3d = Udeb;
if (l3d > Ufin) l3d = Ufin;
}
// modified by NIZHNY-OCC486 Tue Aug 27 17:17:55 2002 .
}
if(!L3d.IsIdentity()){
C3d = Handle(Geom_Curve)::DownCast(C3d->Transformed(L3d.Transformation()));
}
GAC.Load(C3d,f3d,l3d);
Standard_Boolean IsSameP = 1;
Standard_Real maxdist = 0.;
// Modified by skv - Thu Jun 3 12:39:19 2004 OCC5898 Begin
Standard_Real anEdgeTol = BRep_Tool::Tolerance(AnEdge);
// Modified by skv - Thu Jun 3 12:39:20 2004 OCC5898 End
Standard_Boolean SameRange = BRep_Tool::SameRange(AnEdge);
Standard_Boolean YaPCu = Standard_False;
It.Initialize(CList);
while (It.More()) {
Standard_Boolean isANA = Standard_False;
Standard_Boolean isBSP = Standard_False;
Handle(BRep_GCurve) GCurve = Handle(BRep_GCurve)::DownCast(It.Value());
Handle(Geom2d_Curve) PC[2];
Handle(Geom_Surface) S;
if (!GCurve.IsNull() && GCurve->IsCurveOnSurface()) {
YaPCu = Standard_True;
PC[0] = GCurve->PCurve();
TopLoc_Location PCLoc = GCurve->Location();
S = GCurve->Surface();
if (!PCLoc.IsIdentity() ) {
S = Handle(Geom_Surface)::DownCast(S->Transformed(PCLoc.Transformation()));
}
GAS.Load(S);
if (GCurve->IsCurveOnClosedSurface()) {
PC[1] = GCurve->PCurve2();
}
// Eval tol2d to compute SameRange
Standard_Real UResol = GAS.UResolution(Tolerance);
Standard_Real VResol = GAS.VResolution(Tolerance);
Standard_Real Tol2d = Min(UResol, VResol);
for(Standard_Integer i = 0; i < 2; i++){
Handle(Geom2d_Curve) curPC = PC[i];
Standard_Boolean updatepc = 0;
if(curPC.IsNull()) break;
if(!SameRange){
GeomLib::SameRange(Tol2d,
PC[i],GCurve->First(),GCurve->Last(),
f3d,l3d,curPC);
updatepc = (curPC != PC[i]);
}
Standard_Boolean goodpc = 1;
GAC2d.Load(curPC,f3d,l3d);
Standard_Real error = ComputeTol(HC, HC2d, HS, NCONTROL);
if(GAC2d.GetType() == GeomAbs_BSplineCurve &&
GAC2d.Continuity() == GeomAbs_C0) {
Handle(Geom2d_BSplineCurve) bs2d = GAC2d.BSpline();
Handle(Geom2d_BSplineCurve) bs2dsov = bs2d;
Standard_Real fC0 = bs2d->FirstParameter(), lC0 = bs2d->LastParameter();
Standard_Boolean repar = Standard_True;
gp_Pnt2d OriginPoint;
bs2d->D0(fC0, OriginPoint);
Geom2dConvert::C0BSplineToC1BSplineCurve(bs2d, Tol2d);
isBSP = Standard_True;
if(bs2d->IsPeriodic()) { // -------- IFV, Jan 2000
gp_Pnt2d NewOriginPoint;
bs2d->D0(bs2d->FirstParameter(), NewOriginPoint);
if(Abs(OriginPoint.X() - NewOriginPoint.X()) > Precision::PConfusion() ||
Abs(OriginPoint.Y() - NewOriginPoint.Y()) > Precision::PConfusion() ) {
TColStd_Array1OfReal Knotbs2d (1, bs2d->NbKnots());
bs2d->Knots(Knotbs2d);
for(Standard_Integer Index = 1; Index <= bs2d->NbKnots(); Index++) {
bs2d->D0(Knotbs2d(Index), NewOriginPoint);
if(Abs(OriginPoint.X() - NewOriginPoint.X()) > Precision::PConfusion() ||
Abs(OriginPoint.Y() - NewOriginPoint.Y()) > Precision::PConfusion() ) continue;
bs2d->SetOrigin(Index);
break;
}
}
}
if(bs2d->Continuity() == GeomAbs_C0) {
Standard_Real tolbail;
if(EvalTol(curPC,S,GAC,Tolerance,tolbail)){
bs2d = bs2dsov;
Standard_Real UResbail = GAS.UResolution(tolbail);
Standard_Real VResbail = GAS.VResolution(tolbail);
Standard_Real Tol2dbail = Min(UResbail,VResbail);
bs2d->D0(bs2d->FirstParameter(), OriginPoint);
Standard_Integer nbp = bs2d->NbPoles();
TColgp_Array1OfPnt2d poles(1,nbp);
bs2d->Poles(poles);
gp_Pnt2d p = poles(1), p1;
Standard_Real d = Precision::Infinite();
for(Standard_Integer ip = 2; ip <= nbp; ip++) {
p1 = poles(ip);
d = Min(d,p.SquareDistance(p1));
p = p1;
}
d = sqrt(d)*.1;
Tol2dbail = Max(Min(Tol2dbail,d),Tol2d);
Geom2dConvert::C0BSplineToC1BSplineCurve(bs2d,Tol2dbail);
if(bs2d->IsPeriodic()) { // -------- IFV, Jan 2000
gp_Pnt2d NewOriginPoint;
bs2d->D0(bs2d->FirstParameter(), NewOriginPoint);
if(Abs(OriginPoint.X() - NewOriginPoint.X()) > Precision::PConfusion() ||
Abs(OriginPoint.Y() - NewOriginPoint.Y()) > Precision::PConfusion() ) {
TColStd_Array1OfReal Knotbs2d (1, bs2d->NbKnots());
bs2d->Knots(Knotbs2d);
for(Standard_Integer Index = 1; Index <= bs2d->NbKnots(); Index++) {
bs2d->D0(Knotbs2d(Index), NewOriginPoint);
if(Abs(OriginPoint.X() - NewOriginPoint.X()) > Precision::PConfusion() ||
Abs(OriginPoint.Y() - NewOriginPoint.Y()) > Precision::PConfusion() ) continue;
bs2d->SetOrigin(Index);
break;
}
}
}
if(bs2d->Continuity() == GeomAbs_C0) {
goodpc = 1;
bs2d = bs2dsov;
repar = Standard_False;
}
}
else goodpc = 0;
}
if(goodpc){
if(repar) {
Standard_Integer NbKnots = bs2d->NbKnots();
TColStd_Array1OfReal Knots(1,NbKnots);
bs2d->Knots(Knots);
// BSplCLib::Reparametrize(f3d,l3d,Knots);
BSplCLib::Reparametrize(fC0,lC0,Knots);
bs2d->SetKnots(Knots);
GAC2d.Load(bs2d,f3d,l3d);
curPC = bs2d;
Standard_Boolean updatepcsov = updatepc;
updatepc = Standard_True;
Standard_Real error1 = ComputeTol(HC, HC2d, HS, NCONTROL);
if(error1 > error) {
bs2d = bs2dsov;
GAC2d.Load(bs2d,f3d,l3d);
curPC = bs2d;
updatepc = updatepcsov;
isANA = Standard_True;
}
else {
error = error1;
}
}
//check, if new BSpline "good" or not --------- IFV, Jan of 2000
GeomAbs_Shape cont = bs2d->Continuity();
Standard_Boolean IsBad = Standard_False;
if(cont > GeomAbs_C0 && error > Max(1.e-3,Tolerance)) {
Standard_Integer NbKnots = bs2d->NbKnots();
TColStd_Array1OfReal Knots(1,NbKnots);
bs2d->Knots(Knots);
Standard_Real critratio = 10.;
Standard_Real dtprev = Knots(2) - Knots(1), dtratio = 1.;
Standard_Real dtmin = dtprev;
Standard_Real dtcur;
for(Standard_Integer j = 2; j < NbKnots; j++) {
dtcur = Knots(j+1) - Knots(j);
dtmin = Min(dtmin, dtcur);
if(IsBad) continue;
if(dtcur > dtprev) dtratio = dtcur/dtprev;
else dtratio = dtprev/dtcur;
if(dtratio > critratio) {IsBad = Standard_True;}
dtprev = dtcur;
}
if(IsBad) {
// To avoid failures in Approx_CurvilinearParameter
bs2d->Resolution(Max(1.e-3,Tolerance), dtcur);
if(dtmin < dtcur) IsBad = Standard_False;
}
}
if(IsBad ) { //if BSpline "bad", try to reparametrize it
// by its curve length
// GeomAbs_Shape cont = bs2d->Continuity();
if(cont > GeomAbs_C2) cont = GeomAbs_C2;
Standard_Integer maxdeg = bs2d->Degree();
if(maxdeg == 1) maxdeg = 14;
Approx_CurvilinearParameter AppCurPar(HC2d, HS, Max(1.e-3,Tolerance),
cont, maxdeg, 10);
if(AppCurPar.IsDone() || AppCurPar.HasResult()) {
bs2d = AppCurPar.Curve2d1();
GAC2d.Load(bs2d,f3d,l3d);
curPC = bs2d;
if(Abs(bs2d->FirstParameter() - fC0) > Tol2d ||
Abs(bs2d->LastParameter() - lC0) > Tol2d ) {
Standard_Integer NbKnots = bs2d->NbKnots();
TColStd_Array1OfReal Knots(1,NbKnots);
bs2d->Knots(Knots);
// BSplCLib::Reparametrize(f3d,l3d,Knots);
BSplCLib::Reparametrize(fC0,lC0,Knots);
bs2d->SetKnots(Knots);
GAC2d.Load(bs2d,f3d,l3d);
curPC = bs2d;
}
}
}
}
}
if(goodpc){
// Approx_SameParameter SameP(HC,HC2d,HS,Tolerance);
Standard_Real aTol = (isANA && isBSP) ? 1.e-7 : Tolerance;
Approx_SameParameter SameP(HC,HC2d,HS,aTol);
if (SameP.IsSameParameter()) {
maxdist = Max(maxdist,SameP.TolReached());
if(updatepc){
if (i == 0) GCurve->PCurve(curPC);
else GCurve->PCurve2(curPC);
}
}
else if (SameP.IsDone()) {
Standard_Real tolreached = SameP.TolReached();
if(tolreached < error) {
curPC = SameP.Curve2d();
updatepc = Standard_True;
maxdist = Max(maxdist,tolreached);
}
else {
maxdist = Max(maxdist, error);
}
if(updatepc){
if (i == 0) GCurve->PCurve(curPC);
else GCurve->PCurve2(curPC);
}
}
else IsSameP = 0;
}
else IsSameP = 0;
// Modified by skv - Thu Jun 3 12:39:19 2004 OCC5898 Begin
if (!IsSameP) {
if (anEdgeTol > error) {
maxdist = Max(maxdist, anEdgeTol);
IsSameP = Standard_True;
}
}
// Modified by skv - Thu Jun 3 12:39:20 2004 OCC5898 End
}
}
It.Next() ;
}
B.Range(AnEdge,f3d,l3d);
B.SameRange(AnEdge,Standard_True);
if ( IsSameP) {
// On diminue eventuellement la tolerance de l arete, puisque
// l on a traite toutes ses representations ( Sauf celles associees
// a des plans et non stockees dans l'arete !)
// Il n'en va pas de meme des Vertex que l on ne peut que grossir
// ou laisser tels quels.
if (YaPCu) {
// On evite de mettre des tol trop petites.
maxdist = Max(maxdist,Precision::Confusion());
TopoDS_Vertex V1,V2;
TopExp::Vertices(AnEdge,V1,V2);
if (!V1.IsNull())
B.UpdateVertex(V1,maxdist);
if (!V2.IsNull())
B.UpdateVertex(V2,maxdist);
TE->Modified(Standard_True);
TE->Tolerance(maxdist);
}
B.SameParameter(AnEdge,Standard_True);
}
}
//=======================================================================
//function : UpdateTolerances
//purpose :
//=======================================================================
void BRepLib::UpdateTolerances(const TopoDS_Shape& aShape,
const Standard_Boolean verifyTolerance)
{
// On harmonise les tolerance
// avec la regle Tolerance(VERTEX)>=Tolerance(EDGE)>=Tolerance(FACE)
BRep_Builder B;
Standard_Real tol=0;
if (verifyTolerance) {
// On force la tolerance a sa valeur minimale
Handle(Geom_Surface) S;
TopLoc_Location l;
TopExp_Explorer ex;
Bnd_Box aB;
Standard_Real aXmin, aYmin, aZmin, aXmax, aYmax, aZmax, dMax;
for (ex.Init(aShape, TopAbs_FACE); ex.More(); ex.Next()) {
const TopoDS_Face& curf=TopoDS::Face(ex.Current());
S = BRep_Tool::Surface(curf, l);
if (!S.IsNull()) {
aB.SetVoid();
BRepBndLib::Add(curf,aB);
if (S->DynamicType() == STANDARD_TYPE(Geom_RectangularTrimmedSurface)) {
S = (*((Handle(Geom_RectangularTrimmedSurface)*)&S))->BasisSurface();
}
GeomAdaptor_Surface AS(S);
switch (AS.GetType()) {
case GeomAbs_Plane:
case GeomAbs_Cylinder:
case GeomAbs_Cone:
{
tol=Precision::Confusion();
break;
}
case GeomAbs_Sphere:
case GeomAbs_Torus:
{
tol=Precision::Confusion()*2;
break;
}
default:
tol=Precision::Confusion()*4;
}
if (!aB.IsWhole()) {
aB.Get(aXmin, aYmin, aZmin, aXmax, aYmax, aZmax);
dMax=1.;
if (!aB.IsOpenXmin() && !aB.IsOpenXmax()) dMax=aXmax-aXmin;
if (!aB.IsOpenYmin() && !aB.IsOpenYmax()) aYmin=aYmax-aYmin;
if (!aB.IsOpenZmin() && !aB.IsOpenZmax()) aZmin=aZmax-aZmin;
if (aYmin>dMax) dMax=aYmin;
if (aZmin>dMax) dMax=aZmin;
tol=tol*dMax;
// On ne traite pas les tolerance > 1.
if (tol>1.) tol=0.99;
}
const Handle(BRep_TFace)& Tf = *((Handle(BRep_TFace)*)&curf.TShape());
Tf->Tolerance(tol);
}
}
}
//On traite les edges
TopTools_IndexedDataMapOfShapeListOfShape parents;
TopExp::MapShapesAndAncestors(aShape, TopAbs_EDGE, TopAbs_FACE, parents);
TopTools_ListIteratorOfListOfShape lConx;
Standard_Integer iCur;
for (iCur=1; iCur<=parents.Extent(); iCur++) {
tol=0;
for (lConx.Initialize(parents(iCur)); lConx.More(); lConx.Next()) {
tol=Max(tol, BRep_Tool::Tolerance(TopoDS::Face(lConx.Value())));
}
// Update ne peut que augmenter la tolerance, donc si l'edge a
// une tolerance + grande que ses faces on y touche pas
B.UpdateEdge(TopoDS::Edge(parents.FindKey(iCur)), tol);
}
//On traite les Vertices
parents.Clear();
TopExp::MapShapesAndAncestors(aShape, TopAbs_VERTEX, TopAbs_EDGE, parents);
TColStd_MapOfTransient Initialized;
TopTools_MapOfShape Done;
Standard_Integer nbV = parents.Extent();
for (iCur=1; iCur<=nbV; iCur++) {
tol=0;
Done.Clear();
const TopoDS_Vertex& V = TopoDS::Vertex(parents.FindKey(iCur));
Bnd_Box box;
box.Add(BRep_Tool::Pnt(V));
gp_Pnt p3d;
for (lConx.Initialize(parents(iCur)); lConx.More(); lConx.Next()) {
const TopoDS_Edge& E = TopoDS::Edge(lConx.Value());
if(!Done.Add(E)) continue;
tol=Max(tol, BRep_Tool::Tolerance(E));
if(!BRep_Tool::SameRange(E)) continue;
Standard_Real par = BRep_Tool::Parameter(V,E);
Handle(BRep_TEdge)& TE = *((Handle(BRep_TEdge)*)&E.TShape());
BRep_ListIteratorOfListOfCurveRepresentation itcr(TE->Curves());
const TopLoc_Location& Eloc = E.Location();
while (itcr.More()) {
// Pour chaque CurveRepresentation, on verifie le parametre fourni
const Handle(BRep_CurveRepresentation)& cr = itcr.Value();
const TopLoc_Location& loc = cr->Location();
TopLoc_Location L = (Eloc * loc);
if (cr->IsCurve3D()) {
const Handle(Geom_Curve)& C = cr->Curve3D();
if (!C.IsNull()) { // edge non degenere
p3d = C->Value(par);
p3d.Transform(L.Transformation());
box.Add(p3d);
}
}
else if (cr->IsCurveOnSurface()) {
const Handle(Geom_Surface)& Su = cr->Surface();
const Handle(Geom2d_Curve)& PC = cr->PCurve();
Handle(Geom2d_Curve) PC2;
if (cr->IsCurveOnClosedSurface()) {
PC2 = cr->PCurve2();
}
gp_Pnt2d p2d = PC->Value(par);
p3d = Su->Value(p2d.X(),p2d.Y());
p3d.Transform(L.Transformation());
box.Add(p3d);
if (!PC2.IsNull()) {
p2d = PC2->Value(par);
p3d = Su->Value(p2d.X(),p2d.Y());
p3d.Transform(L.Transformation());
box.Add(p3d);
}
}
itcr.Next();
}
}
Standard_Real aXmin, aYmin, aZmin, aXmax, aYmax, aZmax;
box.Get(aXmin, aYmin, aZmin, aXmax, aYmax, aZmax);
aXmax -= aXmin; aYmax -= aYmin; aZmax -= aZmin;
tol = Max(tol,sqrt(aXmax*aXmax+aYmax*aYmax+aZmax*aZmax));
tol += 2.*Epsilon(tol);
if (verifyTolerance) {
// On force la tolerance a sa valeur minimale
// Attention au partage du vertex par d'autre shapes
const Handle(BRep_TVertex)& TV = *((Handle(BRep_TVertex)*)&V.TShape());
if (Initialized.Add(TV))
TV->Tolerance(tol);
else
B.UpdateVertex(V, tol);
}
else {
// Update ne peut que augmenter la tolerance, donc si le vertex a
// une tolerance + grande que ses edges on y touche pas
B.UpdateVertex(V, tol);
}
}
}
//=======================================================================
//function : OrientClosedSolid
//purpose :
//=======================================================================
Standard_Boolean BRepLib::OrientClosedSolid(TopoDS_Solid& solid)
{
// On met la matiere a l'interieur du solid
BRepClass3d_SolidClassifier where(solid);
where.PerformInfinitePoint(Precision::Confusion());
if (where.State()==TopAbs_IN) {
solid.Reverse();
}
else if (where.State()==TopAbs_ON || where.State()==TopAbs_UNKNOWN)
return Standard_False;
return Standard_True;
}
//=======================================================================
//function : tgtfaces
//purpose : controle de l angle a la frontiere entre 2 carreaux.
// Les deux carreaux doivent partager leur edge frontiere.
//=======================================================================
static Standard_Boolean tgtfaces(const TopoDS_Edge& Ed,
const TopoDS_Face& F1,
const TopoDS_Face& F2,
const Standard_Real ta,
const Standard_Boolean couture)
{
Standard_Real u;
TopoDS_Edge E = Ed;
BRepAdaptor_Surface aBAS1(F1,Standard_False);
BRepAdaptor_Surface aBAS2(F2,Standard_False);
Handle(BRepAdaptor_HSurface) HS1 = new BRepAdaptor_HSurface(aBAS1);
Handle(BRepAdaptor_HSurface) HS2;
if(couture) HS2 = HS1;
else HS2 = new BRepAdaptor_HSurface(aBAS2);
E.Orientation(TopAbs_FORWARD);
Handle(BRepAdaptor_HCurve2d) HC2d1 = new BRepAdaptor_HCurve2d();
HC2d1->ChangeCurve2d().Initialize(E,F1);
if(couture) E.Orientation(TopAbs_REVERSED);
Handle(BRepAdaptor_HCurve2d) HC2d2 = new BRepAdaptor_HCurve2d();
HC2d2->ChangeCurve2d().Initialize(E,F2);
Adaptor3d_CurveOnSurface C1(HC2d1,HS1);
Adaptor3d_CurveOnSurface C2(HC2d2,HS2);
Standard_Boolean rev1 = (F1.Orientation() == TopAbs_REVERSED);
Standard_Boolean rev2 = (F2.Orientation() == TopAbs_REVERSED);
Standard_Real f,l,eps, angmax = -PI;
#ifndef DEB
Standard_Real ang =0.;
#else
Standard_Real ang;
#endif
BRep_Tool::Range(E,f,l);
Extrema_LocateExtPC ext;
Standard_Boolean IsInitialized = Standard_False;
eps = (l - f)/100.;
f += eps; // pour eviter de faire des calculs sur les
l -= eps; // pointes des carreaux pointus.
gp_Pnt2d p;
gp_Pnt pp1,pp2;//,PP;
gp_Vec du,dv;
gp_Vec d1,d2;
Standard_Real uu, vv, norm;
Standard_Integer i;
Standard_Boolean Nok;
for(i = 0; (i<= 20) && (angmax<=ta) ; i++){
// On suppose d'abord que c'est sameParameter
Nok = Standard_True;
u = f + (l-f)*i/20;
HC2d1->D0(u,p);
HS1->D1(p.X(),p.Y(),pp1,du,dv);
d1 = (du.Crossed(dv));
norm = d1.Magnitude();
if (norm > 1.e-12) d1 /= norm;
else Nok=Standard_False;
if(rev1) d1.Reverse();
HC2d2->D0(u,p);
HS2->D1(p.X(), p.Y(), pp2, du, dv);
d2 = (du.Crossed(dv));
norm = d2.Magnitude();
if (norm> 1.e-12) d2 /= norm;
else Nok=Standard_False;
if(rev2) d2.Reverse();
if (Nok) ang = d1.Angle(d2);
if (Nok &&(ang > ta)) { // On raffine par projection
if (! IsInitialized ) {
ext.Initialize(C2,f,l,Precision::PConfusion());
IsInitialized = Standard_True;
}
ext.Perform(pp1,u);
if(ext.IsDone() && ext.IsMin()){
Extrema_POnCurv poc = ext.Point();
Standard_Real v = poc.Parameter();
HC2d2->D0(v,p);
p.Coord(uu,vv);
HS2->D1(p.X(), p.Y(), pp2, du, dv);
d2 = (du.Crossed(dv));
norm = d2.Magnitude();
if (norm> 1.e-12) d2 /= norm;
else Nok = Standard_False;
if(rev2) d2.Reverse();
if (Nok) ang = d1.Angle(d2);
}
}
if(ang >= angmax) angmax = ang;
}
return (angmax<=ta);
}
//=======================================================================
// function : EncodeRegularity
// purpose : code les regularites sur tous les edges du shape,frontiere
// de deux faces qui n en ont pas.
//=======================================================================
void BRepLib::EncodeRegularity(const TopoDS_Shape& S,
const Standard_Real TolAng)
{
BRep_Builder B;
TopTools_IndexedDataMapOfShapeListOfShape M;
TopExp::MapShapesAndAncestors(S,TopAbs_EDGE,TopAbs_FACE,M);
TopTools_ListIteratorOfListOfShape It;
TopExp_Explorer Ex;
TopoDS_Face F1,F2;
Standard_Boolean found, couture;
for(Standard_Integer i = 1; i <= M.Extent(); i++){
TopoDS_Edge E = TopoDS::Edge(M.FindKey(i));
found = Standard_False; couture = Standard_False;
F1.Nullify();
for(It.Initialize(M.FindFromIndex(i));It.More() && !found;It.Next()){
if(F1.IsNull()) { F1 = TopoDS::Face(It.Value()); }
else {
if(!F1.IsSame(TopoDS::Face(It.Value()))){
found = Standard_True;
F2 = TopoDS::Face(It.Value());
}
}
}
if (!found && !F1.IsNull()){//est ce un edge de couture?
TopAbs_Orientation orE = E.Orientation();
TopoDS_Edge curE;
for(Ex.Init(F1,TopAbs_EDGE);Ex.More() && !found;Ex.Next()){
curE= TopoDS::Edge(Ex.Current());
if(E.IsSame(curE) && orE != curE.Orientation()) {
found = Standard_True;
couture = Standard_True;
F2 = F1;
}
}
}
if(found){
if(BRep_Tool::Continuity(E,F1,F2)<=GeomAbs_C0){
if(tgtfaces(E, F1, F2, TolAng, couture)){
B.Continuity(E,F1,F2,GeomAbs_G1);
}
}
}
}
}
//=======================================================================
// function : EncodeRegularity
// purpose : code la regularite entre 2 face sur une edge
//=======================================================================
void BRepLib::EncodeRegularity(TopoDS_Edge& E,
const TopoDS_Face& F1,
const TopoDS_Face& F2,
const Standard_Real TolAng)
{
BRep_Builder B;
if(BRep_Tool::Continuity(E,F1,F2)<=GeomAbs_C0){
if( tgtfaces(E, F1, F2, TolAng, F1.IsEqual(F2))) {
B.Continuity(E,F1,F2,GeomAbs_G1);
}
}
}
//=======================================================================
//function : SortFaces
//purpose :
//=======================================================================
void BRepLib::SortFaces (const TopoDS_Shape& Sh,
TopTools_ListOfShape& LF)
{
LF.Clear();
TopTools_ListOfShape LTri,LPlan,LCyl,LCon,LSphere,LTor,LOther;
TopExp_Explorer exp(Sh,TopAbs_FACE);
TopLoc_Location l;
Handle(Geom_Surface) S;
for (; exp.More(); exp.Next()) {
const TopoDS_Face& F = TopoDS::Face(exp.Current());
S = BRep_Tool::Surface(F, l);
if (!S.IsNull()) {
if (S->DynamicType() == STANDARD_TYPE(Geom_RectangularTrimmedSurface)) {
S = (*((Handle(Geom_RectangularTrimmedSurface)*)&S))->BasisSurface();
}
GeomAdaptor_Surface AS(S);
switch (AS.GetType()) {
case GeomAbs_Plane:
{
LPlan.Append(F);
break;
}
case GeomAbs_Cylinder:
{
LCyl.Append(F);
break;
}
case GeomAbs_Cone:
{
LCon.Append(F);
break;
}
case GeomAbs_Sphere:
{
LSphere.Append(F);
break;
}
case GeomAbs_Torus:
{
LTor.Append(F);
break;
}
default:
LOther.Append(F);
}
}
else LTri.Append(F);
}
LF.Append(LPlan); LF.Append(LCyl ); LF.Append(LCon); LF.Append(LSphere);
LF.Append(LTor ); LF.Append(LOther); LF.Append(LTri);
}
//=======================================================================
//function : ReverseSortFaces
//purpose :
//=======================================================================
void BRepLib::ReverseSortFaces (const TopoDS_Shape& Sh,
TopTools_ListOfShape& LF)
{
LF.Clear();
TopTools_ListOfShape LTri,LPlan,LCyl,LCon,LSphere,LTor,LOther;
TopExp_Explorer exp(Sh,TopAbs_FACE);
TopLoc_Location l;
Handle(Geom_Surface) S;
for (; exp.More(); exp.Next()) {
const TopoDS_Face& F = TopoDS::Face(exp.Current());
S = BRep_Tool::Surface(F, l);
if (!S.IsNull()) {
if (S->DynamicType() == STANDARD_TYPE(Geom_RectangularTrimmedSurface)) {
S = (*((Handle(Geom_RectangularTrimmedSurface)*)&S))->BasisSurface();
}
GeomAdaptor_Surface AS(S);
switch (AS.GetType()) {
case GeomAbs_Plane:
{
LPlan.Append(F);
break;
}
case GeomAbs_Cylinder:
{
LCyl.Append(F);
break;
}
case GeomAbs_Cone:
{
LCon.Append(F);
break;
}
case GeomAbs_Sphere:
{
LSphere.Append(F);
break;
}
case GeomAbs_Torus:
{
LTor.Append(F);
break;
}
default:
LOther.Append(F);
}
}
else LTri.Append(F);
}
LF.Append(LTri); LF.Append(LOther); LF.Append(LTor ); LF.Append(LSphere);
LF.Append(LCon); LF.Append(LCyl ); LF.Append(LPlan);
}
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