/usr/include/openturns/NumericalMathEvaluationImplementation.hxx is in libopenturns-dev 1.5-7build2.
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/**
* @file NumericalMathEvaluationImplementation.hxx
* @brief Abstract top-level class for all numerical math function implementations
*
* Copyright 2005-2015 Airbus-EDF-IMACS-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 3 of the License, or
* (at your option) any later version.
*
* 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
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*
* @author schueller
* @date 2012-07-16 12:24:33 +0200 (Mon, 16 Jul 2012)
*/
#ifndef OPENTURNS_NUMERICALMATHEVALUATIONIMPLEMENTATION_HXX
#define OPENTURNS_NUMERICALMATHEVALUATIONIMPLEMENTATION_HXX
#include "PersistentObject.hxx"
#include "NumericalPoint.hxx"
#include "NumericalPointWithDescription.hxx"
#include "NumericalSample.hxx"
#include "Field.hxx"
#include "HistoryStrategy.hxx"
#include "Description.hxx"
#include "Indices.hxx"
#include "Matrix.hxx"
#include "Collection.hxx"
#include "Pointer.hxx"
#include "StorageManager.hxx"
#include "Cache.hxx"
#include "Graph.hxx"
BEGIN_NAMESPACE_OPENTURNS
/**
* @class NumericalMathEvaluationImplementation
*
* This class offers an abstract interface for the implementation
* of an real numerical mathematical function into the platform.
*/
class OT_API NumericalMathEvaluationImplementation
: public PersistentObject
{
CLASSNAME;
public:
typedef Pointer<NumericalMathEvaluationImplementation> Implementation;
typedef PersistentCollection<NumericalScalar> CacheKeyType;
typedef PersistentCollection<NumericalScalar> CacheValueType;
typedef Cache<CacheKeyType, CacheValueType> CacheType;
typedef Pointer<CacheType> CacheImplementation;
/** Default constructor */
NumericalMathEvaluationImplementation();
/** Virtual constructor */
virtual NumericalMathEvaluationImplementation * clone() const;
/** Comparison operator */
Bool operator ==(const NumericalMathEvaluationImplementation & other) const;
/** String converter */
virtual String __repr__() const;
virtual String __str__(const String & offset = "") const;
/** Description Accessor, i.e. the names of the input and output parameters */
virtual void setDescription(const Description & description);
Description getDescription() const;
/** Input description Accessor, i.e. the names of the input parameters */
Description getInputDescription() const;
void setInputDescription(const Description & inputDescription);
/** Output description Accessor, i.e. the names of the Output parameters */
Description getOutputDescription() const;
void setOutputDescription(const Description & outputDescription);
/** Enable or disable the input/output history */
void enableHistory() const;
void disableHistory() const;
/** @brief Test the history mechanism activity
* @see enableHistory()
*/
Bool isHistoryEnabled() const;
/** @brief Clear the history mechanism
* @see enableHistory()
*/
void clearHistory() const;
/** @brief Retrieve the history of the input values
* @see enableHistory()
*/
HistoryStrategy getHistoryInput() const;
/** @brief Retrieve the history of the input values
* @deprecated
*/
HistoryStrategy getInputHistory() const;
/** @brief Retrieve the history of the output values
* @see enableHistory()
*/
HistoryStrategy getHistoryOutput() const;
/** @brief Retrieve the history of the output values
* @deprecated
*/
HistoryStrategy getOutputHistory() const;
/** Enable or disable the internal cache */
void enableCache() const;
void disableCache() const;
/** @brief Test the internal cache activity
* @see enableCache()
*/
Bool isCacheEnabled() const;
/** @brief Returns the number of successful hits in the cache
*/
UnsignedInteger getCacheHits() const;
/** @brief Add some content to the cache
*/
void addCacheContent(const NumericalSample & inSample, const NumericalSample & outSample);
/** @brief Returns the cache input
*/
NumericalSample getCacheInput() const;
/** @brief Returns the cache output
*/
NumericalSample getCacheOutput() const;
/** @brief Empty the cache
*/
void clearCache() const;
/* Here is the interface that all derived class must implement */
/** Test for actual implementation */
virtual Bool isActualImplementation() const;
/** Operator () */
virtual NumericalPoint operator() (const NumericalPoint & inP) const;
virtual NumericalPoint operator() (const NumericalPoint & inP,
const NumericalPoint & parameters);
/** Operator () on a sample, not pure virtual because a generic implementation is given */
virtual NumericalSample operator() (const NumericalSample & inSample) const;
/** Operator () on a time series, not pure virtual because a generic implementation is given */
virtual Field operator() (const Field & inField) const;
/** Accessor for parameter dimension */
virtual UnsignedInteger getParameterDimension() const;
/** Accessor for input point dimension */
virtual UnsignedInteger getInputDimension() const;
/** Accessor for output point dimension */
virtual UnsignedInteger getOutputDimension() const;
/** Accessor for parameters dimension */
virtual UnsignedInteger getParametersDimension() const;
/** Get the i-th marginal evaluation */
virtual Implementation getMarginal(const UnsignedInteger i) const;
/** Get the evaluation corresponding to indices components */
virtual Implementation getMarginal(const Indices & indices) const;
/** Gradient according to the marginal parameters */
virtual Matrix parametersGradient(const NumericalPoint & inP) const;
/** Parameters value and description accessor */
virtual NumericalPointWithDescription getParameters() const;
virtual void setParameters(const NumericalPointWithDescription & parameters);
virtual void setParameters(const NumericalPoint & parameters);
/** Get the number of calls to operator() */
UnsignedInteger getCallsNumber() const;
/** Draw the given 1D marginal output as a function of the given 1D marginal input around the given central point */
virtual Graph draw(const UnsignedInteger inputMarginal,
const UnsignedInteger outputMarginal,
const NumericalPoint & centralPoint,
const NumericalScalar xMin,
const NumericalScalar xMax,
const UnsignedInteger pointNumber = ResourceMap::GetAsUnsignedInteger("NumericalMathEvaluationImplementation-DefaultPointNumber")) const;
/** Draw the given 1D marginal output as a function of the given 2D marginal input around the given central point */
virtual Graph draw(const UnsignedInteger firstInputMarginal,
const UnsignedInteger secondInputMarginal,
const UnsignedInteger outputMarginal,
const NumericalPoint & centralPoint,
const NumericalPoint & xMin,
const NumericalPoint & xMax,
const Indices & pointNumber = Indices(2, ResourceMap::GetAsUnsignedInteger("NumericalMathEvaluationImplementation-DefaultPointNumber"))) const;
/** Draw the output of the function with respect to its input when the input and output dimensions are 1 */
virtual Graph draw(const NumericalScalar xMin,
const NumericalScalar xMax,
const UnsignedInteger pointNumber = ResourceMap::GetAsUnsignedInteger("NumericalMathEvaluationImplementation-DefaultPointNumber")) const;
/** Draw the output of the function with respect to its input when the input dimension is 2 and the output dimension is 1 */
virtual Graph draw(const NumericalPoint & xMin,
const NumericalPoint & xMax,
const Indices & pointNumber = Indices(2, ResourceMap::GetAsUnsignedInteger("NumericalMathEvaluationImplementation-DefaultPointNumber"))) const;
/** Method save() stores the object through the StorageManager */
void save(Advocate & adv) const;
/** Method load() reloads the object from the StorageManager */
void load(Advocate & adv);
protected:
/** Number of calls since the construction */
mutable UnsignedInteger callsNumber_;
/** A cache to store already computed points */
mutable CacheImplementation p_cache_;
/** An history mechanism that allows to remember all the input/output associations including duplicate calls */
mutable HistoryStrategy inputStrategy_;
mutable HistoryStrategy outputStrategy_;
/** Flag to activate or deactivate the history mechanism */
mutable Bool isHistoryEnabled_;
/** The value and description of all the parameters */
NumericalPointWithDescription parameters_;
private:
/** The description of the input components */
Description inputDescription_;
/** The description of the input components */
Description outputDescription_;
}; /* class NumericalMathEvaluationImplementation */
END_NAMESPACE_OPENTURNS
#endif /* OPENTURNS_NUMERICALMATHEVALUATIONIMPLEMENTATION_HXX */
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