This class provides an interface for selecting volume manager, which is responsible for all overlap detection methods and calculation of minimum depth, distance to center of geometry and detected closest point on entity.
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| | SelectBasics_SelectingVolumeManager () |
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| virtual | ~SelectBasics_SelectingVolumeManager () |
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| virtual Standard_Integer | GetActiveSelectionType () const =0 |
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| virtual Standard_Boolean | Overlaps (const NCollection_Vec3< Standard_Real > &theBoxMin, const NCollection_Vec3< Standard_Real > &theBoxMax, SelectBasics_PickResult &thePickResult) const =0 |
| | Returns true if selecting volume is overlapped by box theBox. More...
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| virtual Standard_Boolean | Overlaps (const NCollection_Vec3< Standard_Real > &theBoxMin, const NCollection_Vec3< Standard_Real > &theBoxMax, Standard_Boolean *theInside=NULL) const =0 |
| | Returns true if selecting volume is overlapped by axis-aligned bounding box with minimum corner at point theMinPt and maximum at point theMaxPt. More...
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| virtual Standard_Boolean | Overlaps (const gp_Pnt &thePnt, SelectBasics_PickResult &thePickResult) const =0 |
| | Returns true if selecting volume is overlapped by point thePnt. More...
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| virtual Standard_Boolean | Overlaps (const gp_Pnt &thePnt) const =0 |
| | Returns true if selecting volume is overlapped by point thePnt. Does not perform depth calculation, so this method is defined as helper function for inclusion test. More...
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| virtual Standard_Boolean | Overlaps (const Handle< TColgp_HArray1OfPnt > &theArrayOfPts, Standard_Integer theSensType, SelectBasics_PickResult &thePickResult) const =0 |
| | Returns true if selecting volume is overlapped by planar convex polygon, which points are stored in theArrayOfPts, taking into account sensitivity type theSensType. More...
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| virtual Standard_Boolean | Overlaps (const TColgp_Array1OfPnt &theArrayOfPts, Standard_Integer theSensType, SelectBasics_PickResult &thePickResult) const =0 |
| | Returns true if selecting volume is overlapped by planar convex polygon, which points are stored in theArrayOfPts, taking into account sensitivity type theSensType. More...
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| virtual Standard_Boolean | Overlaps (const gp_Pnt &thePt1, const gp_Pnt &thePt2, SelectBasics_PickResult &thePickResult) const =0 |
| | Returns true if selecting volume is overlapped by line segment with start point at thePt1 and end point at thePt2. More...
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| virtual Standard_Boolean | Overlaps (const gp_Pnt &thePt1, const gp_Pnt &thePt2, const gp_Pnt &thePt3, Standard_Integer theSensType, SelectBasics_PickResult &thePickResult) const =0 |
| | Returns true if selecting volume is overlapped by triangle with vertices thePt1, thePt2 and thePt3, taking into account sensitivity type theSensType. More...
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| virtual Standard_Real | DistToGeometryCenter (const gp_Pnt &theCOG) const =0 |
| | Calculates distance from 3d projection of user-defined selection point to the given point theCOG. More...
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| virtual gp_Pnt | DetectedPoint (const Standard_Real theDepth) const =0 |
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| virtual Standard_Boolean | IsOverlapAllowed () const =0 |
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| virtual gp_Pnt | GetNearPickedPnt () const =0 |
| | Valid only for point and rectangular selection. Returns projection of 2d mouse picked point or projection of center of 2d rectangle (for point and rectangular selection correspondingly) onto near view frustum plane. More...
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| virtual gp_Pnt | GetFarPickedPnt () const =0 |
| | Valid only for point and rectangular selection. Returns projection of 2d mouse picked point or projection of center of 2d rectangle (for point and rectangular selection correspondingly) onto far view frustum plane. More...
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| virtual gp_Pnt2d | GetMousePosition () const =0 |
| | Return mouse coordinates for Point selection mode. More...
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| virtual void | GetPlanes (NCollection_Vector< NCollection_Vec4< Standard_Real > > &thePlaneEquations) const =0 |
| | Stores plane equation coefficients (in the following form: Ax + By + Cz + D = 0) to the given vector. More...
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This class provides an interface for selecting volume manager, which is responsible for all overlap detection methods and calculation of minimum depth, distance to center of geometry and detected closest point on entity.
