/usr/include/openturns/StorageManager.hxx is in libopenturns-dev 1.5-7build2.
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/**
* @file StorageManager.hxx
* @brief StorageManager provides an interface for different storage classes
*
* 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 2012-02-17 19:35:43 +0100 (Fri, 17 Feb 2012)
*/
#ifndef OPENTURNS_STORAGEMANAGER_HXX
#define OPENTURNS_STORAGEMANAGER_HXX
#include <iostream> // for std::ostream
#include <vector> // for std::vector
#include <set> // for std::set
#include <map> // for std::map
#include <cstddef> // for ptrdiff_t
#include "Object.hxx"
#include "Pointer.hxx"
#include "Exception.hxx"
#include "OTconfig.hxx"
BEGIN_NAMESPACE_OPENTURNS
/* Forward declaration of Advocate */
class Advocate;
/* Forward declaration of PersistentObject */
class PersistentObject;
/* Forward declaration of InterfaceObject */
class InterfaceObject;
/* Forward declaration of Study */
class Study;
/** Helper classes for StorageManager
*
* Allow correct selection of method
*/
struct OT_API SaveAction {};
struct OT_API LoadAction {};
/**
* @class StorageManager
* @brief Abstract class defining the way Open TURNS' objects are saved and reloaded
*
* StorageManager defines a common interface implemented by
* different classes that must store and reload object onto
* a persistent medium
* @see Study
*/
class OT_API StorageManager
: public Object
{
CLASSNAME;
public:
#ifndef SWIG
struct InternalObject
{
virtual ~InternalObject() throw() {}
virtual InternalObject * clone() const
{
return new InternalObject(*this);
}
virtual void first() {}
virtual void next() {}
};
virtual
Pointer<Advocate> registerObject(const PersistentObject & obj, bool fromStudy = false);
virtual
Advocate readObject();
#endif
/**
* Default constructor
*
* The default constructor allows the object to be
* stored in STL containers like vector or map.
* It takes an optional argument interpreted as the
* name of the object in a user point of view. This
* name is never used in another way than for user
* information. This name has no meaning to the platform.
*/
explicit StorageManager(UnsignedInteger defaultVersion = 1);
/**
* Virtual constructor
*/
virtual StorageManager * clone() const;
/** @copydoc Object::__repr__() const */
virtual String __repr__() const;
/**
* This method saves the PersistentObject onto the medium
* @param obj The object to be saved
* @param fromStudy Tell if the object was explicitely put in the study or not
*/
virtual void save(const PersistentObject & obj, const String & label, bool fromStudy = false);
/**
* This method reloads the whole study from the medium
* @param study The study to reload objects from
*/
virtual void load(Study & study);
/** Study accessor */
Study * getStudy() const;
/** Defines the study bound to the manager */
void setStudy(Study * p_study);
/** Returns the version of the study that the manager can read/write */
UnsignedInteger getDefaultStudyVersion() const;
/** Study version accessor */
UnsignedInteger getStudyVersion() const;
/** Study version accessor */
void setStudyVersion(UnsignedInteger version);
/** Do some administrative tasks before saving/reloading
* @internal
*/
virtual void initialize(const SaveAction caller);
virtual void initialize(const LoadAction caller);
/** Do some administrative tasks after saving/reloading
* @internal
*/
virtual void finalize(const SaveAction caller);
virtual void finalize(const LoadAction caller);
/** Read and create the internal representation
* @internal
*/
virtual void read();
/** Write the internal representation
* @internal
*/
virtual void write();
#ifndef SWIG
/* Create a new empty object that will gather all saved information
* @internal
*/
virtual Pointer<InternalObject> createObject(const String & tag) const;
/* Append an internal object to the collection of saved ones
* @internal
*/
virtual void appendObject(Pointer<InternalObject> & p_obj);
/* Set the visibility attribute of the object
* @internal
*/
virtual void setVisibility(Pointer<InternalObject> & p_obj, Bool visible);
/* Set the label associated with the object
* @internal
*/
virtual void setLabel(Pointer<InternalObject> & p_obj, const String & label);
/* Returns true if the internal object has an attribute
*/
virtual Bool hasAttribute(Pointer<InternalObject> & p_obj, const String & name);
/* Add an attribute to an internal object
* @internal
*/
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, Bool value);
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, UnsignedInteger value);
#ifndef OPENTURNS_UNSIGNEDLONG_SAME_AS_UINT64
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, Unsigned64BitsInteger value);
#endif
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, NumericalScalar value);
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, NumericalComplex value);
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, const String & value);
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, const InterfaceObject & value);
virtual void addAttribute(Pointer<InternalObject> & p_obj, const String & name, const PersistentObject & value);
/* Add an indexed value to an internal object
* @internal
*/
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, Bool value);
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, UnsignedInteger value);
#ifndef OPENTURNS_UNSIGNEDLONG_SAME_AS_UINT64
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, Unsigned64BitsInteger value);
#endif
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, NumericalScalar value);
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, NumericalComplex value);
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, const String & value);
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, const InterfaceObject & value);
virtual void addIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, const PersistentObject & value);
/* Read an attribute
* @internal
*/
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, Bool & value);
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, UnsignedInteger & value);
#ifndef OPENTURNS_UNSIGNEDLONG_SAME_AS_UINT64
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, Unsigned64BitsInteger & value);
#endif
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, NumericalScalar & value);
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, NumericalComplex & value);
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, String & value);
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, InterfaceObject & value);
virtual void readAttribute(Pointer<InternalObject> & p_obj, const String & name, PersistentObject & value);
/* Read an indexed value
* @internal
*/
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, Bool & value);
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, UnsignedInteger & value);
#ifndef OPENTURNS_UNSIGNEDLONG_SAME_AS_UINT64
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, Unsigned64BitsInteger & value);
#endif
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, NumericalScalar & value);
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, NumericalComplex & value);
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, String & value);
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, InterfaceObject & value);
virtual void readIndexedValue(Pointer<InternalObject> & p_obj, UnsignedInteger index, PersistentObject & value);
#endif
/** Returns true if an object is already saved
* @internal
*/
Bool isSavedObject(Id id) const;
/* Tells that an object is saved
* @internal
*/
void markObjectAsSaved(Id id) const;
protected:
/** Refresh the status of saved objects */
void cleanSavedObjects() const;
/** Query the manager if the version is correct */
virtual Bool canManageVersion(UnsignedInteger version) const;
/** Return the current state of the storage manager (for those having one) */
virtual const InternalObject & getState() const;
/** Label element in study */
void defineLabel(Id id, const String & label);
/** Define element visibility in study */
void defineVisibility(Id id, Bool visible);
private:
/** A reference to the current study */
Study * p_study_;
/** The default version of the study */
const UnsignedInteger defaultVersion_;
/** The version of the study actually used */
UnsignedInteger version_;
/** The map that tells if objects wera already saved */
mutable std::map<Id, Bool> savedObjects_;
}; /* class StorageManager */
#ifndef SWIG
class OT_API Advocate
{
public:
Advocate(StorageManager & mgr, const StorageManager::InternalObject & state)
: mgr_(mgr),
p_state_(state.clone()),
p_obj_(0),
studyVisible_(false),
label_(),
savedAttributes_()
{}
Advocate(StorageManager & mgr, const StorageManager::InternalObject & state, const String & tag)
: mgr_(mgr),
p_state_(state.clone()),
p_obj_(mgr.createObject(tag)),
studyVisible_(false),
label_(),
savedAttributes_()
{}
Advocate(const Advocate & other)
: mgr_(other.mgr_),
p_state_(other.p_state_->clone()),
p_obj_(other.p_obj_),
studyVisible_(other.studyVisible_),
label_(other.label_),
savedAttributes_(other.savedAttributes_)
{}
void saveObject()
{
mgr_.setVisibility( p_obj_, studyVisible_ );
mgr_.setLabel( p_obj_, label_ );
mgr_.appendObject( p_obj_ );
}
void setLabel(const String & label)
{
label_ = label;
studyVisible_ = true;
}
void firstValue()
{
p_state_->first();
}
void nextValue()
{
p_state_->next();
}
Bool hasAttribute(const String & attributeName)
{
return mgr_.hasAttribute( p_state_, attributeName );
}
template <typename _Tp>
inline
Advocate & saveAttribute(const String & attributeName, const _Tp & attributeValue)
{
checkSavedAttribute( attributeName );
mgr_.addAttribute( p_obj_, attributeName, attributeValue );
return *this;
}
template <typename _Tp>
inline
Advocate & saveIndexedValue(long attributeIndex, const _Tp & attributeValue)
{
mgr_.addIndexedValue( p_obj_, attributeIndex, attributeValue );
return *this;
}
template <typename _Tp>
inline
Advocate & loadAttribute(const String & attributeName, _Tp & attributeValue)
{
mgr_.readAttribute( p_state_, attributeName, attributeValue );
return *this;
}
template <typename _Tp>
inline
Advocate & loadIndexedValue(long attributeIndex, _Tp & attributeValue)
{
mgr_.readIndexedValue( p_state_, attributeIndex, attributeValue );
return *this;
}
private:
StorageManager & mgr_;
Pointer<StorageManager::InternalObject> p_state_;
Pointer<StorageManager::InternalObject> p_obj_;
Bool studyVisible_;
String label_;
std::set<String> savedAttributes_;
void checkSavedAttribute(const String & attributeName)
{
#ifdef SAVELOAD_CHECKING
if (savedAttributes_.insert(attributeName).second == false)
throw InternalException(HERE) << "Attribute '" << attributeName << "' is already saved. Report bug";
#endif
}
}; /* end class Advocate */
template <typename _Tp>
struct PtrTraits
{
typedef _Tp value_type;
typedef ptrdiff_t difference_type;
typedef _Tp * pointer;
typedef _Tp & reference;
};
template <typename _Tp>
class AdvocateIterator
{
Advocate advocate_;
long index_;
Bool first_;
public:
typedef typename PtrTraits<_Tp>::value_type value_type;
typedef typename PtrTraits<_Tp>::difference_type difference_type;
typedef typename PtrTraits<_Tp>::pointer pointer;
typedef typename PtrTraits<_Tp>::reference reference;
typedef std::output_iterator_tag iterator_category;
explicit AdvocateIterator(Advocate & advocate) : advocate_(advocate), index_(0), first_(true) {}
AdvocateIterator &
operator = (const _Tp & value)
{
advocate_.saveIndexedValue( index_, value );
++index_;
return *this;
}
AdvocateIterator &
operator = (const AdvocateIterator & other )
{
// Copy-assignment does not make sense on different advocate_
if (&advocate_ != &other.advocate_)
throw InternalException(HERE) << "Wrong advocates in copy assignment. Report bug";
index_ = other.index_;
first_ = other.first_;
return *this;
}
_Tp operator () ()
{
_Tp value;
if (first_)
{
advocate_.firstValue();
first_ = false;
}
advocate_.loadIndexedValue( index_, value );
advocate_.nextValue();
++index_;
return value;
}
AdvocateIterator & operator * ()
{
return *this;
}
AdvocateIterator & operator ++ ()
{
return *this;
}
AdvocateIterator & operator ++ (int)
{
return *this;
}
}; /* end class AdvocateIterator */
#endif /* SWIG */
END_NAMESPACE_OPENTURNS
#endif /* OPENTURNS_STORAGEMANAGER_HXX */
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