ROL
sacado/example_02.hpp
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43 
44 #include "ROL_StdVector.hpp"
45 
46 using namespace ROL;
47 
48 
52 template<class Real>
54  public:
55  template<class ScalarT>
56  ScalarT value(const Vector<ScalarT> &x, Real &tol);
57 
58 };
59 
60 template <class Real>
61 template <class ScalarT>
62 ScalarT Example_Objective<Real>::value(const Vector<ScalarT>& x, Real &tol) {
63 
64  ROL::Ptr<const std::vector<ScalarT> > xp =
65  (dynamic_cast<const StdVector<ScalarT>&>(x)).getVector();
66 
67  ScalarT x1 = (*xp)[0];
68  ScalarT x2 = (*xp)[1];
69  ScalarT x3 = (*xp)[2];
70  ScalarT x4 = (*xp)[3];
71  ScalarT x5 = (*xp)[4];
72 
73  ScalarT J = exp(x1*x2*x3*x4*x5) - 0.5 * pow( (pow(x1,3)+pow(x2,3)+1.0), 2);
74  return J;
75 }
76 
77 
78 
84 template<class Real>
85 class Example_Constraint {
86  public:
87  int dim;
88 
89  template<class ScalarT>
90  void value(Vector<ScalarT> &c, const Vector<ScalarT> &x, Real &tol);
91 };
92 
93 
94 template<class Real>
95 template<class ScalarT>
97 
98  typedef std::vector<ScalarT> vector;
99  typedef StdVector<ScalarT> SV;
100 
101 
102 
103  ROL::Ptr<vector> cp = dynamic_cast<SV&>(c).getVector();
104  ROL::Ptr<const vector> xp = dynamic_cast<const SV&>(x).getVector();
105 
106  ScalarT x1 = (*xp)[0];
107  ScalarT x2 = (*xp)[1];
108  ScalarT x3 = (*xp)[2];
109  ScalarT x4 = (*xp)[3];
110  ScalarT x5 = (*xp)[4];
111 
112  (*cp)[0] = x1*x1+x2*x2+x3*x3+x4*x4+x5*x5 - 10.0;
113  (*cp)[1] = x2*x3 - 5.0*x4*x5;
114  (*cp)[2] = x1*x1*x1 + x2*x2*x2 + 1.0;
115 
116 }
117 
Objective function: .
ROL::Objective_SimOpt value
Defines the linear algebra or vector space interface.
Definition: ROL_Vector.hpp:80
Provides the ROL::Vector interface for scalar values, to be used, for example, with scalar constraint...
ScalarT value(const Vector< ScalarT > &x, Real &tol)
void value(ROL::Vector< Real > &c, const ROL::Vector< Real > &sol, const Real &mu)