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Diffstat (limited to 'thirdparty/linux/include/coin1/IpTNLPAdapter.hpp')
| -rw-r--r-- | thirdparty/linux/include/coin1/IpTNLPAdapter.hpp | 427 |
1 files changed, 427 insertions, 0 deletions
diff --git a/thirdparty/linux/include/coin1/IpTNLPAdapter.hpp b/thirdparty/linux/include/coin1/IpTNLPAdapter.hpp new file mode 100644 index 0000000..6eea8e3 --- /dev/null +++ b/thirdparty/linux/include/coin1/IpTNLPAdapter.hpp @@ -0,0 +1,427 @@ +// Copyright (C) 2004, 2008 International Business Machines and others. +// All Rights Reserved. +// This code is published under the Eclipse Public License. +// +// $Id: IpTNLPAdapter.hpp 2269 2013-05-05 11:32:40Z stefan $ +// +// Authors: Carl Laird, Andreas Waechter IBM 2004-08-13 + +#ifndef __IPTNLPADAPTER_HPP__ +#define __IPTNLPADAPTER_HPP__ + +#include "IpNLP.hpp" +#include "IpTNLP.hpp" +#include "IpOrigIpoptNLP.hpp" +#include <list> + +namespace Ipopt +{ + + // forward declarations + class ExpansionMatrix; + class ExpansionMatrixSpace; + class IteratesVector; + class TDependencyDetector; + + /** This class Adapts the TNLP interface so it looks like an NLP interface. + * This is an Adapter class (Design Patterns) that converts a TNLP to an + * NLP. This allows users to write to the "more convenient" TNLP interface. + */ + class TNLPAdapter : public NLP + { + public: + /**@name Constructors/Destructors */ + //@{ + /** Default constructor */ + TNLPAdapter(const SmartPtr<TNLP> tnlp, + const SmartPtr<const Journalist> jnlst = NULL); + + /** Default destructor */ + virtual ~TNLPAdapter(); + //@} + + /**@name Exceptions */ + //@{ + DECLARE_STD_EXCEPTION(INVALID_TNLP); + DECLARE_STD_EXCEPTION(ERROR_IN_TNLP_DERIVATIVE_TEST); + //@} + + /** @name TNLPAdapter Initialization. */ + //@{ + virtual bool ProcessOptions(const OptionsList& options, + const std::string& prefix); + + /** Method for creating the derived vector / matrix types + * (Do not delete these, the ). */ + virtual bool GetSpaces(SmartPtr<const VectorSpace>& x_space, + SmartPtr<const VectorSpace>& c_space, + SmartPtr<const VectorSpace>& d_space, + SmartPtr<const VectorSpace>& x_l_space, + SmartPtr<const MatrixSpace>& px_l_space, + SmartPtr<const VectorSpace>& x_u_space, + SmartPtr<const MatrixSpace>& px_u_space, + SmartPtr<const VectorSpace>& d_l_space, + SmartPtr<const MatrixSpace>& pd_l_space, + SmartPtr<const VectorSpace>& d_u_space, + SmartPtr<const MatrixSpace>& pd_u_space, + SmartPtr<const MatrixSpace>& Jac_c_space, + SmartPtr<const MatrixSpace>& Jac_d_space, + SmartPtr<const SymMatrixSpace>& Hess_lagrangian_space); + + /** Method for obtaining the bounds information */ + virtual bool GetBoundsInformation(const Matrix& Px_L, + Vector& x_L, + const Matrix& Px_U, + Vector& x_U, + const Matrix& Pd_L, + Vector& d_L, + const Matrix& Pd_U, + Vector& d_U); + + /** Method for obtaining the starting point + * for all the iterates. */ + virtual bool GetStartingPoint( + SmartPtr<Vector> x, + bool need_x, + SmartPtr<Vector> y_c, + bool need_y_c, + SmartPtr<Vector> y_d, + bool need_y_d, + SmartPtr<Vector> z_L, + bool need_z_L, + SmartPtr<Vector> z_U, + bool need_z_U + ); + + /** Method for obtaining an entire iterate as a warmstart point. + * The incoming IteratesVector has to be filled. */ + virtual bool GetWarmStartIterate(IteratesVector& warm_start_iterate); + //@} + + /** @name TNLPAdapter evaluation routines. */ + //@{ + virtual bool Eval_f(const Vector& x, Number& f); + + virtual bool Eval_grad_f(const Vector& x, Vector& g_f); + + virtual bool Eval_c(const Vector& x, Vector& c); + + virtual bool Eval_jac_c(const Vector& x, Matrix& jac_c); + + virtual bool Eval_d(const Vector& x, Vector& d); + + virtual bool Eval_jac_d(const Vector& x, Matrix& jac_d); + + virtual bool Eval_h(const Vector& x, + Number obj_factor, + const Vector& yc, + const Vector& yd, + SymMatrix& h); + + virtual void GetScalingParameters( + const SmartPtr<const VectorSpace> x_space, + const SmartPtr<const VectorSpace> c_space, + const SmartPtr<const VectorSpace> d_space, + Number& obj_scaling, + SmartPtr<Vector>& x_scaling, + SmartPtr<Vector>& c_scaling, + SmartPtr<Vector>& d_scaling) const; + //@} + + /** @name Solution Reporting Methods */ + //@{ + virtual void FinalizeSolution(SolverReturn status, + const Vector& x, + const Vector& z_L, const Vector& z_U, + const Vector& c, const Vector& d, + const Vector& y_c, const Vector& y_d, + Number obj_value, + const IpoptData* ip_data, + IpoptCalculatedQuantities* ip_cq); + + virtual bool IntermediateCallBack(AlgorithmMode mode, + Index iter, Number obj_value, + Number inf_pr, Number inf_du, + Number mu, Number d_norm, + Number regularization_size, + Number alpha_du, Number alpha_pr, + Index ls_trials, + const IpoptData* ip_data, + IpoptCalculatedQuantities* ip_cq); + //@} + + /** Method returning information on quasi-Newton approximation. */ + virtual void + GetQuasiNewtonApproximationSpaces(SmartPtr<VectorSpace>& approx_space, + SmartPtr<Matrix>& P_approx); + + /** Enum for treatment of fixed variables option */ + enum FixedVariableTreatmentEnum + { + MAKE_PARAMETER=0, + MAKE_CONSTRAINT, + RELAX_BOUNDS + }; + + /** Enum for specifying which derivative test is to be performed. */ + enum DerivativeTestEnum + { + NO_TEST=0, + FIRST_ORDER_TEST, + SECOND_ORDER_TEST, + ONLY_SECOND_ORDER_TEST + }; + + /** Enum for specifying technique for computing Jacobian */ + enum JacobianApproxEnum + { + JAC_EXACT=0, + JAC_FINDIFF_VALUES + }; + + /** Method for performing the derivative test */ + bool CheckDerivatives(DerivativeTestEnum deriv_test, + Index deriv_test_start_index); + + /** @name Methods for IpoptType */ + //@{ + static void RegisterOptions(SmartPtr<RegisteredOptions> roptions); + //@} + + /** Accessor method for the underlying TNLP. */ + SmartPtr<TNLP> tnlp() const + { + return tnlp_; + } + + /** @name Methods for translating data for IpoptNLP into the TNLP + * data. These methods are used to obtain the current (or + * final) data for the TNLP formulation from the IpoptNLP + * structure. */ + //@{ + /** Sort the primal variables, and add the fixed values in x */ + void ResortX(const Vector& x, Number* x_orig); + void ResortG(const Vector& c, const Vector& d, Number *g_orig); + void ResortBnds(const Vector& x_L, Number* x_L_orig, + const Vector& x_U, Number* x_U_orig); + //@} + + private: + /**@name Default Compiler Generated Methods + * (Hidden to avoid implicit creation/calling). + * These methods are not implemented and + * we do not want the compiler to implement + * them for us, so we declare them private + * and do not define them. This ensures that + * they will not be implicitly created/called. */ + //@{ + /** Copy Constructor */ + TNLPAdapter(const TNLPAdapter&); + + /** Overloaded Equals Operator */ + void operator=(const TNLPAdapter&); + //@} + + /** @name Method implementing the detection of linearly dependent + equality constraints */ + bool DetermineDependentConstraints(Index n_x_var, + const Index* x_not_fixed_map, + const Number* x_l, const Number* x_u, + const Number* g_l, const Number* g_u, + Index n_c, const Index* c_map, + std::list<Index>& c_deps); + + /** Pointer to the TNLP class (class specific to Number* vectors and + * harwell triplet matrices) */ + SmartPtr<TNLP> tnlp_; + + /** Journalist */ + SmartPtr<const Journalist> jnlst_; + + /** Object that can be used to detect linearly dependent rows in + * the equality constraint Jacobian */ + SmartPtr<TDependencyDetector> dependency_detector_; + + /**@name Algorithmic parameters */ + //@{ + /** Value for a lower bound that denotes -infinity */ + Number nlp_lower_bound_inf_; + /** Value for a upper bound that denotes infinity */ + Number nlp_upper_bound_inf_; + /** Flag indicating how fixed variables should be handled */ + FixedVariableTreatmentEnum fixed_variable_treatment_; + /* Determines relaxation of fixing bound for RELAX_BOUNDS. */ + Number bound_relax_factor_; + /* Maximal slack for one-sidedly bounded variables. If a + * variable has only one bound, say a lower bound xL, then an + * upper bound xL + max_onesided_bound_slack_. If this value is + * zero, no upper bound is added. */ + /* Took this out: Number max_onesided_bound_slack_; */ + /** Enum indicating whether and which derivative test should be + * performed at starting point. */ + DerivativeTestEnum derivative_test_; + /** Size of the perturbation for the derivative test */ + Number derivative_test_perturbation_; + /** Relative threshold for marking deviation from finite + * difference test */ + Number derivative_test_tol_; + /** Flag indicating if all test values should be printed, or only + * those violating the threshold. */ + bool derivative_test_print_all_; + /** Index of first quantity to be checked. */ + Index derivative_test_first_index_; + /** Flag indicating whether the TNLP with identical structure has + * already been solved before. */ + bool warm_start_same_structure_; + /** Flag indicating what Hessian information is to be used. */ + HessianApproximationType hessian_approximation_; + /** Number of linear variables. */ + Index num_linear_variables_; + /** Flag indicating how Jacobian is computed. */ + JacobianApproxEnum jacobian_approximation_; + /** Size of the perturbation for the derivative approximation */ + Number findiff_perturbation_; + /** Maximal perturbation of the initial point */ + Number point_perturbation_radius_; + /** Flag indicating if rhs should be considered during dependency + * detection */ + bool dependency_detection_with_rhs_; + + /** Overall convergence tolerance */ + Number tol_; + //@} + + /**@name Problem Size Data */ + //@{ + /** full dimension of x (fixed + non-fixed) */ + Index n_full_x_; + /** full dimension of g (c + d) */ + Index n_full_g_; + /** non-zeros of the jacobian of c */ + Index nz_jac_c_; + /** non-zeros of the jacobian of c without added constraints for + * fixed variables. */ + Index nz_jac_c_no_extra_; + /** non-zeros of the jacobian of d */ + Index nz_jac_d_; + /** number of non-zeros in full-size Jacobian of g */ + Index nz_full_jac_g_; + /** number of non-zeros in full-size Hessian */ + Index nz_full_h_; + /** number of non-zeros in the non-fixed-size Hessian */ + Index nz_h_; + /** Number of fixed variables */ + Index n_x_fixed_; + //@} + + /** Numbering style of variables and constraints */ + TNLP::IndexStyleEnum index_style_; + + /** @name Local copy of spaces (for warm start) */ + //@{ + SmartPtr<const VectorSpace> x_space_; + SmartPtr<const VectorSpace> c_space_; + SmartPtr<const VectorSpace> d_space_; + SmartPtr<const VectorSpace> x_l_space_; + SmartPtr<const MatrixSpace> px_l_space_; + SmartPtr<const VectorSpace> x_u_space_; + SmartPtr<const MatrixSpace> px_u_space_; + SmartPtr<const VectorSpace> d_l_space_; + SmartPtr<const MatrixSpace> pd_l_space_; + SmartPtr<const VectorSpace> d_u_space_; + SmartPtr<const MatrixSpace> pd_u_space_; + SmartPtr<const MatrixSpace> Jac_c_space_; + SmartPtr<const MatrixSpace> Jac_d_space_; + SmartPtr<const SymMatrixSpace> Hess_lagrangian_space_; + //@} + + /**@name Local Copy of the Data */ + //@{ + Number* full_x_; /** copy of the full x vector (fixed & non-fixed) */ + Number* full_lambda_; /** copy of lambda (yc & yd) */ + Number* full_g_; /** copy of g (c & d) */ + Number* jac_g_; /** the values for the full jacobian of g */ + Number* c_rhs_; /** the rhs values of c */ + //@} + + /**@name Tags for deciding when to update internal copies of vectors */ + //@{ + TaggedObject::Tag x_tag_for_iterates_; + TaggedObject::Tag y_c_tag_for_iterates_; + TaggedObject::Tag y_d_tag_for_iterates_; + TaggedObject::Tag x_tag_for_g_; + TaggedObject::Tag x_tag_for_jac_g_; + //@} + + /**@name Methods to update the values in the local copies of vectors */ + //@{ + bool update_local_x(const Vector& x); + bool update_local_lambda(const Vector& y_c, const Vector& y_d); + //@} + + /**@name Internal routines for evaluating g and jac_g (values stored since + * they are used in both c and d routines */ + //@{ + bool internal_eval_g(bool new_x); + bool internal_eval_jac_g(bool new_x); + //@} + + /** @name Internal methods for dealing with finite difference + approxation */ + //@{ + /** Initialize sparsity structure for finite difference Jacobian */ + void initialize_findiff_jac(const Index* iRow, const Index* jCol); + //@} + + /**@name Internal Permutation Spaces and matrices + */ + //@{ + /** Expansion from fixed x (ipopt) to full x */ + SmartPtr<ExpansionMatrix> P_x_full_x_; + SmartPtr<ExpansionMatrixSpace> P_x_full_x_space_; + + /** Expansion from fixed x_L (ipopt) to full x */ + SmartPtr<ExpansionMatrix> P_x_x_L_; + SmartPtr<ExpansionMatrixSpace> P_x_x_L_space_; + + /** Expansion from fixed x_U (ipopt) to full x */ + SmartPtr<ExpansionMatrix> P_x_x_U_; + SmartPtr<ExpansionMatrixSpace> P_x_x_U_space_; + + /** Expansion from c only (ipopt) to full ampl c */ + SmartPtr<ExpansionMatrixSpace> P_c_g_space_; + SmartPtr<ExpansionMatrix> P_c_g_; + + /** Expansion from d only (ipopt) to full ampl d */ + SmartPtr<ExpansionMatrixSpace> P_d_g_space_; + SmartPtr<ExpansionMatrix> P_d_g_; + + Index* jac_idx_map_; + Index* h_idx_map_; + + /** Position of fixed variables. This is required for a warm start */ + Index* x_fixed_map_; + //@} + + /** @name Data for finite difference approximations of derivatives */ + //@{ + /** Number of unique nonzeros in constraint Jacobian */ + Index findiff_jac_nnz_; + /** Start position for nonzero indices in ja for each column of + Jacobian */ + Index* findiff_jac_ia_; + /** Ordered by columns, for each column the row indices in + Jacobian */ + Index* findiff_jac_ja_; + /** Position of entry in original triplet matrix */ + Index* findiff_jac_postriplet_; + /** Copy of the lower bounds */ + Number* findiff_x_l_; + /** Copy of the upper bounds */ + Number* findiff_x_u_; + //@} + }; + +} // namespace Ipopt + +#endif |