docs/rol/ROL__PD__MeanSemiDeviation_8hpp_source.html

// @HEADER

// *****************************************************************************

//               Rapid Optimization Library (ROL) Package

//

// Copyright 2014 NTESS and the ROL contributors.

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

// *****************************************************************************

// @HEADER


#ifndef ROL_PD_MEANSEMIDEVIATION_HPP

#define ROL_PD_MEANSEMIDEVIATION_HPP


#include "ROL_PD_RandVarFunctional.hpp"


namespace ROL {


template<class Real>


class PD_MeanSemiDeviation : public PD_RandVarFunctional<Real> {

private:

  Real coeff_;


  Ptr<ScalarController<Real>> values_;

  Ptr<ScalarController<Real>> gradvecs_;

  Ptr<VectorController<Real>> gradients_;

  Ptr<VectorController<Real>> hessvecs_;


  using RandVarFunctional<Real>::val_;

  using RandVarFunctional<Real>::g_;

  using RandVarFunctional<Real>::gv_;

  using RandVarFunctional<Real>::hv_;

  using RandVarFunctional<Real>::dualVector_;


  using RandVarFunctional<Real>::point_;

  using RandVarFunctional<Real>::weight_;


  using RandVarFunctional<Real>::computeValue;

  using RandVarFunctional<Real>::computeGradient;

  using RandVarFunctional<Real>::computeGradVec;

  using RandVarFunctional<Real>::computeHessVec;


  using PD_RandVarFunctional<Real>::setValue;

  using PD_RandVarFunctional<Real>::getMultiplier;

  using PD_RandVarFunctional<Real>::getPenaltyParameter;

  using PD_RandVarFunctional<Real>::ppf;


  void initializeStorage(void) {

    values_    = makePtr<ScalarController<Real>>();

    gradvecs_  = makePtr<ScalarController<Real>>();

    gradients_ = makePtr<VectorController<Real>>();

    hessvecs_  = makePtr<VectorController<Real>>();


    RandVarFunctional<Real>::setStorage(values_,gradients_);

    RandVarFunctional<Real>::setHessVecStorage(gradvecs_,hessvecs_);

  }


  void clear(void) {

    gradvecs_->reset();

    hessvecs_->reset();

  }


  void checkInputs(void) {

    Real zero(0);

    ROL_TEST_FOR_EXCEPTION((coeff_ < zero), std::invalid_argument,

      ">>> ERROR (ROL::PD_MeanSemiDeviation): Element of coefficient array out of range!");

    initializeStorage();

  }


public:


  PD_MeanSemiDeviation(const Real coeff)

    : PD_RandVarFunctional<Real>(), coeff_(coeff) {

    checkInputs();

  }


  void setStorage(const Ptr<ScalarController<Real>> &value_storage,

                  const Ptr<VectorController<Real>> &gradient_storage) {

    values_    = value_storage;

    gradients_ = gradient_storage;

    PD_RandVarFunctional<Real>::setStorage(values_,gradients_);

  }


  void setHessVecStorage(const Ptr<ScalarController<Real>> &gradvec_storage,

                         const Ptr<VectorController<Real>> &hessvec_storage) {

    gradvecs_ = gradvec_storage;

    hessvecs_ = hessvec_storage;

    PD_RandVarFunctional<Real>::setHessVecStorage(gradvecs_,hessvecs_);

  }


  void initialize(const Vector<Real> &x) {

    PD_RandVarFunctional<Real>::initialize(x);

    clear();

  }


  void updateValue(Objective<Real>         &obj,

                   const Vector<Real>      &x,

                   const std::vector<Real> &xstat,

                   Real                    &tol) {

    Real val = computeValue(obj,x,tol);

    val_ += weight_ * val;

  }


  Real getValue(const Vector<Real>      &x,

                const std::vector<Real> &xstat,

                SampleGenerator<Real>   &sampler) {

    // Compute expected value

    Real ev(0);

    sampler.sumAll(&val_,&ev,1);

    // Compute deviation

    Real diff(0), pf0(0), dev(0), weight(0), lam(0);

    for (int i = sampler.start(); i < sampler.numMySamples(); ++i) {

      values_->get(diff,sampler.getMyPoint(i));

      diff  -= ev;

      setValue(diff, sampler.getMyPoint(i));

      getMultiplier(lam,sampler.getMyPoint(i));

      weight = sampler.getMyWeight(i);

      pf0   += weight * ppf(diff, lam, getPenaltyParameter(), 0);

    }

    sampler.sumAll(&pf0,&dev,1);

    dev *= coeff_;

    // Return mean plus deviation

    return ev + dev;

  }


  void updateGradient(Objective<Real>         &obj,

                      const Vector<Real>      &x,

                      const std::vector<Real> &xstat,

                      Real                    &tol) {

    Real val = computeValue(obj,x,tol);

    val_ += weight_ * val;

    computeGradient(*dualVector_,obj,x,tol);

    g_->axpy(weight_,*dualVector_);

  }


  void getGradient(Vector<Real>            &g,

                   std::vector<Real>       &gstat,

                   const Vector<Real>      &x,

                   const std::vector<Real> &xstat,

                   SampleGenerator<Real>   &sampler) {

    // Compute expected value

    Real ev(0);

    sampler.sumAll(&val_,&ev,1);

    // Compute deviation

    hv_->zero(); dualVector_->zero();

    Real diff(0), pf(0), pf1(0), dev(0), one(1), weight(0), lam(0);

    for (int i = sampler.start(); i < sampler.numMySamples(); ++i) {

      values_->get(diff,sampler.getMyPoint(i));

      diff  -= ev;

      getMultiplier(lam,sampler.getMyPoint(i));

      weight = sampler.getMyWeight(i);

      pf1    = weight * ppf(diff, lam, getPenaltyParameter(), 1);

      pf    += pf1;

      gradients_->get(*hv_, sampler.getMyPoint(i));

      dualVector_->axpy(coeff_ * pf1, *hv_);

    }

    sampler.sumAll(&pf,&dev,1);

    g_->scale(one - coeff_ * dev);

    g_->plus(*dualVector_);

    sampler.sumAll(*g_,g);

  }


  void updateHessVec(Objective<Real>         &obj,

                     const Vector<Real>      &v,

                     const std::vector<Real> &vstat,

                     const Vector<Real>      &x,

                     const std::vector<Real> &xstat,

                     Real                    &tol) {

    Real val = computeValue(obj,x,tol);

    val_    += weight_ * val;

    Real gv  = computeGradVec(*dualVector_,obj,v,x,tol);

    gv_     += weight_ * gv;

    g_->axpy(weight_, *dualVector_);

    computeHessVec(*dualVector_,obj,v,x,tol);

    hv_->axpy(weight_, *dualVector_);

  }


  void getHessVec(Vector<Real>            &hv,

                  std::vector<Real>       &hvstat,

                  const Vector<Real>      &v,

                  const std::vector<Real> &vstat,

                  const Vector<Real>      &x,

                  const std::vector<Real> &xstat,

                  SampleGenerator<Real>   &sampler) {

    const Real one(1);

    // Compute expected value

    std::vector<Real> mval(2), gval(2);

    mval[0] = val_; mval[1] = gv_;

    sampler.sumAll(&mval[0],&gval[0],2);

    Real ev = gval[0], egv = gval[1];

    // Compute deviation

    std::vector<Real> mvec(3), gvec(3);

    Real diff(0), gv(0), pf1(0), pf2(0), weight(0), lam(0);

    for (int i = sampler.start(); i < sampler.numMySamples(); ++i) {

      values_->get(diff,sampler.getMyPoint(i));

      gradvecs_->get(gv,sampler.getMyPoint(i));

      getMultiplier(lam,sampler.getMyPoint(i));

      weight   = sampler.getMyWeight(i);

      diff    -= ev;

      pf1      = ppf(diff, lam, getPenaltyParameter(), 1);

      pf2      = ppf(diff, lam, getPenaltyParameter(), 2);

      mvec[0] += weight * pf1;

      mvec[1] += weight * pf2;

      mvec[2] += weight * pf2 * gv;

    }

    sampler.sumAll(&mvec[0],&gvec[0],3);

    Real c1 = one - coeff_ * gvec[0];

    Real c2 = coeff_ * (gvec[1]*egv - gvec[2]);

    hv_->scale(c1);

    hv_->axpy(c2, *g_);

    sampler.sumAll(*hv_,hv);


    dualVector_->zero(); hv_->zero(); g_->zero();

    for (int i = sampler.start(); i < sampler.numMySamples(); ++i) {

      values_->get(diff,sampler.getMyPoint(i));

      gradients_->get(*g_,sampler.getMyPoint(i));

      gradvecs_->get(gv,sampler.getMyPoint(i));

      hessvecs_->get(*dualVector_,sampler.getMyPoint(i));

      getMultiplier(lam,sampler.getMyPoint(i));

      weight   = sampler.getMyWeight(i);

      diff    -= ev;

      pf1      = ppf(diff, lam, getPenaltyParameter(), 1);

      pf2      = ppf(diff, lam, getPenaltyParameter(), 2);

      hv_->axpy(weight * coeff_ * pf2 * (gv-egv), *g_);

      hv_->axpy(weight * coeff_ *pf1, *dualVector_);

    }

    sampler.sumAll(*hv_, *dualVector_);

    hv.plus(*dualVector_);

  }


};


}


#endif

zero
Objective_SerialSimOpt(const Ptr< Obj > &obj, const V &ui) z0_ zero()
Definition ROL_Objective_SerialSimOpt.hpp:77

ROL_PD_RandVarFunctional.hpp

ROL::Objective
Provides the interface to evaluate objective functions.
Definition ROL_Objective.hpp:44

ROL::PD_MeanSemiDeviation
Definition ROL_PD_MeanSemiDeviation.hpp:18

ROL::PD_MeanSemiDeviation::setStorage
void setStorage(const Ptr< ScalarController< Real > > &value_storage, const Ptr< VectorController< Real > > &gradient_storage)
Definition ROL_PD_MeanSemiDeviation.hpp:74

ROL::PD_MeanSemiDeviation::updateHessVec
void updateHessVec(Objective< Real > &obj, const Vector< Real > &v, const std::vector< Real > &vstat, const Vector< Real > &x, const std::vector< Real > &xstat, Real &tol)
Update internal risk measure storage for Hessian-time-a-vector computation.
Definition ROL_PD_MeanSemiDeviation.hpp:160

ROL::PD_MeanSemiDeviation::clear
void clear(void)
Definition ROL_PD_MeanSemiDeviation.hpp:56

ROL::PD_MeanSemiDeviation::updateGradient
void updateGradient(Objective< Real > &obj, const Vector< Real > &x, const std::vector< Real > &xstat, Real &tol)
Update internal risk measure storage for gradient computation.
Definition ROL_PD_MeanSemiDeviation.hpp:123

ROL::PD_MeanSemiDeviation::gradients_
Ptr< VectorController< Real > > gradients_
Definition ROL_PD_MeanSemiDeviation.hpp:24

ROL::PD_MeanSemiDeviation::initialize
void initialize(const Vector< Real > &x)
Initialize temporary variables.
Definition ROL_PD_MeanSemiDeviation.hpp:88

ROL::PD_MeanSemiDeviation::values_
Ptr< ScalarController< Real > > values_
Definition ROL_PD_MeanSemiDeviation.hpp:22

ROL::PD_MeanSemiDeviation::getHessVec
void getHessVec(Vector< Real > &hv, std::vector< Real > &hvstat, const Vector< Real > &v, const std::vector< Real > &vstat, const Vector< Real > &x, const std::vector< Real > &xstat, SampleGenerator< Real > &sampler)
Return risk measure Hessian-times-a-vector.
Definition ROL_PD_MeanSemiDeviation.hpp:175

ROL::PD_MeanSemiDeviation::PD_MeanSemiDeviation
PD_MeanSemiDeviation(const Real coeff)
Definition ROL_PD_MeanSemiDeviation.hpp:69

ROL::PD_MeanSemiDeviation::initializeStorage
void initializeStorage(void)
Definition ROL_PD_MeanSemiDeviation.hpp:46

ROL::PD_MeanSemiDeviation::getValue
Real getValue(const Vector< Real > &x, const std::vector< Real > &xstat, SampleGenerator< Real > &sampler)
Return risk measure value.
Definition ROL_PD_MeanSemiDeviation.hpp:101

ROL::PD_MeanSemiDeviation::gradvecs_
Ptr< ScalarController< Real > > gradvecs_
Definition ROL_PD_MeanSemiDeviation.hpp:23

ROL::PD_MeanSemiDeviation::hessvecs_
Ptr< VectorController< Real > > hessvecs_
Definition ROL_PD_MeanSemiDeviation.hpp:25

ROL::PD_MeanSemiDeviation::getGradient
void getGradient(Vector< Real > &g, std::vector< Real > &gstat, const Vector< Real > &x, const std::vector< Real > &xstat, SampleGenerator< Real > &sampler)
Return risk measure (sub)gradient.
Definition ROL_PD_MeanSemiDeviation.hpp:133

ROL::PD_MeanSemiDeviation::checkInputs
void checkInputs(void)
Definition ROL_PD_MeanSemiDeviation.hpp:61

ROL::PD_MeanSemiDeviation::coeff_
Real coeff_
Definition ROL_PD_MeanSemiDeviation.hpp:20

ROL::PD_MeanSemiDeviation::updateValue
void updateValue(Objective< Real > &obj, const Vector< Real > &x, const std::vector< Real > &xstat, Real &tol)
Update internal storage for value computation.
Definition ROL_PD_MeanSemiDeviation.hpp:93

ROL::PD_MeanSemiDeviation::setHessVecStorage
void setHessVecStorage(const Ptr< ScalarController< Real > > &gradvec_storage, const Ptr< VectorController< Real > > &hessvec_storage)
Definition ROL_PD_MeanSemiDeviation.hpp:81

ROL::PD_RandVarFunctional
Definition ROL_PD_RandVarFunctional.hpp:18

ROL::PD_RandVarFunctional::getMultiplier
void getMultiplier(Real &lam, const std::vector< Real > &pt) const
Definition ROL_PD_RandVarFunctional.hpp:36

ROL::PD_RandVarFunctional::getPenaltyParameter
Real getPenaltyParameter(void) const
Definition ROL_PD_RandVarFunctional.hpp:45

ROL::PD_RandVarFunctional::ppf
Real ppf(const Real x, const Real t, const Real r, const int deriv=0) const
Definition ROL_PD_RandVarFunctional.hpp:50

ROL::PD_RandVarFunctional::setHessVecStorage
virtual void setHessVecStorage(const Ptr< ScalarController< Real > > &gradvec_storage, const Ptr< VectorController< Real > > &hessvec_storage)
Definition ROL_PD_RandVarFunctional.hpp:123

ROL::PD_RandVarFunctional::setValue
void setValue(const Real val, const std::vector< Real > &pt)
Definition ROL_PD_RandVarFunctional.hpp:31

ROL::PD_RandVarFunctional::initialize
virtual void initialize(const Vector< Real > &x)
Initialize temporary variables.
Definition ROL_PD_RandVarFunctional.hpp:128

ROL::PD_RandVarFunctional::setStorage
virtual void setStorage(const Ptr< ScalarController< Real > > &value_storage, const Ptr< VectorController< Real > > &gradient_storage)
Definition ROL_PD_RandVarFunctional.hpp:118

ROL::RandVarFunctional
Provides the interface to implement any functional that maps a random variable to a (extended) real n...
Definition ROL_RandVarFunctional.hpp:47

ROL::RandVarFunctional::computeValue
Real computeValue(Objective< Real > &obj, const Vector< Real > &x, Real &tol)
Definition ROL_RandVarFunctional.hpp:68

ROL::RandVarFunctional::g_
Ptr< Vector< Real > > g_
Definition ROL_RandVarFunctional.hpp:59

ROL::RandVarFunctional::gv_
Real gv_
Definition ROL_RandVarFunctional.hpp:58

ROL::RandVarFunctional::computeHessVec
void computeHessVec(Vector< Real > &hv, Objective< Real > &obj, const Vector< Real > &v, const Vector< Real > &x, Real &tol)
Definition ROL_RandVarFunctional.hpp:122

ROL::RandVarFunctional::setStorage
virtual void setStorage(const Ptr< ScalarController< Real > > &value_storage, const Ptr< VectorController< Real > > &gradient_storage)
Definition ROL_RandVarFunctional.hpp:174

ROL::RandVarFunctional::hv_
Ptr< Vector< Real > > hv_
Definition ROL_RandVarFunctional.hpp:60

ROL::RandVarFunctional::computeGradient
void computeGradient(Vector< Real > &g, Objective< Real > &obj, const Vector< Real > &x, Real &tol)
Definition ROL_RandVarFunctional.hpp:86

ROL::RandVarFunctional::point_
std::vector< Real > point_
Definition ROL_RandVarFunctional.hpp:64

ROL::RandVarFunctional::dualVector_
Ptr< Vector< Real > > dualVector_
Definition ROL_RandVarFunctional.hpp:61

ROL::RandVarFunctional::weight_
Real weight_
Definition ROL_RandVarFunctional.hpp:65

ROL::RandVarFunctional::setHessVecStorage
virtual void setHessVecStorage(const Ptr< ScalarController< Real > > &gradvec_storage, const Ptr< VectorController< Real > > &hessvec_storage)
Definition ROL_RandVarFunctional.hpp:181

ROL::RandVarFunctional::val_
Real val_
Definition ROL_RandVarFunctional.hpp:57

ROL::RandVarFunctional::computeGradVec
Real computeGradVec(Vector< Real > &g, Objective< Real > &obj, const Vector< Real > &v, const Vector< Real > &x, Real &tol)
Definition ROL_RandVarFunctional.hpp:102

ROL::SampleGenerator
Definition ROL_SampleGenerator.hpp:20

ROL::SampleGenerator::numMySamples
virtual int numMySamples(void) const
Definition ROL_SampleGenerator.hpp:74

ROL::SampleGenerator::getMyPoint
virtual std::vector< Real > getMyPoint(const int i) const
Definition ROL_SampleGenerator.hpp:78

ROL::SampleGenerator::start
virtual int start(void)
Definition ROL_SampleGenerator.hpp:49

ROL::SampleGenerator::sumAll
void sumAll(Real *input, Real *output, int dim) const
Definition ROL_SampleGenerator.hpp:94

ROL::SampleGenerator::getMyWeight
virtual Real getMyWeight(const int i) const
Definition ROL_SampleGenerator.hpp:82

ROL::ScalarController
Definition ROL_ScalarController.hpp:19

ROL::VectorController
Definition ROL_VectorController.hpp:21

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

ROL::Vector::plus
virtual void plus(const Vector &x)=0
Compute , where .

ROL
Definition ROL_ElementwiseVector.hpp:27