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gerrit.named-data.net / ndn-cxx / e2dcdfd5ce01062a16c991d2492955dd079ae859 / . / src / util / time.hpp
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/**
* Copyright (C) 2013 Regents of the University of California.
* @author: Jeff Thompson <jefft0@remap.ucla.edu>
* @author: Yingdi Yu <yingdi@cs.ucla.edu>
* See COPYING for copyright and distribution information.
*/
#ifndef NDN_TIME_HPP
#define NDN_TIME_HPP
#include "../common.hpp"
namespace ndn {
const boost::posix_time::ptime UNIX_EPOCH_TIME =
boost::posix_time::ptime (boost::gregorian::date (1970, boost::gregorian::Jan, 1));
/**
* @brief Get the current time in milliseconds since 1/1/1970, including fractions of a millisecond
*/
inline MillisecondsSince1970
getNowMilliseconds()
{
return (boost::posix_time::microsec_clock::universal_time() - UNIX_EPOCH_TIME).total_milliseconds();
}
inline MillisecondsSince1970
ndn_getNowMilliseconds()
{
return getNowMilliseconds();
}
/**
* Convert to the ISO string representation of the time.
* @param time Milliseconds since 1/1/1970.
* @return The ISO string.
*/
inline std::string
toIsoString(const MillisecondsSince1970& time)
{
boost::posix_time::ptime boostTime = UNIX_EPOCH_TIME + boost::posix_time::milliseconds(time);
/// @todo Determine whether this is necessary at all
if ((time % 1000) == 0)
return boost::posix_time::to_iso_string(boostTime) + ".000000";
else
return boost::posix_time::to_iso_string(boostTime);
}
/**
* Convert from the ISO string representation to the internal time format.
* @param isoString The ISO time formatted string.
* @return The time in milliseconds since 1/1/1970.
*/
inline MillisecondsSince1970
fromIsoString(const std::string& isoString)
{
boost::posix_time::ptime boostTime = boost::posix_time::from_iso_string(isoString);
return (boostTime-UNIX_EPOCH_TIME).total_milliseconds();
}
namespace time {
class monotonic_clock;
/** \class Duration
* \brief represents a time interval
* Time unit is nanosecond.
*/
class Duration
{
public:
Duration()
: m_value(0)
{
}
explicit
Duration(int64_t value)
: m_value(value)
{
}
operator int64_t&()
{
return m_value;
}
operator const int64_t&() const
{
return m_value;
}
Duration
operator+(const Duration& other) const
{
return Duration(this->m_value + other.m_value);
}
Duration
operator-(const Duration& other) const
{
return Duration(this->m_value - other.m_value);
}
private:
int64_t m_value;
};
/** \class Point
* \brief represents a point in time
* This uses monotonic clock.
*/
class Point
{
public:
Point()
: m_value(0)
{
}
explicit
Point(int64_t value)
: m_value(value)
{
}
operator int64_t&()
{
return m_value;
}
operator const int64_t&() const
{
return m_value;
}
Point
operator+(const Duration& other) const
{
return Point(this->m_value + static_cast<int64_t>(other));
}
Duration
operator-(const Point& other) const
{
return Duration(this->m_value - other.m_value);
}
Point
operator-(const Duration& other) const
{
return Point(this->m_value - static_cast<int64_t>(other));
}
private:
int64_t m_value;
};
inline std::ostream&
operator<<(std::ostream &os, const Duration& duration)
{
os << static_cast<int64_t>(duration) / 1000000000.0 << " s";
return os;
}
/**
* \brief Get current time
* \return{ the current time in monotonic clock }
*/
Point
now();
/**
* \brief Get time::Duration for the specified number of seconds
*/
template<class T>
inline Duration
seconds(T value)
{
return Duration(value * static_cast<int64_t>(1000000000));
}
/**
* \brief Get time::Duration for the specified number of milliseconds
*/
template<class T>
inline Duration
milliseconds(T value)
{
return Duration(value * static_cast<int64_t>(1000000));
}
/**
* \brief Get time::Duration for the specified number of microseconds
*/
template<class T>
inline Duration
microseconds(T value)
{
return Duration(value * static_cast<int64_t>(1000));
}
/**
* \brief Get time::Duration for the specified number of nanoseconds
*/
inline Duration
nanoseconds(int64_t value)
{
return Duration(value);
}
} // namespace time
} // namespace ndn
#endif // NDN_TIME_HPP