#ifdef OCCT_DEBUG_CHRONO
ResultChron(chr_total, t_total);
- cout<<" total reparametrization time = "<<t_total<<endl;
- cout<<"initialization time = "<<t_init<<endl;
- cout<<"approximation time = "<<t_approx<<endl;
- cout<<"total time for uparam computation = "<<t_uparam<<endl;
- cout<<"number uparam calles = "<<uparam_count<<endl;
+ std::cout<<" total reparametrization time = "<<t_total<<std::endl;
+ std::cout<<"initialization time = "<<t_init<<std::endl;
+ std::cout<<"approximation time = "<<t_approx<<std::endl;
+ std::cout<<"total time for uparam computation = "<<t_uparam<<std::endl;
+ std::cout<<"number uparam calles = "<<uparam_count<<std::endl;
#endif
}
#ifdef OCCT_DEBUG_CHRONO
ResultChron(chr_total, t_total);
- cout<<" total reparametrization time = "<<t_total<<endl;
- cout<<"initialization time = "<<t_init<<endl;
- cout<<"approximation time = "<<t_approx<<endl;
- cout<<"total time for uparam computation = "<<t_uparam<<endl;
- cout<<"number uparam calles = "<<uparam_count<<endl;
+ std::cout<<" total reparametrization time = "<<t_total<<std::endl;
+ std::cout<<"initialization time = "<<t_init<<std::endl;
+ std::cout<<"approximation time = "<<t_approx<<std::endl;
+ std::cout<<"total time for uparam computation = "<<t_uparam<<std::endl;
+ std::cout<<"number uparam calles = "<<uparam_count<<std::endl;
#endif
}
#ifdef OCCT_DEBUG_CHRONO
ResultChron(chr_total, t_total);
- cout<<" total reparametrization time = "<<t_total<<endl;
- cout<<"initialization time = "<<t_init<<endl;
- cout<<"approximation time = "<<t_approx<<endl;
- cout<<"total time for uparam computation = "<<t_uparam<<endl;
- cout<<"number uparam calles = "<<uparam_count<<endl;
+ std::cout<<" total reparametrization time = "<<t_total<<std::endl;
+ std::cout<<"initialization time = "<<t_init<<std::endl;
+ std::cout<<"approximation time = "<<t_approx<<std::endl;
+ std::cout<<"total time for uparam computation = "<<t_uparam<<std::endl;
+ std::cout<<"number uparam calles = "<<uparam_count<<std::endl;
#endif
}
void Approx_CurvilinearParameter::Dump(Standard_OStream& o) const
{
- o << "Dump of Approx_CurvilinearParameter" << endl;
+ o << "Dump of Approx_CurvilinearParameter" << std::endl;
if (myCase==2 || myCase==3)
- o << "myMaxError2d1 = " << myMaxError2d1 << endl;
+ o << "myMaxError2d1 = " << myMaxError2d1 << std::endl;
if (myCase==3)
- o << "myMaxError2d2 = " << myMaxError2d2 << endl;
- o << "myMaxError3d = " << myMaxError3d << endl;
+ o << "myMaxError2d2 = " << myMaxError2d2 << std::endl;
+ o << "myMaxError3d = " << myMaxError3d << std::endl;
}
//=======================================================================
TolW = Tol / (4.*Max_dS_dw);
#ifdef OCCT_DEBUG
- cout << "TolV = " << TolV << endl;
- cout << "TolW = " << TolW << endl;
+ std::cout << "TolV = " << TolV << std::endl;
+ std::cout << "TolW = " << TolW << std::endl;
#endif
}