0020052: EDF 867 GEOM: Non removable extra edges. Cylindrical case.

This commit is contained in:
jfa 2009-08-24 06:46:38 +00:00
parent 76e33810ed
commit b62eb94767

View File

@ -41,9 +41,12 @@
#include <ShapeFix_Wire.hxx>
#include <ShapeFix_Edge.hxx>
#include <IntPatch_TheIIIntOfIntersection.hxx>
#include <BRep_Tool.hxx>
#include <BRep_Builder.hxx>
#include <BRepTools.hxx>
#include <BRepTopAdaptor_TopolTool.hxx>
#include <TopExp.hxx>
#include <TopExp_Explorer.hxx>
@ -66,14 +69,22 @@
#include <TColGeom_HArray2OfSurface.hxx>
#include <GeomAdaptor_HSurface.hxx>
#include <GeomLib_IsPlanarSurface.hxx>
#include <Geom_Surface.hxx>
#include <Geom_Plane.hxx>
#include <Geom_OffsetSurface.hxx>
#include <Geom_CylindricalSurface.hxx>
#include <Geom_SphericalSurface.hxx>
#include <Geom_Surface.hxx>
#include <Geom_Curve.hxx>
#include <Geom_CylindricalSurface.hxx>
#include <Geom_SurfaceOfRevolution.hxx>
#include <Geom_SurfaceOfLinearExtrusion.hxx>
#include <Geom_RectangularTrimmedSurface.hxx>
#include <Geom_Curve.hxx>
#include <Geom_Line.hxx>
#include <Geom_Circle.hxx>
#include <Geom2d_Line.hxx>
#include <gp_XY.hxx>
@ -504,10 +515,64 @@ TopoDS_Shape BlockFix_UnionFaces::Perform(const TopoDS_Shape& Shape)
//purpose :
//=======================================================================
bool getCylinder (Handle(Geom_Surface)& theInSurface, gp_Cylinder& theOutCylinder)
{
bool isCylinder = false;
if (theInSurface->IsKind(STANDARD_TYPE(Geom_CylindricalSurface))) {
Handle(Geom_CylindricalSurface) aGC = Handle(Geom_CylindricalSurface)::DownCast(theInSurface);
theOutCylinder = aGC->Cylinder();
isCylinder = true;
}
else if (theInSurface->IsKind(STANDARD_TYPE(Geom_SurfaceOfRevolution))) {
Handle(Geom_SurfaceOfRevolution) aRS =
Handle(Geom_SurfaceOfRevolution)::DownCast(theInSurface);
Handle(Geom_Curve) aBasis = aRS->BasisCurve();
if (aBasis->IsKind(STANDARD_TYPE(Geom_Line))) {
Handle(Geom_Line) aBasisLine = Handle(Geom_Line)::DownCast(aBasis);
gp_Dir aDir = aRS->Direction();
gp_Dir aBasisDir = aBasisLine->Position().Direction();
if (aBasisDir.IsParallel(aDir, Precision::Confusion())) {
// basis line is parallel to the revolution axis: it is a cylinder
gp_Pnt aLoc = aRS->Location();
Standard_Real aR = aBasisLine->Lin().Distance(aLoc);
gp_Ax3 aCylAx (aLoc, aDir);
theOutCylinder = gp_Cylinder(aCylAx, aR);
isCylinder = true;
}
}
}
else if (theInSurface->IsKind(STANDARD_TYPE(Geom_SurfaceOfLinearExtrusion))) {
Handle(Geom_SurfaceOfLinearExtrusion) aLES =
Handle(Geom_SurfaceOfLinearExtrusion)::DownCast(theInSurface);
Handle(Geom_Curve) aBasis = aLES->BasisCurve();
if (aBasis->IsKind(STANDARD_TYPE(Geom_Circle))) {
Handle(Geom_Circle) aBasisCircle = Handle(Geom_Circle)::DownCast(aBasis);
gp_Dir aDir = aLES->Direction();
gp_Dir aBasisDir = aBasisCircle->Position().Direction();
if (aBasisDir.IsParallel(aDir, Precision::Confusion())) {
// basis circle is normal to the extrusion axis: it is a cylinder
gp_Pnt aLoc = aBasisCircle->Location();
Standard_Real aR = aBasisCircle->Radius();
gp_Ax3 aCylAx (aLoc, aDir);
theOutCylinder = gp_Cylinder(aCylAx, aR);
isCylinder = true;
}
}
}
else {
}
return isCylinder;
}
Standard_Boolean BlockFix_UnionFaces::IsSameDomain(const TopoDS_Face& aFace,
const TopoDS_Face& aCheckedFace) const
{
//checking the same handless
//checking the same handles
TopLoc_Location L1, L2;
Handle(Geom_Surface) S1, S2;
@ -517,86 +582,80 @@ Standard_Boolean BlockFix_UnionFaces::IsSameDomain(const TopoDS_Face& aFace,
if (S1 == S2 && L1 == L2)
return true;
// begin: planar case (improvement 20052)
// planar and cylindrical cases (IMP 20052)
Standard_Real aPrec = Precision::Confusion();
S1 = BRep_Tool::Surface(aFace);
S2 = BRep_Tool::Surface(aCheckedFace);
Handle(Geom_Plane) aGP1, aGP2;
Handle(Geom_RectangularTrimmedSurface) aGRTS1, aGRTS2;
Handle(Geom_OffsetSurface) aGOFS1, aGOFS2;
S1 = ClearRts(S1);
S2 = ClearRts(S2);
aGRTS1 = Handle(Geom_RectangularTrimmedSurface)::DownCast(S1);
aGRTS2 = Handle(Geom_RectangularTrimmedSurface)::DownCast(S2);
//Handle(Geom_OffsetSurface) aGOFS1, aGOFS2;
//aGOFS1 = Handle(Geom_OffsetSurface)::DownCast(S1);
//aGOFS2 = Handle(Geom_OffsetSurface)::DownCast(S2);
//if (!aGOFS1.IsNull()) S1 = aGOFS1->BasisSurface();
//if (!aGOFS2.IsNull()) S2 = aGOFS2->BasisSurface();
aGOFS1 = Handle(Geom_OffsetSurface)::DownCast(S1);
aGOFS2 = Handle(Geom_OffsetSurface)::DownCast(S2);
// case of two elementary surfaces: use OCCT tool
// elementary surfaces: ConicalSurface, CylindricalSurface,
// Plane, SphericalSurface and ToroidalSurface
if (S1->IsKind(STANDARD_TYPE(Geom_ElementarySurface)) &&
S2->IsKind(STANDARD_TYPE(Geom_ElementarySurface)))
{
Handle(GeomAdaptor_HSurface) aGA1 = new GeomAdaptor_HSurface(S1);
Handle(GeomAdaptor_HSurface) aGA2 = new GeomAdaptor_HSurface(S2);
if (!aGOFS1.IsNull()) {
aGP1 = Handle(Geom_Plane)::DownCast(aGOFS1->BasisSurface());
}
else if (!aGRTS1.IsNull()) {
aGP1 = Handle(Geom_Plane)::DownCast(aGRTS1->BasisSurface());
}
else {
aGP1 = Handle(Geom_Plane)::DownCast(S1);
Handle(BRepTopAdaptor_TopolTool) aTT1 = new BRepTopAdaptor_TopolTool();
Handle(BRepTopAdaptor_TopolTool) aTT2 = new BRepTopAdaptor_TopolTool();
IntPatch_TheIIIntOfIntersection anIIInt (aGA1, aTT1, aGA2, aTT2, aPrec, aPrec);
if (!anIIInt.IsDone() || anIIInt.IsEmpty())
return false;
return anIIInt.TangentFaces();
}
if (!aGOFS2.IsNull()) {
aGP2 = Handle(Geom_Plane)::DownCast(aGOFS2->BasisSurface());
}
else if (!aGRTS2.IsNull()) {
aGP2 = Handle(Geom_Plane)::DownCast(aGRTS2->BasisSurface());
}
else {
aGP2 = Handle(Geom_Plane)::DownCast(S2);
}
// case of two planar surfaces:
// all kinds of surfaces checked, including b-spline and bezier
GeomLib_IsPlanarSurface aPlanarityChecker1 (S1, aPrec);
if (aPlanarityChecker1.IsPlanar()) {
GeomLib_IsPlanarSurface aPlanarityChecker2 (S2, aPrec);
if (aPlanarityChecker2.IsPlanar()) {
gp_Pln aPln1 = aPlanarityChecker1.Plan();
gp_Pln aPln2 = aPlanarityChecker2.Plan();
if (!aGP1.IsNull() && !aGP2.IsNull()) {
// both surfaces are planar, check equality
Standard_Real A1, B1, C1, D1;
Standard_Real A2, B2, C2, D2;
aGP1->Coefficients(A1, B1, C1, D1);
aGP2->Coefficients(A2, B2, C2, D2);
if (fabs(A1) > Precision::Confusion()) {
A1 = 1.0;
B1 /= A1;
C1 /= A1;
D1 /= A1;
}
else if (fabs(B1) > Precision::Confusion()) {
B1 = 1.0;
C1 /= B1;
D1 /= B1;
}
else {
C1 = 1.0;
D1 /= C1;
}
if (fabs(A2) > Precision::Confusion()) {
A2 = 1.0;
B2 /= A2;
C2 /= A2;
D2 /= A2;
}
else if (fabs(B2) > Precision::Confusion()) {
B2 = 1.0;
C2 /= B2;
D2 /= B2;
}
else {
C2 = 1.0;
D2 /= C2;
}
if (fabs(A1 - A2) < Precision::Confusion() &&
fabs(B1 - B2) < Precision::Confusion() &&
fabs(C1 - C2) < Precision::Confusion() &&
fabs(D1 - D2) < Precision::Confusion())
if (aPln1.Position().Direction().IsParallel(aPln2.Position().Direction(), aPrec) &&
aPln1.Distance(aPln2) < aPrec) {
return true;
}
// end: planar case (improvement 20052)
}
}
// case of two cylindrical surfaces, at least one of which is a swept surface
// swept surfaces: SurfaceOfLinearExtrusion, SurfaceOfRevolution
if ((S1->IsKind(STANDARD_TYPE(Geom_CylindricalSurface)) ||
S1->IsKind(STANDARD_TYPE(Geom_SweptSurface))) &&
(S2->IsKind(STANDARD_TYPE(Geom_CylindricalSurface)) ||
S2->IsKind(STANDARD_TYPE(Geom_SweptSurface))))
{
gp_Cylinder aCyl1, aCyl2;
if (getCylinder(S1, aCyl1) && getCylinder(S2, aCyl2)) {
if (fabs(aCyl1.Radius() - aCyl2.Radius()) < aPrec) {
gp_Dir aDir1 = aCyl1.Position().Direction();
gp_Dir aDir2 = aCyl2.Position().Direction();
if (aDir1.IsParallel(aDir2, aPrec)) {
gp_Pnt aLoc1 = aCyl1.Location();
gp_Pnt aLoc2 = aCyl2.Location();
gp_Vec aVec12 (aLoc1, aLoc2);
if (aVec12.SquareMagnitude() < aPrec*aPrec ||
aVec12.IsParallel(aDir1, aPrec)) {
return true;
}
}
}
}
}
return false;
}