9 #ifndef __IPPDFULLSPACESOLVER_HPP__
10 #define __IPPDFULLSPACESOLVER_HPP__
49 const std::string& prefix);
57 bool allow_inexact=
false,
58 bool improve_solution=
false);
124 bool pretend_singular,
Number Number * g
Values of constraint at final point (output only - ignored if set to NULL)
Base class for Solver for the augmented system.
Specialized CompoundVector class specifically for the algorithm iterates.
This class stores a list of user set options.
This is the implemetation of the Primal-Dual System, using the full space approach with a direct line...
Number ComputeResidualRatio(const IteratesVector &rhs, const IteratesVector &res, const IteratesVector &resid)
Internal function for computing the ratio of the residual compared to the right hand side and solutio...
PDFullSpaceSolver()
Default Constructor.
Index max_refinement_steps_
Maximal number of iterative refinement performed per backsolve.
static void RegisterOptions(SmartPtr< RegisteredOptions > roptions)
Methods for IpoptType.
SmartPtr< AugSystemSolver > augSysSolver_
Pointer to the Solver for the augmented system.
bool augsys_improved_
Flag indicating if for the current matrix the solution quality of the augmented system solver has alr...
Number residual_ratio_singular_
If the residual_ratio is larger than this value after trying to improve the solution,...
bool InitializeImpl(const OptionsList &options, const std::string &prefix)
overloaded from AlgorithmStrategyObject
PDFullSpaceSolver & operator=(const PDFullSpaceSolver &)
Overloaded Equals Operator.
CachedResults< void * > dummy_cache_
A dummy cache to figure out if the deltas are still up to date.
Number residual_ratio_max_
Maximal allowed ratio of the norm of the residual over the norm of the right hand side and solution.
void SinvBlrmZPTdBr(Number alpha, const Vector &S, const Vector &R, const Vector &Z, const Matrix &P, const Vector &g, Vector &X)
Compute .
virtual ~PDFullSpaceSolver()
Default destructor.
virtual bool Solve(Number alpha, Number beta, const IteratesVector &rhs, IteratesVector &res, bool allow_inexact=false, bool improve_solution=false)
Solve the primal dual system, given one right hand side.
void ComputeResiduals(const SymMatrix &W, const Matrix &J_c, const Matrix &J_d, const Matrix &Px_L, const Matrix &Px_U, const Matrix &Pd_L, const Matrix &Pd_U, const Vector &z_L, const Vector &z_U, const Vector &v_L, const Vector &v_U, const Vector &slack_x_L, const Vector &slack_x_U, const Vector &slack_s_L, const Vector &slack_s_U, const Vector &sigma_x, const Vector &sigma_s, Number alpha, Number beta, const IteratesVector &rhs, const IteratesVector &res, IteratesVector &resid)
Internal function for computing the residual (resid) given the right hand side (rhs) and the solution...
SmartPtr< PDPerturbationHandler > perturbHandler_
Pointer to the Perturbation Handler.
PDFullSpaceSolver(AugSystemSolver &augSysSolver, PDPerturbationHandler &perturbHandler)
Constructor that takes in the Augmented System solver that is to be used inside.
Number residual_improvement_factor_
Factor defining require improvement to consider iterative refinement successful.
bool SolveOnce(bool resolve_unmodified, bool pretend_singular, const SymMatrix &W, const Matrix &J_c, const Matrix &J_d, const Matrix &Px_L, const Matrix &Px_U, const Matrix &Pd_L, const Matrix &Pd_U, const Vector &z_L, const Vector &z_U, const Vector &v_L, const Vector &v_U, const Vector &slack_x_L, const Vector &slack_x_U, const Vector &slack_s_L, const Vector &slack_s_U, const Vector &sigma_x, const Vector &sigma_s, Number alpha, Number beta, const IteratesVector &rhs, IteratesVector &res)
Internal function for a single backsolve (which will be used for iterative refinement on the outside)...
Number neg_curv_test_tol_
Tolernace for heuristic to ignore wrong inertia.
Index min_refinement_steps_
Minimal number of iterative refinement performed per backsolve.
Class for handling the perturbation factors delta_x, delta_s, delta_c, and delta_d in the primal dual...
Pure Primal Dual System Solver Base Class.
Template class for Smart Pointers.
This is the base class for all derived symmetric matrix types.
int Index
Type of all indices of vectors, matrices etc.
double Number
Type of all numbers.