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Fix failure of HEXOTIC/doc/salome/examples/hexoticdemo.py
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@ -58,9 +58,10 @@ namespace SMESHUtils
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const double& theSize,
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std::vector<ControlPnt>& thePoints );
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std::vector<gp_Pnt> computePointsForSplitting( const gp_Pnt& p1,
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const gp_Pnt& p2,
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const gp_Pnt& p3 );
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void computePointsForSplitting( const gp_Pnt& p1,
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const gp_Pnt& p2,
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const gp_Pnt& p3,
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gp_Pnt midPoints[3]);
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gp_Pnt tangencyPoint(const gp_Pnt& p1,
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const gp_Pnt& p2,
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const gp_Pnt& Center);
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@ -164,8 +165,7 @@ void SMESHUtils::createPointsSampleFromFace( const TopoDS_Face& theFace,
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// Get triangles
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int nbTriangles = aTri->NbTriangles();
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Poly_Array1OfTriangle triangles(1,nbTriangles);
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triangles=aTri->Triangles();
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const Poly_Array1OfTriangle& triangles = aTri->Triangles();
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// GetNodes
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int nbNodes = aTri->NbNodes();
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@ -173,9 +173,10 @@ void SMESHUtils::createPointsSampleFromFace( const TopoDS_Face& theFace,
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nodes = aTri->Nodes();
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// Iterate on triangles and subdivide them
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for(int i=1; i<=nbTriangles; i++)
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thePoints.reserve( thePoints.size() + nbTriangles );
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for ( int i = 1; i <= nbTriangles; i++ )
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{
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Poly_Triangle aTriangle = triangles.Value(i);
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const Poly_Triangle& aTriangle = triangles.Value(i);
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gp_Pnt p1 = nodes.Value(aTriangle.Value(1));
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gp_Pnt p2 = nodes.Value(aTriangle.Value(2));
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gp_Pnt p3 = nodes.Value(aTriangle.Value(3));
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@ -184,7 +185,7 @@ void SMESHUtils::createPointsSampleFromFace( const TopoDS_Face& theFace,
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p2.Transform(aTrsf);
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p3.Transform(aTrsf);
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subdivideTriangle(p1, p2, p3, theSize, thePoints);
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subdivideTriangle( p1, p2, p3, theSize, thePoints );
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}
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}
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@ -221,10 +222,8 @@ void SMESHUtils::createPointsSampleFromSolid( const TopoDS_Solid& theSolid,
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// Step2 : for each face of theSolid:
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std::set<double> intersections;
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std::set<double>::iterator it = intersections.begin();
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TopExp_Explorer Ex;
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for (Ex.Init(theSolid,TopAbs_FACE); Ex.More(); Ex.Next())
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for ( TopExp_Explorer Ex( theSolid, TopAbs_FACE ); Ex.More(); Ex.Next() )
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{
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// check if there is an intersection
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IntCurvesFace_Intersector anIntersector(TopoDS::Face(Ex.Current()), Precision::Confusion());
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@ -232,13 +231,13 @@ void SMESHUtils::createPointsSampleFromSolid( const TopoDS_Solid& theSolid,
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// get the intersection's parameter and store it
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int nbPoints = anIntersector.NbPnt();
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for(int i = 0 ; i < nbPoints ; i++ )
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for ( int i = 0 ; i < nbPoints; i++ )
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{
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it = intersections.insert( it, anIntersector.WParameter(i+1) );
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intersections.insert( anIntersector.WParameter(i+1) );
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}
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}
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// Step3 : go through the line chunk by chunk
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if ( intersections.begin() != intersections.end() )
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if ( intersections.size() > 1 )
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{
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std::set<double>::iterator intersectionsIterator=intersections.begin();
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double first = *intersectionsIterator;
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@ -254,9 +253,9 @@ void SMESHUtils::createPointsSampleFromSolid( const TopoDS_Solid& theSolid,
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double localStep = (second -first) / ceil( (second - first) / step );
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for ( double z = Zmin + first; z < Zmin + second; z = z + localStep )
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{
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thePoints.push_back(ControlPnt( x, y, z, theSize ));
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thePoints.emplace_back( x, y, z, theSize );
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}
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thePoints.push_back(ControlPnt( x, y, Zmin + second, theSize ));
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thePoints.emplace_back( x, y, Zmin + second, theSize );
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}
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first = second;
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innerPoints = !innerPoints;
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@ -288,45 +287,45 @@ void SMESHUtils::subdivideTriangle( const gp_Pnt& p1,
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// and the distance between two mass centers of two neighbouring triangles
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// sharing an edge is < 2 * 1/2 * S = S
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// If the traingles share a Vertex and no Edge the distance of the mass centers
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// to the Vertices is 2*D < S so the mass centers are distant of less than 2*S
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// to the Vertices is 2*D < S so the mass centers are distant of less than 2*S
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double threshold = sqrt( 3. ) * theSize;
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if ( (p1.Distance(p2) > threshold ||
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p2.Distance(p3) > threshold ||
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p3.Distance(p1) > threshold))
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{
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std::vector<gp_Pnt> midPoints = computePointsForSplitting(p1, p2, p3);
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if ( p1.Distance(p2) > threshold ||
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p2.Distance(p3) > threshold ||
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p3.Distance(p1) > threshold )
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try
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{
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gp_Pnt midPoints[3];
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computePointsForSplitting( p1, p2, p3, midPoints );
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subdivideTriangle( midPoints[0], midPoints[1], midPoints[2], theSize, thePoints );
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subdivideTriangle( midPoints[0], p2, midPoints[1], theSize, thePoints );
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subdivideTriangle( midPoints[2], midPoints[1], p3, theSize, thePoints );
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subdivideTriangle( p1, midPoints[0], midPoints[2], theSize, thePoints );
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}
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else
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{
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double x = (p1.X() + p2.X() + p3.X()) / 3 ;
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double y = (p1.Y() + p2.Y() + p3.Y()) / 3 ;
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double z = (p1.Z() + p2.Z() + p3.Z()) / 3 ;
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subdivideTriangle( midPoints[0], midPoints[1], midPoints[2], theSize, thePoints );
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subdivideTriangle( midPoints[0], p2, midPoints[1], theSize, thePoints );
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subdivideTriangle( midPoints[2], midPoints[1], p3, theSize, thePoints );
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subdivideTriangle( p1, midPoints[0], midPoints[2], theSize, thePoints );
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return;
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}
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catch (...)
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{
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}
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ControlPnt massCenter( x ,y ,z, theSize );
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thePoints.push_back( massCenter );
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}
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gp_Pnt massCenter = ( p1.XYZ() + p2.XYZ() + p3.XYZ() ) / 3.;
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thePoints.emplace_back( massCenter, theSize );
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}
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//================================================================================
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/*!
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* \brief Returns the appropriate points for splitting a triangle
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* \brief the tangency points of the incircle are used in order to have mostly
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* \brief well-shaped sub-triangles
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* the tangency points of the incircle are used in order to have mostly
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* well-shaped sub-triangles
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*/
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//================================================================================
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std::vector<gp_Pnt> SMESHUtils::computePointsForSplitting( const gp_Pnt& p1,
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const gp_Pnt& p2,
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const gp_Pnt& p3 )
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void SMESHUtils::computePointsForSplitting( const gp_Pnt& p1,
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const gp_Pnt& p2,
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const gp_Pnt& p3,
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gp_Pnt midPoints[3])
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{
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std::vector<gp_Pnt> midPoints;
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//Change coordinates
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gp_Trsf Trsf_1; // Identity transformation
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gp_Ax3 reference_system(gp::Origin(), gp::DZ(), gp::DX()); // OXY
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@ -359,15 +358,11 @@ std::vector<gp_Pnt> SMESHUtils::computePointsForSplitting( const gp_Pnt& p1,
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gp_Pnt T2 = tangencyPoint( B, C, Center);
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gp_Pnt T3 = tangencyPoint( C, A, Center);
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gp_Pnt p1_2 = T1.Transformed(Trsf_1.Inverted());
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gp_Pnt p2_3 = T2.Transformed(Trsf_1.Inverted());
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gp_Pnt p3_1 = T3.Transformed(Trsf_1.Inverted());
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midPoints[0] = T1.Transformed(Trsf_1.Inverted());
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midPoints[1] = T2.Transformed(Trsf_1.Inverted());
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midPoints[2] = T3.Transformed(Trsf_1.Inverted());
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midPoints.push_back(p1_2);
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midPoints.push_back(p2_3);
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midPoints.push_back(p3_1);
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return midPoints;
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return;
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}
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//================================================================================
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@ -42,11 +42,9 @@ namespace SMESHUtils
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{
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ControlPnt()
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: gp_Pnt(), size(0) {}
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ControlPnt( const gp_Pnt& aPnt, double theSize)
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ControlPnt( const gp_Pnt& aPnt, double theSize=0)
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: gp_Pnt( aPnt ), size( theSize ) {}
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ControlPnt(double theX,double theY,double theZ)
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: gp_Pnt(theX, theY, theZ), size(0) {}
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ControlPnt(double theX,double theY,double theZ, double theSize)
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ControlPnt(double theX,double theY,double theZ, double theSize=0)
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: gp_Pnt(theX, theY, theZ), size( theSize ) {}
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double Size() const { return size; };
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@ -57,20 +55,20 @@ namespace SMESHUtils
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// Functions to get sample point from shapes
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SMESHUtils_EXPORT void createControlPoints( const TopoDS_Shape& theShape,
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const double& theSize,
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std::vector< ControlPnt >& thePoints );
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const double& theSize,
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std::vector< ControlPnt >& thePoints );
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SMESHUtils_EXPORT void createPointsSampleFromEdge( const TopoDS_Edge& theEdge,
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const double& theSize,
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std::vector<ControlPnt>& thePoints );
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SMESHUtils_EXPORT void createPointsSampleFromEdge( const TopoDS_Edge& theEdge,
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const double& theSize,
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std::vector<ControlPnt>& thePoints );
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SMESHUtils_EXPORT void createPointsSampleFromFace( const TopoDS_Face& theFace,
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const double& theSize,
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std::vector<ControlPnt>& thePoints );
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SMESHUtils_EXPORT void createPointsSampleFromFace( const TopoDS_Face& theFace,
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const double& theSize,
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std::vector<ControlPnt>& thePoints );
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SMESHUtils_EXPORT void createPointsSampleFromSolid( const TopoDS_Solid& theSolid,
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const double& theSize,
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std::vector<ControlPnt>& thePoints );
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SMESHUtils_EXPORT void createPointsSampleFromSolid( const TopoDS_Solid& theSolid,
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const double& theSize,
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std::vector<ControlPnt>& thePoints );
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}
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#endif
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