ROL
ROL_Constraint_DynamicState.hpp
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43 
44 #ifndef ROL_CONSTRAINT_DYNAMICSTATE_H
45 #define ROL_CONSTRAINT_DYNAMICSTATE_H
46 
48 #include "ROL_Constraint.hpp"
49 
50 namespace ROL {
51 
52 template <class Real>
53 class Constraint_DynamicState : public Constraint<Real> {
54 private:
55  const Ptr<DynamicConstraint<Real>> con_;
56  const Ptr<const Vector<Real>> uo_;
57  const Ptr<const Vector<Real>> z_;
58  const Ptr<const TimeStamp<Real>> ts_;
59 
60  Ptr<Vector<Real>> ijv_;
61  bool isInit_;
62 
63 public:
65  const Ptr<const Vector<Real>> &uo,
66  const Ptr<const Vector<Real>> &z,
67  const Ptr<const TimeStamp<Real>> &ts)
68  : con_(con), uo_(uo), z_(z), ts_(ts), isInit_(false) {}
69 
70  void value(Vector<Real> &c,const Vector<Real> &u,Real &tol) {
71  con_->value(c,*uo_,u,*z_,*ts_);
72  }
73 
74  void applyJacobian(Vector<Real> &jv,const Vector<Real> &v,const Vector<Real> &u,Real &tol) {
75  con_->applyJacobian_un(jv,v,*uo_,u,*z_,*ts_);
76  }
77 
79  void applyAdjointJacobian(Vector<Real> &ajv,const Vector<Real> &v,const Vector<Real> &u,Real &tol) {
80  con_->applyAdjointJacobian_un(ajv,v,*uo_,u,*z_,*ts_);
81  }
82 
83  void applyAdjointHessian(Vector<Real> &ahwv,const Vector<Real> &w,const Vector<Real> &v,const Vector<Real> &u,Real &tol) {
84  con_->applyAdjointHessian_un_un(ahwv,w,v,*uo_,u,*z_,*ts_);
85  }
86 
87  void update( const Vector<Real> &u, bool flag = true, int iter = -1 ) {
88  //con_->update_un(u,*ts_);
89  con_->update(*uo_,u,*z_,*ts_);
90  }
91 
92  void applyPreconditioner(Vector<Real> &pv,const Vector<Real> &v,const Vector<Real> &u,const Vector<Real> &g,Real &tol) {
93  if (!isInit_) {
94  ijv_ = u.clone();
95  isInit_ = true;
96  }
97  con_->applyInverseJacobian_un(*ijv_,v,*uo_,u,*z_,*ts_);
98  con_->applyInverseAdjointJacobian_un(pv,ijv_->dual(),*uo_,u,*z_,*ts_);
99  }
100 
101  // Definitions for parametrized (stochastic) equality constraints
102  //void setParameter(const std::vector<Real> &param) {
103  // con_->setParameter(param);
104  // Constraint<Real>::setParameter(param);
105  //}
106 
107 }; // class Constraint_State
108 
109 } // namespace ROL
110 
111 #endif
const Ptr< DynamicConstraint< Real > > con_
virtual ROL::Ptr< Vector > clone() const =0
Clone to make a new (uninitialized) vector.
void update(const Vector< Real > &u, bool flag=true, int iter=-1)
Update constraint functions. x is the optimization variable, flag = true if optimization variable is ...
Defines the time-dependent constraint operator interface for simulation-based optimization.
void value(Vector< Real > &c, const Vector< Real > &u, Real &tol)
Evaluate the constraint operator at .
void applyJacobian(Vector< Real > &jv, const Vector< Real > &v, const Vector< Real > &u, Real &tol)
Apply the constraint Jacobian at , , to vector .
Defines the linear algebra or vector space interface.
Definition: ROL_Vector.hpp:80
const Ptr< const Vector< Real > > z_
void applyAdjointHessian(Vector< Real > &ahwv, const Vector< Real > &w, const Vector< Real > &v, const Vector< Real > &u, Real &tol)
Apply the derivative of the adjoint of the constraint Jacobian at to vector in direction ...
Constraint_DynamicState(const Ptr< DynamicConstraint< Real >> &con, const Ptr< const Vector< Real >> &uo, const Ptr< const Vector< Real >> &z, const Ptr< const TimeStamp< Real >> &ts)
const Ptr< const TimeStamp< Real > > ts_
void applyAdjointJacobian(Vector< Real > &ajv, const Vector< Real > &v, const Vector< Real > &u, Real &tol)
Apply the adjoint of the the constraint Jacobian at , , to vector .
const Ptr< const Vector< Real > > uo_
void applyPreconditioner(Vector< Real > &pv, const Vector< Real > &v, const Vector< Real > &u, const Vector< Real > &g, Real &tol)
Apply a constraint preconditioner at , , to vector . Ideally, this preconditioner satisfies the follo...
Defines the general constraint operator interface.