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|
// File: ShapeProcess_OperLibrary.cxx
// Created: Thu Aug 31 11:34:26 2000
// Author: Andrey BETENEV
// <abv@nnov.matra-dtv.fr>
#include <ShapeProcess_OperLibrary.ixx>
#include <Precision.hxx>
#include <TopoDS_Shape.hxx>
#include <TopoDS_Compound.hxx>
#include <TopoDS_Iterator.hxx>
#include <BRep_Builder.hxx>
#include <BRepLib.hxx>
#include <Message_MsgFile.hxx>
#include <ShapeExtend_MsgRegistrator.hxx>
#include <ShapeProcess.hxx>
#include <ShapeProcess_UOperator.hxx>
#include <ShapeProcess_ShapeContext.hxx>
#include <BRepTools_Modifier.hxx>
#include <BRepTools_Modification.hxx>
#include <ShapeCustom_DirectModification.hxx>
#include <ShapeCustom_RestrictionParameters.hxx>
#include <ShapeCustom_BSplineRestriction.hxx>
#include <ShapeCustom_ConvertToRevolution.hxx>
#include <ShapeCustom_SweptToElementary.hxx>
#include <ShapeCustom_ConvertToBSpline.hxx>
#include <ShapeExtend.hxx>
#include <ShapeBuild_ReShape.hxx>
#include <ShapeUpgrade_ShapeDivideAngle.hxx>
#include <ShapeUpgrade_ShapeConvertToBezier.hxx>
#include <ShapeUpgrade_ShapeDivideContinuity.hxx>
#include <ShapeUpgrade_ShapeDivideClosed.hxx>
#include <ShapeUpgrade_ShapeDivideClosedEdges.hxx>
#include <ShapeFix_ShapeTolerance.hxx>
#include <ShapeFix_Shape.hxx>
#include <ShapeFix_Face.hxx>
#include <ShapeFix_Wire.hxx>
#include <ShapeFix_FixSmallFace.hxx>
#include <ShapeFix_Wireframe.hxx>
#include <ShapeFix.hxx>
#include <ShapeFix_SplitCommonVertex.hxx>
//=======================================================================
//function : ApplyModifier
//purpose : Applies BRepTools_Modification to a shape,
// taking into account sharing of components of compounds
//=======================================================================
TopoDS_Shape ShapeProcess_OperLibrary::ApplyModifier (const TopoDS_Shape &S,
const Handle(ShapeProcess_ShapeContext)& context,
const Handle(BRepTools_Modification) &M,
TopTools_DataMapOfShapeShape &map)
{
// protect against INTERNAL/EXTERNAL shapes
TopoDS_Shape SF = S.Oriented(TopAbs_FORWARD);
// Process COMPOUNDs separately in order to handle sharing in assemblies
if ( SF.ShapeType() == TopAbs_COMPOUND ) {
Standard_Boolean locModified = Standard_False;
TopoDS_Compound C;
BRep_Builder B;
B.MakeCompound ( C );
for ( TopoDS_Iterator it(SF); it.More(); it.Next() ) {
TopoDS_Shape shape = it.Value();
TopLoc_Location L = shape.Location(), nullLoc;
shape.Location ( nullLoc );
TopoDS_Shape res;
if(map.IsBound ( shape ))
res = map.Find ( shape ).Oriented ( shape.Orientation() );
else {
res = ApplyModifier (shape, context, M, map );
map.Bind ( shape, res );
}
if ( ! res.IsSame ( shape ) ) locModified = Standard_True;
res.Location ( L );
B.Add ( C, res );
}
if ( ! locModified ) return S;
map.Bind ( SF, C );
return C.Oriented ( S.Orientation() );
}
// Modify the shape
BRepTools_Modifier MD(SF,M);
context->RecordModification ( SF, MD );
return MD.ModifiedShape(SF).Oriented(S.Orientation());
}
//=======================================================================
//function : directfaces
//purpose :
//=======================================================================
static Standard_Boolean directfaces (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Handle(ShapeCustom_DirectModification) DM = new ShapeCustom_DirectModification;
TopTools_DataMapOfShapeShape map;
TopoDS_Shape res = ShapeProcess_OperLibrary::ApplyModifier ( ctx->Result(), ctx, DM, map );
ctx->RecordModification ( map );
ctx->SetResult ( res );
return 0;
}
//=======================================================================
//function : sameparam
//purpose :
//=======================================================================
static Standard_Boolean sameparam (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
ShapeFix::SameParameter ( ctx->Result(),
ctx->IntegerVal ( "Force", Standard_False ),
ctx->RealVal ( "Tolerance3d", Precision::Confusion() /* -1 */) );
// WARNING: no update of context yet!
return Standard_True;
}
//=======================================================================
//function : settol
//purpose :
//=======================================================================
static Standard_Boolean settol (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Real val;
if ( ctx->IntegerVal ( "Mode", 0 ) >0 && ctx->GetReal ( "Value", val ) ) {
Standard_Real rat = ctx->RealVal ( "Ratio", 1. );
if ( rat >= 1 ) {
ShapeFix_ShapeTolerance SFST;
SFST.LimitTolerance (ctx->Result(), val/rat, val*rat);
}
}
BRepLib::UpdateTolerances (ctx->Result(),Standard_True);
Standard_Real reg;
if ( ctx->GetReal ("Regularity", reg) )
BRepLib::EncodeRegularity (ctx->Result(), reg);
// WARNING: no update of context yet!
return Standard_True;
}
//=======================================================================
//function : splitangle
//purpose :
//=======================================================================
static Standard_Boolean splitangle (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
ShapeUpgrade_ShapeDivideAngle SDA ( ctx->RealVal ( "Angle", 2*PI ), ctx->Result() );
SDA.SetMaxTolerance ( ctx->RealVal ( "MaxTolerance", 1. ) );
if ( ! SDA.Perform() && SDA.Status (ShapeExtend_FAIL) ) {
#ifdef DEB
cout<<"ShapeDivideAngle failed"<<endl;
#endif
return Standard_False;
}
ctx->RecordModification ( SDA.GetContext() );
ctx->SetResult ( SDA.Result() );
return Standard_True;
}
//=======================================================================
//function : bsplinerestriction
//purpose :
//=======================================================================
static Standard_Boolean bsplinerestriction (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Boolean ModeSurf = ctx->IntegerVal ( "SurfaceMode", Standard_True );
Standard_Boolean ModeC3d = ctx->IntegerVal ( "Curve3dMode", Standard_True );
Standard_Boolean ModeC2d = ctx->IntegerVal ( "Curve2dMode", Standard_True );
Standard_Real aTol3d = ctx->RealVal ( "Tolerance3d", 0.01 );
Standard_Real aTol2d = ctx->RealVal ( "Tolerance2d", 1e-06 );
GeomAbs_Shape aCont3d = ctx->ContinuityVal ( "Continuity3d", GeomAbs_C1 );
GeomAbs_Shape aCont2d = ctx->ContinuityVal ( "Continuity2d", GeomAbs_C2 );
Standard_Integer aMaxDeg = ctx->IntegerVal ( "RequiredDegree", 9 );
Standard_Integer aMaxSeg = ctx->IntegerVal ( "RequiredNbSegments", 10000 );
Standard_Boolean ModeDeg = ctx->IntegerVal ( "PreferDegree", Standard_True );
Standard_Boolean Rational = ctx->IntegerVal ( "RationalToPolynomial", Standard_False );
Handle(ShapeCustom_RestrictionParameters) aParameters = new ShapeCustom_RestrictionParameters;
ctx->GetInteger ( "MaxDegree", aParameters->GMaxDegree() );
ctx->GetInteger ( "MaxNbSegments", aParameters->GMaxSeg() );
ctx->GetBoolean ( "OffsetSurfaceMode", aParameters->ConvertOffsetSurf() );
ctx->GetBoolean ( "OffsetCurve3dMode", aParameters->ConvertOffsetCurv3d() );
ctx->GetBoolean ( "OffsetCurve2dMode", aParameters->ConvertOffsetCurv2d() );
ctx->GetBoolean ( "LinearExtrusionMode",aParameters->ConvertExtrusionSurf() );
ctx->GetBoolean ( "RevolutionMode", aParameters->ConvertRevolutionSurf() );
ctx->GetBoolean ( "SegmentSurfaceMode", aParameters->SegmentSurfaceMode() );
ctx->GetBoolean ( "ConvCurve3dMode", aParameters->ConvertCurve3d() );
ctx->GetBoolean ( "ConvCurve2dMode", aParameters->ConvertCurve2d() );
ctx->GetBoolean ( "BezierMode", aParameters->ConvertBezierSurf() );
//modes to convert elementary surfaces
ctx->GetBoolean ( "PlaneMode", aParameters->ConvertPlane() );
//ctx->GetBoolean ("ElementarySurfMode", aParameters->ConvertElementarySurf());
ctx->GetBoolean ( "ConicalSurfMode", aParameters->ConvertConicalSurf());
ctx->GetBoolean ( "CylindricalSurfMode", aParameters->ConvertCylindricalSurf());
ctx->GetBoolean ( "ToroidalSurfMode", aParameters->ConvertToroidalSurf());
ctx->GetBoolean ( "SphericalSurfMode", aParameters->ConvertSphericalSurf());
Handle(ShapeCustom_BSplineRestriction) LD =
new ShapeCustom_BSplineRestriction ( ModeSurf, ModeC3d, ModeC2d,
aTol3d, aTol2d, aCont3d, aCont2d,
aMaxDeg, aMaxSeg, ModeDeg, Rational, aParameters );
TopTools_DataMapOfShapeShape map;
TopoDS_Shape res = ShapeProcess_OperLibrary::ApplyModifier ( ctx->Result(), ctx, LD, map );
ctx->RecordModification ( map );
ctx->SetResult ( res );
return Standard_True;
}
//=======================================================================
//function : torevol
//purpose :
//=======================================================================
static Standard_Boolean torevol (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Handle(ShapeCustom_ConvertToRevolution) CR =
new ShapeCustom_ConvertToRevolution();
TopTools_DataMapOfShapeShape map;
TopoDS_Shape res = ShapeProcess_OperLibrary::ApplyModifier ( ctx->Result(), ctx, CR, map );
ctx->RecordModification ( map );
ctx->SetResult ( res );
return Standard_True;
}
//=======================================================================
//function : swepttoelem
//purpose :
//=======================================================================
static Standard_Boolean swepttoelem (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Handle(ShapeCustom_SweptToElementary) SE = new ShapeCustom_SweptToElementary();
TopTools_DataMapOfShapeShape map;
TopoDS_Shape res = ShapeProcess_OperLibrary::ApplyModifier ( ctx->Result(), ctx, SE, map );
ctx->RecordModification ( map );
ctx->SetResult ( res );
return Standard_True;
}
//=======================================================================
//function : shapetobezier
//purpose :
//=======================================================================
static Standard_Boolean shapetobezier (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Boolean ModeC3d = ctx->BooleanVal ( "Curve3dMode", Standard_False );
Standard_Boolean ModeC2d = ctx->BooleanVal ( "Curve2dMode", Standard_False );
Standard_Boolean ModeSurf = ctx->BooleanVal ( "SurfaceMode", Standard_False );
Standard_Boolean ModeLine3d = ctx->BooleanVal ( "Line3dMode", Standard_True );
Standard_Boolean ModeCircle3d = ctx->BooleanVal ( "Circle3dMode", Standard_True );
Standard_Boolean ModeConic3d = ctx->BooleanVal ( "Conic3dMode", Standard_True );
Standard_Boolean SegmentMode = ctx->BooleanVal ( "SegmentSurfaceMode", Standard_True );
Standard_Boolean PlaneMode = ctx->BooleanVal ( "PlaneMode", Standard_True );
Standard_Boolean RevolutionMode = ctx->BooleanVal ( "RevolutionMode", Standard_True );
Standard_Boolean ExtrusionMode = ctx->BooleanVal ( "ExtrusionMode", Standard_True );
Standard_Boolean BSplineMode = ctx->BooleanVal ( "BSplineMode", Standard_True );
ShapeUpgrade_ShapeConvertToBezier SCB (ctx->Result());
SCB.SetSurfaceSegmentMode(SegmentMode);
SCB.SetSurfaceConversion (ModeSurf);
SCB.Set2dConversion (ModeC2d);
SCB.Set3dConversion (ModeC3d);
if(ModeC3d) {
SCB.Set3dLineConversion (ModeLine3d);
SCB.Set3dCircleConversion (ModeCircle3d);
SCB.Set3dConicConversion (ModeConic3d);
}
if(ModeSurf) {
SCB.SetPlaneMode(PlaneMode);
SCB.SetRevolutionMode(RevolutionMode);
SCB.SetExtrusionMode(ExtrusionMode);
SCB.SetBSplineMode(BSplineMode);
}
Standard_Real maxTol, minTol;
if ( ctx->GetReal ( "MaxTolerance", maxTol ) ) SCB.SetMaxTolerance(maxTol);
if ( ctx->GetReal ( "MinCurveLength", minTol ) ) SCB.SetMinTolerance(minTol);
Standard_Boolean EdgeMode;
if ( ctx->GetBoolean ( "EdgeMode", EdgeMode ) ) SCB.SetEdgeMode(EdgeMode);
if ( ! SCB.Perform() && SCB.Status (ShapeExtend_FAIL) ) {
#ifdef DEB
cout<<"Shape::ShapeConvertToBezier failed"<<endl; // !!!!
#endif
return Standard_False;
}
ctx->RecordModification ( SCB.GetContext() );
ctx->SetResult ( SCB.Result() );
return Standard_True;
}
//=======================================================================
//function : converttobspline
//purpose :
//=======================================================================
static Standard_Boolean converttobspline (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Boolean extrMode = ctx->BooleanVal ( "LinearExtrusionMode", Standard_True );
Standard_Boolean revolMode = ctx->BooleanVal ( "RevolutionMode", Standard_True );
Standard_Boolean offsetMode = ctx->BooleanVal ( "OffsetMode", Standard_True );
Handle(ShapeCustom_ConvertToBSpline) CBspl = new ShapeCustom_ConvertToBSpline();
CBspl->SetExtrusionMode(extrMode);
CBspl->SetRevolutionMode(revolMode);
CBspl->SetOffsetMode(offsetMode);
TopTools_DataMapOfShapeShape map;
TopoDS_Shape res = ShapeProcess_OperLibrary::ApplyModifier ( ctx->Result(), ctx, CBspl, map );
ctx->RecordModification ( map );
ctx->SetResult ( res );
return Standard_True;
}
//=======================================================================
//function : splitcontinuity
//purpose : Split by Continuity
//=======================================================================
static Standard_Boolean splitcontinuity (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Real aTol = ctx->RealVal ( "Tolerance3d", 1.e-7 );
Standard_Real aTol2D = ctx->RealVal ( "Tolerance2d", 1.e-9 );
GeomAbs_Shape aCrvCont = ctx->ContinuityVal ( "CurveContinuity", GeomAbs_C1 );
GeomAbs_Shape aSrfCont = ctx->ContinuityVal ( "SurfaceContinuity", GeomAbs_C1 );
GeomAbs_Shape aCrv2dCont = ctx->ContinuityVal ( "Curve2dContinuity", GeomAbs_C1 );
ShapeUpgrade_ShapeDivideContinuity tool (ctx->Result());
tool.SetBoundaryCriterion(aCrvCont);
tool.SetSurfaceCriterion(aSrfCont);
tool.SetPCurveCriterion(aCrv2dCont);
tool.SetTolerance(aTol);
tool.SetTolerance2d(aTol2D);
Standard_Real maxTol;
if ( ctx->GetReal ( "MaxTolerance", maxTol ) ) tool.SetMaxTolerance(maxTol);
if ( ! tool.Perform() && tool.Status (ShapeExtend_FAIL) ) {
#ifdef DEB
cout<<"SplitContinuity failed"<<endl;
#endif
return Standard_False;
}
ctx->RecordModification ( tool.GetContext() );
ctx->SetResult ( tool.Result() );
return Standard_True;
}
//=======================================================================
//function : splitclosedfaces
//purpose :
//=======================================================================
static Standard_Boolean splitclosedfaces (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
ShapeUpgrade_ShapeDivideClosed tool ( ctx->Result() );
Standard_Real closeTol;
if ( ctx->GetReal ( "CloseTolerance", closeTol ) ) tool.SetPrecision(closeTol);
Standard_Real maxTol;
if ( ctx->GetReal ( "MaxTolerance", maxTol ) ) tool.SetMaxTolerance(maxTol);
Standard_Integer num = ctx->IntegerVal ( "NbSplitPoints", 1 );
Standard_Boolean hasSeg = Standard_True;
ctx->GetBoolean ( "SegmentSurfaceMode", hasSeg);
tool.SetNbSplitPoints(num);
tool.SetSurfaceSegmentMode(hasSeg);
if ( ! tool.Perform() && tool.Status (ShapeExtend_FAIL) ) {
#ifdef DEB
cout<<"Splitting of closed faces failed"<<endl;
#endif
return Standard_False;
}
ctx->RecordModification ( tool.GetContext() );
ctx->SetResult ( tool.Result() );
return Standard_True;
}
//=======================================================================
//function : fixfacesize
//purpose :
//=======================================================================
static Standard_Boolean fixfacesize (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Handle(ShapeBuild_ReShape) reshape = new ShapeBuild_ReShape;
ShapeFix_FixSmallFace FSC;
FSC.SetContext(reshape);
FSC.Init(ctx->Result());
Standard_Real aTol;
if ( ctx->GetReal ( "Tolerance", aTol ) ) FSC.SetPrecision (aTol);
FSC.Perform();
TopoDS_Shape newsh = FSC.Shape();
if ( newsh != ctx->Result() ) {
ctx->RecordModification ( reshape );
ctx->SetResult ( newsh );
}
return Standard_True;
}
//=======================================================================
//function : fixwgaps
//purpose :
//=======================================================================
static Standard_Boolean fixwgaps (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Real aTol3d = ctx->RealVal ( "Tolerance3d", Precision::Confusion() );
Handle(ShapeBuild_ReShape) reshape = new ShapeBuild_ReShape;
Handle(ShapeFix_Wireframe) sfwf = new ShapeFix_Wireframe(ctx->Result());
sfwf->SetContext(reshape);
sfwf->SetPrecision(aTol3d);
sfwf->FixWireGaps();
TopoDS_Shape result = sfwf->Shape();
if ( result != ctx->Result() ) {
ctx->RecordModification ( reshape );
ctx->SetResult ( result );
}
return Standard_True;
}
/*
//=======================================================================
//function :
//purpose :
//=======================================================================
static Standard_Boolean dropsmalledges (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
//Handle(ShapeBuild_ReShape) ctx = new ShapeBuild_ReShape;
Handle(MoniFrame_Element) elem = astep->Operand();
TopoDS_Shape Shape = MoniShape::Shape(elem);
Standard_Real aTol3d = Precision::Confusion();
Handle(MoniFrame_TypedValue) ptol3d = aproc->StackParam("Tolerance3d",Standard_True);
if (ptol3d->IsSetValue()) aTol3d = ptol3d->RealValue();
Handle(ShapeBuild_ReShape) context;
TopoDS_Shape result = ShapeFix::RemoveSmallEdges(Shape,aTol3d,context);
if (result == Shape) astep->AddTouched (aproc->Infos(),MoniShape::Element(Shape));
else
MoniShapeSW::UpdateFromReShape (aproc->Infos(), astep, Shape, context, TopAbs_FACE);
return 0;
}
*/
//=======================================================================
//function : mergesmalledges
//purpose :
//=======================================================================
static Standard_Boolean mergesmalledges (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Real aTol3d = ctx->RealVal ( "Tolerance3d", Precision::Confusion() );
Handle(ShapeBuild_ReShape) reshape = new ShapeBuild_ReShape;
ShapeFix_Wireframe ShapeFixWireframe(ctx->Result());
ShapeFixWireframe.SetContext(reshape);
ShapeFixWireframe.SetPrecision(aTol3d);
if ( ShapeFixWireframe.FixSmallEdges() ) {
ctx->RecordModification ( reshape );
}
return Standard_True;
}
//=======================================================================
//function : fixshape
//purpose :
//=======================================================================
static Standard_Boolean fixshape (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
// activate message mechanism if it is supported by context
Handle(ShapeExtend_MsgRegistrator) msg;
if ( ! ctx->Messages().IsNull() ) msg = new ShapeExtend_MsgRegistrator;
Handle(ShapeFix_Shape) sfs = new ShapeFix_Shape;
sfs->SetMsgRegistrator ( msg );
Handle(ShapeFix_Face) sff = Handle(ShapeFix_Face)::DownCast(sfs->FixFaceTool());
Handle(ShapeFix_Wire) sfw = Handle(ShapeFix_Wire)::DownCast(sfs->FixWireTool());
sfs->SetPrecision ( ctx->RealVal ( "Tolerance3d", Precision::Confusion() ) );
sfs->SetMinTolerance ( ctx->RealVal ( "MinTolerance3d", Precision::Confusion() ) );
sfs->SetMaxTolerance ( ctx->RealVal ( "MaxTolerance3d", Precision::Confusion() ) );
sfs->FixFreeShellMode() = ctx->IntegerVal ( "FixFreeShellMode", -1 );
sfs->FixFreeFaceMode() = ctx->IntegerVal ( "FixFreeFaceMode", -1 );
sfs->FixFreeWireMode() = ctx->IntegerVal ( "FixFreeWireMode", -1 );
sfs->FixSameParameterMode() = ctx->IntegerVal ( "FixSameParameterMode", -1 );
sfs->FixSolidMode() = ctx->IntegerVal ( "FixSolidMode", -1 );
sfs->FixVertexPositionMode() = ctx->IntegerVal ( "FixVertexPositionMode", 0 );
sfs->FixSolidTool()->FixShellMode() = ctx->IntegerVal ( "FixShellMode", -1 );
sfs->FixSolidTool()->CreateOpenSolidMode() = ctx->IntegerVal ( "CreateOpenSolidMode", 1 );
sfs->FixShellTool()->FixFaceMode() = ctx->IntegerVal ( "FixFaceMode", -1 );
//parameters for ShapeFix_Face
sff->FixWireMode() = ctx->IntegerVal ( "FixWireMode", -1 );
sff->FixOrientationMode() = ctx->IntegerVal ( "FixOrientationMode", -1 );
sff->FixAddNaturalBoundMode() = ctx->IntegerVal ( "FixAddNaturalBoundMode", -1 );
sff->FixMissingSeamMode() = ctx->IntegerVal ( "FixMissingSeamMode", -1 );
sff->FixSmallAreaWireMode() = ctx->IntegerVal ( "FixSmallAreaWireMode", -1 );
sff->FixIntersectingWiresMode() = ctx->IntegerVal ( "FixIntersectingWiresMode", -1 );
sff->FixLoopWiresMode() = ctx->IntegerVal ( "FixLoopWiresMode", -1 );
sff->FixSplitFaceMode() = ctx->IntegerVal ( "FixSplitFaceMode", -1 );
//parameters for ShapeFix_Wire
sfw->ModifyTopologyMode() = ctx->BooleanVal ( "ModifyTopologyMode", Standard_False );
sfw->ModifyGeometryMode() = ctx->BooleanVal ( "ModifyGeometryMode", Standard_True );
sfw->ClosedWireMode() = ctx->BooleanVal ( "ClosedWireMode", Standard_True );
sfw->PreferencePCurveMode() = ctx->BooleanVal ( "PreferencePCurveMode", Standard_True );
sfw->FixReorderMode() = ctx->IntegerVal ( "FixReorderMode", -1 );
sfw->FixSmallMode() = ctx->IntegerVal ( "FixSmallMode", -1 );
sfw->FixConnectedMode() = ctx->IntegerVal ( "FixConnectedMode", -1 );
sfw->FixEdgeCurvesMode() = ctx->IntegerVal ( "FixEdgeCurvesMode", -1 );
sfw->FixDegeneratedMode() = ctx->IntegerVal ( "FixDegeneratedMode", -1 );
sfw->FixLackingMode() = ctx->IntegerVal ( "FixLackingMode", -1 );
sfw->FixSelfIntersectionMode() = ctx->IntegerVal ( "FixSelfIntersectionMode", -1 );
sfw->ModifyRemoveLoopMode() = ctx->IntegerVal ( "RemoveLoopMode", -1);
sfw->FixReversed2dMode() = ctx->IntegerVal ( "FixReversed2dMode", -1 );
sfw->FixRemovePCurveMode() = ctx->IntegerVal ( "FixRemovePCurveMode", -1 );
sfw->FixRemoveCurve3dMode() = ctx->IntegerVal ( "FixRemoveCurve3dMode", -1 );
sfw->FixAddPCurveMode() = ctx->IntegerVal ( "FixAddPCurveMode", -1 );
sfw->FixAddCurve3dMode() = ctx->IntegerVal ( "FixAddCurve3dMode", -1 );
sfw->FixShiftedMode() = ctx->IntegerVal ( "FixShiftedMode", -1 );
sfw->FixSeamMode() = ctx->IntegerVal ( "FixSeamMode", -1 );
sfw->FixSameParameterMode() = ctx->IntegerVal ( "FixEdgeSameParameterMode", -1 );
sfw->FixNotchedEdgesMode() = ctx->IntegerVal ( "FixNotchedEdgesMode", -1 );
sfw->FixSelfIntersectingEdgeMode() = ctx->IntegerVal ( "FixSelfIntersectingEdgeMode", -1 );
sfw->FixIntersectingEdgesMode() = ctx->IntegerVal ( "FixIntersectingEdgesMode", -1 );
sfw->FixNonAdjacentIntersectingEdgesMode() = ctx->IntegerVal ( "FixNonAdjacentIntersectingEdgesMode", -1 );
sfs->Init(ctx->Result());
sfs->Perform();
TopoDS_Shape result = sfs->Shape();
if ( result != ctx->Result() ) {
ctx->RecordModification ( sfs->Context(), msg );
ctx->SetResult ( result );
}
return Standard_True;
}
//=======================================================================
//function : spltclosededges
//purpose :
//=======================================================================
static Standard_Boolean spltclosededges (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx =
Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Standard_Integer nbSplits = ctx->IntegerVal ( "NbSplitPoints", 1 );
ShapeUpgrade_ShapeDivideClosedEdges tool (ctx->Result());
tool.SetNbSplitPoints(nbSplits);
if ( ! tool.Perform() && tool.Status (ShapeExtend_FAIL) ) {
#ifdef DEB
cout<<"Splitting of closed edges failed"<<endl;
#endif
return Standard_False;
}
ctx->RecordModification ( tool.GetContext() );
ctx->SetResult ( tool.Result() );
return Standard_True;
}
//=======================================================================
//function : splitcommonvertex
//purpose : Two wires have common vertex - this case is valid in BRep model
// and isn't valid in STEP => before writing into STEP it is necessary
// to split this vertex (each wire must has one vertex)
//=======================================================================
static Standard_Boolean splitcommonvertex (const Handle(ShapeProcess_Context)& context)
{
Handle(ShapeProcess_ShapeContext) ctx = Handle(ShapeProcess_ShapeContext)::DownCast ( context );
if ( ctx.IsNull() ) return Standard_False;
Handle(ShapeBuild_ReShape) reshape = new ShapeBuild_ReShape;
ShapeFix_SplitCommonVertex SCV;
SCV.SetContext(reshape);
SCV.Init(ctx->Result());
SCV.Perform();
TopoDS_Shape newsh = SCV.Shape();
if ( newsh != ctx->Result() ) {
ctx->RecordModification ( reshape );
ctx->SetResult ( newsh );
}
return Standard_True;
}
//=======================================================================
//function : Init
//purpose : Register standard operators
//=======================================================================
void ShapeProcess_OperLibrary::Init ()
{
static Standard_Boolean done = Standard_False;
if ( done ) return;
done = Standard_True;
ShapeExtend::Init();
// load message file for Shape Processing
Message_MsgFile::LoadFromEnv ("CSF_SHMessage", "SHAPE");
ShapeProcess::RegisterOperator ( "DirectFaces", new ShapeProcess_UOperator ( directfaces ) );
ShapeProcess::RegisterOperator ( "SameParameter", new ShapeProcess_UOperator ( sameparam ) );
ShapeProcess::RegisterOperator ( "SetTolerance", new ShapeProcess_UOperator ( settol ) );
ShapeProcess::RegisterOperator ( "SplitAngle", new ShapeProcess_UOperator ( splitangle ) );
ShapeProcess::RegisterOperator ( "BSplineRestriction", new ShapeProcess_UOperator ( bsplinerestriction ) );
ShapeProcess::RegisterOperator ( "ElementaryToRevolution",new ShapeProcess_UOperator ( torevol ) );
ShapeProcess::RegisterOperator ( "SweptToElementary", new ShapeProcess_UOperator ( swepttoelem ) );
ShapeProcess::RegisterOperator ( "SurfaceToBSpline", new ShapeProcess_UOperator ( converttobspline ) );
ShapeProcess::RegisterOperator ( "ToBezier", new ShapeProcess_UOperator ( shapetobezier ) );
ShapeProcess::RegisterOperator ( "SplitContinuity", new ShapeProcess_UOperator ( splitcontinuity ) );
ShapeProcess::RegisterOperator ( "SplitClosedFaces", new ShapeProcess_UOperator ( splitclosedfaces ) );
ShapeProcess::RegisterOperator ( "FixWireGaps", new ShapeProcess_UOperator ( fixwgaps ) );
ShapeProcess::RegisterOperator ( "FixFaceSize", new ShapeProcess_UOperator ( fixfacesize ) );
ShapeProcess::RegisterOperator ( "DropSmallEdges", new ShapeProcess_UOperator ( mergesmalledges ) );
ShapeProcess::RegisterOperator ( "FixShape", new ShapeProcess_UOperator ( fixshape ) );
ShapeProcess::RegisterOperator ( "SplitClosedEdges", new ShapeProcess_UOperator ( spltclosededges ) );
ShapeProcess::RegisterOperator ( "SplitCommonVertex", new ShapeProcess_UOperator ( splitcommonvertex ) );
}
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