/usr/include/itpp/fixed/fix.h is in libitpp-dev 4.3.1-7.
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* \file
* \brief Definitions of a fixed-point data type Fix
* \author Johan Bergman
*
* -------------------------------------------------------------------------
*
* Copyright (C) 1995-2010 (see AUTHORS file for a list of contributors)
*
* 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/>.
*
* -------------------------------------------------------------------------
*/
#ifndef FIX_H
#define FIX_H
#include <itpp/fixed/fix_base.h>
#include <itpp/fixed/fix_factory.h>
#include <itpp/itexports.h>
namespace itpp
{
// Forward declarations
template<class Num_T> class Vec;
template<class Num_T> class Mat;
//! \addtogroup fixed
//!@{
/*!
\brief Fixed-point data type
See the Detailed Description in the \ref fixed module.
*/
class ITPP_EXPORT Fix : public Fix_Base
{
friend class CFix;
template<int, e_mode, o_mode, q_mode> friend class Fixed;
template<int, e_mode, o_mode, q_mode> friend class CFixed;
public:
//! Default constructor
Fix(double x = 0.0, int s = 0, int w = MAX_WORDLEN, e_mode e = TC, o_mode o = WRAP, q_mode q = TRN, Stat *ptr = 0)
: Fix_Base(s, w, e, o, q, ptr), re(scale_and_apply_modes(x)) {}
//! Constructor
explicit Fix(const Fix_Factory &f)
: Fix_Base(0, f.wordlen, f.emode, f.omode, f.qmode, f.stat_ptr), re(0) {}
//! Constructor for internal use. No restrictions are applied. The dummies help to avoid ambiguities
Fix(fixrep r, int s, int, int)
: Fix_Base(s), re(r) {}
//! Copy constructor
Fix(const Fix &x, int w = MAX_WORDLEN, e_mode e = TC, o_mode o = WRAP, q_mode q = TRN, Stat *ptr = 0)
: Fix_Base(x.shift, w, e, o, q, ptr), re(x.re) {}
//! Destructor
virtual ~Fix() {}
//! Assignment from Fix
Fix& operator=(const Fix &x);
//! Assignment from int
Fix& operator=(const int x);
//! Addition of Fix
Fix& operator+=(const Fix &x);
//! Addition of int
Fix& operator+=(const int x);
//! Subtraction of Fix
Fix& operator-=(const Fix &x);
//! Subtraction of int
Fix& operator-=(const int x);
//! Multiplication with Fix
Fix& operator*=(const Fix &x);
//! Multiplication with int
Fix& operator*=(const int x);
//! Division with Fix using quantization mode \c TRN
Fix& operator/=(const Fix &x);
//! Division with int using quantization mode \c TRN
Fix& operator/=(const int x);
//! Unary negative of Fix
Fix operator-() const;
//! Left shift \c n bits
Fix& operator<<=(const int n);
//! Right shift \c n bits using quantization mode \c qmode (constructor argument)
Fix& operator>>=(const int n);
//! Set to <tt>x * pow2(n)</tt> using quantization mode \c qmode (constructor argument)
void set(double x, int n);
//! Set to <tt>x * pow2(n)</tt> using quantization mode \c q (function argument)
void set(double x, int n, q_mode q);
//! Set data representation (mainly for internal use since it reveals the representation type)
void set_re(fixrep x) {re = apply_o_mode(x);}
//! Left shift \c n bits
void lshift(int n);
//! Right shift \c n bits using quantization mode \c qmode (constructor argument)
void rshift(int n);
//! Right shift \c n bits using quantization mode \c q (function argument)
void rshift(int n, q_mode q);
//! Print restrictions
virtual void print() const;
//! Get data representation (mainly for internal use since it reveals the representation type)
fixrep get_re() const {return re;}
//! Conversion to double
double unfix() const;
#ifndef NO_IMPLICIT_FIX_CONVERSION
//! Conversion to double
operator double() const {
it_assert_debug(shift>=-63 && shift <= 64, "Fix::operator double: Illegal shift!");
return double(re)*DOUBLE_POW2[64 - shift];
}
#endif
//! Check that x.shift==y.shift OR x==0 OR y==0 and return the shift (for the non-zero argument)
friend ITPP_EXPORT int assert_shifts(const CFix &x, const Fix &y);
//! Check that x.shift==y.shift OR x==0 OR y==0 and return the shift (for the non-zero argument)
friend ITPP_EXPORT int assert_shifts(const Fix &x, const Fix &y);
//! Check that x.shift==0 OR x==0 OR y==0 and return x.shift
friend ITPP_EXPORT int assert_shifts(const Fix &x, int y);
protected:
//! Data representation
fixrep re;
};
//! Check that x.shift==y.shift OR x==0 OR y==0 and return the shift (for the non-zero argument)
ITPP_EXPORT int assert_shifts(const Fix &x, const Fix &y);
//! Check that x.shift==0 OR x==0 OR y==0 and return x.shift
ITPP_EXPORT int assert_shifts(const Fix &x, int y);
//! Input bit representation and, optionally, the shift
ITPP_EXPORT std::istream &operator>>(std::istream &is, Fix &x);
//! Output bit representation and, optionally, the shift
ITPP_EXPORT std::ostream &operator<<(std::ostream &os, const Fix &x);
//! Typedef for fixed-point vector type
typedef Vec<Fix> fixvec;
//! Typedef for fixed-point matrix type
typedef Mat<Fix> fixmat;
// Specialization of template definition in vec.cpp
template<> void fixvec::set(const char *values);
// Specialization of template definition in mat.cpp
template<> void fixmat::set(const char *values);
//!@}
} // namespace itpp
#endif // #ifndef FIX_H
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