docs/rol/step_2test__09_8cpp_source.html

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//               Rapid Optimization Library (ROL) Package

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// Copyright 2014 NTESS and the ROL contributors.

// SPDX-License-Identifier: BSD-3-Clause

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#include "Teuchos_GlobalMPISession.hpp"


#include "ROL_HS32.hpp"

#include "ROL_InteriorPointPrimalDualResidual.hpp"

#include "ROL_RandomVector.hpp"

#include "ROL_GMRES.hpp"


//template<class Real>


typedef double RealT;


int main(int argc, char *argv[]) {


  typedef std::vector<RealT>            vector;

  typedef ROL::Vector<RealT>            V;

  typedef ROL::StdVector<RealT>         SV;

//  typedef ROL::PartitionedVector<RealT> PV;


  typedef typename vector::size_type    uint;


  Teuchos::GlobalMPISession mpiSession(&argc, &argv);


  int iprint     = argc - 1;

  ROL::Ptr<std::ostream> outStream;

  ROL::nullstream bhs; // outputs nothing

  if (iprint > 0)

    outStream = ROL::makePtrFromRef(std::cout);

  else

    outStream = ROL::makePtrFromRef(bhs);


  int errorFlag = 0;


  try {


    uint xo_dim = 3; // Dimension of optimization vectors

    uint ce_dim = 1; // Dimension of equality constraint

    uint ci_dim = 4; // Dimension of inequality constraint


    RealT left  = -1.0;

    RealT right =  1.0;


    // ----[ Full primal-dual vector ]----------------


    ROL::Ptr<vector> xo_ptr = ROL::makePtr<vector>(xo_dim,0.0); // opt

    ROL::Ptr<vector> xs_ptr = ROL::makePtr<vector>(ci_dim,0.0); // slack

    ROL::Ptr<vector> xe_ptr = ROL::makePtr<vector>(ce_dim,0.0); // equality multipliers

    ROL::Ptr<vector> xi_ptr = ROL::makePtr<vector>(ci_dim,0.0); // inequality multipliers


    ROL::Ptr<V> xo = ROL::makePtr<SV>(xo_ptr);

    ROL::Ptr<V> xs = ROL::makePtr<SV>(xs_ptr);

    ROL::Ptr<V> xe = ROL::makePtr<SV>(xe_ptr);

    ROL::Ptr<V> xi = ROL::makePtr<SV>(xi_ptr);


    ROL::RandomizeVector(*xo,left,right);

    ROL::RandomizeVector(*xs,left,right);

    ROL::RandomizeVector(*xe,left,right);

    ROL::RandomizeVector(*xi,left,right);


    ROL::Ptr<V> x = ROL::CreatePartitionedVector( xo, xs, xe, xi );


    // ----[ Full primal-dual direction vector ]------


    ROL::Ptr<vector> vo_ptr = ROL::makePtr<vector>(xo_dim,0.0); // opt

    ROL::Ptr<vector> vs_ptr = ROL::makePtr<vector>(ci_dim,0.0); // slack

    ROL::Ptr<vector> ve_ptr = ROL::makePtr<vector>(ce_dim,0.0); // equality multipliers

    ROL::Ptr<vector> vi_ptr = ROL::makePtr<vector>(ci_dim,0.0); // inequality multipliers


    ROL::Ptr<V> vo = ROL::makePtr<SV>(vo_ptr);

    ROL::Ptr<V> vs = ROL::makePtr<SV>(vs_ptr);

    ROL::Ptr<V> ve = ROL::makePtr<SV>(ve_ptr);

    ROL::Ptr<V> vi = ROL::makePtr<SV>(vi_ptr);


    ROL::RandomizeVector(*vo,left,right);

    ROL::RandomizeVector(*vs,left,right);

    ROL::RandomizeVector(*ve,left,right);

    ROL::RandomizeVector(*vi,left,right);


    ROL::Ptr<V> v = ROL::CreatePartitionedVector( vo, vs, ve, vi );


    // ----[ Full primal-dual residual vector ]------


    ROL::Ptr<vector> ro_ptr = ROL::makePtr<vector>(xo_dim,0.0); // opt

    ROL::Ptr<vector> rs_ptr = ROL::makePtr<vector>(ci_dim,0.0); // slack

    ROL::Ptr<vector> re_ptr = ROL::makePtr<vector>(ce_dim,0.0); // equality multipliers

    ROL::Ptr<vector> ri_ptr = ROL::makePtr<vector>(ci_dim,0.0); // inequality multipliers


    ROL::Ptr<V> ro = ROL::makePtr<SV>(vo_ptr);

    ROL::Ptr<V> rs = ROL::makePtr<SV>(vs_ptr);

    ROL::Ptr<V> re = ROL::makePtr<SV>(ve_ptr);

    ROL::Ptr<V> ri = ROL::makePtr<SV>(vi_ptr);


    ROL::RandomizeVector(*ro,left,right);

    ROL::RandomizeVector(*rs,left,right);

    ROL::RandomizeVector(*re,left,right);

    ROL::RandomizeVector(*ri,left,right);


    ROL::Ptr<V> r = ROL::CreatePartitionedVector( ro, rs, re, ri );


    // ----[ Primal-dual constraint ]-------


    ROL::Ptr<ROL::Objective<RealT> > obj_hs32 =

      ROL::makePtr<ROL::ZOO::Objective_HS32<RealT>>();


    ROL::Ptr<ROL::EqualityConstraint<RealT> > eqcon_hs32 =

      ROL::makePtr<ROL::ZOO::EqualityConstraint_HS32<RealT>>();


    ROL::Ptr<ROL::EqualityConstraint<RealT> > incon_hs32 =

      ROL::makePtr<ROL::ZOO::InequalityConstraint_HS32<RealT>>();


    *outStream << "Performing finite difference check on Primal-Dual KKT system"

               << std::endl;


    using ROL::InteriorPoint::PrimalDualResidual;


    PrimalDualResidual<RealT> con(obj_hs32,eqcon_hs32,incon_hs32, *x);


    con.checkApplyJacobian(*x,*v,*r,true,*outStream);


  }


  catch (std::logic_error& err) {

    *outStream << err.what() << "\n";

    errorFlag = -1000;

  }; // end try


  if (errorFlag != 0)

    std::cout << "End Result: TEST FAILED\n";

  else

    std::cout << "End Result: TEST PASSED\n";


  return 0;

}


V
Vector< Real > V
Definition ROL_BlockOperator2Diagonal.hpp:46

ROL_GMRES.hpp

ROL_HS32.hpp
Contains definitions for W. Hock and K. Schittkowski 32nd test problem which contains both inequality...

ROL_RandomVector.hpp

ROL::InteriorPoint::PrimalDualResidual
Express the Primal-Dual Interior Point gradient as an equality constraint.
Definition interiorpoint/ROL_InteriorPointPrimalDualResidual.hpp:42

ROL::StdVector
Provides the ROL::Vector interface for scalar values, to be used, for example, with scalar constraint...
Definition ROL_StdVector.hpp:27

ROL::Vector
Defines the linear algebra or vector space interface.
Definition ROL_Vector.hpp:50

RealT
double RealT
Definition function/constraint/test_01.cpp:29

ROL::RandomizeVector
void RandomizeVector(Vector< Real > &x, const Real &lower=0.0, const Real &upper=1.0)
Fill a ROL::Vector with uniformly-distributed random numbers in the interval [lower,...
Definition ROL_RandomVector.hpp:30

ROL::CreatePartitionedVector
ROL::Ptr< Vector< Real > > CreatePartitionedVector(const ROL::Ptr< Vector< Real > > &a)
Definition ROL_PartitionedVector.hpp:284

main
int main(int argc, char *argv[])
Definition step/test_09.cpp:27

RealT
double RealT
Definition step/test_09.cpp:25