/usr/include/shogun/base/SGObject.h is in libshogun-dev 3.2.0-7.3build4.
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* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* Written (W) 2008-2010 Soeren Sonnenburg
* Written (W) 2011-2013 Heiko Strathmann
* Written (W) 2013 Thoralf Klein
* Copyright (C) 2008-2010 Fraunhofer Institute FIRST and Max Planck Society
*/
#ifndef __SGOBJECT_H__
#define __SGOBJECT_H__
#include <shogun/lib/config.h>
#include <shogun/lib/common.h>
#include <shogun/lib/DataType.h>
#include <shogun/base/SGRefObject.h>
#include <shogun/lib/ShogunException.h>
#include <shogun/base/Parallel.h>
#include <shogun/base/Version.h>
#include <shogun/io/SGIO.h>
/** \namespace shogun
* @brief all of classes and functions are contained in the shogun namespace
*/
namespace shogun
{
class IO;
class Parallel;
class Version;
class Parameter;
class ParameterMap;
class SGParamInfo;
class SGRefObject;
class CSerializableFile;
template <class T, class K> class CMap;
struct TParameter;
template <class T> class DynArray;
template <class T> class SGStringList;
/*******************************************************************************
* Macros for registering parameters/model selection parameters
******************************************************************************/
#define VA_NARGS_IMPL(_1, _2, _3, _4, _5, N, ...) N
#define VA_NARGS(...) VA_NARGS_IMPL(__VA_ARGS__, 5, 4, 3, 2, 1)
#define VARARG_IMPL2(base, count, ...) base##count(__VA_ARGS__)
#define VARARG_IMPL(base, count, ...) VARARG_IMPL2(base, count, __VA_ARGS__)
#define VARARG(base, ...) VARARG_IMPL(base, VA_NARGS(__VA_ARGS__), __VA_ARGS__)
#define SG_ADD4(param, name, description, ms_available) {\
m_parameters->add(param, name, description);\
if (ms_available)\
m_model_selection_parameters->add(param, name, description);\
}
#define SG_ADD5(param, name, description, ms_available, gradient_available) {\
m_parameters->add(param, name, description);\
if (ms_available)\
m_model_selection_parameters->add(param, name, description);\
if (gradient_available)\
m_gradient_parameters->add(param, name, description);\
}
#define SG_ADD(...) VARARG(SG_ADD, __VA_ARGS__)
/*******************************************************************************
* End of macros for registering parameters/model selection parameters
******************************************************************************/
/** model selection availability */
enum EModelSelectionAvailability {
MS_NOT_AVAILABLE=0,
MS_AVAILABLE=1,
};
/** gradient availability */
enum EGradientAvailability
{
GRADIENT_NOT_AVAILABLE=0,
GRADIENT_AVAILABLE=1
};
/** @brief Class SGObject is the base class of all shogun objects.
*
* Apart from dealing with reference counting that is used to manage shogung
* objects in memory (erase unused object, avoid cleaning objects when they are
* still in use), it provides interfaces for:
*
* -# parallel - to determine the number of used CPUs for a method (cf. Parallel)
* -# io - to output messages and general i/o (cf. IO)
* -# version - to provide version information of the shogun version used (cf. Version)
*
* All objects can be cloned and compared (deep copy, recursively)
*/
class CSGObject : public SGRefObject
{
public:
/** default constructor */
CSGObject();
/** copy constructor */
CSGObject(const CSGObject& orig);
/** destructor */
virtual ~CSGObject();
/** A shallow copy.
* All the SGObject instance variables will be simply assigned and SG_REF-ed.
*/
virtual CSGObject *shallow_copy() const
{
SG_NOTIMPLEMENTED
return NULL;
}
/** A deep copy.
* All the instance variables will also be copied.
*/
virtual CSGObject *deep_copy() const
{
SG_NOTIMPLEMENTED
return NULL;
}
/** Returns the name of the SGSerializable instance. It MUST BE
* the CLASS NAME without the prefixed `C'.
*
* @return name of the SGSerializable
*/
virtual const char* get_name() const = 0;
/** If the SGSerializable is a class template then TRUE will be
* returned and GENERIC is set to the type of the generic.
*
* @param generic set to the type of the generic if returning
* TRUE
*
* @return TRUE if a class template.
*/
virtual bool is_generic(EPrimitiveType* generic) const;
/** set generic type to T
*/
template<class T> void set_generic();
/** unset generic type
*
* this has to be called in classes specializing a template class
*/
void unset_generic();
/** prints registered parameters out
*
* @param prefix prefix for members
*/
virtual void print_serializable(const char* prefix="");
/** Save this object to file.
*
* @param file where to save the object; will be closed during
* returning if PREFIX is an empty string.
* @param prefix prefix for members
* @param param_version (optional) a parameter version different to (this
* is mainly for testing, better do not use)
* @return TRUE if done, otherwise FALSE
*/
virtual bool save_serializable(CSerializableFile* file,
const char* prefix="", int32_t param_version=Version::get_version_parameter());
/** Load this object from file. If it will fail (returning FALSE)
* then this object will contain inconsistent data and should not
* be used!
*
* @param file where to load from
* @param prefix prefix for members
* @param param_version (optional) a parameter version different to (this
* is mainly for testing, better do not use)
*
* @return TRUE if done, otherwise FALSE
*/
virtual bool load_serializable(CSerializableFile* file,
const char* prefix="", int32_t param_version=Version::get_version_parameter());
/** loads some specified parameters from a file with a specified version
* The provided parameter info has a version which is recursively mapped
* until the file parameter version is reached.
* Note that there may be possibly multiple parameters in the mapping,
* therefore, a set of TParameter instances is returned
*
* @param param_info information of parameter
* @param file_version parameter version of the file, must be <= provided
* parameter version
* @param file file to load from
* @param prefix prefix for members
* @return new array with TParameter instances with the attached data
*/
DynArray<TParameter*>* load_file_parameters(const SGParamInfo* param_info,
int32_t file_version, CSerializableFile* file,
const char* prefix="");
/** maps all parameters of this instance to the provided file version and
* loads all parameter data from the file into an array, which is sorted
* (basically calls load_file_parameter(...) for all parameters and puts all
* results into a sorted array)
*
* @param file_version parameter version of the file
* @param current_version version from which mapping begins (you want to use
* Version::get_version_parameter() for this in most cases)
* @param file file to load from
* @param prefix prefix for members
* @return (sorted) array of created TParameter instances with file data
*/
DynArray<TParameter*>* load_all_file_parameters(int32_t file_version,
int32_t current_version,
CSerializableFile* file, const char* prefix="");
/** Takes a set of TParameter instances (base) with a certain version and a
* set of target parameter infos and recursively maps the base level wise
* to the current version using CSGObject::migrate(...).
* The base is replaced. After this call, the base version containing
* parameters should be of same version/type as the initial target parameter
* infos.
* Note for this to work, the migrate methods and all the internal parameter
* mappings have to match
*
* @param param_base set of TParameter instances that are mapped to the
* provided target parameter infos
* @param base_version version of the parameter base
* @param target_param_infos set of SGParamInfo instances that specify the
* target parameter base */
void map_parameters(DynArray<TParameter*>* param_base,
int32_t& base_version,
DynArray<const SGParamInfo*>* target_param_infos);
/** set the io object
*
* @param io io object to use
*/
void set_global_io(SGIO* io);
/** get the io object
*
* @return io object
*/
SGIO* get_global_io();
/** set the parallel object
*
* @param parallel parallel object to use
*/
void set_global_parallel(Parallel* parallel);
/** get the parallel object
*
* @return parallel object
*/
Parallel* get_global_parallel();
/** set the version object
*
* @param version version object to use
*/
void set_global_version(Version* version);
/** get the version object
*
* @return version object
*/
Version* get_global_version();
/** @return vector of names of all parameters which are registered for model
* selection */
SGStringList<char> get_modelsel_names();
/** prints all parameter registered for model selection and their type */
void print_modsel_params();
/** Returns description of a given parameter string, if it exists. SG_ERROR
* otherwise
*
* @param param_name name of the parameter
* @return description of the parameter
*/
char* get_modsel_param_descr(const char* param_name);
/** Returns index of model selection parameter with provided index
*
* @param param_name name of model selection parameter
* @return index of model selection parameter with provided name,
* -1 if there is no such
*/
index_t get_modsel_param_index(const char* param_name);
/** Builds a dictionary of all parameters in SGObject as well of those
* of SGObjects that are parameters of this object. Dictionary maps
* parameters to the objects that own them.
*
* @param dict dictionary of parameters to be built.
*/
void build_gradient_parameter_dictionary(CMap<TParameter*, CSGObject*>* dict);
protected:
/** creates a new TParameter instance, which contains migrated data from
* the version that is provided. The provided parameter data base is used
* for migration, this base is a collection of all parameter data of the
* previous version.
* Migration is done FROM the data in param_base TO the provided param info
* Migration is always one version step.
* Method has to be implemented in subclasses, if no match is found, base
* method has to be called.
*
* If there is an element in the param_base which equals the target,
* a copy of the element is returned. This represents the case when nothing
* has changed and therefore, the migrate method is not overloaded in a
* subclass
*
* @param param_base set of TParameter instances to use for migration
* @param target parameter info for the resulting TParameter
* @return a new TParameter instance with migrated data from the base of the
* type which is specified by the target parameter
*/
virtual TParameter* migrate(DynArray<TParameter*>* param_base,
const SGParamInfo* target);
/** This method prepares everything for a one-to-one parameter migration.
* One to one here means that only ONE element of the parameter base is
* needed for the migration (the one with the same name as the target).
* Data is allocated for the target (in the type as provided in the target
* SGParamInfo), and a corresponding new TParameter instance is written to
* replacement. The to_migrate pointer points to the single needed
* TParameter instance needed for migration.
* If a name change happened, the old name may be specified by old_name.
* In addition, the m_delete_data flag of to_migrate is set to true.
* So if you want to migrate data, the only thing to do after this call is
* converting the data in the m_parameter fields.
* If unsure how to use - have a look into an example for this.
* (base_migration_type_conversion.cpp for example)
*
* @param param_base set of TParameter instances to use for migration
* @param target parameter info for the resulting TParameter
* @param replacement (used as output) here the TParameter instance which is
* returned by migration is created into
* @param to_migrate the only source that is used for migration
* @param old_name with this parameter, a name change may be specified
*
*/
virtual void one_to_one_migration_prepare(DynArray<TParameter*>* param_base,
const SGParamInfo* target, TParameter*& replacement,
TParameter*& to_migrate, char* old_name=NULL);
/** Can (optionally) be overridden to pre-initialize some member
* variables which are not PARAMETER::ADD'ed. Make sure that at
* first the overridden method BASE_CLASS::LOAD_SERIALIZABLE_PRE
* is called.
*
* @exception ShogunException Will be thrown if an error
* occurres.
*/
virtual void load_serializable_pre() throw (ShogunException);
/** Can (optionally) be overridden to post-initialize some member
* variables which are not PARAMETER::ADD'ed. Make sure that at
* first the overridden method BASE_CLASS::LOAD_SERIALIZABLE_POST
* is called.
*
* @exception ShogunException Will be thrown if an error
* occurres.
*/
virtual void load_serializable_post() throw (ShogunException);
/** Can (optionally) be overridden to pre-initialize some member
* variables which are not PARAMETER::ADD'ed. Make sure that at
* first the overridden method BASE_CLASS::SAVE_SERIALIZABLE_PRE
* is called.
*
* @exception ShogunException Will be thrown if an error
* occurres.
*/
virtual void save_serializable_pre() throw (ShogunException);
/** Can (optionally) be overridden to post-initialize some member
* variables which are not PARAMETER::ADD'ed. Make sure that at
* first the overridden method BASE_CLASS::SAVE_SERIALIZABLE_POST
* is called.
*
* @exception ShogunException Will be thrown if an error
* occurres.
*/
virtual void save_serializable_post() throw (ShogunException);
public:
/** Updates the hash of current parameter combination.
*
* @return bool if parameter combination has changed since last
* update.
*/
virtual bool update_parameter_hash();
/** Recursively compares the current SGObject to another one. Compares all
* registered numerical parameters, recursion upon complex (SGObject)
* parameters. Does not compare pointers!
*
* May be overwritten but please do with care! Should not be necessary in
* most cases.
*
* @param other object to compare with
* @param accuracy accuracy to use for comparison (optional)
* @return true if all parameters were equal, false if not
*/
virtual bool equals(CSGObject* other, float64_t accuracy=0.0);
/** Creates a clone of the current object. This is done via recursively
* traversing all parameters, which corresponds to a deep copy.
* Calling equals on the cloned object always returns true although none
* of the memory of both objects overlaps.
*
* @return an identical copy of the given object, which is disjoint in memory.
* NULL if the clone fails. Note that the returned object is SG_REF'ed
*/
virtual CSGObject* clone();
private:
void set_global_objects();
void unset_global_objects();
void init();
/** Checks in the underlying parameter mapping if this parameter leads to
* the empty parameter which means that it was newly added in this version
*
* @param param_info parameter information of that parameter
*/
bool is_param_new(const SGParamInfo param_info) const;
/** stores the current parameter version in the provided file
* @param file file to stort parameter in
* @param prefix prefix for the save
* @param param_version (optionally) a parameter version different to (this
* is mainly for testing, better do not use)
* current one may be specified
* @return true iff successful
*/
bool save_parameter_version(CSerializableFile* file, const char* prefix="",
int32_t param_version=Version::get_version_parameter());
/** loads the parameter version of the provided file.
* @return parameter version of file, -1 if there is no such
*/
int32_t load_parameter_version(CSerializableFile* file,
const char* prefix="");
/*Gets an incremental hash of all parameters as well as the parameters
* of CSGObject children of the current object's parameters.
*
* @param param Parameter to hash
* @param current hash
* @param carry value for Murmur3 incremental hash
* @param total_length total byte length of all hashed
* parameters so far. Byte length of parameters will be added
* to the total length
*/
void get_parameter_incremental_hash(Parameter* param,
uint32_t& hash, uint32_t& carry, uint32_t& total_length);
public:
/** io */
SGIO* io;
/** parallel */
Parallel* parallel;
/** version */
Version* version;
/** parameters */
Parameter* m_parameters;
/** model selection parameters */
Parameter* m_model_selection_parameters;
/** parameters wrt which we can compute gradients */
Parameter* m_gradient_parameters;
/** map for different parameter versions */
ParameterMap* m_parameter_map;
/** Hash of parameter values*/
uint32_t m_hash;
private:
EPrimitiveType m_generic;
bool m_load_pre_called;
bool m_load_post_called;
bool m_save_pre_called;
bool m_save_post_called;
};
}
#endif // __SGOBJECT_H__
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