Standard_Real t;
#ifdef OCCT_DEBUG
if (myDebug) {
- cout << " Ajout de la solution numero : " << n+1 << endl;
- cout << " Valeur de la racine :" << X << endl;
+ std::cout << " Ajout de la solution numero : " << n+1 << std::endl;
+ std::cout << " Valeur de la racine :" << X << std::endl;
}
#endif
TColStd_SequenceOfInteger& NbStateSol) {
#ifdef OCCT_DEBUG
if (myDebug) {
- cout <<"--> Resolution :" << ++nbsolve << endl;
- cout <<" x1 =" << x1 << " y1 =" << y1 << endl;
- cout <<" x2 =" << x2 << " y2 =" << y2 << endl;
+ std::cout <<"--> Resolution :" << ++nbsolve << std::endl;
+ std::cout <<" x1 =" << x1 << " y1 =" << y1 << std::endl;
+ std::cout <<" x2 =" << x2 << " y2 =" << y2 << std::endl;
}
#endif
fb-=K;
}
#ifdef OCCT_DEBUG
- cout<<" Non Convergence dans math_FunctionRoots.cxx "<<endl;
+ std::cout<<" Non Convergence dans math_FunctionRoots.cxx "<<std::endl;
#endif
}
{
#ifdef OCCT_DEBUG
if (myDebug) {
- cout << "---- Debut de math_FunctionRoots ----" << endl;
+ std::cout << "---- Debut de math_FunctionRoots ----" << std::endl;
nbsolve = 0;
}
#endif
Standard_Real NEpsX = 0.0000000001 * DeltaU;
if(EpsX < NEpsX) {
EpsX = NEpsX;
- //-- cout<<" \n EpsX Init = "<<_EpsX<<" devient : (deltaU : "<<DeltaU<<" ) EpsX = "<<EpsX<<endl;
+ //-- std::cout<<" \n EpsX Init = "<<_EpsX<<" devient : (deltaU : "<<DeltaU<<" ) EpsX = "<<EpsX<<std::endl;
}
//--
Null2 = EpsNull*EpsNull;
o << "math_FunctionRoots ";
if(Done) {
o << " Status = Done \n";
- o << " Number of solutions = " << Sol.Length() << endl;
+ o << " Number of solutions = " << Sol.Length() << std::endl;
for (Standard_Integer i = 1; i <= Sol.Length(); i++) {
- o << " Solution Number " << i << "= " << Sol.Value(i) << endl;
+ o << " Solution Number " << i << "= " << Sol.Value(i) << std::endl;
}
}
else {