Open CASCADE Technology
7.6.0
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The class contains handy static functions dealing with the topology This is the copy of the BOPTools_AlgoTools2D.cdl. More...
#include <BOPTools_AlgoTools2D.hxx>
Static Public Member Functions | |
static void | BuildPCurveForEdgeOnFace (const TopoDS_Edge &aE, const TopoDS_Face &aF, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Compute P-Curve for the edge <aE> on the face <aF>. Raises exception Standard_ConstructionError if projection algorithm fails. <theContext> - storage for caching the geometrical tools. More... | |
static Standard_Boolean | EdgeTangent (const TopoDS_Edge &anE, const Standard_Real aT, gp_Vec &Tau) |
Compute tangent for the edge <aE> [in 3D] at parameter <aT> More... | |
static void | PointOnSurface (const TopoDS_Edge &aE, const TopoDS_Face &aF, const Standard_Real aT, Standard_Real &U, Standard_Real &V, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Compute surface parameters <U,V> of the face <aF> for the point from the edge <aE> at parameter <aT>. If <aE> has't pcurve on surface, algorithm tries to get it by projection and can raise exception Standard_ConstructionError if projection algorithm fails. <theContext> - storage for caching the geometrical tools. More... | |
static void | CurveOnSurface (const TopoDS_Edge &aE, const TopoDS_Face &aF, Handle< Geom2d_Curve > &aC, Standard_Real &aToler, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Get P-Curve <aC> for the edge <aE> on surface <aF> . If the P-Curve does not exist, build it using Make2D(). [aToler] - reached tolerance Raises exception Standard_ConstructionError if algorithm Make2D() fails. <theContext> - storage for caching the geometrical tools. More... | |
static void | CurveOnSurface (const TopoDS_Edge &aE, const TopoDS_Face &aF, Handle< Geom2d_Curve > &aC, Standard_Real &aFirst, Standard_Real &aLast, Standard_Real &aToler, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Get P-Curve <aC> for the edge <aE> on surface <aF> . If the P-Curve does not exist, build it using Make2D(). [aFirst, aLast] - range of the P-Curve [aToler] - reached tolerance Raises exception Standard_ConstructionError if algorithm Make2D() fails. <theContext> - storage for caching the geometrical tools. More... | |
static Standard_Boolean | HasCurveOnSurface (const TopoDS_Edge &aE, const TopoDS_Face &aF, Handle< Geom2d_Curve > &aC, Standard_Real &aFirst, Standard_Real &aLast, Standard_Real &aToler) |
Returns TRUE if the edge <aE> has P-Curve <aC> on surface <aF> . [aFirst, aLast] - range of the P-Curve [aToler] - reached tolerance If the P-Curve does not exist, aC.IsNull()=TRUE. More... | |
static Standard_Boolean | HasCurveOnSurface (const TopoDS_Edge &aE, const TopoDS_Face &aF) |
Returns TRUE if the edge <aE> has P-Curve <aC> on surface <aF> . If the P-Curve does not exist, aC.IsNull()=TRUE. More... | |
static void | AdjustPCurveOnFace (const TopoDS_Face &theF, const Handle< Geom_Curve > &theC3D, const Handle< Geom2d_Curve > &theC2D, Handle< Geom2d_Curve > &theC2DA, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Adjust P-Curve <theC2D> (3D-curve <theC3D>) on surface of the face <theF>. <theContext> - storage for caching the geometrical tools. More... | |
static void | AdjustPCurveOnFace (const TopoDS_Face &theF, const Standard_Real theFirst, const Standard_Real theLast, const Handle< Geom2d_Curve > &theC2D, Handle< Geom2d_Curve > &theC2DA, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Adjust P-Curve <aC2D> (3D-curve <C3D>) on surface <aF> . [aT1, aT2] - range to adjust <theContext> - storage for caching the geometrical tools. More... | |
static void | AdjustPCurveOnSurf (const BRepAdaptor_Surface &aF, const Standard_Real aT1, const Standard_Real aT2, const Handle< Geom2d_Curve > &aC2D, Handle< Geom2d_Curve > &aC2DA) |
Adjust P-Curve <aC2D> (3D-curve <C3D>) on surface <aF> . [aT1, aT2] - range to adjust. More... | |
static Standard_Real | IntermediatePoint (const Standard_Real aFirst, const Standard_Real aLast) |
Compute intermediate value in between [aFirst, aLast] . More... | |
static Standard_Real | IntermediatePoint (const TopoDS_Edge &anE) |
Compute intermediate value of parameter for the edge <anE>. More... | |
static void | Make2D (const TopoDS_Edge &aE, const TopoDS_Face &aF, Handle< Geom2d_Curve > &aC, Standard_Real &aFirst, Standard_Real &aLast, Standard_Real &aToler, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Make P-Curve <aC> for the edge <aE> on surface <aF> . [aFirst, aLast] - range of the P-Curve [aToler] - reached tolerance Raises exception Standard_ConstructionError if algorithm fails. <theContext> - storage for caching the geometrical tools. More... | |
static void | MakePCurveOnFace (const TopoDS_Face &aF, const Handle< Geom_Curve > &C3D, Handle< Geom2d_Curve > &aC, Standard_Real &aToler, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Make P-Curve <aC> for the 3D-curve <C3D> on surface <aF> . [aToler] - reached tolerance Raises exception Standard_ConstructionError if projection algorithm fails. <theContext> - storage for caching the geometrical tools. More... | |
static void | MakePCurveOnFace (const TopoDS_Face &aF, const Handle< Geom_Curve > &C3D, const Standard_Real aT1, const Standard_Real aT2, Handle< Geom2d_Curve > &aC, Standard_Real &aToler, const Handle< IntTools_Context > &theContext=Handle< IntTools_Context >()) |
Make P-Curve <aC> for the 3D-curve <C3D> on surface <aF> . [aT1, aT2] - range to build [aToler] - reached tolerance Raises exception Standard_ConstructionError if projection algorithm fails. <theContext> - storage for caching the geometrical tools. More... | |
static Standard_Integer | AttachExistingPCurve (const TopoDS_Edge &aEold, const TopoDS_Edge &aEnew, const TopoDS_Face &aF, const Handle< IntTools_Context > &aCtx) |
Attach P-Curve from the edge <aEold> on surface <aF> to the edge <aEnew> Returns 0 in case of success. More... | |
static void | IsEdgeIsoline (const TopoDS_Edge &theE, const TopoDS_Face &theF, Standard_Boolean &isTheUIso, Standard_Boolean &isTheVIso) |
Checks if CurveOnSurface of theE on theF matches with isoline of theF surface. Sets corresponding values for isTheUIso and isTheVIso variables. More... | |
The class contains handy static functions dealing with the topology This is the copy of the BOPTools_AlgoTools2D.cdl.
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Adjust P-Curve <theC2D> (3D-curve <theC3D>) on surface of the face <theF>.
<theContext> - storage for caching the geometrical tools.
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Adjust P-Curve <aC2D> (3D-curve <C3D>) on surface <aF> .
[aT1, aT2] - range to adjust
<theContext> - storage for caching the geometrical tools.
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Adjust P-Curve <aC2D> (3D-curve <C3D>) on surface <aF> . [aT1, aT2] - range to adjust.
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Attach P-Curve from the edge <aEold> on surface <aF> to the edge <aEnew> Returns 0 in case of success.
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Compute P-Curve for the edge <aE> on the face <aF>.
Raises exception Standard_ConstructionError if projection algorithm fails.
<theContext> - storage for caching the geometrical tools.
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Get P-Curve <aC> for the edge <aE> on surface <aF> .
If the P-Curve does not exist, build it using Make2D().
[aFirst, aLast] - range of the P-Curve
[aToler] - reached tolerance
Raises exception Standard_ConstructionError if algorithm Make2D() fails.
<theContext> - storage for caching the geometrical tools.
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Compute tangent for the edge <aE> [in 3D] at parameter <aT>
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Returns TRUE if the edge <aE> has P-Curve <aC> on surface <aF> . If the P-Curve does not exist, aC.IsNull()=TRUE.
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Returns TRUE if the edge <aE> has P-Curve <aC> on surface <aF> . [aFirst, aLast] - range of the P-Curve [aToler] - reached tolerance If the P-Curve does not exist, aC.IsNull()=TRUE.
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Compute intermediate value in between [aFirst, aLast] .
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Compute intermediate value of parameter for the edge <anE>.
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Checks if CurveOnSurface of theE on theF matches with isoline of theF surface. Sets corresponding values for isTheUIso and isTheVIso variables.
ATTENTION!!! This method is based on the comparison between direction of surface (which theF is based on) iso-lines and the direction of the edge p-curve (on theF) in middle-point of the p-curve.
This method should be used carefully (e.g. BRep_Tool::IsClosed(...) together) in order to avoid false classification some p-curves as isoline (e.g. circle on a plane).
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Make P-Curve <aC> for the edge <aE> on surface <aF> .
[aFirst, aLast] - range of the P-Curve
[aToler] - reached tolerance
Raises exception Standard_ConstructionError if algorithm fails.
<theContext> - storage for caching the geometrical tools.
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Make P-Curve <aC> for the 3D-curve <C3D> on surface <aF> .
[aT1, aT2] - range to build
[aToler] - reached tolerance
Raises exception Standard_ConstructionError if projection algorithm fails.
<theContext> - storage for caching the geometrical tools.
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Make P-Curve <aC> for the 3D-curve <C3D> on surface <aF> .
[aToler] - reached tolerance
Raises exception Standard_ConstructionError if projection algorithm fails.
<theContext> - storage for caching the geometrical tools.
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Compute surface parameters <U,V> of the face <aF> for the point from the edge <aE> at parameter <aT>.
If <aE> has't pcurve on surface, algorithm tries to get it by projection and can raise exception Standard_ConstructionError if projection algorithm fails.
<theContext> - storage for caching the geometrical tools.