-- File: BRepLib.cdl -- Created: Wed Dec 15 15:34:04 1993 -- Author: Remi LEQUETTE -- ---Copyright: Matra Datavision 1993 package BRepLib ---Purpose: The BRepLib package provides general utilities for -- BRep. -- -- * FindSurface : Class to compute a surface through -- a set of edges. -- -- * Compute missing 3d curve on an edge. uses Standard, StdFail, gp, Geom, GeomAbs, Geom2d, TopoDS, TopLoc, TopTools, TopAbs is enumeration EdgeError is ---Purpose: Errors that can occur at edge construction. EdgeDone, -- no error PointProjectionFailed, ParameterOutOfRange, DifferentPointsOnClosedCurve, PointWithInfiniteParameter, DifferentsPointAndParameter, LineThroughIdenticPoints end EdgeError; enumeration WireError is ---Purpose: Errors that can occur at wire construction. WireDone, -- no error EmptyWire, DisconnectedWire, NonManifoldWire end WireError; enumeration FaceError is ---Purpose: Errors that can occur at face construction. FaceDone, -- no error NoFace, -- not initialised NotPlanar, CurveProjectionFailed, ParametersOutOfRange end FaceError; enumeration ShellError is ---Purpose: Errors that can occur at shell construction. ShellDone, -- no error EmptyShell, DisconnectedShell, ShellParametersOutOfRange end ShellError; enumeration ShapeModification is ---Purpose: Modification type after a topologic operation. Preserved, -- no modification Deleted, Trimmed, Merged, BoundaryModified end ShapeModification; deferred class Command; ---Purpose: Root class for all BRepBuilderAPI commands. deferred class MakeShape; ---Purpose: Root class for all shape constructions. -- -- Construction of topology from geometry -- class MakeVertex; class MakeEdge; class MakeEdge2d; class MakePolygon; class MakeFace; -- -- Construction of composite topologies -- class MakeWire; class MakeShell; class MakeSolid; --- END of API commands. class FindSurface; ---Purpose: Find a surface in a set of edges. class FuseEdges; ---Purpose: -- -- Default precison methods. -- The default precision is initialized with Precision::Confusion() -- Precision(P : Real); ---Purpose: Sets the default precision. The current Precision -- is returned. ---Level: Public Precision returns Real; ---Purpose: Returns the default precision. ---Level: Public -- -- Default plane for 2d edges. -- Plane(P : Plane from Geom); ---Purpose: Sets the current plane to P. ---Level: Public Plane returns Plane from Geom; ---Purpose: Returns the current plane. -- ---C++: return const & ---Level: Public CheckSameRange(E : Edge from TopoDS ; Confusion : Real from Standard = 1.0e-12) returns Boolean; ---Purpose: checks if the Edge is same range IGNORING -- the same range flag of the edge -- Confusion argument is to compare real numbers -- idenpendently of any model space tolerance -- SameRange(E : Edge from TopoDS ; Tolerance : Real from Standard = 1.0e-5) ; ---Purpose: will make all the curve representation have -- the same range domain for the parameters. -- This will IGNORE the same range flag value -- to proceed. -- If there is a 3D curve there it will the -- range of that curve. If not the first curve representation -- encountered in the list will give its range to -- the all the other curves. BuildCurve3d(E : Edge from TopoDS ; Tolerance : Real from Standard = 1.0e-5 ; Continuity : Shape from GeomAbs = GeomAbs_C1; MaxDegree : Integer = 14; MaxSegment : Integer = 0 --30 ) returns Boolean; ---Purpose: Computes the 3d curve for the edge if it does -- not exist. Returns True if the curve was computed -- or existed. Returns False if there is no planar -- pcurve. -- >= 30 in approximation BuildCurves3d(S : Shape from TopoDS ; Tolerance : Real from Standard; Continuity : Shape from GeomAbs = GeomAbs_C1; MaxDegree : Integer = 14; MaxSegment : Integer = 0 --30 ) returns Boolean; ---Purpose: Computes the 3d curves for all the edges of -- return False if one of the computation failed. -- >= 30 in approximation BuildCurves3d(S : Shape from TopoDS) returns Boolean; ---Purpose: Computes the 3d curves for all the edges of -- return False if one of the computation failed. -- -- UpdateEdgeTol( E : Edge from TopoDS ; MinToleranceRequest : Real from Standard ; MaxToleranceToCheck : Real from Standard) ---Purpose: Checks if the edge has a Tolerance smaller than -- -- -- -- -- MaxToleranceToCheck if so it will compute the -- radius of -- the cylindrical pipe surface that -- MinToleranceRequest is the minimum tolerance before it -- is usefull to start testing. Usually it should be arround -- 10e-5 -- contains all -- the curve represenation of the edge -- returns True if the Edge tolerance had to be updated returns Boolean ; UpdateEdgeTolerance(S : Shape from TopoDS; MinToleranceRequest : Real from Standard ; MaxToleranceToCheck : Real from Standard) ---Purpose: -- Checks all the edges of the shape whose -- -- -- -- Tolerance is smaller than MaxToleranceToCheck -- -- Returns True if at least one edge was updated -- -- MinToleranceRequest is the minimum tolerance before -- -- it -- is usefull to start testing. Usually it -- should be arround -- 10e-5-- -- -- Warning :The method is very slow as it checks all. -- Use only in interfaces or processing assimilate batch -- returns Boolean ; SameParameter(E: Edge from TopoDS; Tolerance : Real from Standard = 1.0e-5); ---Purpose: Computes new 2d curve(s) for the edge to have -- the same parameter as the 3d curve. -- The algorithm is not done if the flag SameParameter -- was True on the Edge. SameParameter(S: Shape from TopoDS ; Tolerance : Real from Standard = 1.0e-5; forced : Boolean from Standard = Standard_False); ---Purpose: Computes new 2d curve(s) for all the edges of -- to have the same parameter as the 3d curve. -- The algorithm is not done if the flag SameParameter -- was True on an Edge. UpdateTolerances(S: Shape from TopoDS; verifyFaceTolerance : Boolean from Standard = Standard_False); ---Purpose: Replaces tolerance of FACE EDGE VERTEX by the -- tolerance Max of their connected handling shapes. -- It is not necessary to use this call after -- SameParameter. (called in) OrientClosedSolid(solid : in out Solid from TopoDS) ---Purpose: Orients the solid forward and the shell with the -- orientation to have matter in the solid. Returns -- False if the solid is unOrientable (open or incoherent) returns Boolean; EncodeRegularity(S : Shape from TopoDS; TolAng : Real from Standard = 1.0e-10); ---Purpose: Encodes the Regularity of edges on a Shape. -- Warning: is an angular tolerance, expressed in Rad. -- Warning: If the edges's regularity are coded before, nothing -- is done. EncodeRegularity(S : in out Edge from TopoDS; F1, F2 : Face from TopoDS; TolAng : Real from Standard = 1.0e-10); ---Purpose: Encodes the Regularity beetween and by -- Warning: is an angular tolerance, expressed in Rad. -- Warning: If the edge's regularity is coded before, nothing -- is done. SortFaces (S : Shape from TopoDS; LF : in out ListOfShape from TopTools); ---Purpose: Sorts in LF the Faces of S on the complexity of -- their surfaces -- (Plane,Cylinder,Cone,Sphere,Torus,other) ReverseSortFaces (S : Shape from TopoDS; LF : in out ListOfShape from TopTools); ---Purpose: Sorts in LF the Faces of S on the reverse -- complexity of their surfaces -- (other,Torus,Sphere,Cone,Cylinder,Plane) end BRepLib;