RepSimValHandler Class Reference

Inheritance diagram for RepSimValHandler:

Public Member Functions
	RepSimValHandler ()
	default constructor
	RepSimValHandler (const string &_signalName)
	default constructor + setting signal name
	RepSimValHandler (const string &_signalName, string init_string)
	default constructor + setting signal name + initialize from string
void	set_signal (const string &_signalName)
	Set signal name and fill affected and required signals sets.
void	set_signal_ids (MedSignals &sigs)
	Set signal id.
virtual int	init (map< string, string > &mapper)
	The parsed fields from init command.
void	init_lists ()
	Fill req- and aff-signals vectors.
void	init_tables (MedDictionarySections &dict, MedSignals &sigs)
	init tables - get time-channels
void	init_attributes ()
	Init attributes information : Should be implemented for inheriting classes that have attributes.
int	_apply (PidDynamicRec &rec, vector< int > &time_points, vector< vector< float > > &attributes_mat)
	Apply multiple-value handling.
Public Member Functions inherited from RepProcessor
virtual void	clear ()
virtual int	init (void *params)
	initialize from a params object : Should be implemented for inheriting classes that have parameters
virtual void	init_defaults ()
	initialize to default values : Should be implemented for inheriting classes that have parameters
virtual void	get_required_signal_names (unordered_set< string > &signalNames)
	Append required signal names to set : parent function just uses req_signals.
virtual void	get_required_signal_names (unordered_set< string > &signalNames, unordered_set< string > preReqSignals)
	Append required signal names to set only if processor is actually required to produce any of preReqSignals : parent function just uses req_signals.
virtual void	set_required_signal_ids (MedDictionarySections &dict)
	Fill req_signal_ids : parent function just fills from req_signals.
virtual void	add_virtual_signals (map< string, int > &_virtual_signals, map< string, string > &_virtual_signals_generic) const
	rep processors CREATING virtual signals need to implement this: adding their signals to the pile
virtual void	get_required_signal_ids (unordered_set< int > &signalIds)
	Append required signal names to set : parent function just uses req_signals.
virtual void	get_required_signal_ids (unordered_set< int > &signalIds, unordered_set< int > preReqSignals)
	Append required signal names to set only if processor is actually required to produce any of preReqSignals : parent function just uses req_signals.
virtual void	set_affected_signal_ids (MedDictionarySections &dict)
	Fill aff_signal_ids : parent function just fills from aff_signals.
bool	is_signal_affected (int signalId)
	Check if a signal is affected by processor </summray> Returns true if affected, false if not
bool	is_signal_affected (string &signalName)
virtual void	fit_for_repository (MedPidRepository &rep)
	make changes to RepProcessor according to available signals in Repository
virtual void	register_virtual_section_name_id (MedDictionarySections &dict)
	Register section id to section name of new virtual signals.
virtual bool	filter (unordered_set< string > &reqSignals)
	Check if processor (and 'sub'-processors within) should be applied according to set of required signals </summray> Returns true if processor is not required and can be filtered, false otherwise
virtual int	_learn (MedPidRepository &rep, MedSamples &samples, vector< RepProcessor * > &prev_processors)
	learn processing model on a subset of samples. Apply set of preceeding processors on DynamicPidRec before learning :
virtual int	_conditional_learn (MedPidRepository &rep, MedSamples &samples, vector< RepProcessor * > &prev_processors, unordered_set< int > &neededSignalIds)
	learn processing model on a subset of samples only if required. Apply set of preceeding processors on DynamicPidRec before learning :
int	learn (MedPidRepository &rep, MedSamples &samples, vector< RepProcessor * > &prev_processors)
	learn processing model on a subset of ids. Apply set of preceeding processors on DynamicPidRec before learning
int	learn (MedPidRepository &rep)
	learn on all pids in repository, using fake samples - works only for repProcessors that ignore sample dates
int	learn (MedPidRepository &rep, MedSamples &samples)
	learn on subset of samples without preceesing processors
virtual int	conditional_learn (MedPidRepository &rep, MedSamples &samples, vector< RepProcessor * > &prev_processors, unordered_set< int > &neededSignalIds)
	learn processing model on a subset of samples only if required. Apply set of preceeding processors on DynamicPidRec before learning :
int	conditional_learn (MedPidRepository &rep, MedSamples &samples, unordered_set< int > &neededSignalIds)
	learn processing model on a subset of ids only if required without preceesing processors
virtual int	_conditional_apply (PidDynamicRec &rec, vector< int > &time_points, unordered_set< int > &neededSignalIds, vector< vector< float > > &attributes_vals)
	apply processing on a single PidDynamicRec at a set of time-points only if required : May be implemented for inheriting classes
virtual int	_apply_simple (PidDynamicRec &rec, vector< int > &time_points)
int	apply (PidDynamicRec &rec, vector< int > &time_points, vector< vector< float > > &attributes_vals)
	apply processing on a single PidDynamicRec at a set of time-points
int	conditional_apply (PidDynamicRec &rec, vector< int > &time_points, unordered_set< int > &neededSignalIds, vector< vector< float > > &attributes_vals)
	apply processing on a single PidDynamicRec at a set of time-points only if required : if any of the signals in neededSignalIds is actually affected by processor
int	apply (PidDynamicRec &rec, MedIdSamples &samples)
	apply processing on a single PidDynamicRec at a set of time-points given by samples
int	conditional_apply (PidDynamicRec &rec, MedIdSamples &samples, unordered_set< int > &neededSignalIds)
	apply processing on a single PidDynamicRec at a set of time-points given by samples only if required
int	conditional_apply_without_attributes (PidDynamicRec &rec, const MedIdSamples &samples, unordered_set< int > &neededSignalIds)
	apply processing on a single PidDynamicRec at a set of time-points given by samples only if required, not affecting attributes
virtual void	dprint (const string &pref, int rp_flag)
	used for debug prints, each inheriting class can overload this one to get a more precise debug print.
virtual void	make_summary ()
virtual void	get_required_signal_categories (unordered_map< string, vector< string > > &signal_categories_in_use) const
	returns for each used signal it's used categories
void *	new_polymorphic (string derived_class_name)
	for polymorphic classes that want to be able to serialize/deserialize a pointer * to the derived class given its type one needs to implement this function to return a new to the derived class given its type (as in my_type)
size_t	get_processor_size ()
	get size of processor + processor_type
size_t	processor_serialize (unsigned char *blob)
	seialize processor + processor_type
virtual void	print ()
	optional printing of processor
Public Member Functions inherited from SerializableObject
virtual int	version () const
	Relevant for serializations.
virtual string	my_class_name () const
	For better handling of serializations it is highly recommended that each SerializableObject inheriting class will implement the next method.
virtual void	serialized_fields_name (vector< string > &field_names) const
	The names of the serialized fields.
virtual void	pre_serialization ()
virtual void	post_deserialization ()
virtual size_t	get_size ()
	Gets bytes sizes for serializations.
virtual size_t	serialize (unsigned char *blob)
	Serialiazing object to blob memory. return number ob bytes wrote to memory.
virtual size_t	deserialize (unsigned char *blob)
	Deserialiazing blob to object. returns number of bytes read.
size_t	serialize_vec (vector< unsigned char > &blob)
size_t	deserialize_vec (vector< unsigned char > &blob)
virtual size_t	serialize (vector< unsigned char > &blob)
virtual size_t	deserialize (vector< unsigned char > &blob)
virtual int	read_from_file (const string &fname)
	read and deserialize model
virtual int	write_to_file (const string &fname)
	serialize model and write to file
virtual int	read_from_file_unsafe (const string &fname)
	read and deserialize model without checking version number - unsafe read
int	init_from_string (string init_string)
	Init from string.
int	init_params_from_file (string init_file)
int	init_param_from_file (string file_str, string &param)
int	update_from_string (const string &init_string)
virtual int	update (map< string, string > &map)
	Virtual to update object from parsed fields.
virtual string	object_json () const

Static Public Member Functions
static SimValHandleTypes	get_sim_val_handle_type (string &name)
	get SimHandleType from name
Static Public Member Functions inherited from RepProcessor
static RepProcessor *	make_processor (string name)
	create a new repository processor from name
static RepProcessor *	make_processor (string type, string params)
	create a new repository processor from name and a parameters string
static RepProcessor *	make_processor (RepProcessorTypes type)
	create a new repository processor from type
static RepProcessor *	make_processor (RepProcessorTypes type, string params)
	create a new repository processor from type and a parameters string
static RepProcessor *	create_processor (string &params)
	create a new repository processor from parameters string which contains rp_type

Data Fields
string	signalName
	name of signal to handle
int	signalId
	id of signal to handle
vector< int >	time_channels
	time channels to consider. All if empty
SimValHandleTypes	handler_type
	type of handling multiple-values
int	nValChannels
	number of value-channels, important for rem-diff and mean modes
string	nHandle_attr = ""
	Attribute name (in sample) for number of multiple-values handled. not recorded if empty.
string	nHandle_attr_suffix = ""
	Attribute suffix (name is sample is signalName_suffix) for number of multiple-values handled. not recorded if empty.
bool	debug = false
	If True will print out till 3 examples for samples have been changed.
Data Fields inherited from RepProcessor
RepProcessorTypes	processor_type = REP_PROCESS_LAST
	type of repository processor
unordered_set< string >	req_signals
	names of signals required for processsing
unordered_set< int >	req_signal_ids
	ids of signals required for processing
unordered_set< string >	aff_signals
	names of signals affected by processing
unordered_set< int >	aff_signal_ids
	ids of signals affected by processing
bool	unconditional = false
	indicated that processor should ALWAYS be applied
vector< string >	attributes
	attributes generated by the processor (optional)
vector< pair< string, int > >	virtual_signals
	virtual signals are created only in rep processors but can be used by any rep processor that comes after or any feture generator as a regular signal.
vector< pair< string, string > >	virtual_signals_generic

Member Function Documentation

_apply()

int RepSimValHandler::_apply ( PidDynamicRec &  rec, vector< int > &  time_points, vector< vector< float > > &  attributes_mat  )

virtual

Apply multiple-value handling.

Reimplemented from RepProcessor.

get_sim_val_handle_type()

SimValHandleTypes RepSimValHandler::get_sim_val_handle_type ( string &  name )

static

get SimHandleType from name

    if (name == "first" || name == "first_val")
        return SIM_VAL_FIRST_VAL;
    else if (name == "last" || name == "last_val")
        return SIM_VAL_LAST_VAL;
    else if (name == "mean" || name == "avg")
        return SIM_VAL_MEAN;
    else if (name == "rem" || name == "remvoe")
        return SIM_VAL_REM;
    else if (name == "rem_diff" || name == "remove_diff")
        return SIM_VAL_REM_DIFF;
    else if (name == "min")
        return SIM_VAL_MIN;
    else if (name == "max")
        return SIM_VAL_MAX;
    else
        MTHROW_AND_ERR("Unkwnon sim_val_hand_type \'%s\'\n", name.c_str());

[RepSimValHandler::get_sim_val_handle_type]

[RepSimValHandler::get_sim_val_handle_type]

init()

int RepSimValHandler::init ( map< string, string > &  mapper )

virtual

The parsed fields from init command.

        if (field == "signal")
        {
            signalName = entry.second;
        }
        else if (field == "type")
            handler_type = get_sim_val_handle_type(entry.second);
        else if (field == "debug")
            debug = stoi(entry.second) > 0;
        else if (field == "unconditional")
            unconditional = stoi(entry.second) > 0;
        else if (field == "time_channels")
        {
            vector<string> channels;
            boost::split(channels, entry.second, boost::is_any_of(","));
            for (auto &channel : channels)
                time_channels.push_back(stoi(channel));
        }
        else if (field == "attr")
            nHandle_attr = entry.second;
        else if (field == "suff")
            nHandle_attr_suffix = entry.second;

[RepSimValHandler::init]

[RepSimValHandler::init]

Reimplemented from RepProcessor.

init_attributes()

void RepSimValHandler::init_attributes ( )

virtual

Init attributes information : Should be implemented for inheriting classes that have attributes.

Reimplemented from RepProcessor.

init_tables()

void RepSimValHandler::init_tables ( MedDictionarySections &  dict, MedSignals &  sigs  )

virtual

init tables - get time-channels

Reimplemented from RepProcessor.

set_signal()

void RepSimValHandler::set_signal ( const string &  _signalName )

inlinevirtual

Set signal name and fill affected and required signals sets.

Reimplemented from RepProcessor.

set_signal_ids()

void RepSimValHandler::set_signal_ids ( MedSignals &  sigs )

inlinevirtual

Set signal id.

Reimplemented from RepProcessor.

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The documentation for this class was generated from the following files:

• Internal/MedProcessTools/MedProcessTools/RepProcess.h
• Internal/MedProcessTools/MedProcessTools/RepProcess.cpp