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7afa19456d
cpp/cpp02/ex02/Fixed.cpp
kinou-p 7afa19456d pre push
2022-08-01 23:07:23 +02:00

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/* ************************************************************************** */
/* */
/* ::: :::::::: */
/* Fixed.cpp :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: apommier <apommier@student.42.fr> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2022/06/22 15:31:03 by apommier #+# #+# */
/* Updated: 2022/08/01 12:25:54 by apommier ### ########.fr */
/* */
/* ************************************************************************** */
#include "Fixed.hpp"
//construtor and destructor
Fixed::Fixed()
{
std::cout << "Default constructor called\n";
this->_value = 0;
}
Fixed::~Fixed()
{
std::cout << "Destructor called\n";
}
Fixed::Fixed(const float nbr)
{
std::cout << "Float constructor called\n";
this->_value = (int)(roundf(nbr * (1 << this->_fraction)));
}
Fixed::Fixed(const int nbr)
{
std::cout << "Int constructor called\n";
this->_value = nbr;this->_value = nbr << this->_fraction;
}
Fixed::Fixed(const Fixed& copy)
{
std::cout << "Copy constructor called\n";
this->_value = copy.getRawBits();
}
//accesssor
int Fixed::getRawBits(void) const
{
return (this->_value);
}
void Fixed::setRawBits(int const raw)
{
this->_value = raw;
}
//convertion
float Fixed::toFloat(void) const
{
return ((float)this->_value / (float)(1 << this->_fraction));
}
int Fixed::toInt(void) const
{
return (((int)(this->_value >> this->_fraction)));
}
//operator overload----
std::ostream &operator<<(std::ostream &out, const Fixed &nbr)
{
out << nbr.toFloat();
return (out);
}
Fixed &Fixed::operator=(const Fixed& arg)
{
std::cout << "Copy assignment operator called" << std::endl;
if (this != &arg)
this->_value = arg.getRawBits();
return (*this);
}
//operator overload (comparison)
bool Fixed::operator>(const Fixed& arg) const
{
return (this->_value > arg.getRawBits());
}
bool Fixed::operator<(const Fixed& arg) const
{
return (this->_value < arg.getRawBits());
}
bool Fixed::operator>=(const Fixed& arg) const
{
return (this->_value >= arg.getRawBits());
}
bool Fixed::operator<=(const Fixed& arg) const
{
return (this->_value <= arg.getRawBits());
}
bool Fixed::operator==(const Fixed& arg) const
{
return (this->_value == arg.getRawBits());
}
bool Fixed::operator!=(const Fixed& arg) const
{
return (this->_value == arg.getRawBits());
}
//operator overload (soustraction addition)
Fixed Fixed::operator+(const Fixed& arg) const
{
Fixed ret(*this);
ret.setRawBits(this->_value + arg.getRawBits());
return (ret);
}
Fixed Fixed::operator-(const Fixed& arg) const
{
Fixed ret(*this);
ret.setRawBits(this->_value - arg.getRawBits());
return (ret);
}
//operator overload (division multiplication)
Fixed Fixed::operator*(const Fixed& arg) const
{
Fixed ret(*this);
ret.setRawBits((this->_value * arg.getRawBits()) / (1 << this->_fraction));
return (ret);
}
Fixed Fixed::operator/(const Fixed& arg) const
{
Fixed ret(*this);
ret.setRawBits((this->_value * (1 << this->_fraction)) / arg.getRawBits());
return (ret);
}
//operator overload (incremention and decrementation)
Fixed &Fixed::operator++(void)
{
this->_value++;
return (*this);
}
Fixed Fixed::operator++(int)
{
Fixed ret(*this);
++(*this);
return (ret);
}
Fixed &Fixed::operator--(void)
{
this->_value++;
return (*this);
}
Fixed Fixed::operator--(int)
{
Fixed ret(*this);
--(*this);
return (ret);
}
//min and max betwenn two Fixed class
Fixed &Fixed::min(Fixed& arg, Fixed& argTwo)
{
if (arg < argTwo)
return (arg);
return (argTwo);
}
const Fixed &Fixed::min(const Fixed& arg, const Fixed& argTwo)
{
if (arg < argTwo)
return (arg);
return (argTwo);
}
Fixed &Fixed::max(Fixed& arg, Fixed& argTwo)
{
if (arg > argTwo)
return (arg);
return (argTwo);
}
const Fixed &Fixed::max(const Fixed& arg, const Fixed& argTwo)
{
if (arg > argTwo)
return (arg);
return (argTwo);
}
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