stat.h File Reference

Definitions of statistics functions and classes. More...

#include <cmath>
#include <itpp/base/vec.h>
#include <itpp/base/mat.h>
#include <itpp/base/elmatfunc.h>
#include <itpp/base/matfunc.h>

Go to the source code of this file.

Namespaces

namespace itpp

Classes

class itpp::Stat

A class for sampling a signal and calculating statistics. More...

Functions

template<class T>

T max (const Vec< T > &v)

Maximum value of vector.

template<class T>

T max (const Vec< T > &v, int &index)

Maximum value of vector, also returns the index position of max value.

template<class T>

Vec< T > max (const Mat< T > &m, int dim=1)

template<class T>

Vec< T > max (const Mat< T > &m, ivec &index, int dim=1)

template<class T>

T min (const Vec< T > &in)

Minimum value of vector.

template<class T>

T min (const Vec< T > &in, int &index)

Minimum value of vector, also returns the index position of min value.

template<class T>

Vec< T > min (const Mat< T > &m, int dim=1)

template<class T>

Vec< T > min (const Mat< T > &m, ivec &index, int dim=1)

template<class T>

int max_index (const Vec< T > &in)

Return the postion of the maximum element in the vector.

template<class T>

void max_index (const Mat< T > &m, int &row, int &col)

Return the postion of the maximum element in the matrix.

template<class T>

int min_index (const Vec< T > &in)

Return the postion of the minimum element in the vector.

template<class T>

void min_index (const Mat< T > &m, int &row, int &col)

Return the postion of the minimum element in the matrix.

template<class T>

double geometric_mean (const Vec< T > &v)

The geometric mean value.

template<class T>

double median (const Vec< T > &v)

The median.

template<class T>

double norm (const Vec< T > &v)

Calculate the 2-norm: norm(v)=sqrt(sum(abs(v).^2)).

template<class T>

double norm (const Vec< T > &v, int p)

Calculate the p-norm: norm(v,p)=sum(abs(v).^2)^(1/p).

template<class T>

double norm (const Vec< T > &v, const std::string &s)

Calculate the frobeniuos norm for s = "fro" (equal to 2-norm).

template<class T>

double variance (const Vec< T > &v)

The variance of the elements in the vector. Normalized with N-1 to be unbiased.

template<class T>

double energy (const Vec< T > &v)

Calculate the energy: squared 2-norm. energy(v)=sum(abs(v).^2).

bool within_tolerance (double x, double xref, double tol=1e-14)

Return true if the input value x is within the tolerance tol of the reference value xref.

bool within_tolerance (std::complex< double > x, std::complex< double > xref, double tol=1e-14)

Return true if the input value x is within the tolerance tol of the reference value xref.

bool within_tolerance (const vec &x, const vec &xref, double tol=1e-14)

Return true if the input vector x is elementwise within the tolerance tol of the reference vector xref.

bool within_tolerance (const cvec &x, const cvec &xref, double tol=1e-14)

Return true if the input vector x is elementwise within the tolerance tol of the reference vector xref.

bool within_tolerance (const mat &X, const mat &Xref, double tol=1e-14)

Return true if the input matrix X is elementwise within the tolerance tol of the reference matrix Xref.

bool within_tolerance (const cmat &X, const cmat &Xref, double tol=1e-14)

Return true if the input matrix X is elementwise within the tolerance tol of the reference matrix Xref.

double kurtosis (const vec &x)

Calculate the kurtosis of the input vector x.

Detailed Description

Definitions of statistics functions and classes.

Author:: Tony Ottosson, Johan Bergman and Adam Piatyszek

Date: 2007-04-18 08:58:29 +0200 (Wed, 18 Apr 2007)

Revision: 1013

-------------------------------------------------------------------------

IT++ - C++ library of mathematical, signal processing, speech processing, and communications classes and functions

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 2 of the License, or (at your option) any later version.

This program 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 General Public License for more details.

You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA

-------------------------------------------------------------------------

Definition in file stat.h.

Generated on Fri Jan 11 08:51:39 2008 for IT++ by Doxygen 1.3.9.1


Namespaces
namespace	itpp
Classes
class	itpp::Stat
	A class for sampling a signal and calculating statistics. More...
Functions
template<class T>
T	max (const Vec< T > &v)
	Maximum value of vector.
template<class T>
T	max (const Vec< T > &v, int &index)
	Maximum value of vector, also returns the index position of max value.
template<class T>
Vec< T >	max (const Mat< T > &m, int dim=1)
template<class T>
Vec< T >	max (const Mat< T > &m, ivec &index, int dim=1)
template<class T>
T	min (const Vec< T > &in)
	Minimum value of vector.
template<class T>
T	min (const Vec< T > &in, int &index)
	Minimum value of vector, also returns the index position of min value.
template<class T>
Vec< T >	min (const Mat< T > &m, int dim=1)
template<class T>
Vec< T >	min (const Mat< T > &m, ivec &index, int dim=1)
template<class T>
int	max_index (const Vec< T > &in)
	Return the postion of the maximum element in the vector.
template<class T>
void	max_index (const Mat< T > &m, int &row, int &col)
	Return the postion of the maximum element in the matrix.
template<class T>
int	min_index (const Vec< T > &in)
	Return the postion of the minimum element in the vector.
template<class T>
void	min_index (const Mat< T > &m, int &row, int &col)
	Return the postion of the minimum element in the matrix.
template<class T>
double	geometric_mean (const Vec< T > &v)
	The geometric mean value.
template<class T>
double	median (const Vec< T > &v)
	The median.
template<class T>
double	norm (const Vec< T > &v)
	Calculate the 2-norm: norm(v)=sqrt(sum(abs(v).^2)).
template<class T>
double	norm (const Vec< T > &v, int p)
	Calculate the p-norm: norm(v,p)=sum(abs(v).^2)^(1/p).
template<class T>
double	norm (const Vec< T > &v, const std::string &s)
	Calculate the frobeniuos norm for s = "fro" (equal to 2-norm).
template<class T>
double	variance (const Vec< T > &v)
	The variance of the elements in the vector. Normalized with N-1 to be unbiased.
template<class T>
double	energy (const Vec< T > &v)
	Calculate the energy: squared 2-norm. energy(v)=sum(abs(v).^2).
bool	within_tolerance (double x, double xref, double tol=1e-14)
	Return true if the input value `x` is within the tolerance `tol` of the reference value `xref`.
bool	within_tolerance (std::complex< double > x, std::complex< double > xref, double tol=1e-14)
	Return true if the input value `x` is within the tolerance `tol` of the reference value `xref`.
bool	within_tolerance (const vec &x, const vec &xref, double tol=1e-14)
	Return true if the input vector `x` is elementwise within the tolerance `tol` of the reference vector `xref`.
bool	within_tolerance (const cvec &x, const cvec &xref, double tol=1e-14)
	Return true if the input vector `x` is elementwise within the tolerance `tol` of the reference vector `xref`.
bool	within_tolerance (const mat &X, const mat &Xref, double tol=1e-14)
	Return true if the input matrix `X` is elementwise within the tolerance `tol` of the reference matrix `Xref`.
bool	within_tolerance (const cmat &X, const cmat &Xref, double tol=1e-14)
	Return true if the input matrix `X` is elementwise within the tolerance `tol` of the reference matrix `Xref`.
double	kurtosis (const vec &x)
	Calculate the kurtosis of the input vector x.