libopenturns-dev 0.15-2 / usr / include / openturns / AnalyticalResult.hxx

//                                               -*- C++ -*-
/**
 *  @file  AnalyticalResult.hxx
 *  @brief AnalyticalResult implements an algorithm to find the design point
 *
 *  (C) Copyright 2005-2011 EDF-EADS-Phimeca
 *
 *  This library is free software; you can redistribute it and/or
 *  modify it under the terms of the GNU Lesser General Public
 *  License as published by the Free Software Foundation; either
 *  version 2.1 of the License.
 *
 *  This library is distributed in the hope that it will be useful
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 *  Lesser General Public License for more details.
 *
 *  You should have received a copy of the GNU Lesser General Public
 *  License along with this library; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA
 *
 *  @author: $LastChangedBy: lebrun $
 *  @date:   $LastChangedDate: 2008-07-03 08:31:34 +0200 (jeu, 03 jui 2008) $
 *  Id:      $Id: AnalyticalResult.hxx 867 2008-07-03 06:31:34Z lebrun $
 */
#ifndef OPENTURNS_ANALYTICALRESULT_HXX
#define OPENTURNS_ANALYTICALRESULT_HXX

#include "PersistentObject.hxx"
#include "NumericalPoint.hxx"
#include "NumericalPointWithDescription.hxx"
#include "Collection.hxx"
#include "Event.hxx"
#include "Graph.hxx"
#include "Description.hxx"

namespace OpenTURNS
{

  namespace Uncertainty
  {

    namespace Algorithm
    {

      /**
       * @class AnalyticalResult
       * AnalyticalResult stores the Analytical result
       */
      class AnalyticalResult
        : public Base::Common::PersistentObject
      {
        CLASSNAME;
      public:

        static const NumericalScalar DefaultWidth;

        typedef Base::Graph::Graph                                    Graph;
        typedef Graph::GraphCollection                                GraphCollection;
        typedef Base::Common::StorageManager                          StorageManager;
        typedef Base::Type::Description                               Description;
        typedef Base::Type::NumericalPoint                            NumericalPoint;
        typedef Base::Type::Collection<NumericalPoint>                NumericalPointCollection;
        typedef Base::Type::NumericalPointWithDescription             NumericalPointWithDescription;
        typedef Base::Type::Collection<NumericalPointWithDescription> NumericalPointWithDescriptionCollection;
        typedef NumericalPointWithDescriptionCollection               Sensitivity;
        typedef Model::Event                                          Event;

        /** Standard constructor */
        AnalyticalResult(const NumericalPoint & standardSpaceDesignPoint,
                         const Event & limitStateVariable,
                         const Bool isStandardPointOriginInFailureSpace,
                         const String & name = OT::DefaultName);

        /* Default constructor (required by SWIG :-<) */
        explicit AnalyticalResult();

        /** Virtual constructor */
        virtual AnalyticalResult * clone() const;

        /** StandardSpaceDesignPoint accessor */
        NumericalPoint getStandardSpaceDesignPoint() const;

        /** PhysicalSpaceDesignPoint accessor */
        void setStandardSpaceDesignPoint(const NumericalPoint & standardSpaceDesignPoint);

        /** PhysicalSpaceDesignPoint accessor */
        NumericalPoint getPhysicalSpaceDesignPoint() const;

        /** LimitStateVariable accessor */
        Event getLimitStateVariable() const;

        /** IsStandardPointOriginInFailureSpace  accessor */
        Bool getIsStandardPointOriginInFailureSpace() const;

        /** IsStandardPointOriginInFailureSpace  accessor */
        void setIsStandardPointOriginInFailureSpace(const Bool isStandardPointOriginInFailureSpace);

        /** Mean point conditioned to the standard event realization accessor */
        NumericalPoint getMeanPointInStandardEventDomain() const;
        void setMeanPointInStandardEventDomain(const NumericalPoint & meanPointInStandardEventDomain);

        /** ImportanceFactors accessor */
        NumericalPointWithDescription getImportanceFactors(const Bool classical = false) const;

        /** ImportanceFactors graph */
        Graph drawImportanceFactors(const Bool classical = false) const;

        /**  HasoferReliabilityIndex accessor */
        NumericalScalar getHasoferReliabilityIndex() const;

        /**  HasoferReliabilityIndexSensitivity accessor */
        Sensitivity getHasoferReliabilityIndexSensitivity() const;

        /** HasoferReliabilityIndexSensitivitygraph */
        GraphCollection drawHasoferReliabilityIndexSensitivity(NumericalScalar width = DefaultWidth) const;

        /** String converter */
        String __repr__() const;

        /** Method save() stores the object through the StorageManager */
        void save(StorageManager::Advocate & adv) const;

        /** Method load() reloads the object from the StorageManager */
        void load(StorageManager::Advocate & adv);

      protected:


        /** Sensitivitygraph */
        Graph drawSensitivity(const Sensitivity & sensitivity,
                              const NumericalScalar width) const;

      private:

        /** PhysicalSpaceDesignPoint evaluation */
        void computePhysicalSpaceDesignPoint() const;

        /** HasoferReliabilityIndex evaluation */
        void computeHasoferReliabilityIndex() const;

        /** ImportanceFactors evaluation */
        void computeImportanceFactors() const;

        /** ImportanceFactors evaluation */
        void computeClassicalImportanceFactors() const;

        /** HasoferReliabilityIndexSensitivity evaluation */
        void computeHasoferReliabilityIndexSensitivity() const;

        /** MeanPointInStandardEventDomain evaluation */
        void computeMeanPointInStandardEventDomain() const;

        /** PhysicalSpaceDesignPoint accessor */
        void setPhysicalSpaceDesignPoint(const NumericalPoint & physicalSpaceDesignPoint);

        /** HasoferReliabilityIndex accessor */
        void setHasoferReliabilityIndex(const NumericalScalar & hasoferReliabilityIndex);

        /** Returns the position of the given (value, name) into the NumericalPoint or the dimension of the NumericalPoint if failed */
        UnsignedLong computePosition(const String & marginalName,
                                     const String & marginalParameterName,
                                     const Description & parameterSetNames) const;

        NumericalPoint    standardSpaceDesignPoint_;
        mutable NumericalPoint    physicalSpaceDesignPoint_;
        Event             limitStateVariable_;
        Bool isStandardPointOriginInFailureSpace_;
        mutable NumericalScalar hasoferReliabilityIndex_;
        mutable NumericalPointWithDescription importanceFactors_;
        mutable NumericalPointWithDescription classicalImportanceFactors_;
        mutable Sensitivity hasoferReliabilityIndexSensitivity_;
        mutable NumericalPoint meanPointInStandardEventDomain_;
        mutable Bool isAlreadyComputedImportanceFactors_;
        mutable Bool isAlreadyComputedClassicalImportanceFactors_;
        mutable Bool isAlreadyComputedHasoferReliabilityIndexSensitivity_;
        mutable Bool isAlreadyComputedMeanPointInStandardEventDomain_;
      }; // class AnalyticalResult
    } /* namespace Algorithm */
  } /* namespace Uncertainty */
} /* namespace OpenTURNS */

#endif /* OPENTURNS_ANALYTICALRESULT_HXX */