export default opencascade; declare function opencascade(target?: T): Promise; declare module opencascade { function destroy(obj: any): void; function _malloc(size: number): number; function _free(ptr: number): void; const HEAP8: Int8Array; const HEAP16: Int16Array; const HEAP32: Int32Array; const HEAPU8: Uint8Array; const HEAPU16: Uint16Array; const HEAPU32: Uint32Array; const HEAPF32: Float32Array; const HEAPF64: Float64Array; type Standard_Real = number; type Standard_Boolean = boolean; type Standard_Integer = number; type Standard_CString = string; class BRepBuilderAPI_MakeShape { Build(): void; Shape(): TopoDS_Shape; IsDeleted(S: TopoDS_Shape): Standard_Boolean; } class BRepPrimAPI_MakeBox extends BRepBuilderAPI_MakeShape { constructor(dx: Standard_Real, dy: Standard_Real, dz: Standard_Real); constructor(P1: gp_Pnt, P2: gp_Pnt); constructor(Axes: gp_Ax2, dx: Standard_Real, dy: Standard_Real, dz: Standard_Real); Build(): void; Shell(): TopoDS_Shell; Solid(): TopoDS_Solid; BottomFace(): TopoDS_Face; BackFace(): TopoDS_Face; FrontFace(): TopoDS_Face; LeftFace(): TopoDS_Face; RightFace(): TopoDS_Face; TopFace(): TopoDS_Face; } class BRepPrimAPI_MakeCone extends BRepPrimAPI_MakeOneAxis { constructor(R1: Standard_Real, R2: Standard_Real, H: Standard_Real); constructor(R1: Standard_Real, R2: Standard_Real, H: Standard_Real, angle: Standard_Real); constructor(Axes: gp_Ax2, R1: Standard_Real, R2: Standard_Real, H: Standard_Real, angle: Standard_Real); } class BRepPrimAPI_MakeCylinder extends BRepPrimAPI_MakeOneAxis { constructor(R: Standard_Real, H: Standard_Real); constructor(Axes: gp_Ax2, R: Standard_Real, H: Standard_Real); constructor(Axes: gp_Ax2, R: Standard_Real, H: Standard_Real, Angle: Standard_Real); } class BRepPrimAPI_MakeHalfSpace extends BRepBuilderAPI_MakeShape { constructor(Shell: TopoDS_Shell, RefPnt: gp_Pnt); Solid(): TopoDS_Solid; } class BRepPrimAPI_MakeOneAxis extends BRepBuilderAPI_MakeShape { Build(): void; Face(): TopoDS_Face; Shell(): TopoDS_Shell; Solid(): TopoDS_Solid; } class BRepPrimAPI_MakeSweep extends BRepBuilderAPI_MakeShape { FirstShape(): TopoDS_Shape; LastShape(): TopoDS_Shape; } class BRepPrimAPI_MakePrism extends BRepPrimAPI_MakeSweep { constructor(S: TopoDS_Shape, V: gp_Vec, Copy?: Standard_Boolean, Canonize?: Standard_Boolean); Build(): void; Generated(S: TopoDS_Shape): TopTools_ListOfShape; IsDeleted(S: TopoDS_Shape): Standard_Boolean; FirstShape(theShape: TopoDS_Shape): TopoDS_Shape; LastShape(theShape: TopoDS_Shape): TopoDS_Shape; } class BRepPrimAPI_MakeRevol extends BRepPrimAPI_MakeSweep { constructor(S: TopoDS_Shape, A: gp_Ax1, D: Standard_Real, Copy: Standard_Boolean); constructor(S: TopoDS_Shape, A: gp_Ax1, Copy: Standard_Boolean); Build(): void; Generated(S: TopoDS_Shape): TopTools_ListOfShape; IsDeleted(S: TopoDS_Shape): Standard_Boolean; FirstShape(theShape: TopoDS_Shape): TopoDS_Shape; LastShape(theShape: TopoDS_Shape): TopoDS_Shape; HasDegenerated(): Standard_Boolean; Degenerated(): TopTools_ListOfShape; } class BRepPrimAPI_MakeRevolution extends BRepPrimAPI_MakeOneAxis { constructor(Meridian: Handle_Geom_Curve); constructor(Meridian: Handle_Geom_Curve, angle: Standard_Real); constructor(Axes: gp_Ax2, Meridian: Handle_Geom_Curve, angle: Standard_Real); constructor(Axes: gp_Ax2, Meridian: Handle_Geom_Curve, VMin: Standard_Real, VMax: Standard_Real); constructor(Axes: gp_Ax2, Meridian: Handle_Geom_Curve, VMin: Standard_Real, VMax: Standard_Real, angle: Standard_Real); } class BRepPrimAPI_MakeSphere extends BRepPrimAPI_MakeOneAxis { constructor(R: Standard_Real); constructor(Axis: gp_Ax2, R: Standard_Real); constructor(Axis: gp_Ax2, R: Standard_Real, angle: Standard_Real); constructor(Axis: gp_Ax2, R: Standard_Real, angle1: Standard_Real, angle2: Standard_Real); constructor(Axis: gp_Ax2, R: Standard_Real, angle1: Standard_Real, angle2: Standard_Real, angle3: Standard_Real); Sphere(): BRepPrim_Sphere; } class BRepPrimAPI_MakeTorus extends BRepPrimAPI_MakeOneAxis { constructor(Axes: gp_Ax2, R1: Standard_Real, R2: Standard_Real); constructor(Axes: gp_Ax2, R1: Standard_Real, R2: Standard_Real, angle: Standard_Real); constructor(Axes: gp_Ax2, R1: Standard_Real, R2: Standard_Real, angle1: Standard_Real, angle2: Standard_Real); constructor(Axes: gp_Ax2, R1: Standard_Real, R2: Standard_Real, angle1: Standard_Real, angle2: Standard_Real, angle: Standard_Real); } class BRepPrimAPI_MakeWedge extends BRepBuilderAPI_MakeShape { constructor(dx: Standard_Real, dy: Standard_Real, dz: Standard_Real, ltx: Standard_Real); constructor(Axes: gp_Ax2, dx: Standard_Real, dy: Standard_Real, dz: Standard_Real, ltx: Standard_Real); constructor(dx: Standard_Real, dy: Standard_Real, dz: Standard_Real, xmin: Standard_Real, zmin: Standard_Real, xmax: Standard_Real, zmax: Standard_Real); constructor(Axes: gp_Ax2, dx: Standard_Real, dy: Standard_Real, dz: Standard_Real, xmin: Standard_Real, zmin: Standard_Real, xmax: Standard_Real, zmax: Standard_Real); Build(): void; Shell(): TopoDS_Shell; Solid(): TopoDS_Solid; } class BRepPrim_Sphere { } class GeomAPI_PointsToBSpline { constructor(Points: TColgp_Array1OfPnt, DegMin?: Standard_Integer, DegMax?: Standard_Integer, Continuity?: GeomAbs_Shape, Tol3D?: Standard_Real); Curve(): Handle_Geom_BSplineCurve; IsDone(): Standard_Boolean; } class TopoDS_Shape { constructor(); constructor(T2: TopoDS_Shape); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class GProp_GProps { constructor(); constructor(SystemLocation: gp_Pnt); Mass(): Standard_Real; CentreOfMass(): gp_Pnt; MomentOfInertia(A1: gp_Ax1): Standard_Real; RadiusOfGyration(A: gp_Ax1): Standard_Real; StaticMoments(Ix: Standard_Real, Iy: Standard_Real, Iz: Standard_Real): void; } class BRepGProp { LinearProperties(S: TopoDS_Shape, LProps: GProp_GProps, SkipShared?: Standard_Boolean, UseTriangulation?: Standard_Boolean): void; SurfaceProperties(S: TopoDS_Shape, SProps: GProp_GProps, SkipShared?: Standard_Boolean, UseTriangulation?: Standard_Boolean): void; SurfaceProperties2(S: TopoDS_Shape, SProps: GProp_GProps, Eps: Standard_Real, SkipShared?: Standard_Boolean): Standard_Real; VolumeProperties(S: TopoDS_Shape, VProps: GProp_GProps, OnlyClosed?: Standard_Boolean, SkipShared?: Standard_Boolean, UseTriangulation?: Standard_Boolean): void; VolumeProperties2(S: TopoDS_Shape, VProps: GProp_GProps, Eps: Standard_Real, OnlyClosed?: Standard_Boolean, SkipShared?: Standard_Boolean): Standard_Real; VolumePropertiesGK(S: TopoDS_Shape, VProps: GProp_GProps, Eps?: Standard_Real, OnlyClosed?: Standard_Boolean, IsUseSpan?: Standard_Boolean, CGFlag?: Standard_Boolean, IFlag?: Standard_Boolean, SkipShared?: Standard_Boolean): Standard_Real; VolumePropertiesGK2(S: TopoDS_Shape, VProps: GProp_GProps, thePln: gp_Pln, Eps?: Standard_Real, OnlyClosed?: Standard_Boolean, IsUseSpan?: Standard_Boolean, CGFlag?: Standard_Boolean, IFlag?: Standard_Boolean, SkipShared?: Standard_Boolean): Standard_Real; } class gp_Pln { constructor(); constructor(P: gp_Pnt, V: gp_Dir); Coefficients(A: Standard_Real, B: Standard_Real, C: Standard_Real, D: Standard_Real): void; SetAxis(A1: gp_Ax1): void; SetLocation(Loc: gp_Pnt): void; UReverse(): void; VReverse(): void; Direct(): Standard_Boolean; Axis(): gp_Ax1; Location(): gp_Pnt; Distance(P: gp_Pnt): Standard_Real; SquareDistance(P: gp_Pnt): Standard_Real; XAxis(): gp_Ax1; YAxis(): gp_Ax1; Contains(P: gp_Pnt, LinearTolerance: Standard_Real): Standard_Boolean; Contains(L: gp_Lin, LinearTolerance: Standard_Real, AngularTolerance: Standard_Real): Standard_Boolean; Mirror(P: gp_Pnt): void; Mirrored(P: gp_Pnt): gp_Pln; Rotate(A1: gp_Ax1, Ang: Standard_Real): void; Rotated(A1: gp_Ax1, Ang: Standard_Real): gp_Pln; Scale(P: gp_Pnt, S: Standard_Real): void; Scaled(P: gp_Pnt, S: Standard_Real): gp_Pln; Transform(T: gp_Trsf): void; Transformed(T: gp_Trsf): gp_Pln; Translate(V: gp_Vec): void; Translated(V: gp_Vec): gp_Pln; Translate(P1: gp_Pnt, P2: gp_Pnt): void; Translated(P1: gp_Pnt, P2: gp_Pnt): gp_Pln; } class BRepMesh_IncrementalMesh { constructor(); constructor(theShape: TopoDS_Shape, theLinDeflection: Standard_Real); constructor(theShape: TopoDS_Shape, theLinDeflection: Standard_Real, isRelative: Standard_Boolean); constructor(theShape: TopoDS_Shape, theLinDeflection: Standard_Real, isRelative: Standard_Boolean, theAngDeflection: Standard_Real); } class Bnd_Box { constructor(); constructor(theMin: gp_Pnt, theMax: gp_Pnt); SetWhole(): void; SetVoid(): void; Set(P: gp_Pnt): void; Set(P: gp_Pnt, D: gp_Dir): void; Update(aXMin: Standard_Real, aYMin: Standard_Real, aZMin: Standard_Real, aXMax: Standard_Real, aYMax: Standard_Real, aZMax: Standard_Real): void; Update(X: Standard_Real, Y: Standard_Real, Z: Standard_Real): void; GetGap(): Standard_Real; SetGap(Tol: Standard_Real): void; Enlarge(Tol: Standard_Real): void; GetXmin(): Standard_Real; GetXmax(): Standard_Real; GetYmin(): Standard_Real; GetYmax(): Standard_Real; GetZmin(): Standard_Real; GetZmax(): Standard_Real; CornerMin(): gp_Pnt; CornerMax(): gp_Pnt; OpenXmin(): void; OpenXmax(): void; OpenYmin(): void; OpenYmax(): void; OpenZmin(): void; OpenZmax(): void; IsOpen(): Standard_Boolean; IsOpenXmin(): Standard_Boolean; IsOpenXmax(): Standard_Boolean; IsOpenYmin(): Standard_Boolean; IsOpenYmax(): Standard_Boolean; IsOpenZmin(): Standard_Boolean; IsOpenZmax(): Standard_Boolean; IsWhole(): Standard_Boolean; IsVoid(): Standard_Boolean; IsXThin(tol: Standard_Real): Standard_Boolean; IsYThin(tol: Standard_Real): Standard_Boolean; IsZThin(tol: Standard_Real): Standard_Boolean; IsThin(tol: Standard_Real): Standard_Boolean; Transformed(T: gp_Trsf): Bnd_Box; Add(Other: Bnd_Box): void; Add(P: gp_Pnt, D: gp_Dir): void; IsOut(P: gp_Pnt): Standard_Boolean; IsOut(Other: Bnd_Box, T: gp_Trsf): Standard_Boolean; IsOut(T1: gp_Trsf, Other: Bnd_Box, T2: gp_Trsf): Standard_Boolean; Distance(Other: Bnd_Box): Standard_Real; Dump(): void; SquareExtent(): Standard_Real; FinitePart(): Bnd_Box; HasFinitePart(): Standard_Boolean; } class Bnd_OBB { constructor(); constructor(theCenter: gp_Pnt, theXDirection: gp_Dir, theYDirection: gp_Dir, theZDirection: gp_Dir, theHXSize: Standard_Real, theHYSize: Standard_Real, theHZSize: Standard_Real); constructor(theBox: Bnd_Box); ReBuild(theListOfPoints: TColgp_Array1OfPnt, theListOfTolerances: TColStd_Array1OfReal, theIsOptimal?: Standard_Boolean): void; SetCenter(theCenter: gp_Pnt): void; SetXComponent(theXDirection: gp_Dir, theHXSize: Standard_Real): void; SetYComponent(theYDirection: gp_Dir, theHYSize: Standard_Real): void; SetZComponent(theZDirection: gp_Dir, theHZSize: Standard_Real): void; XHSize(): Standard_Real; YHSize(): Standard_Real; ZHSize(): Standard_Real; IsVoid(): Standard_Boolean; SetVoid(): void; SetAABox(theFlag: Standard_Boolean): void; IsAABox(): Standard_Boolean; Enlarge(theGapAdd: Standard_Real): void; GetVertex(theP: gp_Pnt): Standard_Boolean; SquareExtent(): Standard_Real; IsOut(theOther: Bnd_OBB): Standard_Boolean; IsCompletelyInside(theOther: Bnd_OBB): Standard_Boolean; Add(theOther: Bnd_OBB): void; } class BRepBndLib { constructor(); Add(S: TopoDS_Shape, B: Bnd_Box, useTriangulation?: Standard_Boolean): void; AddClose(S: TopoDS_Shape, B: Bnd_Box): void; AddOptimal(S: TopoDS_Shape, B: Bnd_Box, useTriangulation?: Standard_Boolean, useShapeToerance?: Standard_Boolean): void; AddOBB(theS: TopoDS_Shape, theOBB: Bnd_OBB, theIsTriangulationUsed?: Standard_Boolean, theIsOptimal?: Standard_Boolean, theIsShapeToleranceUsed?: Standard_Boolean): void; } class gp_Vec { constructor(Xv: Standard_Real, Yv: Standard_Real, Zv: Standard_Real); X(): Standard_Real; Y(): Standard_Real; Z(): Standard_Real; } class Geom_Circle { constructor(C: gp_Circ); constructor(A2: gp_Ax2, Radius: Standard_Real); Radius(): Standard_Real; } class Geom_Ellipse extends Geom_Conic { constructor(C: gp_Elips); constructor(A2: gp_Ax2, MajorRadius: Standard_Real, MinorRadius: Standard_Real); MajorRadius(): Standard_Real; MinorRadius(): Standard_Real; } class Geom_Hyperbola extends Geom_Conic { constructor(C: gp_Hypr); constructor(A2: gp_Ax2, MajorRadius: Standard_Real, MinorRadius: Standard_Real); MajorRadius(): Standard_Real; MinorRadius(): Standard_Real; } class Geom_Parabola extends Geom_Conic { constructor(C: gp_Parab); constructor(A2: gp_Ax2, Focal: Standard_Real); Focal(): Standard_Real; } class Geom_Conic extends Geom_Curve { } class gp_Pnt { constructor(); constructor(Xp: Standard_Real, Yp: Standard_Real, Zp: Standard_Real); SetCoord(Index: Standard_Integer, Xi: Standard_Real): void; SetCoord(Xp: Standard_Real, Yp: Standard_Real, Zp: Standard_Real): void; SetX(X: Standard_Real): void; SetY(Y: Standard_Real): void; SetZ(Z: Standard_Real): void; Coord(Index: Standard_Integer): Standard_Real; X(): Standard_Real; Y(): Standard_Real; Z(): Standard_Real; BaryCenter(Alpha: Standard_Real, P: gp_Pnt, Beta: Standard_Real): void; IsEqual(Other: gp_Pnt, LinearTolerance: Standard_Real): Standard_Boolean; Distance(Other: gp_Pnt): Standard_Real; SquareDistance(Other: gp_Pnt): Standard_Real; Mirror(P: gp_Pnt): void; Rotate(A1: gp_Ax1, Ang: Standard_Real): void; Rotated(A1: gp_Ax1, Ang: Standard_Real): gp_Pnt; Scale(P: gp_Pnt, S: Standard_Real): void; Scaled(P: gp_Pnt, S: Standard_Real): gp_Pnt; Transform(T: gp_Trsf): void; Transformed(T: gp_Trsf): gp_Pnt; Translated(V: gp_Vec): gp_Pnt; Translated(P1: gp_Pnt, P2: gp_Pnt): gp_Pnt; } class gp_XYZ { constructor(X: Standard_Real, Y: Standard_Real, Z: Standard_Real); SetCoord(Xp: Standard_Real, Yp: Standard_Real, Zp: Standard_Real): void; SetX(X: Standard_Real): void; SetY(Y: Standard_Real): void; SetZ(Z: Standard_Real): void; Coord(Index: Standard_Integer): Standard_Real; X(): Standard_Real; Y(): Standard_Real; Z(): Standard_Real; IsEqual(Other: gp_XYZ, Tolerance: Standard_Real): Standard_Boolean; } class GC_MakeArcOfCircle { constructor(Circ: gp_Circ, Alpha1: Standard_Real, Alpha2: Standard_Real, Sense: Standard_Boolean); constructor(P1: gp_Pnt, P2: gp_Pnt, P3: gp_Pnt); Value(): Handle_Geom_TrimmedCurve; } class GC_MakeSegment { constructor(P1: gp_Pnt, P2: gp_Pnt); constructor(Line: gp_Lin, U1: Standard_Real, U2: Standard_Real); Value(): Handle_Geom_TrimmedCurve; } class GC_MakeCircle { constructor(Circ: gp_Circ); constructor(A2: gp_Ax2, Radius: Standard_Real); Value(): Handle_Geom_Circle; } class GC_MakeEllipse { constructor(E: gp_Elips); constructor(A2: gp_Ax2, MajorRadius: Standard_Real, MinorRadius: Standard_Real); Value(): Handle_Geom_Ellipse; } class GC_MakeHyperbola { constructor(E: gp_Hypr); constructor(A2: gp_Ax2, MajorRadius: Standard_Real, MinorRadius: Standard_Real); Value(): Handle_Geom_Hyperbola; } class GC_MakeArcOfParabola { constructor(Parab: gp_Parab, Alpha1: Standard_Real, Alpha2: Standard_Real, Sense: Standard_Boolean); Value(): Handle_Geom_TrimmedCurve; } class TopoDS_Edge { constructor(); constructor(T2: TopoDS_Edge); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class TopoDS_Wire { constructor(); constructor(T2: TopoDS_Wire); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class TopoDS_Compound extends TopoDS_Shape { constructor(); constructor(T2: TopoDS_Compound); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class TopoDS_Face { constructor(); constructor(T2: TopoDS_Face); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class TopoDS_Vertex extends TopoDS_Shape { constructor(); constructor(T2: TopoDS_Vertex); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class gp_Ax1 { constructor(); constructor(P: gp_Pnt, V: gp_Dir); } class gp_Ax2 { constructor(); constructor(P: gp_Pnt, V: gp_Dir); } class gp { OX(): gp_Ax1; DZ(): gp_Dir; } class gp_Dir { constructor(); constructor(V: gp_Vec); constructor(Xv: Standard_Real, Yv: Standard_Real, Zv: Standard_Real); SetCoord(Index: Standard_Integer, Xi: Standard_Real): void; SetCoord(Xv: Standard_Real, Yv: Standard_Real, Zv: Standard_Real): void; SetX(X: Standard_Real): void; SetY(Y: Standard_Real): void; SetZ(Z: Standard_Real): void; Coord(Index: Standard_Integer): Standard_Real; X(): Standard_Real; Y(): Standard_Real; Z(): Standard_Real; IsEqual(Other: gp_Dir, AngularTolerance: Standard_Real): Standard_Boolean; IsNormal(Other: gp_Dir, AngularTolerance: Standard_Real): Standard_Boolean; IsOpposite(Other: gp_Dir, AngularTolerance: Standard_Real): Standard_Boolean; IsParallel(Other: gp_Dir, AngularTolerance: Standard_Real): Standard_Boolean; Angle(Other: gp_Dir): Standard_Real; AngleWithRef(Other: gp_Dir, VRef: gp_Dir): Standard_Real; Cross(Right: gp_Dir): void; Crossed(Right: gp_Dir): gp_Dir; CrossCross(V1: gp_Dir, V2: gp_Dir): void; CrossCrossed(V1: gp_Dir, V2: gp_Dir): gp_Dir; Dot(Other: gp_Dir): Standard_Real; DotCross(V1: gp_Dir, V2: gp_Dir): Standard_Real; Reversed(): gp_Dir; Mirror(V: gp_Dir): void; Mirrored(V: gp_Dir): gp_Dir; Rotate(A1: gp_Ax1, Ang: Standard_Real): void; Rotated(A1: gp_Ax1, Ang: Standard_Real): gp_Dir; Transform(T: gp_Trsf): void; Transformed(T: gp_Trsf): gp_Dir; } class gp_Trsf { constructor(); SetMirror(A1: gp_Ax1): void; SetTranslation(V: gp_Vec): void; SetTranslationPart(V: gp_Vec): void; SetRotation(A1: gp_Ax1, Ang: Standard_Real): void; SetScaleFactor(S: Standard_Real): void; Multiply(T: gp_Trsf): void; PreMultiply(T: gp_Trsf): void; Value(Row: Standard_Integer, Col: Standard_Integer): Standard_Real; Inverted(): gp_Trsf; TranslationPart(): gp_XYZ; ScaleFactor(): Standard_Real; Multiplied(T: gp_Trsf): gp_Trsf; } class BRepBuilderAPI_Transform { constructor(S: TopoDS_Shape, T: gp_Trsf, Copy?: Standard_Boolean); } class BRepBuilderAPI_ModifyShape { } class TopoDS { Vertex(S: TopoDS_Shape): TopoDS_Vertex; Edge(S: TopoDS_Shape): TopoDS_Edge; Wire(S: TopoDS_Shape): TopoDS_Wire; Face(S: TopoDS_Shape): TopoDS_Face; Shell(S: TopoDS_Shape): TopoDS_Shell; Solid(S: TopoDS_Shape): TopoDS_Solid; CompSolid(S: TopoDS_Shape): TopoDS_CompSolid; Compound(S: TopoDS_Shape): TopoDS_Compound; } class BRepBuilderAPI_MakeFace { constructor(W: TopoDS_Wire); constructor(F: TopoDS_Face, W: TopoDS_Wire); Face(): TopoDS_Face; Add(W: TopoDS_Wire): void; Error(): BRepBuilderAPI_FaceError; } class BRepFilletAPI_MakeFillet2d { constructor(F: TopoDS_Face); AddFillet(V: TopoDS_Vertex, Radius: Standard_Real): void; Status(): ChFi2d_ConstructionError; } class BRepFilletAPI_MakeFillet { constructor(S: TopoDS_Shape); Add(Radius: Standard_Real, E: TopoDS_Edge): void; } class BRepFilletAPI_MakeChamfer { constructor(S: TopoDS_Shape); Add(Dis: Standard_Real, E: TopoDS_Edge): void; Add(Dis1: Standard_Real, Dis2: Standard_Real, E: TopoDS_Edge, F: TopoDS_Face): void; } class BRepFilletAPI_LocalOperation { } class TopExp_Explorer { constructor(); constructor(S: TopoDS_Shape, ToFind: TopAbs_ShapeEnum, ToAvoid?: TopAbs_ShapeEnum); Init(S: TopoDS_Shape, ToFind: TopAbs_ShapeEnum, ToAvoid?: TopAbs_ShapeEnum): void; More(): Standard_Boolean; Next(): void; Current(): TopoDS_Shape; ReInit(): void; Depth(): Standard_Integer; Clear(): void; Destroy(): void; } class TopLoc_Location { constructor(); constructor(T: gp_Trsf); Identity(): void; FirstPower(): Standard_Integer; NextLocation(): TopLoc_Location; Transformation(): gp_Trsf; } class Adaptor3d_Curve { FirstParameter(): Standard_Real; LastParameter(): Standard_Real; IsClosed(): Standard_Boolean; IsPeriodic(): Standard_Boolean; Period(): Standard_Real; Value(U: Standard_Real): gp_Pnt; D0(U: Standard_Real, P: gp_Pnt): void; D1(U: Standard_Real, P: gp_Pnt, V1: gp_Vec): void; D2(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec): void; D3(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec, V3: gp_Vec): void; DN(U: Standard_Real, N: Standard_Integer): void; Resolution(R3d: Standard_Real): Standard_Real; Line(): gp_Lin; Circle(): gp_Circ; Degree(): Standard_Integer; IsRational(): Standard_Boolean; NbPoles(): Standard_Integer; NbKnots(): Standard_Integer; Bezier(): Handle_Geom_BezierCurve; BSpline(): Handle_Geom_BSplineCurve; } class BRepAdaptor_Curve { constructor(); constructor(E: TopoDS_Edge); constructor(E: TopoDS_Edge, F: TopoDS_Face); Reset(): void; Initialize(E: TopoDS_Edge): void; Initialize(E: TopoDS_Edge, F: TopoDS_Face): void; Trsf(): gp_Trsf; Is3DCurve(): Standard_Boolean; IsCurveOnSurface(): Standard_Boolean; Edge(): TopoDS_Edge; Tolerance(): Standard_Real; FirstParameter(): Standard_Real; LastParameter(): Standard_Real; IsClosed(): Standard_Boolean; IsPeriodic(): Standard_Boolean; Period(): Standard_Real; Value(U: Standard_Real): gp_Pnt; D0(U: Standard_Real, P: gp_Pnt): void; D1(U: Standard_Real, P: gp_Pnt, V1: gp_Vec): void; D2(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec): void; D3(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec, V3: gp_Vec): void; DN(U: Standard_Real, N: Standard_Integer): void; Resolution(R3d: Standard_Real): Standard_Real; Line(): gp_Lin; Circle(): gp_Circ; Degree(): Standard_Integer; IsRational(): Standard_Boolean; NbPoles(): Standard_Integer; NbKnots(): Standard_Integer; Bezier(): Handle_Geom_BezierCurve; BSpline(): Handle_Geom_BSplineCurve; } class GCPnts_TangentialDeflection { constructor(); constructor(C: Adaptor3d_Curve, AngularDeflection: Standard_Real, CurvatureDeflection: Standard_Real, MinimumOfPoints?: Standard_Integer, UTol?: Standard_Real, theMinLen?: Standard_Real); constructor(C: Adaptor3d_Curve, FirstParameter: Standard_Real, LastParameter: Standard_Real, AngularDeflection: Standard_Real, CurvatureDeflection: Standard_Real, MinimumOfPoints: Standard_Integer, UTol: Standard_Real, theMinLen: Standard_Real); Initialize(C: Adaptor3d_Curve, AngularDeflection: Standard_Real, CurvatureDeflection: Standard_Real, MinimumOfPoints?: Standard_Integer, UTol?: Standard_Real, theMinLen?: Standard_Real): void; Initialize(C: Adaptor3d_Curve, FirstParameter: Standard_Real, LastParameter: Standard_Real, AngularDeflection: Standard_Real, CurvatureDeflection: Standard_Real, MinimumOfPoints: Standard_Integer, UTol: Standard_Real, theMinLen: Standard_Real): void; AddPoint(thePnt: gp_Pnt, theParam: Standard_Real, theIsReplace?: Standard_Boolean): Standard_Integer; NbPoints(): Standard_Integer; Parameter(I: Standard_Integer): Standard_Real; Value(I: Standard_Integer): gp_Pnt; ArcAngularStep(theRadius: Standard_Real, theLinearDeflection: Standard_Real, theAngularDeflection: Standard_Real, theMinLength: Standard_Real): Standard_Real; } class Geom_Curve { Reverse(): void; ReversedParameter(U: Standard_Real): Standard_Real; TransformedParameter(U: Standard_Real, T: gp_Trsf): Standard_Real; ParametricTransformation(T: gp_Trsf): Standard_Real; Reversed(): Handle_Geom_Curve; FirstParameter(): Standard_Real; LastParameter(): Standard_Real; IsClosed(): Standard_Boolean; IsPeriodic(): Standard_Boolean; Period(): Standard_Real; IsCN(N: Standard_Integer): Standard_Boolean; D0(U: Standard_Real, P: gp_Pnt): void; D1(U: Standard_Real, P: gp_Pnt, V1: gp_Vec): void; D2(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec): void; D3(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec, V3: gp_Vec): void; DN(U: Standard_Real, N: Standard_Integer): void; Value(U: Standard_Real): gp_Pnt; } class BRep_Tool { IsClosed(S: TopoDS_Shape): Standard_Boolean; Surface(F: TopoDS_Face): Handle_Geom_Surface; Triangulation(F: TopoDS_Face, L: TopLoc_Location): Handle_Poly_Triangulation; Tolerance(F: TopoDS_Face): Standard_Real; NaturalRestriction(F: TopoDS_Face): Standard_Boolean; IsGeometric(E: TopoDS_Edge): Standard_Boolean; Curve(E: TopoDS_Edge, L: TopLoc_Location, First: Standard_Real, Last: Standard_Real): Handle_Geom_Curve; Polygon3D(E: TopoDS_Edge, L: TopLoc_Location): Handle_Poly_Polygon3D; PolygonOnTriangulation(E: TopoDS_Edge, T: Handle_Poly_Triangulation, L: TopLoc_Location): Handle_Poly_PolygonOnTriangulation; IsClosed(E: TopoDS_Edge, F: TopoDS_Face): Standard_Boolean; IsClosed(E: TopoDS_Edge, T: Handle_Poly_Triangulation, L: TopLoc_Location): Standard_Boolean; SameParameter(E: TopoDS_Edge): Standard_Boolean; SameRange(E: TopoDS_Edge): Standard_Boolean; Degenerated(E: TopoDS_Edge): Standard_Boolean; Range(E: TopoDS_Edge, First: Standard_Real, Last: Standard_Real): void; Range(E: TopoDS_Edge, F: TopoDS_Face, First: Standard_Real, Last: Standard_Real): void; HasContinuity(E: TopoDS_Edge, F1: TopoDS_Face, F2: TopoDS_Face): Standard_Boolean; HasContinuity(E: TopoDS_Edge): Standard_Boolean; Parameter(V: TopoDS_Vertex, E: TopoDS_Edge): Standard_Real; Parameter(V: TopoDS_Vertex, E: TopoDS_Edge, F: TopoDS_Face): Standard_Real; Pnt(V: TopoDS_Vertex): gp_Pnt; Parameters(V: TopoDS_Vertex, F: TopoDS_Face): gp_Pnt2d; MaxTolerance(theShape: TopoDS_Shape, theSubShape: TopAbs_ShapeEnum): Standard_Real; } class Poly_Polygon3D { constructor(Nodes: TColgp_Array1OfPnt); constructor(Nodes: TColgp_Array1OfPnt, Parameters: TColStd_Array1OfReal); Copy(): Handle_Poly_Polygon3D; Deflection(): Standard_Real; NbNodes(): Standard_Integer; Nodes(): TColgp_Array1OfPnt; HasParameters(): Standard_Boolean; Parameters(): TColStd_Array1OfReal; ChangeParameters(): TColStd_Array1OfReal; } class GCE2d_MakeSegment { constructor(P1: gp_Pnt2d, P2: gp_Pnt2d); Value(): Handle_Geom2d_TrimmedCurve; } class Geom_BoundedCurve extends Geom_Curve { } class Geom2d_Ellipse extends Geom2d_Conic { constructor(MajorAxis: gp_Ax2d, MajorRadius: Standard_Real, MinorRadius: Standard_Real, Sense?: Standard_Boolean); } class Geom2d_TrimmedCurve extends Geom2d_BoundedCurve { constructor(C: Handle_Geom2d_Curve, U1: Standard_Real, U2: Standard_Real, Sense?: Standard_Boolean, theAdjustPeriodic?: Standard_Boolean); } class Geom_TrimmedCurve extends Geom_BoundedCurve { constructor(C: Handle_Geom_Curve, U1: Standard_Real, U2: Standard_Real, Sense?: Standard_Boolean, theAdjustPeriodic?: Standard_Boolean); Reverse(): void; ReversedParameter(U: Standard_Real): Standard_Real; SetTrim(U1: Standard_Real, U2: Standard_Real, Sense?: Standard_Boolean, theAdjust?: Standard_Boolean): void; BasisCurve(): Handle_Geom_Curve; IsCN(N: Standard_Integer): Standard_Boolean; FirstParameter(): Standard_Real; IsClosed(): Standard_Boolean; IsPeriodic(): Standard_Boolean; Period(): Standard_Real; LastParameter(): Standard_Real; StartPoint(): gp_Pnt; D0(U: Standard_Real, P: gp_Pnt): void; D1(U: Standard_Real, P: gp_Pnt, V1: gp_Vec): void; D2(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec): void; D3(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec, V3: gp_Vec): void; DN(U: Standard_Real, N: Standard_Integer): void; Transform(T: gp_Trsf): void; TransformedParameter(U: Standard_Real, T: gp_Trsf): Standard_Real; ParametricTransformation(T: gp_Trsf): Standard_Real; } class Geom_BezierCurve extends Geom_Curve { constructor(CurvePoles: TColgp_Array1OfPnt); constructor(CurvePoles: TColgp_Array1OfPnt, PoleWeights: TColStd_Array1OfReal); Reverse(): void; ReversedParameter(U: Standard_Real): Standard_Real; IsCN(N: Standard_Integer): Standard_Boolean; FirstParameter(): Standard_Real; IsClosed(): Standard_Boolean; IsPeriodic(): Standard_Boolean; Period(): Standard_Real; LastParameter(): Standard_Real; StartPoint(): gp_Pnt; D0(U: Standard_Real, P: gp_Pnt): void; D1(U: Standard_Real, P: gp_Pnt, V1: gp_Vec): void; D2(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec): void; D3(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec, V3: gp_Vec): void; DN(U: Standard_Real, N: Standard_Integer): gp_Vec; Transform(T: gp_Trsf): void; } class Geom_BSplineCurve extends Geom_Curve { constructor(Poles: TColgp_Array1OfPnt, Weights: TColStd_Array1OfReal, Knots: TColStd_Array1OfReal, Multiplicities: TColStd_Array1OfInteger, Degree: Standard_Integer, Periodic?: Standard_Boolean, CheckRational?: Standard_Boolean); Reverse(): void; ReversedParameter(U: Standard_Real): Standard_Real; IsCN(N: Standard_Integer): Standard_Boolean; FirstParameter(): Standard_Real; IsClosed(): Standard_Boolean; IsPeriodic(): Standard_Boolean; Period(): Standard_Real; LastParameter(): Standard_Real; StartPoint(): gp_Pnt; D0(U: Standard_Real, P: gp_Pnt): void; D1(U: Standard_Real, P: gp_Pnt, V1: gp_Vec): void; D2(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec): void; D3(U: Standard_Real, P: gp_Pnt, V1: gp_Vec, V2: gp_Vec, V3: gp_Vec): void; DN(U: Standard_Real, N: Standard_Integer): gp_Vec; Transform(T: gp_Trsf): void; } class Standard_Transient { get_type_name(): string; DynamicType(): Handle_Standard_Type; } class Standard_Type extends Standard_Transient { Name(): string; } class Geom_Geometry extends Standard_Transient { } class Geom_Surface extends Geom_Geometry { } class Geom_ElementarySurface extends Geom_Surface { Location(): gp_Pnt; } class Geom_Plane extends Geom_ElementarySurface { } class gp_Ax3 { constructor(); } class gp_Pnt2d { constructor(); constructor(Xp: Standard_Real, Yp: Standard_Real); X(): Standard_Real; Y(): Standard_Real; } class gp_Dir2d { constructor(); constructor(Xv: Standard_Real, Yv: Standard_Real); } class gp_Ax2d { constructor(); constructor(P: gp_Pnt2d, V: gp_Dir2d); } class Geom_CylindricalSurface { constructor(A3: gp_Ax3, Radius: Standard_Real); } class Geom2d_Curve { Period(): Standard_Real; Value(U: Standard_Real): gp_Pnt2d; } class Geom2d_BoundedCurve extends Geom2d_Curve { } class Geom2d_Conic extends Geom2d_Curve { } class Handle_Geom2d_TrimmedCurve { constructor(); constructor(thePtr: Geom2d_TrimmedCurve); IsNull(): boolean; Nullify(): void; get(): Geom2d_TrimmedCurve; } class Handle_Geom2d_Curve { constructor(); constructor(thePtr: Geom2d_Curve); IsNull(): boolean; Nullify(): void; get(): Geom2d_Curve; } class Handle_Standard_Type { constructor(); constructor(thePtr: Standard_Type); IsNull(): boolean; Nullify(): void; get(): Standard_Type; } class Handle_Geom_Plane { constructor(); constructor(thePtr: Geom_Plane); IsNull(): boolean; Nullify(): void; get(): Geom_Plane; } class Handle_Geom_Surface { constructor(); constructor(thePtr: Geom_Surface); IsNull(): boolean; Nullify(): void; get(): Geom_Surface; } class Handle_Geom_Curve { constructor(); constructor(thePtr: Geom_Curve); IsNull(): boolean; Nullify(): void; get(): Geom_Curve; } class Handle_Geom_TrimmedCurve { constructor(); constructor(thePtr: Geom_TrimmedCurve); IsNull(): boolean; Nullify(): void; get(): Geom_TrimmedCurve; } class Handle_Geom_Circle { constructor(); constructor(thePtr: Geom_Circle); IsNull(): boolean; Nullify(): void; get(): Geom_Circle; } class Handle_Geom_Ellipse { constructor(); constructor(thePtr: Geom_Ellipse); IsNull(): boolean; Nullify(): void; get(): Geom_Ellipse; } class Handle_Geom_Hyperbola { constructor(); constructor(thePtr: Geom_Hyperbola); IsNull(): boolean; Nullify(): void; get(): Geom_Hyperbola; } class Handle_Geom_BezierCurve { constructor(); constructor(thePtr: Geom_BezierCurve); IsNull(): boolean; Nullify(): void; get(): Geom_BezierCurve; } class Handle_Geom_BSplineCurve { constructor(); constructor(thePtr: Geom_BSplineCurve); IsNull(): boolean; Nullify(): void; get(): Geom_BSplineCurve; } class Handle_Poly_Polygon3D { constructor(); constructor(thePtr: Poly_Polygon3D); IsNull(): boolean; Nullify(): void; get(): Poly_Polygon3D; } class Handle_ShapeFix_Shell { IsNull(): boolean; get(): ShapeFix_Shell; } class Handle_Poly_Triangulation { constructor(); constructor(thePtr: Poly_Triangulation); IsNull(): boolean; Nullify(): void; get(): Poly_Triangulation; } class Handle_Poly_PolygonOnTriangulation { constructor(); constructor(thePtr: Poly_PolygonOnTriangulation); IsNull(): boolean; Nullify(): void; get(): Poly_PolygonOnTriangulation; } class Handle_XSControl_WorkSession { constructor(); constructor(thePtr: XSControl_WorkSession); IsNull(): boolean; Nullify(): void; get(): XSControl_WorkSession; } class Handle_Transfer_TransientProcess { constructor(); constructor(thePtr: Transfer_TransientProcess); IsNull(): boolean; Nullify(): void; get(): Transfer_TransientProcess; } class Handle_Message_ProgressIndicator { constructor(); constructor(thePtr: Message_ProgressIndicator); IsNull(): boolean; Nullify(): void; get(): Message_ProgressIndicator; } class TColgp_Array1OfPnt { constructor(); constructor(theLower: Standard_Integer, theUpper: Standard_Integer); Length(): Standard_Integer; Lower(): Standard_Integer; Upper(): Standard_Integer; Value(theIndex: Standard_Integer): gp_Pnt; SetValue(Index: Standard_Integer, Value: gp_Pnt): void; } class TColgp_Array1OfDir { constructor(); constructor(theLower: Standard_Integer, theUpper: Standard_Integer); Length(): Standard_Integer; Lower(): Standard_Integer; Upper(): Standard_Integer; Value(theIndex: Standard_Integer): gp_Dir; } class Poly_Array1OfTriangle { constructor(); constructor(theLower: Standard_Integer, theUpper: Standard_Integer); Length(): Standard_Integer; Lower(): Standard_Integer; Upper(): Standard_Integer; Value(theIndex: Standard_Integer): Poly_Triangle; SetValue(Index: Standard_Integer, Value: Poly_Triangle): void; } class TColStd_Array1OfReal { constructor(); constructor(theLower: Standard_Integer, theUpper: Standard_Integer); Length(): Standard_Integer; Lower(): Standard_Integer; Upper(): Standard_Integer; Value(theIndex: Standard_Integer): Standard_Real; SetValue(Index: Standard_Integer, Value: Standard_Real): void; } class TColStd_Array1OfInteger { constructor(); constructor(theLower: Standard_Integer, theUpper: Standard_Integer); Length(): Standard_Integer; Lower(): Standard_Integer; Upper(): Standard_Integer; Value(theIndex: Standard_Integer): Standard_Integer; SetValue(Index: Standard_Integer, Value: Standard_Integer): void; } class XSControl_WorkSession { constructor(); ClearData(theMode: Standard_Integer): void; SelectNorm(theNormName: Standard_CString): Standard_Boolean; ClearContext(): void; InitTransferReader(theMode: Standard_Integer): void; MapReader(): Handle_Transfer_TransientProcess; SetMapReader(theTP: Handle_Transfer_TransientProcess): Standard_Boolean; TransferReadRoots(): Standard_Integer; TransferWriteShape(theShape: TopoDS_Shape, theCompGraph?: Standard_Boolean): IFSelect_ReturnStatus; } class Transfer_ProcessForTransient { constructor(); GetProgress(): Handle_Message_ProgressIndicator; SetProgress(theProgess: Handle_Message_ProgressIndicator): void; } class Transfer_TransientProcess extends Transfer_ProcessForTransient { constructor(nb?: Standard_Integer); HasGraph(): Standard_Boolean; } class Message_ProgressIndicator { GetPosition(): Standard_Real; GetValue(): Standard_Real; NewScope(name: Standard_CString): Standard_Boolean; NewScope(span: Standard_Real, name: Standard_CString): Standard_Boolean; EndScope(): Standard_Boolean; Reset(): void; } class Poly_Triangulation { constructor(nbNodes: Standard_Integer, nbTriangles: Standard_Integer, UVNodes: Standard_Boolean); Copy(): Handle_Poly_Triangulation; constructor(theTriangulation: Handle_Poly_Triangulation); Deflection(theDeflection: Standard_Real): void; RemoveUVNodes(): void; NbNodes(): Standard_Integer; NbTriangles(): Standard_Integer; HasUVNodes(): Standard_Boolean; Nodes(): TColgp_Array1OfPnt; ChangeNodes(): TColgp_Array1OfPnt; Triangles(): Poly_Array1OfTriangle; ChangeTriangles(): Poly_Array1OfTriangle; HasNormals(): Standard_Boolean; Normal(theIndex: Standard_Integer): gp_Dir; SetNormal(theIndex: Standard_Integer, theNormal: gp_Dir): void; } class Poly_Triangle { constructor(); constructor(N1: Standard_Integer, N2: Standard_Integer, N3: Standard_Integer); Set(N1: Standard_Integer, N2: Standard_Integer, N3: Standard_Integer): void; Set(Index: Standard_Integer, Node: Standard_Integer): void; Value(Index: Standard_Integer): Standard_Integer; ChangeValue(Index: Standard_Integer): Standard_Integer; } class Poly_Connect { constructor(); constructor(theTriangulation: Handle_Poly_Triangulation); Load(theTriangulation: Handle_Poly_Triangulation): void; Triangulation(): Handle_Poly_Triangulation; Triangle(N: Standard_Integer): Standard_Integer; Triangles(T: Standard_Integer, t1: Standard_Integer, t2: Standard_Integer, t3: Standard_Integer): void; Nodes(T: Standard_Integer, t1: Standard_Integer, t2: Standard_Integer, t3: Standard_Integer): void; Initialize(N: Standard_Integer): void; More(): Standard_Boolean; Next(): void; Value(): Standard_Integer; } class StdPrs_ToolTriangulatedShape { constructor(); IsTriangulated(theShape: TopoDS_Shape): Standard_Boolean; IsClosed(theShape: TopoDS_Shape): Standard_Boolean; ComputeNormals(theFace: TopoDS_Face, theTris: Handle_Poly_Triangulation): void; ComputeNormals(theFace: TopoDS_Face, theTris: Handle_Poly_Triangulation, thePolyConnect: Poly_Connect): void; Normal(theFace: TopoDS_Face, thePolyConnect: Poly_Connect, theNormals: TColgp_Array1OfDir): void; } class BRepBuilderAPI_Sewing { constructor(tolerance?: Standard_Real, option1?: Standard_Boolean, option2?: Standard_Boolean, option3?: Standard_Boolean, option4?: Standard_Boolean); Init(tolerance?: Standard_Real, option1?: Standard_Boolean, option2?: Standard_Boolean, option3?: Standard_Boolean, option4?: Standard_Boolean): void; Load(shape: TopoDS_Shape): void; Add(shape: TopoDS_Shape): void; Perform(thePI?: Handle_Message_ProgressIndicator): void; SewedShape(): TopoDS_Shape; NbFreeEdges(): Standard_Integer; FreeEdge(index: Standard_Integer): TopoDS_Edge; NbMultipleEdges(): Standard_Integer; MultipleEdge(index: Standard_Integer): TopoDS_Edge; NbContigousEdges(): Standard_Integer; ContigousEdge(index: Standard_Integer): TopoDS_Edge; IsSectionBound(section: TopoDS_Edge): Standard_Boolean; SectionToBoundary(section: TopoDS_Edge): TopoDS_Edge; NbDegeneratedShapes(): Standard_Integer; DegeneratedShape(index: Standard_Integer): TopoDS_Shape; IsDegenerated(shape: TopoDS_Shape): Standard_Boolean; IsModified(shape: TopoDS_Shape): Standard_Boolean; Modified(shape: TopoDS_Shape): TopoDS_Shape; IsModifiedSubShape(shape: TopoDS_Shape): Standard_Boolean; ModifiedSubShape(shape: TopoDS_Shape): TopoDS_Shape; Dump(): void; NbDeletedFaces(): Standard_Integer; DeletedFace(index: Standard_Integer): TopoDS_Face; WhichFace(theEdg: TopoDS_Edge, index?: Standard_Integer): TopoDS_Face; SameParameterMode(): Standard_Boolean; SetSameParameterMode(SameParameterMode: Standard_Boolean): void; Tolerance(): Standard_Real; SetTolerance(theToler: Standard_Real): void; MinTolerance(): Standard_Real; SetMinTolerance(theMinToler: Standard_Real): void; MaxTolerance(): Standard_Real; SetMaxTolerance(theMaxToler: Standard_Real): void; FaceMode(): Standard_Boolean; SetFaceMode(theFaceMode: Standard_Boolean): void; FloatingEdgesMode(): Standard_Boolean; SetFloatingEdgesMode(theFloatingEdgesMode: Standard_Boolean): void; LocalTolerancesMode(): Standard_Boolean; SetLocalTolerancesMode(theLocalTolerancesMode: Standard_Boolean): void; SetNonManifoldMode(theNonManifoldMode: Standard_Boolean): void; NonManifoldMode(): Standard_Boolean; } class TopoDS_Builder { MakeWire(W: TopoDS_Wire): void; MakeCompound(C: TopoDS_Compound): void; Add(S: TopoDS_Shape, C: TopoDS_Shape): void; Remove(S: TopoDS_Shape, C: TopoDS_Shape): void; } class BRep_Builder extends TopoDS_Builder { constructor(); MakeFace(F: TopoDS_Face): void; MakeFace(F: TopoDS_Face, T: Handle_Poly_Triangulation): void; UpdateFace(F: TopoDS_Face, T: Handle_Poly_Triangulation): void; NaturalRestriction(F: TopoDS_Face, N: Standard_Boolean): void; MakeEdge(E: TopoDS_Edge): void; SameParameter(E: TopoDS_Edge, S: Standard_Boolean): void; SameRange(E: TopoDS_Edge, S: Standard_Boolean): void; Degenerated(E: TopoDS_Edge, D: Standard_Boolean): void; Range(E: TopoDS_Edge, First: Standard_Real, Last: Standard_Real, Only3d?: Standard_Boolean): void; Transfert(Ein: TopoDS_Edge, Eout: TopoDS_Edge): void; MakeVertex(V: TopoDS_Vertex): void; MakeVertex(V: TopoDS_Vertex, P: gp_Pnt, Tol: Standard_Real): void; UpdateVertex(V: TopoDS_Vertex, P: gp_Pnt, Tol: Standard_Real): void; UpdateVertex(Ve: TopoDS_Vertex, U: Standard_Real, V: Standard_Real, F: TopoDS_Face, Tol: Standard_Real): void; UpdateVertex(V: TopoDS_Vertex, Tol: Standard_Real): void; Transfert(Ein: TopoDS_Edge, Eout: TopoDS_Edge, Vin: TopoDS_Vertex, Vout: TopoDS_Vertex): void; } class BRepAdaptor_Surface { constructor(); constructor(F: TopoDS_Face, R?: Standard_Boolean); Initialize(F: TopoDS_Face, R?: Standard_Boolean): void; Trsf(): gp_Trsf; Face(): TopoDS_Face; Tolerance(): Standard_Real; FirstUParameter(): Standard_Real; LastUParameter(): Standard_Real; FirstVParameter(): Standard_Real; LastVParameter(): Standard_Real; IsUClosed(): Standard_Boolean; IsVClosed(): Standard_Boolean; IsUPeriodic(): Standard_Boolean; UPeriod(): Standard_Real; IsVPeriodic(): Standard_Boolean; VPeriod(): Standard_Real; Value(U: Standard_Real, V: Standard_Real): gp_Pnt; D0(U: Standard_Real, V: Standard_Real, P: gp_Pnt): void; D1(U: Standard_Real, V: Standard_Real, P: gp_Pnt, D1U: gp_Vec, D1V: gp_Vec): void; D2(U: Standard_Real, V: Standard_Real, P: gp_Pnt, D1U: gp_Vec, D1V: gp_Vec, D2U: gp_Vec, D2V: gp_Vec, D2UV: gp_Vec): void; D3(U: Standard_Real, V: Standard_Real, P: gp_Pnt, D1U: gp_Vec, D1V: gp_Vec, D2U: gp_Vec, D2V: gp_Vec, D2UV: gp_Vec, D3U: gp_Vec, D3V: gp_Vec, D3UUV: gp_Vec, D3UVV: gp_Vec): void; DN(U: Standard_Real, V: Standard_Real, Nu: Standard_Integer, Nv: Standard_Integer): gp_Vec; UResolution(R3d: Standard_Real): Standard_Real; VResolution(R3d: Standard_Real): Standard_Real; GetType(): GeomAbs_SurfaceType; Plane(): gp_Pln; UDegree(): Standard_Integer; NbUPoles(): Standard_Integer; VDegree(): Standard_Integer; NbVPoles(): Standard_Integer; NbUKnots(): Standard_Integer; NbVKnots(): Standard_Integer; IsURational(): Standard_Boolean; IsVRational(): Standard_Boolean; AxeOfRevolution(): gp_Ax1; Direction(): gp_Dir; OffsetValue(): Standard_Real; } class StlAPI_Reader { constructor(); Read(theShape: TopoDS_Shape, theFileName: Standard_CString): Standard_Boolean; } type TopAbs_Orientation = "TopAbs_FORWARD" | "TopAbs_REVERSED" | "TopAbs_INTERNAL" | "TopAbs_EXTERNAL"; type TopAbs_ShapeEnum = "TopAbs_COMPOUND" | "TopAbs_COMPSOLID" | "TopAbs_SOLID" | "TopAbs_SHELL" | "TopAbs_FACE" | "TopAbs_WIRE" | "TopAbs_EDGE" | "TopAbs_VERTEX" | "TopAbs_SHAPE"; type GeomAbs_SurfaceType = "GeomAbs_Plane" | "GeomAbs_Cylinder" | "GeomAbs_Cone" | "GeomAbs_Sphere" | "GeomAbs_Torus" | "GeomAbs_BezierSurface" | "GeomAbs_BSplineSurface" | "GeomAbs_SurfaceOfRevolution" | "GeomAbs_SurfaceOfExtrusion" | "GeomAbs_OffsetSurface" | "GeomAbs_OtherSurface"; class BRepAlgoAPI_Fuse extends BRepAlgoAPI_BooleanOperation { constructor(S1: TopoDS_Shape, S2: TopoDS_Shape); } class BRepAlgoAPI_Cut { constructor(S1: TopoDS_Shape, S2: TopoDS_Shape); } class BRepAlgoAPI_Common extends BRepAlgoAPI_BooleanOperation { constructor(S1: TopoDS_Shape, S2: TopoDS_Shape); } class BRepAlgoAPI_BooleanOperation { } class gp_Lin { constructor(); constructor(A1: gp_Ax1); } class gp_Circ { constructor(); constructor(A2: gp_Ax2, Radius: Standard_Real); Radius(): Standard_Real; Length(): Standard_Real; Area(): Standard_Real; } class gp_Elips { constructor(); constructor(A2: gp_Ax2, MajorRadius: Standard_Real, MinorRadius: Standard_Real); Eccentricity(): Standard_Real; Focal(): Standard_Real; Area(): Standard_Real; MajorRadius(): Standard_Real; MinorRadius(): Standard_Real; } class gp_Hypr { constructor(); constructor(A2: gp_Ax2, MajorRadius: Standard_Real, MinorRadius: Standard_Real); Eccentricity(): Standard_Real; Focal(): Standard_Real; MajorRadius(): Standard_Real; MinorRadius(): Standard_Real; } class gp_Parab { constructor(); constructor(A2: gp_Ax2, Focal: Standard_Real); Focal(): Standard_Real; } class BRepBuilderAPI_MakeEdge { constructor(C: Handle_Geom_Curve); constructor(L: Handle_Geom2d_Curve, S: Handle_Geom_Surface); Edge(): TopoDS_Edge; } class BRepBuilderAPI_MakeWire { constructor(); constructor(E: TopoDS_Edge); constructor(E1: TopoDS_Edge, E2: TopoDS_Edge); constructor(E1: TopoDS_Edge, E2: TopoDS_Edge, E3: TopoDS_Edge); Add(W: TopoDS_Wire): void; Wire(): TopoDS_Wire; } class BRepLib { BuildCurve3d(E: TopoDS_Edge, Tolerance?: Standard_Real, Continuity?: GeomAbs_Shape, MaxDegree?: Standard_Integer, MaxSegment?: Standard_Integer): Standard_Boolean; BuildCurves3d(S: TopoDS_Shape): Standard_Boolean; } class BRepOffsetAPI_ThruSections extends BRepBuilderAPI_MakeShape { constructor(isSolid?: Standard_Boolean, ruled?: Standard_Boolean, pres3d?: Standard_Real); AddWire(wire: TopoDS_Wire): void; CheckCompatibility(check?: Standard_Boolean): void; } class BRepOffsetAPI_MakePipe extends BRepBuilderAPI_MakeShape { constructor(Spine: TopoDS_Wire, Profile: TopoDS_Shape); Build(): void; Generated(SSpine: TopoDS_Shape, SProfile: TopoDS_Shape): TopoDS_Shape; FirstShape(): TopoDS_Shape; LastShape(): TopoDS_Shape; ErrorOnSurface(): Standard_Real; } class BRepOffsetAPI_MakePipeShell { constructor(Spine: TopoDS_Wire); SetMode(AuxiliarySpine: TopoDS_Wire, CurvilinearEquivalence: Standard_Boolean, KeepContact?: BRepFill_TypeOfContact): void; Add(Profile: TopoDS_Shape, WithContact?: Standard_Boolean, WithCorrection?: Standard_Boolean): void; Build(): void; MakeSolid(): Standard_Boolean; Generated(S: TopoDS_Shape): TopTools_ListOfShape; FirstShape(): TopoDS_Shape; LastShape(): TopoDS_Shape; Shape(): TopoDS_Shape; ErrorOnSurface(): Standard_Real; GetStatus(): BRepBuilderAPI_PipeError; IsReady(): Standard_Boolean; } class BRepBuilderAPI_MakeVertex extends BRepBuilderAPI_MakeShape { constructor(P: gp_Pnt); Vertex(): TopoDS_Vertex; } class BRepBuilderAPI_MakePolygon extends BRepBuilderAPI_MakeShape { constructor(); constructor(V1: TopoDS_Vertex, V2: TopoDS_Vertex); constructor(V1: TopoDS_Vertex, V2: TopoDS_Vertex, V3: TopoDS_Vertex, Close: Standard_Boolean); constructor(V1: TopoDS_Vertex, V2: TopoDS_Vertex, V3: TopoDS_Vertex, V4: TopoDS_Vertex, Close: Standard_Boolean); Add(V: TopoDS_Vertex): void; Added(): Standard_Boolean; Close(): void; FirstVertex(): TopoDS_Vertex; LastVertex(): TopoDS_Vertex; IsDone(): Standard_Boolean; Edge(): TopoDS_Edge; Wire(): TopoDS_Wire; } class XSControl_Reader { constructor(); constructor(norm: Standard_CString); constructor(WS: Handle_XSControl_WorkSession, scratch: Standard_Boolean); SetNorm(norm: Standard_CString): Standard_Boolean; SetWS(WS: Handle_XSControl_WorkSession, scratch?: Standard_Boolean): void; WS(): Handle_XSControl_WorkSession; ReadFile(filename: string): IFSelect_ReturnStatus; NbRootsForTransfer(): Standard_Integer; TransferOneRoot(num?: Standard_Integer): Standard_Boolean; TransferOne(num: Standard_Integer): Standard_Boolean; TransferRoots(): Standard_Integer; ClearShapes(): void; NbShapes(): Standard_Integer; Shape(num?: Standard_Integer): TopoDS_Shape; OneShape(): TopoDS_Shape; PrintStatsTransfer(what: Standard_Integer, mode?: Standard_Integer): void; } class STEPControl_Reader extends XSControl_Reader { constructor(); } class IGESControl_Reader extends XSControl_Reader { constructor(); } class TopTools_ListOfShape { constructor(); Append(theItem: TopoDS_Shape): TopoDS_Shape; First(): TopoDS_Shape; Last(): TopoDS_Shape; } class BRepOffsetAPI_MakeOffset extends BRepBuilderAPI_MakeShape { constructor(); constructor(Spine: TopoDS_Wire, Join?: GeomAbs_JoinType, IsOpenResult?: Standard_Boolean); AddWire(Spine: TopoDS_Wire): void; Perform(Offset: Standard_Real, Alt?: Standard_Real): void; Shape(): TopoDS_Shape; } class BRepOffsetAPI_MakeOffsetShape extends BRepBuilderAPI_MakeShape { constructor(); PerformBySimple(theS: TopoDS_Shape, theOffsetValue: Standard_Real): void; PerformByJoin(S: TopoDS_Shape, Offset: Standard_Real, Tol: Standard_Real, Mode?: BRepOffset_Mode, Intersection?: Standard_Boolean, SelfInter?: Standard_Boolean, Join?: GeomAbs_JoinType, RemoveIntEdges?: Standard_Boolean): void; Shape(): TopoDS_Shape; } class BRepOffsetAPI_MakeThickSolid extends BRepOffsetAPI_MakeOffsetShape { constructor(); MakeThickSolidByJoin(S: TopoDS_Shape, ClosingFaces: TopTools_ListOfShape, Offset: Standard_Real, Tol: Standard_Real): void; } class ShapeFix_Face { constructor(); constructor(face: TopoDS_Face); ClearModes(): void; Init(face: TopoDS_Face): void; SetPrecision(preci: Standard_Real): void; SetMinTolerance(mintol: Standard_Real): void; SetMaxTolerance(maxtol: Standard_Real): void; FixWireMode(): Standard_Integer; FixOrientationMode(): Standard_Integer; FixAddNaturalBoundMode(): Standard_Integer; FixMissingSeamMode(): Standard_Integer; FixSmallAreaWireMode(): Standard_Integer; RemoveSmallAreaFaceMode(): Standard_Integer; FixIntersectingWiresMode(): Standard_Integer; FixLoopWiresMode(): Standard_Integer; FixSplitFaceMode(): Standard_Integer; AutoCorrectPrecisionMode(): Standard_Integer; FixPeriodicDegeneratedMode(): Standard_Integer; Face(): TopoDS_Face; Result(): TopoDS_Shape; Add(wire: TopoDS_Wire): void; Perform(): Standard_Boolean; FixOrientation(): Standard_Boolean; FixAddNaturalBound(): Standard_Boolean; FixMissingSeam(): Standard_Boolean; FixSmallAreaWire(theIsRemoveSmallFace: Standard_Boolean): Standard_Boolean; FixIntersectingWires(): Standard_Boolean; FixWiresTwoCoincEdges(): Standard_Boolean; FixPeriodicDegenerated(): Standard_Boolean; } class ShapeFix_Shape { constructor(); constructor(shape: TopoDS_Shape); Init(shape: TopoDS_Shape): void; Perform(theProgress?: Handle_Message_ProgressIndicator): Standard_Boolean; Shape(): TopoDS_Shape; FixShellTool(): Handle_ShapeFix_Shell; Status(status: ShapeExtend_Status): Standard_Boolean; SetPrecision(preci: Standard_Real): void; SetMinTolerance(mintol: Standard_Real): void; SetMaxTolerance(maxtol: Standard_Real): void; FixSolidMode(): Standard_Integer; FixFreeShellMode(): Standard_Integer; FixFreeFaceMode(): Standard_Integer; FixFreeWireMode(): Standard_Integer; FixSameParameterMode(): Standard_Integer; FixVertexPositionMode(): Standard_Integer; FixVertexTolMode(): Standard_Integer; } class TopoDS_Shell extends TopoDS_Shape { constructor(); constructor(T2: TopoDS_Shell); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class ShapeFix_Shell { constructor(); constructor(shape: TopoDS_Shell); Init(shell: TopoDS_Shell): void; Perform(theProgress?: Handle_Message_ProgressIndicator): Standard_Boolean; FixFaceOrientation(shell: TopoDS_Shell, isAccountMultiConex?: Standard_Boolean, NonManifold?: Standard_Boolean): Standard_Boolean; Shell(): TopoDS_Shell; Shape(): TopoDS_Shape; NbShells(): Standard_Integer; ErrorFaces(): TopoDS_Compound; Status(status: ShapeExtend_Status): Standard_Boolean; SetPrecision(preci: Standard_Real): void; SetMinTolerance(mintol: Standard_Real): void; SetMaxTolerance(maxtol: Standard_Real): void; FixFaceMode(): Standard_Integer; FixOrientationMode(): Standard_Integer; SetNonManifoldFlag(isNonManifold: Standard_Boolean): void; } class TopoDS_CompSolid extends TopoDS_Shape { constructor(); constructor(T2: TopoDS_CompSolid); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class TopoDS_Solid extends TopoDS_Shape { constructor(); constructor(T2: TopoDS_Solid); IsNull(): Standard_Boolean; Nullify(): void; Location(): TopLoc_Location; Located(theLoc: TopLoc_Location): TopoDS_Shape; Orientation(): TopAbs_Orientation; Oriented(theOrient: TopAbs_Orientation): TopoDS_Shape; ShapeType(): TopAbs_ShapeEnum; Free(): Standard_Boolean; Locked(): Standard_Boolean; Modified(): Standard_Boolean; Checked(): Standard_Boolean; Orientable(): Standard_Boolean; Closed(): Standard_Boolean; Infinite(): Standard_Boolean; Convex(): Standard_Boolean; Move(thePosition: TopLoc_Location): void; Moved(thePosition: TopLoc_Location): TopoDS_Shape; Reverse(): void; Reversed(): TopoDS_Shape; Complement(): void; Complemented(): TopoDS_Shape; Compose(theOrient: TopAbs_Orientation): void; Composed(theOrient: TopAbs_Orientation): TopoDS_Shape; NbChildren(): Standard_Integer; IsPartner(theOther: TopoDS_Shape): Standard_Boolean; IsSame(theOther: TopoDS_Shape): Standard_Boolean; IsEqual(theOther: TopoDS_Shape): Standard_Boolean; IsNotEqual(theOther: TopoDS_Shape): Standard_Boolean; HashCode(theUpperBound: Standard_Integer): Standard_Integer; EmptyCopy(): void; EmptyCopied(): TopoDS_Shape; } class BRepBuilderAPI_MakeSolid { constructor(); constructor(S: TopoDS_CompSolid); constructor(S1: TopoDS_Shell, S2: TopoDS_Shell); constructor(S1: TopoDS_Shell, S2: TopoDS_Shell, S3: TopoDS_Shell); Add(S: TopoDS_Shell): void; IsDone(): Standard_Boolean; Solid(): TopoDS_Solid; IsDeleted(S: TopoDS_Shape): Standard_Boolean; } class STEPControl_Writer { constructor(); SetTolerance(Tol: Standard_Real): void; UnsetTolerance(): void; Transfer(sh: TopoDS_Shape, mode: STEPControl_StepModelType, compgraph?: Standard_Boolean): IFSelect_ReturnStatus; Write(filename: string): IFSelect_ReturnStatus; PrintStatsTransfer(what: Standard_Integer, mode?: Standard_Integer): void; } class Poly_PolygonOnTriangulation { constructor(Nodes: TColStd_Array1OfInteger); constructor(Nodes: TColStd_Array1OfInteger, Parameters: TColStd_Array1OfReal); Deflection(D: Standard_Real): void; NbNodes(): Standard_Integer; Nodes(): TColStd_Array1OfInteger; HasParameters(): Standard_Boolean; } class BRepBuilderAPI_Copy { constructor(); constructor(S: TopoDS_Shape, copyGeom?: Standard_Boolean, copyMesh?: Standard_Boolean); Perform(S: TopoDS_Shape, copyGeom?: Standard_Boolean, copyMesh?: Standard_Boolean): void; } type STEPControl_StepModelType = "STEPControl_AsIs" | "STEPControl_ManifoldSolidBrep" | "STEPControl_BrepWithVoids" | "STEPControl_FacetedBrep" | "STEPControl_FacetedBrepAndBrepWithVoids" | "STEPControl_ShellBasedSurfaceModel" | "STEPControl_GeometricCurveSet" | "STEPControl_Hybrid"; type BRepOffset_Mode = "BRepOffset_Skin" | "BRepOffset_Pipe" | "BRepOffset_RectoVerso"; type IFSelect_ReturnStatus = "IFSelect_RetVoid" | "IFSelect_RetDone" | "IFSelect_RetError" | "IFSelect_RetFail" | "IFSelect_RetStop"; type GeomAbs_JoinType = "GeomAbs_Arc" | "GeomAbs_Tangent" | "GeomAbs_Intersection"; type GeomAbs_Shape = "GeomAbs_C0" | "GeomAbs_G1" | "GeomAbs_C1" | "GeomAbs_G2" | "GeomAbs_C2" | "GeomAbs_C3" | "GeomAbs_CN"; type ShapeExtend_Status = "ShapeExtend_OK" | "ShapeExtend_DONE1" | "ShapeExtend_DONE2" | "ShapeExtend_DONE3" | "ShapeExtend_DONE4" | "ShapeExtend_DONE5" | "ShapeExtend_DONE6" | "ShapeExtend_DONE7" | "ShapeExtend_DONE8" | "ShapeExtend_DONE" | "ShapeExtend_FAIL1" | "ShapeExtend_FAIL2" | "ShapeExtend_FAIL3" | "ShapeExtend_FAIL4" | "ShapeExtend_FAIL5" | "ShapeExtend_FAIL6" | "ShapeExtend_FAIL7" | "ShapeExtend_FAIL8" | "ShapeExtend_FAIL"; type BRepBuilderAPI_PipeError = "BRepBuilderAPI_PipeDone" | "BRepBuilderAPI_PipeNotDone" | "BRepBuilderAPI_PlaneNotIntersectGuide" | "BRepBuilderAPI_ImpossibleContact"; type BRepFill_TypeOfContact = "BRepFill_NoContact" | "BRepFill_Contact" | "BRepFill_ContactOnBorder"; type BRepBuilderAPI_FaceError = "BRepBuilderAPI_FaceDone" | "BRepBuilderAPI_NoFace" | "BRepBuilderAPI_NotPlanar" | "BRepBuilderAPI_CurveProjectionFailed" | "BRepBuilderAPI_ParametersOutOfRange"; type ChFi2d_ConstructionError = "ChFi2d_NotPlanar" | "ChFi2d_NoFace" | "ChFi2d_InitialisationError" | "ChFi2d_ParametersError" | "ChFi2d_Ready" | "ChFi2d_IsDone" | "ChFi2d_ComputationError" | "ChFi2d_ConnexionError" | "ChFi2d_TangencyError" | "ChFi2d_FirstEdgeDegenerated" | "ChFi2d_LastEdgeDegenerated" | "ChFi2d_BothEdgesDegenerated" | "ChFi2d_NotAuthorized"; }