// Copyright (C) 2007-2024 CEA, EDF, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // File: GEOMAlgo_SurfaceTools.cxx // Created: Thu Jan 27 11:05:16 2005 // Author: Peter KURNEV // // #include #include #include #include #include #include #include #include #include #include #include #include #include #include //======================================================================= //function : GetState //purpose : //======================================================================= Standard_Integer GEOMAlgo_SurfaceTools::GetState (const gp_Pnt& aP, const GeomAdaptor_Surface& aGAS, const Standard_Real aTol, TopAbs_State& aState) { Standard_Integer iErr = 0; GeomAbs_SurfaceType aType = aGAS.GetType(); IntSurf_Quadric aQuad; // aState = TopAbs_UNKNOWN; // switch (aType) { case GeomAbs_Plane: aQuad.SetValue(aGAS.Plane()); break; case GeomAbs_Cylinder: aQuad.SetValue(aGAS.Cylinder()); break; case GeomAbs_Sphere: aQuad.SetValue(aGAS.Sphere()); break; default: iErr=1; // unprocessed surface type break; } // if (!iErr) { const Standard_Real aDp = aQuad.Distance(aP); // aState = TopAbs_ON; // if (aDp > aTol) { aState = TopAbs_OUT; } else if (aDp < -aTol) { aState = TopAbs_IN; } } // return iErr; } //======================================================================= //function : GetState //purpose : //======================================================================= Standard_Integer GEOMAlgo_SurfaceTools::GetState (const gp_Pnt& aP, const Handle(Geom_Surface)& aSurf, const Standard_Real aTol, TopAbs_State& aState) { Standard_Integer iErr; GeomAdaptor_Surface aGAS; // aState=TopAbs_UNKNOWN; aGAS.Load(aSurf); // iErr=GEOMAlgo_SurfaceTools::GetState(aP, aGAS, aTol, aState); // return iErr; } //======================================================================= //function : ReverseState //purpose : //======================================================================= TopAbs_State GEOMAlgo_SurfaceTools::ReverseState (const TopAbs_State aState) { TopAbs_State aRSt=aState; // switch (aState) { case TopAbs_IN: aRSt=TopAbs_OUT; break; case TopAbs_OUT: aRSt=TopAbs_IN; break; default: break; } // return aRSt; } //======================================================================= //function : IsCoaxial //purpose : //======================================================================= Standard_Boolean GEOMAlgo_SurfaceTools::IsCoaxial (const gp_Pnt& aP1, const gp_Pnt& aP2, const gp_Cylinder& aCyl, const Standard_Real aTol) { const gp_XYZ &aLoc = aCyl.Location().XYZ(); const gp_Ax1 &aAxis = aCyl.Axis(); const gp_XYZ &aDAxis = aAxis.Direction().XYZ(); gp_XYZ aDP1 = aP1.XYZ().Subtracted(aLoc); gp_XYZ aDP2 = aP2.XYZ().Subtracted(aLoc); Standard_Real aDot1 = aDP1.Dot(aDAxis); Standard_Real aDot2 = aDP1.Dot(aDAxis); //Standard_Real aTol2 = aTol*aTol; // Project P1 and P2 onto a plane with location aLoc and Norm aDAxis. aDP1.Subtract(aDAxis.Multiplied(aDot1)); aDP2.Subtract(aDAxis.Multiplied(aDot2)); Standard_Real aRadius1 = aDP1.Modulus(); Standard_Real aRadius2 = aDP2.Modulus(); Standard_Boolean isOn = Standard_False; if (fabs(aRadius1 - aRadius2) <= aTol) { // Check the deflection of the middle point. //gp_XYZ aMidP = 0.5*(aDP1 + aDP2); //Standard_Real aMidRadius1 = aMidP.Modulus(); if (fabs(aRadius1 - aRadius2) <= aTol) { isOn = Standard_True; } } return isOn; } //======================================================================= //function : IsAnalytic //purpose : //======================================================================= Standard_Boolean GEOMAlgo_SurfaceTools::IsAnalytic (const Handle(Geom_Surface)& aSurf) { Standard_Boolean bRet; GeomAbs_SurfaceType aType; GeomAdaptor_Surface aGAS; // aGAS.Load(aSurf); aType=aGAS.GetType(); bRet=(aType==GeomAbs_Plane || aType==GeomAbs_Cylinder || aType==GeomAbs_Sphere); return bRet; } //======================================================================= //function : IsConformState //purpose : //======================================================================= Standard_Boolean GEOMAlgo_SurfaceTools::IsConformState (const TopAbs_State aST1, const GEOMAlgo_State aST2) { Standard_Boolean bRet=Standard_False; // switch (aST2) { case GEOMAlgo_ST_IN: if (aST1==TopAbs_IN) { bRet=!bRet; } break; case GEOMAlgo_ST_OUT: if (aST1==TopAbs_OUT) { bRet=!bRet; } break; case GEOMAlgo_ST_ON: if (aST1==TopAbs_ON) { bRet=!bRet; } break; case GEOMAlgo_ST_ONIN: if (aST1==TopAbs_ON || aST1==TopAbs_IN) { bRet=!bRet; } break; case GEOMAlgo_ST_ONOUT: if (aST1==TopAbs_ON || aST1==TopAbs_OUT) { bRet=!bRet; } break; default: break; } return bRet; }