0.5*(p1(i).Y()+p2(i).Y()),
0.5*(p1(i).Z()+p2(i).Z()));
R(i) = p3(i).Distance(p1(i));
-// cout<<"sphere, i="<<i<<" V="<<V<<" R="<<R(i)<<" p1="<<p1(i).X()<<","<<p1(i).Y()<<","<<p1(i).Z()<<" p2="<<p2(i).X()<<","<<p2(i).Y()<<","<<p2(i).Z()<<" p3="<<p3(i).X()<<","<<p3(i).Y()<<","<<p3(i).Z()<<endl;
+// std::cout<<"sphere, i="<<i<<" V="<<V<<" R="<<R(i)<<" p1="<<p1(i).X()<<","<<p1(i).Y()<<","<<p1(i).Z()<<" p2="<<p2(i).X()<<","<<p2(i).Y()<<","<<p2(i).Z()<<" p3="<<p3(i).X()<<","<<p3(i).Y()<<","<<p3(i).Z()<<std::endl;
}
iso->D1 (0.,origPnt,origD1U);
//gp_Dir AXY = aAx3.YDirection(); // AXY not used (skl)
if (aAx3.YDirection().Dot (origD1U) < 0) {
#ifdef OCCT_DEBUG
- cout<<" Surface Analytique : sens a inverser"<<endl;
+ std::cout<<" Surface Analytique : sens a inverser"<<std::endl;
#endif
aAx3.YReverse(); // mais X reste !
}
anObject->D1 (0.,0.,resPnt,resD1U,resD1V);
#ifdef OCCT_DEBUG
if (resD1U.Dot(origD1U) < 0 && j != 2)
- cout<<" Tore a inverser !"<<endl;
+ std::cout<<" Tore a inverser !"<<std::endl;
#endif
newSurf = anObject;
isFound = Standard_True;
}
#ifdef OCCT_DEBUG
- cout << "Warning: ShapeCustom_Surface: Closed BSplineSurface is caused to be periodic" << endl;
+ std::cout << "Warning: ShapeCustom_Surface: Closed BSplineSurface is caused to be periodic" << std::endl;
#endif
if ( ! converted ) return newSurf;
newSurf = BSpl;