// $Id: OCCEdge.cpp,v 1.26 2007-11-11 19:53:57 remacle Exp $
//
// Copyright (C) 1997-2007 C. Geuzaine, J.-F. Remacle
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
// USA.
//
// Please report all bugs and problems to <gmsh@geuz.org>.
#include "GModel.h"
#include "Message.h"
#include "OCCEdge.h"
#include "OCCFace.h"
#include "Context.h"
extern Context_T CTX;
#if defined(HAVE_OCC)
#include "Geom2dLProp_CLProps2d.hxx"
#include "Geom_BezierCurve.hxx"
#include "Geom_BezierCurve.hxx"
#include "Geom_Ellipse.hxx"
#include "Geom_Circle.hxx"
#include "Geom_Line.hxx"
OCCEdge::OCCEdge(GModel *model, TopoDS_Edge edge, int num, GVertex *v1, GVertex *v2)
: GEdge(model, num, v1, v2), c(edge), trimmed(0)
{
curve = BRep_Tool::Curve(c, s0, s1);
// build the reverse curve
c_rev = c;
c_rev.Reverse();
}
Range<double> OCCEdge::parBounds(int i) const
{
return Range<double>(s0, s1);
}
void OCCEdge::setTrimmed (OCCFace *f)
{
if (!trimmed){
trimmed = f;
const TopoDS_Face *s = (TopoDS_Face*) trimmed->getNativePtr();
curve2d = BRep_Tool::CurveOnSurface(c, *s, s0, s1);
if(curve2d.IsNull()) trimmed = 0;
}
}
// Plugin Netgen Salome !
SPoint2 OCCEdge::reparamOnFace(GFace *face, double epar,int dir) const
{
const TopoDS_Face *s = (TopoDS_Face*) face->getNativePtr();
double t0,t1;
Handle(Geom2d_Curve) c2d;
if(dir == 1){
c2d = BRep_Tool::CurveOnSurface(c, *s, t0, t1);
}
else{
c2d = BRep_Tool::CurveOnSurface(c_rev, *s, t0, t1);
}
if(c2d.IsNull()){
Msg(FATAL,"Reparam on face failed : curve %d is not on surface %d",tag(),face->tag());
}
double u,v;
gp_Pnt2d pnt = c2d->Value(epar);
pnt.Coord(u,v);
{
// sometimes OCC miserably fails ...
GPoint p1 = point(epar);
GPoint p2 = face->point(u,v);
const double dx = p1.x()-p2.x();
const double dy = p1.y()-p2.y();
const double dz = p1.z()-p2.z();
if(sqrt(dx*dx+dy*dy+dz*dz) > 1.e-4 * CTX.lc){
// return reparamOnFace(face, epar,-1);
// Msg(WARNING, "Reparam on face partially failed for curve %d surface %d at point %g",
// tag(), face->tag(), epar);
// Msg(WARNING, "On the face %d local (%g %g) global (%g %g %g)",
// face->tag(), u, v, p2.x(), p2.y(), p2.z());
// Msg(WARNING, "On the edge %d local (%g) global (%g %g %g)",
// tag(), epar, p1.x(), p1.y(), p1.z());
// GPoint ppp = face->closestPoint(SPoint3(p1.x(), p1.y(), p1.z()));
// return SPoint2(ppp.u(), ppp.v());
}
}
return SPoint2(u, v);
}
// True if the edge is a seam for the given face
int OCCEdge::isSeam(GFace *face) const
{
const TopoDS_Face *s = (TopoDS_Face*) face->getNativePtr();
BRepAdaptor_Surface surface(*s);
// printf("asking if edge %d is a seam of face %d\n",tag(),face->tag());
// printf("periodic %d %d\n",surface.IsUPeriodic(),surface.IsVPeriodic());
// if(surface.IsUPeriodic() || surface.IsVPeriodic()){
return BRep_Tool::IsClosed(c, *s);
// }
return 0;
}
GPoint OCCEdge::point(double par) const
{
if(!curve.IsNull()){
gp_Pnt pnt = curve->Value (par);
return GPoint(pnt.X(), pnt.Y(), pnt.Z());
}
else if(trimmed){
double u, v;
curve2d->Value(par).Coord(u, v);
return trimmed->point(u, v);
}
else{
Msg(WARNING, "OCC Curve %d is neither a 3D curve not a trimmed curve", tag());
return GPoint(0, 0, 0);
}
}
GPoint OCCEdge::closestPoint(const SPoint3 & qp)
{
throw;
}
int OCCEdge::containsParam(double pt) const
{
Range<double> rg = parBounds(0);
return (pt >= rg.low() && pt <= rg.high());
}
SVector3 OCCEdge::firstDer(double par) const
{
BRepAdaptor_Curve brepc(c);
BRepLProp_CLProps prop(brepc, 1, 1e-5);
prop.SetParameter (par);
gp_Vec d1 = prop.D1();
return SVector3(d1.X(), d1.Y(), d1.Z());
}
double OCCEdge::parFromPoint(const SPoint3 &pt) const
{
throw;
}
GEntity::GeomType OCCEdge::geomType() const
{
if(curve.IsNull()){
if (curve2d->DynamicType() == STANDARD_TYPE(Geom_Circle))
return Circle;
else if (curve2d->DynamicType() == STANDARD_TYPE(Geom_Line))
return Line;
else if (curve2d->DynamicType() == STANDARD_TYPE(Geom_Ellipse))
return Ellipse;
else if (curve2d->DynamicType() == STANDARD_TYPE(Geom_BSplineCurve))
return BSpline;
else if (curve2d->DynamicType() == STANDARD_TYPE(Geom_BezierCurve))
return Bezier;
return Unknown;
}
else{
if (curve->DynamicType() == STANDARD_TYPE(Geom_Circle))
return Circle;
else if (curve->DynamicType() == STANDARD_TYPE(Geom_Line))
return Line;
else if (curve->DynamicType() == STANDARD_TYPE(Geom_Ellipse))
return Ellipse;
else if (curve->DynamicType() == STANDARD_TYPE(Geom_BSplineCurve))
return BSpline;
else if (curve->DynamicType() == STANDARD_TYPE(Geom_BezierCurve))
return Bezier;
return Unknown;
}
}
int OCCEdge::minimumMeshSegments() const
{
int np;
if(geomType() == Line)
np= GEdge::minimumMeshSegments();
else if(geomType() == Circle)
np= CTX.mesh.min_circ_points - 1;
else
np=CTX.mesh.min_curv_points - 1;
return np;
}
int OCCEdge::minimumDrawSegments() const
{
if(geomType() == Line)
return GEdge::minimumDrawSegments();
else if(geomType() == Circle || geomType() == Ellipse)
return CTX.geom.circle_points;
else
return 20 * GEdge::minimumDrawSegments();
}
double OCCEdge::curvature(double par) const
{
const double eps = 1.e-15;
Standard_Real Crv;
if (curve.IsNull()){
Geom2dLProp_CLProps2d aCLProps(curve2d, 2, eps);
aCLProps.SetParameter(par);
if(!aCLProps.IsTangentDefined())
Crv = eps;
else
Crv = aCLProps.Curvature();
}
else{
BRepAdaptor_Curve brepc(c);
BRepLProp_CLProps prop(brepc, 2, eps);
prop.SetParameter(par);
if(!prop.IsTangentDefined())
Crv = eps;
else
Crv = prop.Curvature();
}
if(Crv <= eps) Crv = eps;
// std::list<GFace*> ff = faces();
// std::list<GFace *>::iterator it = ff.begin();
// while (it != ff.end()){
// SPoint2 par2 = reparamOnFace((*it),par,1);
// const double cc = (*it)->curvature ( par2 );
// if (cc > 0)
// Crv = std::max( Crv, cc);
// ++it;
// }
// printf("curvature = %12.5E\n",Crv);
return Crv;
}
#endif