Welcome to IT++!

Definitions of a set of functions for Fix, Fixed, CFix and CFixed classes. More...

#include <itpp/fixed/cfix.h>
#include <itpp/base/vec.h>
#include <itpp/base/mat.h>
#include <itpp/base/array.h>
#include <itpp/base/converters.h>
#include <itpp/itexports.h>

Go to the source code of this file.

Namespaces
namespace	itpp
	itpp namespace

Functions
template<class T >
bool	itpp::is_fix (const T &)
	Return true only if argument is of type Fix or CFix (or an Array/Vec/Mat of Fix or CFix)

template<>
bool	itpp::is_fix (const Fix &)
	Return true only if argument is of type Fix or CFix (or an Array/Vec/Mat of Fix or CFix)

template<>
bool	itpp::is_fix (const fixvec &)
	Return true only if argument is of type Fix or CFix (or an Array/Vec/Mat of Fix or CFix)

template<>
bool	itpp::is_fix (const fixmat &)
	Return true only if argument is of type Fix or CFix (or an Array/Vec/Mat of Fix or CFix)

template<>
bool	itpp::is_fix (const CFix &)
	Return true only if argument is of type Fix or CFix (or an Array/Vec/Mat of Fix or CFix)

template<class T >
bool	itpp::is_fix (const Array< T > &)
	Return true only if argument is of type Fix or CFix (or an Array/Vec/Mat of Fix or CFix)

void	itpp::set_fix (Fix &y, double x, int n)
	Set `y = x * pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (Fix &y, double x, int n, q_mode q)
	Set `y = x * pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (fixvec &y, const vec &x, int n)
	Set `y = x * pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (fixvec &y, const vec &x, int n, q_mode q)
	Set `y = x * pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (fixmat &y, const mat &x, int n)
	Set `y = x * pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (fixmat &y, const mat &x, int n, q_mode q)
	Set `y = x * pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (double &y, double x, int)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (double &y, double x, int, q_mode)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (vec &y, const vec &x, int)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (vec &y, const vec &x, int, q_mode)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (mat &y, const mat &x, int)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (mat &y, const mat &x, int, q_mode)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (CFix &y, std::complex< double > x, int n)
	Set `y = x * pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (CFix &y, double real, double imag, int n)
	Set `y = (real + iimag) pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (CFix &y, std::complex< double > x, int n, q_mode q)
	Set `y = x * pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (CFix &y, double real, double imag, int n, q_mode q)
	Set `y = (real + iimag) pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (cfixvec &y, const cvec &x, int n)
	Set `y = x * pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (cfixvec &y, const vec &real, const vec &imag, int n)
	Set `y = (real + iimag) pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (cfixvec &y, const cvec &x, int n, q_mode q)
	Set `y = x * pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (cfixvec &y, const vec &real, const vec &imag, int n, q_mode q)
	Set `y = (real + iimag) pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (cfixmat &y, const cmat &x, int n)
	Set `y = x * pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (cfixmat &y, const mat &real, const mat &imag, int n)
	Set `y = (real + iimag) pow2(n)` using the quantization mode of `y`.

void	itpp::set_fix (cfixmat &y, const cmat &x, int n, q_mode q)
	Set `y = x * pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (cfixmat &y, const mat &real, const mat &imag, int n, q_mode q)
	Set `y = (real + iimag) pow2(n)` using the specified quantization mode `q`.

void	itpp::set_fix (std::complex< double > &y, const std::complex< double > &x, int)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (std::complex< double > &y, double real, double imag, int)
	Set `y = real + i*imag`. Useful in templated code.

void	itpp::set_fix (std::complex< double > &y, const std::complex< double > &x, int, q_mode)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (std::complex< double > &y, double real, double imag, int, q_mode)
	Set `y = real + i*imag`. Useful in templated code.

void	itpp::set_fix (cvec &y, const cvec &x, int)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (cvec &y, const vec &real, const vec &imag, int)
	Set `y = real + i*imag`. Useful in templated code.

void	itpp::set_fix (cvec &y, const cvec &x, int, q_mode)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (cvec &y, const vec &real, const vec &imag, int, q_mode)
	Set `y = real + i*imag`. Useful in templated code.

void	itpp::set_fix (cmat &y, const cmat &x, int)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (cmat &y, const mat &real, const mat &imag, int)
	Set `y = real + i*imag`. Useful in templated code.

void	itpp::set_fix (cmat &y, const cmat &x, int, q_mode)
	Set `y = x`. Useful in templated code.

void	itpp::set_fix (cmat &y, const mat &real, const mat &imag, int, q_mode)
	Set `y = real + i*imag`. Useful in templated code.

template<class T1 , class T2 >
void	itpp::set_fix (Array< T1 > &y, const Array< T2 > &x, int n)
	Call set_fix for each Array element.

template<class T1 , class T2 >
void	itpp::set_fix (Array< T1 > &y, const Array< T2 > &real, const Array< T2 > &imag, int n)
	Call set_fix for each Array element.

template<class T1 , class T2 >
void	itpp::set_fix (Array< T1 > &y, const Array< T2 > &x, int n, q_mode q)
	Call set_fix for each Array element.

template<class T1 , class T2 >
void	itpp::set_fix (Array< T1 > &y, const Array< T2 > &real, const Array< T2 > &imag, int n, q_mode q)
	Call set_fix for each Array element.

void	itpp::lshift_fix (Fix &y, int n)
	Left shift `n` bits.

void	itpp::rshift_fix (Fix &y, int n)
	Right shift `n` bits using the quantization mode of `y`.

void	itpp::rshift_fix (Fix &y, int n, q_mode q)
	Right shift `n` bits using the specified quantization mode `q`.

void	itpp::lshift_fix (fixvec &y, int n)
	Left shift `n` bits.

void	itpp::rshift_fix (fixvec &y, int n)
	Right shift `n` bits using the quantization mode of `y`.

void	itpp::rshift_fix (fixvec &y, int n, q_mode q)
	Right shift `n` bits using the specified quantization mode `q`.

void	itpp::lshift_fix (fixmat &y, int n)
	Left shift `n` bits.

void	itpp::rshift_fix (fixmat &y, int n)
	Right shift `n` bits using the quantization mode of `y`.

void	itpp::rshift_fix (fixmat &y, int n, q_mode q)
	Right shift `n` bits using the specified quantization mode `q`.

void	itpp::lshift_fix (double &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (double &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (double &, int, q_mode)
	Dummy function useful in templated code.

void	itpp::lshift_fix (vec &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (vec &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (vec &, int, q_mode)
	Dummy function useful in templated code.

void	itpp::lshift_fix (mat &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (mat &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (mat &, int, q_mode)
	Dummy function useful in templated code.

void	itpp::lshift_fix (CFix &y, int n)
	Left shift `n` bits.

void	itpp::rshift_fix (CFix &y, int n)
	Right shift `n` bits using the quantization mode of `y`.

void	itpp::rshift_fix (CFix &y, int n, q_mode q)
	Right shift `n` bits using the specified quantization mode `q`.

void	itpp::lshift_fix (std::complex< double > &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (std::complex< double > &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (std::complex< double > &, int, q_mode)
	Dummy function useful in templated code.

void	itpp::lshift_fix (cvec &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (cvec &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (cvec &, int, q_mode)
	Dummy function useful in templated code.

void	itpp::lshift_fix (cmat &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (cmat &, int)
	Dummy function useful in templated code.

void	itpp::rshift_fix (cmat &, int, q_mode)
	Dummy function useful in templated code.

template<class T >
void	itpp::lshift_fix (Array< T > &y, int n)
	Call lshift_fix for each Array element.

template<class T >
void	itpp::rshift_fix (Array< T > &y, int n)
	Call rshift_fix for each Array element.

template<class T >
void	itpp::rshift_fix (Array< T > &y, int n, q_mode q)
	Call rshift_fix for each Array element.

void	itpp::assert_fixshift (double, int)
	If x is a fixed-point variable, assert that x has the specified shift value, otherwise do nothing.

void	itpp::assert_fixshift (const std::complex< double > &, int)
	If x is a fixed-point variable, assert that x has the specified shift value, otherwise do nothing.

void	itpp::assert_fixshift (const Fix &x, int shift)
	If x is a fixed-point variable, assert that x has the specified shift value, otherwise do nothing.

void	itpp::assert_fixshift (const CFix &x, int shift)
	If x is a fixed-point variable, assert that x has the specified shift value, otherwise do nothing.

vec	itpp::to_vec (const fixvec &v)
	Converts a fixvec to vec.

cvec	itpp::to_cvec (const cfixvec &v)
	Converts a cfixvec to cvec.

mat	itpp::to_mat (const fixmat &m)
	Converts a fixmat to mat.

cmat	itpp::to_cmat (const cfixmat &m)
	Converts a cfixmat to cmat.

template<class T >
T	itpp::to (double x)
	Convert double to T.

template<class T >
T	itpp::to (const Fix &x)
	Convert Fix to T.

template<class T >
T	itpp::to (const std::complex< double > &x)
	Convert std::complex<double> to T.

template<class T >
T	itpp::to (const CFix &x)
	Convert CFix to T.

template<class T >
T	itpp::to (double real, double imag)
	Convert double (real and imaginary parts) to T.

template<class T >
T	itpp::to (const Fix &real, const Fix &imag)
	Convert Fix (real and imaginary parts) to T.

template<class T , class U >
Vec< T >	itpp::to (const Vec< U > &x)
	Convert Vec<U> to Vec<T>

template<>
vec	itpp::to< double > (const vec &x)
	Convert vec to vec.

template<>
cvec	itpp::to< std::complex< double > > (const cvec &x)
	Convert cvec to cvec.

template<>
fixvec	itpp::to< Fix > (const fixvec &x)
	Convert fixvec to fixvec.

template<>
cfixvec	itpp::to< CFix > (const cfixvec &x)
	Convert cfixvec to cfixvec.

template<class T , class U >
Vec< T >	itpp::to (const Vec< U > &real, const Vec< U > &imag)
	Convert Vec<U> (real and imaginary parts) to Vec<T>

template<class T , class U >
Mat< T >	itpp::to (const Mat< U > &x)
	Convert Mat<U> to Mat<T>

template<>
mat	itpp::to< double > (const mat &x)
	Convert mat to mat.

template<>
cmat	itpp::to< std::complex< double > > (const cmat &x)
	Convert cmat to cmat.

template<>
fixmat	itpp::to< Fix > (const fixmat &x)
	Convert fixmat to fixmat.

template<>
cfixmat	itpp::to< CFix > (const cfixmat &x)
	Convert cfixmat to cfixmat.

template<class T , class U >
Mat< T >	itpp::to (const Mat< U > &real, const Mat< U > &imag)
	Convert Mat<U> (real and imaginary parts) to Mat<T>

template<class T , class U >
Array< typename ConvertU2T< T, U >::result >	itpp::to (const Array< U > &x)
	Convert Array<U>, where U can be an Array/Vec/Mat, to a corresponding Array with T elements.

template<class T , class U >
Array< typename ConvertU2T< T, U >::result >	itpp::to (const Array< U > &real, const Array< U > &imag)
	Convert Array<U> (real and imaginary parts), where U can be an Array/Vec/Mat, to a corresponding Array with T elements.

double	itpp::unfix (const Fix &x)
	Convert Fix to double by multiplying the bit representation with pow2(-shift)

std::complex< double >	itpp::unfix (const CFix &x)
	Convert CFix to std::complex<double> by multiplying the bit representation with pow2(-shift)

vec	itpp::unfix (const fixvec &x)
	Convert fixvec to vec by multiplying the bit representations with pow2(-shift)

mat	itpp::unfix (const fixmat &x)
	Convert fixmat to mat by multiplying the bit representations with pow2(-shift)

double	itpp::unfix (double x)
	Convert double to double i.e. do nothing.

std::complex< double >	itpp::unfix (const std::complex< double > &x)
	Convert std::complex<double> to std::complex<double> i.e. do nothing.

vec	itpp::unfix (const vec &x)
	Convert vec to vec i.e. do nothing.

cvec	itpp::unfix (const cvec &x)
	Convert cvec to cvec i.e. do nothing.

mat	itpp::unfix (const mat &x)
	Convert mat to mat i.e. do nothing.

cmat	itpp::unfix (const cmat &x)
	Convert cmat to cmat i.e. do nothing.

template<class T >
Array< typename Convert< T > ::to_double >	itpp::unfix (const Array< T > &x)
	Convert floating- or fixed-point Array to floating-point Array.

Fix	itpp::abs (const Fix &x)
	Absolute value.

Fix	itpp::real (const CFix &x)
	Real part of complex value.

Fix	itpp::imag (const CFix &x)
	Imaginary part of complex value.

CFix	itpp::conj (const CFix &x)
	Conjugate of complex value.

Detailed Description

Definitions of a set of functions for Fix, Fixed, CFix and CFixed classes.

Author: Johan Bergman

This file is part of IT++ - a C++ library of mathematical, signal processing, speech processing, and communications classes and functions.

IT++ 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.

IT++ 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 IT++. If not, see http://www.gnu.org/licenses/.

Definition in file fix_functions.h.

Namespaces

Functions

Detailed Description