}
-// For eventual debug Newton.Dump(cout);
+// For eventual debug Newton.Dump(std::cout);
return OkCompute;
}
//======================================================================================
{
-o << " MVCurve |"; o.width(7); o<< "Old | New" << endl;
-o << " P1 X |"; o.width(7); o<< OldP1.X() << " | " << NewP1.X() << endl;
-o << " Y |"; o.width(7); o<< OldP1.Y() << " | " << NewP1.Y() << endl;
-o << " P2 X |"; o.width(7); o<< OldP2.X() << " | " << NewP2.X() << endl;
-o << " Y |"; o.width(7); o<< OldP2.Y() << " | " << NewP2.Y() << endl;
-o << " Angle1 |"; o.width(7); o<< OldAngle1 << " | " << NewAngle1 << endl;
-o << " Angle2 |"; o.width(7); o<< OldAngle2 << " | " << NewAngle2 << endl;
-o << " Curvature1 |"; o.width(7); o<< OldCurvature1 << " | " << NewCurvature1 << endl;
-o << " Curvature2 |"; o.width(7); o<< OldCurvature2 << " | " << NewCurvature2 << endl;
-o << " Height |"; o.width(7); o<< OldHeight << " | " << NewHeight << endl;
-o << " Slope |"; o.width(7); o<< OldSlope << " | " << NewSlope << endl;
-o << " PhysicalRatio |"; o.width(7); o<< OldPhysicalRatio << " | " << NewPhysicalRatio << endl;
-o << " SlidingFactor |"; o.width(7); o<< OldSlidingFactor << " | " << NewSlidingFactor << endl;
-o << " FreeSliding |"; o.width(7); o<< OldFreeSliding << " | " << NewFreeSliding << endl;
-o << " ConstrOrder1 |"; o.width(7); o<< OldConstraintOrder1 << " | " << NewConstraintOrder1 << endl;
-o << " ConstrOrder2 |"; o.width(7); o<< OldConstraintOrder2 << " | " << NewConstraintOrder2 << endl;
+o << " MVCurve |"; o.width(7); o<< "Old | New" << std::endl;
+o << " P1 X |"; o.width(7); o<< OldP1.X() << " | " << NewP1.X() << std::endl;
+o << " Y |"; o.width(7); o<< OldP1.Y() << " | " << NewP1.Y() << std::endl;
+o << " P2 X |"; o.width(7); o<< OldP2.X() << " | " << NewP2.X() << std::endl;
+o << " Y |"; o.width(7); o<< OldP2.Y() << " | " << NewP2.Y() << std::endl;
+o << " Angle1 |"; o.width(7); o<< OldAngle1 << " | " << NewAngle1 << std::endl;
+o << " Angle2 |"; o.width(7); o<< OldAngle2 << " | " << NewAngle2 << std::endl;
+o << " Curvature1 |"; o.width(7); o<< OldCurvature1 << " | " << NewCurvature1 << std::endl;
+o << " Curvature2 |"; o.width(7); o<< OldCurvature2 << " | " << NewCurvature2 << std::endl;
+o << " Height |"; o.width(7); o<< OldHeight << " | " << NewHeight << std::endl;
+o << " Slope |"; o.width(7); o<< OldSlope << " | " << NewSlope << std::endl;
+o << " PhysicalRatio |"; o.width(7); o<< OldPhysicalRatio << " | " << NewPhysicalRatio << std::endl;
+o << " SlidingFactor |"; o.width(7); o<< OldSlidingFactor << " | " << NewSlidingFactor << std::endl;
+o << " FreeSliding |"; o.width(7); o<< OldFreeSliding << " | " << NewFreeSliding << std::endl;
+o << " ConstrOrder1 |"; o.width(7); o<< OldConstraintOrder1 << " | " << NewConstraintOrder1 << std::endl;
+o << " ConstrOrder2 |"; o.width(7); o<< OldConstraintOrder2 << " | " << NewConstraintOrder2 << std::endl;
switch (myCode) {
case FairCurve_OK :
- o << "AnalysisCode : Ok" << endl;
+ o << "AnalysisCode : Ok" << std::endl;
break;
case FairCurve_NotConverged :
- o << "AnalysisCode : NotConverged" << endl;
+ o << "AnalysisCode : NotConverged" << std::endl;
break;
case FairCurve_InfiniteSliding :
- o << "AnalysisCode : InfiniteSliding" << endl;
+ o << "AnalysisCode : InfiniteSliding" << std::endl;
break;
case FairCurve_NullHeight :
- o << "AnalysisCode : NullHeight" << endl;
+ o << "AnalysisCode : NullHeight" << std::endl;
break;
}
}