if (PCurve.IsNull())
{
#ifdef OCCT_DEBUG
- cout << "DBRep_IsoBuilder : PCurve is null\n";
+ std::cout << "DBRep_IsoBuilder : PCurve is null\n";
#endif
return;
}
else if (U1 == U2)
{
#ifdef OCCT_DEBUG
- cout << "DBRep_IsoBuilder PCurve : U1==U2\n";
+ std::cout << "DBRep_IsoBuilder PCurve : U1==U2\n";
#endif
return;
}
U2 - TrimPCurve->BasisCurve()->LastParameter() > Precision::PConfusion())
{
#ifdef OCCT_DEBUG
- cout << "DBRep_IsoBuilder TrimPCurve : parameters out of range\n";
- cout << " U1(" << U1 << "), Umin(" << PCurve->FirstParameter()
+ std::cout << "DBRep_IsoBuilder TrimPCurve : parameters out of range\n";
+ std::cout << " U1(" << U1 << "), Umin(" << PCurve->FirstParameter()
<< "), U2(" << U2 << "), Umax(" << PCurve->LastParameter() << ")\n";
#endif
return;
if (PCurve->FirstParameter() - U1 > Precision::PConfusion())
{
#ifdef OCCT_DEBUG
- cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
- cout << " U1(" << U1 << "), Umin(" << PCurve->FirstParameter() << ")\n";
+ std::cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
+ std::cout << " U1(" << U1 << "), Umin(" << PCurve->FirstParameter() << ")\n";
#endif
U1 = PCurve->FirstParameter();
}
if (PCurve->FirstParameter() - U2 > Precision::PConfusion())
{
#ifdef OCCT_DEBUG
- cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
- cout << " U2(" << U2 << "), Umin(" << PCurve->FirstParameter() << ")\n";
+ std::cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
+ std::cout << " U2(" << U2 << "), Umin(" << PCurve->FirstParameter() << ")\n";
#endif
U2 = PCurve->FirstParameter();
}
if (U1 - PCurve->LastParameter() > Precision::PConfusion())
{
#ifdef OCCT_DEBUG
- cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
- cout << " U1(" << U1 << "), Umax(" << PCurve->LastParameter() << ")\n";
+ std::cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
+ std::cout << " U1(" << U1 << "), Umax(" << PCurve->LastParameter() << ")\n";
#endif
U1 = PCurve->LastParameter();
}
if (U2 - PCurve->LastParameter() > Precision::PConfusion())
{
#ifdef OCCT_DEBUG
- cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
- cout << " U2(" << U2 << "), Umax(" << PCurve->LastParameter() << ")\n";
+ std::cout << "DBRep_IsoBuilder PCurve : parameters out of range\n";
+ std::cout << " U2(" << U2 << "), Umax(" << PCurve->LastParameter() << ")\n";
#endif
U2 = PCurve->LastParameter();
}
if (UInd != 0) {
Standard_Real UPrm = myUPrm.Value (UIso) ;
if (!IsDone (UInd)) {
- cout << "DBRep_IsoBuilder:: U iso of parameter: " << UPrm ;
+ std::cout << "DBRep_IsoBuilder:: U iso of parameter: " << UPrm ;
switch (Status (UInd)) {
- case HatchGen_NoProblem : cout << " No Problem" << endl ; break ;
- case HatchGen_TrimFailure : cout << " Trim Failure" << endl ; break ;
- case HatchGen_TransitionFailure : cout << " Transition Failure" << endl ; break ;
- case HatchGen_IncoherentParity : cout << " Incoherent Parity" << endl ; break ;
- case HatchGen_IncompatibleStates : cout << " Incompatible States" << endl ; break ;
+ case HatchGen_NoProblem : std::cout << " No Problem" << std::endl ; break ;
+ case HatchGen_TrimFailure : std::cout << " Trim Failure" << std::endl ; break ;
+ case HatchGen_TransitionFailure : std::cout << " Transition Failure" << std::endl ; break ;
+ case HatchGen_IncoherentParity : std::cout << " Incoherent Parity" << std::endl ; break ;
+ case HatchGen_IncompatibleStates : std::cout << " Incompatible States" << std::endl ; break ;
}
} else {
Standard_Integer NbDom = Geom2dHatch_Hatcher::NbDomains (UInd) ;
if (VInd != 0) {
Standard_Real VPrm = myVPrm.Value (VIso) ;
if (!IsDone (VInd)) {
- cout << "DBRep_IsoBuilder:: V iso of parameter: " << VPrm ;
+ std::cout << "DBRep_IsoBuilder:: V iso of parameter: " << VPrm ;
switch (Status (VInd)) {
- case HatchGen_NoProblem : cout << " No Problem" << endl ; break ;
- case HatchGen_TrimFailure : cout << " Trim Failure" << endl ; break ;
- case HatchGen_TransitionFailure : cout << " Transition Failure" << endl ; break ;
- case HatchGen_IncoherentParity : cout << " Incoherent Parity" << endl ; break ;
- case HatchGen_IncompatibleStates : cout << " Incompatible States" << endl ; break ;
+ case HatchGen_NoProblem : std::cout << " No Problem" << std::endl ; break ;
+ case HatchGen_TrimFailure : std::cout << " Trim Failure" << std::endl ; break ;
+ case HatchGen_TransitionFailure : std::cout << " Transition Failure" << std::endl ; break ;
+ case HatchGen_IncoherentParity : std::cout << " Incoherent Parity" << std::endl ; break ;
+ case HatchGen_IncompatibleStates : std::cout << " Incompatible States" << std::endl ; break ;
}
} else {
Standard_Integer NbDom = Geom2dHatch_Hatcher::NbDomains (VInd) ;