RangeCalculator Class Reference

A simple Range check that return in_range_val if within range and returns out_range_val if outside range. More...

#include <RepProcess.h>

Inheritance diagram for RangeCalculator:

Public Member Functions
int	init (map< string, string > &mapper)
void	validate_arguments (const vector< string > &input_signals, const vector< string > &output_signals) const
	validates correctness of inputs
void	list_output_signals (const vector< string > &input_signals, vector< pair< string, string > > &_virtual_signals, const string &output_type)
	list output signals with default naming
bool	do_calc (const vector< float > &vals, float &res) const
	the calc option
Public Member Functions inherited from SimpleCalculator
virtual void	init_tables (MedDictionarySections &dict, MedSignals &sigs, const vector< string > &input_signals)
	init operator based on repo if needed
virtual void	get_required_signal_categories (unordered_map< string, vector< string > > &signal_categories_in_use) const
virtual void	fit_for_repository (MedPidRepository &rep, vector< pair< string, string > > &_virtual_signals)
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)
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

Data Fields
float	min_range
	min range check
float	max_range
	max range check
float	in_range_val = 1
	return value when within range
float	out_range_val = 0
	return value when not within range
Data Fields inherited from SimpleCalculator
vector< string >	output_signal_names
float	missing_value = (float)MED_MAT_MISSING_VALUE
	missing value
string	calculator_name = ""
	just for debuging
int	work_channel = 0
	the working channel
bool	need_time = false
	if needed time
bool	keep_only_in_range = false
	keeps only in range values

Additional Inherited Members
Static Public Member Functions inherited from SimpleCalculator
static SimpleCalculator *	make_calculator (const string &calc_type)

Detailed Description

A simple Range check that return in_range_val if within range and returns out_range_val if outside range.

Member Function Documentation

do_calc()

bool RangeCalculator::do_calc ( const vector< float > &  vals, float &  res  ) const

virtual

the calc option

Reimplemented from SimpleCalculator.

init()

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

virtual

        if (it->first == "min_range")
            min_range = stof(it->second);
        else if (it->first == "max_range")
            max_range = stof(it->second);
        else if (it->first == "in_range_val")
            in_range_val = stof(it->second);
        else if (it->first == "out_range_val")
            out_range_val = stof(it->second);
        else
            MTHROW_AND_ERR("Error in SumCalculator::init - Unsupported argument \"%s\"\n",
                it->first.c_str());

[RangeCalculator::init]

[RangeCalculator::init]

Reimplemented from SimpleCalculator.

list_output_signals()

void RangeCalculator::list_output_signals ( const vector< string > &  input_signals, vector< pair< string, string > > &  _virtual_signals, const string &  output_type  )

virtual

list output signals with default naming

Reimplemented from SimpleCalculator.

validate_arguments()

void RangeCalculator::validate_arguments ( const vector< string > &  input_signals, const vector< string > &  output_signals  ) const

virtual

validates correctness of inputs

Reimplemented from SimpleCalculator.

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

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