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//
// detail/chrono_time_traits.hpp
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
// Copyright (c) 2003-2018 Christopher M. Kohlhoff (chris at kohlhoff dot com)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#ifndef ASIO_DETAIL_CHRONO_TIME_TRAITS_HPP
#define ASIO_DETAIL_CHRONO_TIME_TRAITS_HPP
#if defined(_MSC_VER) && (_MSC_VER >= 1200)
# pragma once
#endif // defined(_MSC_VER) && (_MSC_VER >= 1200)
#include "asio/detail/cstdint.hpp"
#include "asio/detail/push_options.hpp"
namespace asio {
namespace detail {
// Helper template to compute the greatest common divisor.
template <int64_t v1, int64_t v2>
struct gcd { enum { value = gcd<v2, v1 % v2>::value }; };
template <int64_t v1>
struct gcd<v1, 0> { enum { value = v1 }; };
// Adapts std::chrono clocks for use with a deadline timer.
template <typename Clock, typename WaitTraits>
struct chrono_time_traits
{
// The clock type.
typedef Clock clock_type;
// The duration type of the clock.
typedef typename clock_type::duration duration_type;
// The time point type of the clock.
typedef typename clock_type::time_point time_type;
// The period of the clock.
typedef typename duration_type::period period_type;
// Get the current time.
static time_type now()
{
return clock_type::now();
}
// Add a duration to a time.
static time_type add(const time_type& t, const duration_type& d)
{
const time_type epoch;
if (t >= epoch)
{
if ((time_type::max)() - t < d)
return (time_type::max)();
}
else // t < epoch
{
if (-(t - (time_type::min)()) > d)
return (time_type::min)();
}
return t + d;
}
// Subtract one time from another.
static duration_type subtract(const time_type& t1, const time_type& t2)
{
const time_type epoch;
if (t1 >= epoch)
{
if (t2 >= epoch)
{
return t1 - t2;
}
else if (t2 == (time_type::min)())
{
return (duration_type::max)();
}
else if ((time_type::max)() - t1 < epoch - t2)
{
return (duration_type::max)();
}
else
{
return t1 - t2;
}
}
else // t1 < epoch
{
if (t2 < epoch)
{
return t1 - t2;
}
else if (t1 == (time_type::min)())
{
return (duration_type::min)();
}
else if ((time_type::max)() - t2 < epoch - t1)
{
return (duration_type::min)();
}
else
{
return -(t2 - t1);
}
}
}
// Test whether one time is less than another.
static bool less_than(const time_type& t1, const time_type& t2)
{
return t1 < t2;
}
// Implement just enough of the posix_time::time_duration interface to supply
// what the timer_queue requires.
class posix_time_duration
{
public:
explicit posix_time_duration(const duration_type& d)
: d_(d)
{
}
int64_t ticks() const
{
return d_.count();
}
int64_t total_seconds() const
{
return duration_cast<1, 1>();
}
int64_t total_milliseconds() const
{
return duration_cast<1, 1000>();
}
int64_t total_microseconds() const
{
return duration_cast<1, 1000000>();
}
private:
template <int64_t Num, int64_t Den>
int64_t duration_cast() const
{
const int64_t num1 = period_type::num / gcd<period_type::num, Num>::value;
const int64_t num2 = Num / gcd<period_type::num, Num>::value;
const int64_t den1 = period_type::den / gcd<period_type::den, Den>::value;
const int64_t den2 = Den / gcd<period_type::den, Den>::value;
const int64_t num = num1 * den2;
const int64_t den = num2 * den1;
if (num == 1 && den == 1)
return ticks();
else if (num != 1 && den == 1)
return ticks() * num;
else if (num == 1 && period_type::den != 1)
return ticks() / den;
else
return ticks() * num / den;
}
duration_type d_;
};
// Convert to POSIX duration type.
static posix_time_duration to_posix_duration(const duration_type& d)
{
return posix_time_duration(WaitTraits::to_wait_duration(d));
}
};
} // namespace detail
} // namespace asio
#include "asio/detail/pop_options.hpp"
#endif // ASIO_DETAIL_CHRONO_TIME_TRAITS_HPP
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