libcruft-util/fixed.cpp
Danny Robson f6056153e3 rename root namespace from util to cruft
This places, at long last, the core library code into the same namespace
as the extended library code.
2018-08-05 14:42:02 +10:00

215 lines
7.2 KiB
C++

/*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* Copyright 2011-2015 Danny Robson <danny@nerdcruft.net>
*/
#include "fixed.hpp"
#include "maths.hpp"
#include <ostream>
using namespace cruft;
///////////////////////////////////////////////////////////////////////////////
template <typename T, unsigned I, unsigned E>
double
fixed<T,I,E>::to_double (void) const
{
return static_cast<double> (m_value) / pow (2, E);
}
//-----------------------------------------------------------------------------
template <typename T, unsigned I, unsigned E>
float
fixed<T,I,E>::to_float (void) const
{
return static_cast<float> (m_value) / pow (2, E);
}
//-----------------------------------------------------------------------------
template <typename T, unsigned I, unsigned E>
typename fixed<T,I,E>::integer_type
fixed<T,I,E>::to_integer (void) const
{
return m_value >> E;
}
//-----------------------------------------------------------------------------
template <typename T, unsigned I, unsigned E>
typename fixed<T,I,E>::native_type
fixed<T,I,E>::to_native (void) const
{
return m_value;
}
//-----------------------------------------------------------------------------
template <typename T, unsigned I, unsigned E>
fixed<T,I,E>
fixed<T,I,E>::from_native (native_type i)
{
fixed<T,I,E> v;
v.m_value = i;
return v;
}
//-----------------------------------------------------------------------------
template <typename T, unsigned I, unsigned E>
fixed<T,I,E>
fixed<T,I,E>::from_integer (integer_type val)
{
constexpr auto rshift = sizeof (val) * 8 - I;
constexpr auto lshift = E - rshift;
fixed<T,I,E> res;
res.m_value = static_cast<native_type> (val) << lshift;
return res;
}
//-----------------------------------------------------------------------------
template <typename T, unsigned I, unsigned E>
typename fixed<T,I,E>::integer_type
fixed<T,I,E>::to_integer (native_type n)
{
return n >> E;
}
///////////////////////////////////////////////////////////////////////////////
// Fixed operators
#define SIMPLE_FIXED_REF(OP) \
template <typename T, unsigned I, unsigned E> \
cruft::fixed<T,I,E>& \
cruft::fixed<T,I,E>::operator OP (const fixed<T,I,E> rhs) \
{ \
m_value OP rhs.m_value; \
return *this; \
}
SIMPLE_FIXED_REF(-=)
SIMPLE_FIXED_REF(+=)
#define SIMPLE_FIXED_LIT(OP) \
template <typename T, unsigned I, unsigned E> \
cruft::fixed<T,I,E> \
cruft::fixed<T,I,E>::operator OP (const fixed<T,I,E> rhs) const \
{ \
fixed<T,I,E> v; \
v.m_value = m_value OP rhs.m_value; \
return v; \
}
SIMPLE_FIXED_LIT(-)
SIMPLE_FIXED_LIT(+)
///////////////////////////////////////////////////////////////////////////////
// Integer operators
#define SIMPLE_INTEGER_REF(OP) \
template <typename T, unsigned I, unsigned E> \
fixed<T,I,E>& \
fixed<T,I,E>::operator OP (integer_type val) \
{ \
m_value OP (static_cast<native_type> (val) << E); \
return *this; \
}
SIMPLE_INTEGER_REF(+=)
SIMPLE_INTEGER_REF(-=)
SIMPLE_INTEGER_REF(*=)
SIMPLE_INTEGER_REF(/=)
//-----------------------------------------------------------------------------
#define SIMPLE_INTEGER_LIT(OP) \
template <typename T, unsigned I, unsigned E> \
fixed<T,I,E> \
fixed<T,I,E>::operator OP (integer_type val) const \
{ \
return fixed<T,I,E>::from_native (m_value OP (native_type{val} << E)); \
}
SIMPLE_INTEGER_LIT(+)
SIMPLE_INTEGER_LIT(-)
SIMPLE_INTEGER_LIT(*)
SIMPLE_INTEGER_LIT(/)
///////////////////////////////////////////////////////////////////////////////
// logical operators
#define LOGIC_OP(OP) \
template <typename T, unsigned I, unsigned E> \
bool \
cruft::operator OP (cruft::fixed<T,I,E> a, \
cruft::fixed<T,I,E> b) \
{ \
return a.to_native () OP b.to_native (); \
} \
\
template <typename T, unsigned I, unsigned E> \
bool \
cruft::operator OP (cruft::fixed<T,I,E> a, \
typename cruft::fixed<T,I,E>::integer_type b) \
{ \
return a OP cruft::fixed<T,I,E>::from_integer (b); \
}
LOGIC_OP(==)
LOGIC_OP(!=)
LOGIC_OP(<)
LOGIC_OP(<=)
LOGIC_OP(>)
LOGIC_OP(>=)
///////////////////////////////////////////////////////////////////////////////
// iostream operators
template <typename T, unsigned I, unsigned E>
std::ostream&
cruft::operator<< (std::ostream &os, fixed<T,I,E> v)
{
return os << v.to_double ();
}
///////////////////////////////////////////////////////////////////////////////
// Instantiations
#define INSTANTIATE(T,I,E) \
template class cruft::fixed<T,I,E>; \
template std::ostream& cruft::operator<< (std::ostream&, fixed<T,I,E>); \
template bool cruft::operator== (cruft::fixed<T,I,E>, cruft::fixed<T,I,E>); \
template bool cruft::operator!= (cruft::fixed<T,I,E>, cruft::fixed<T,I,E>); \
template bool cruft::operator< (cruft::fixed<T,I,E>, cruft::fixed<T,I,E>); \
template bool cruft::operator<= (cruft::fixed<T,I,E>, cruft::fixed<T,I,E>); \
template bool cruft::operator> (cruft::fixed<T,I,E>, cruft::fixed<T,I,E>); \
template bool cruft::operator>= (cruft::fixed<T,I,E>, cruft::fixed<T,I,E>); \
template bool cruft::operator== (cruft::fixed<T,I,E>, typename cruft::fixed<T,I,E>::integer_type); \
template bool cruft::operator!= (cruft::fixed<T,I,E>, typename cruft::fixed<T,I,E>::integer_type); \
template bool cruft::operator< (cruft::fixed<T,I,E>, typename cruft::fixed<T,I,E>::integer_type); \
template bool cruft::operator<= (cruft::fixed<T,I,E>, typename cruft::fixed<T,I,E>::integer_type); \
template bool cruft::operator> (cruft::fixed<T,I,E>, typename cruft::fixed<T,I,E>::integer_type); \
template bool cruft::operator>= (cruft::fixed<T,I,E>, typename cruft::fixed<T,I,E>::integer_type);
template class cruft::fixed<signed,8,8>;
INSTANTIATE(signed, 2,14)
INSTANTIATE(signed,16,16)
INSTANTIATE(signed,26, 6)
INSTANTIATE(signed,32,32)
INSTANTIATE(unsigned,16,16)
INSTANTIATE(unsigned,26, 6)
INSTANTIATE(unsigned,32,32)