ROCCurves show the trade-off in sensitivity and specificity for binary classifiers using different cutoff values. More...

#include <OpenMS/ML/ROCCURVE/ROCCurve.h>

Collaboration diagram for ROCCurve:

[legend]

Classes
class	simsortdec
	predicate for sort() More...

Public Member Functions
	ROCCurve ()
	default constructor More...

	ROCCurve (const std::vector< std::pair< double, bool >> &pairs)
	constructor with value, class pairs More...

virtual	~ROCCurve ()=default
	destructor More...

	ROCCurve (const ROCCurve &source)
	copy constructor More...

ROCCurve &	operator= (const ROCCurve &source)
	assignment operator More...

void	insertPair (double score, bool clas)
	insert score, type pair More...

double	AUC ()
	returns Area Under Curve More...

double	rocN (Size N)
	returns ROC-N score (e.g. ROC-50). Returns -1 if not enough false positives were found More...

std::vector< std::pair< double, double > >	curve (UInt resolution=10)
	some points in the ROC Curve More...

double	cutoffPos (double fraction=0.95)

double	cutoffNeg (double fraction=0.95)

Private Member Functions
void	sort ()
	sorts data and caches if sorted More...

void	count ()
	counts global pos and neg More...

double	trapezoidal_area (double x1, double x2, double y1, double y2)

Private Attributes
std::vector< std::pair< double, bool > >	score_clas_pairs_

UInt	pos_ {}

UInt	neg_ {}

bool	sorted_ {}

Detailed Description

ROCCurves show the trade-off in sensitivity and specificity for binary classifiers using different cutoff values.

[This class is buggy and usage is discouraged!]

Constructor & Destructor Documentation

◆ ROCCurve() [1/3]

ROCCurve ( )

default constructor

◆ ROCCurve() [2/3]

ROCCurve ( const std::vector< std::pair< double, bool >> & pairs )

explicit

constructor with value, class pairs

◆ ~ROCCurve()

virtual ~ROCCurve ( )

virtualdefault

destructor

◆ ROCCurve() [3/3]

ROCCurve ( const ROCCurve & source )

copy constructor

Member Function Documentation

◆ AUC()

double AUC ( )

returns Area Under Curve

◆ count()

void count ( )

inlineprivate

counts global pos and neg

◆ curve()

std::vector<std::pair<double, double> > curve ( UInt resolution = 10 )

some points in the ROC Curve

◆ cutoffNeg()

double cutoffNeg ( double fraction = 0.95 )

returns the score at which you would need to set a cutoff to have fraction positives returns -1 if there are not enough positives

◆ cutoffPos()

double cutoffPos ( double fraction = 0.95 )

returns the score at which you would need to set a cutoff to have fraction positives returns -1 if there are not enough positives

◆ insertPair()

void insertPair	(	double	score,
		bool	clas
	)

insert score, type pair

◆ operator=()

ROCCurve& operator= ( const ROCCurve & source )

assignment operator

◆ rocN()

double rocN ( Size N )

returns ROC-N score (e.g. ROC-50). Returns -1 if not enough false positives were found

◆ sort()

void sort ( )

inlineprivate

sorts data and caches if sorted

◆ trapezoidal_area()

double trapezoidal_area	(	double	x1,
		double	x2,
		double	y1,
		double	y2
	)

inlineprivate

calculates area with trapezoidal rule

Parameters

x1,x2,y1,y2

Member Data Documentation

◆ neg_

UInt neg_ {}

private

◆ pos_

UInt pos_ {}

private

◆ score_clas_pairs_

std::vector<std::pair<double, bool> > score_clas_pairs_

private

◆ sorted_

bool sorted_ {}

private

Classes

Public Member Functions

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

◆ ROCCurve() [1/3]

◆ ROCCurve() [2/3]

◆ ~ROCCurve()

◆ ROCCurve() [3/3]

Member Function Documentation

◆ AUC()

◆ count()

◆ curve()

◆ cutoffNeg()

◆ cutoffPos()

◆ insertPair()

◆ operator=()

◆ rocN()

◆ sort()

◆ trapezoidal_area()

Member Data Documentation

◆ neg_

◆ pos_

◆ score_clas_pairs_

◆ sorted_