2012-05-10 00:45:30 -04:00
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#ifndef DATE_TIME_TIME_DURATION_HPP___
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#define DATE_TIME_TIME_DURATION_HPP___
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/* Copyright (c) 2002,2003 CrystalClear Software, Inc.
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* Use, modification and distribution is subject to the
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2012-05-10 00:45:30 -04:00
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* Boost Software License, Version 1.0. (See accompanying
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* file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
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* Author: Jeff Garland, Bart Garst
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2013-01-13 17:38:19 -05:00
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* $Date: 2012-10-10 12:05:03 -0700 (Wed, 10 Oct 2012) $
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2012-05-10 00:45:30 -04:00
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*/
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#include <boost/cstdint.hpp>
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#include <boost/operators.hpp>
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#include <boost/static_assert.hpp>
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#include <boost/date_time/time_defs.hpp>
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#include <boost/date_time/special_defs.hpp>
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#include <boost/date_time/compiler_config.hpp>
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namespace boost {
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namespace date_time {
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//! Represents some amount of elapsed time measure to a given resolution
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/*! This class represents a standard set of capabilities for all
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counted time durations. Time duration implementations should derive
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from this class passing their type as the first template parameter.
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This design allows the subclass duration types to provide custom
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construction policies or other custom features not provided here.
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@param T The subclass type
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@param rep_type The time resolution traits for this duration type.
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*/
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template<class T, typename rep_type>
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class time_duration : private
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boost::less_than_comparable<T
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, boost::equality_comparable<T
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> >
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/* dividable, addable, and subtractable operator templates
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* won't work with this class (MSVC++ 6.0). return type
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* from '+=' is different than expected return type
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* from '+'. multipliable probably wont work
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* either (haven't tried) */
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{
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public:
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typedef T duration_type; //the subclass
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typedef rep_type traits_type;
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typedef typename rep_type::day_type day_type;
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typedef typename rep_type::hour_type hour_type;
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typedef typename rep_type::min_type min_type;
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typedef typename rep_type::sec_type sec_type;
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typedef typename rep_type::fractional_seconds_type fractional_seconds_type;
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typedef typename rep_type::tick_type tick_type;
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typedef typename rep_type::impl_type impl_type;
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time_duration() : ticks_(0) {}
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time_duration(hour_type hours_in,
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min_type minutes_in,
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sec_type seconds_in=0,
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fractional_seconds_type frac_sec_in = 0) :
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ticks_(rep_type::to_tick_count(hours_in,minutes_in,seconds_in,frac_sec_in))
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{}
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// copy constructor required for dividable<>
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//! Construct from another time_duration (Copy constructor)
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time_duration(const time_duration<T, rep_type>& other)
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: ticks_(other.ticks_)
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{}
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//! Construct from special_values
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time_duration(special_values sv) : ticks_(impl_type::from_special(sv))
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{}
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//! Returns smallest representable duration
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static duration_type unit()
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{
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return duration_type(0,0,0,1);
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}
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//! Return the number of ticks in a second
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static tick_type ticks_per_second()
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{
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return rep_type::res_adjust();
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}
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//! Provide the resolution of this duration type
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static time_resolutions resolution()
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{
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return rep_type::resolution();
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}
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//! Returns number of hours in the duration
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hour_type hours() const
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{
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return static_cast<hour_type>(ticks() / (3600*ticks_per_second()));
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}
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//! Returns normalized number of minutes
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min_type minutes() const
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{
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return static_cast<min_type>((ticks() / (60*ticks_per_second())) % 60);
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}
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//! Returns normalized number of seconds (0..60)
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sec_type seconds() const
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{
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return static_cast<sec_type>((ticks()/ticks_per_second()) % 60);
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}
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//! Returns total number of seconds truncating any fractional seconds
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sec_type total_seconds() const
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{
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return static_cast<sec_type>(ticks() / ticks_per_second());
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}
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//! Returns total number of milliseconds truncating any fractional seconds
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tick_type total_milliseconds() const
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{
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if (ticks_per_second() < 1000) {
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return ticks() * (static_cast<tick_type>(1000) / ticks_per_second());
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}
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return ticks() / (ticks_per_second() / static_cast<tick_type>(1000)) ;
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}
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//! Returns total number of nanoseconds truncating any sub millisecond values
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tick_type total_nanoseconds() const
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{
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if (ticks_per_second() < 1000000000) {
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return ticks() * (static_cast<tick_type>(1000000000) / ticks_per_second());
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}
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return ticks() / (ticks_per_second() / static_cast<tick_type>(1000000000)) ;
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}
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//! Returns total number of microseconds truncating any sub microsecond values
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tick_type total_microseconds() const
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{
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if (ticks_per_second() < 1000000) {
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return ticks() * (static_cast<tick_type>(1000000) / ticks_per_second());
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}
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return ticks() / (ticks_per_second() / static_cast<tick_type>(1000000)) ;
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}
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//! Returns count of fractional seconds at given resolution
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fractional_seconds_type fractional_seconds() const
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{
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return (ticks() % ticks_per_second());
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}
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//! Returns number of possible digits in fractional seconds
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static unsigned short num_fractional_digits()
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{
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return rep_type::num_fractional_digits();
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}
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duration_type invert_sign() const
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{
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return duration_type(ticks_ * (-1));
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}
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bool is_negative() const
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{
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return ticks_ < 0;
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}
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bool operator<(const time_duration& rhs) const
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{
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return ticks_ < rhs.ticks_;
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}
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bool operator==(const time_duration& rhs) const
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{
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return ticks_ == rhs.ticks_;
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}
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//! unary- Allows for time_duration td = -td1
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duration_type operator-()const
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{
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return duration_type(ticks_ * (-1));
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}
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duration_type operator-(const duration_type& d) const
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{
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return duration_type(ticks_ - d.ticks_);
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}
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duration_type operator+(const duration_type& d) const
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{
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return duration_type(ticks_ + d.ticks_);
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}
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duration_type operator/(int divisor) const
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{
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return duration_type(ticks_ / divisor);
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}
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duration_type operator-=(const duration_type& d)
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{
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ticks_ = ticks_ - d.ticks_;
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return duration_type(ticks_);
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}
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duration_type operator+=(const duration_type& d)
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{
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ticks_ = ticks_ + d.ticks_;
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return duration_type(ticks_);
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}
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//! Division operations on a duration with an integer.
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duration_type operator/=(int divisor)
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{
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ticks_ = ticks_ / divisor;
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return duration_type(ticks_);
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}
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//! Multiplication operations an a duration with an integer
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duration_type operator*(int rhs) const
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{
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return duration_type(ticks_ * rhs);
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}
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duration_type operator*=(int divisor)
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{
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ticks_ = ticks_ * divisor;
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return duration_type(ticks_);
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}
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tick_type ticks() const
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{
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return traits_type::as_number(ticks_);
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}
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//! Is ticks_ a special value?
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bool is_special()const
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{
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if(traits_type::is_adapted())
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{
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return ticks_.is_special();
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}
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else{
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return false;
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}
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}
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//! Is duration pos-infinity
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bool is_pos_infinity()const
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{
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if(traits_type::is_adapted())
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{
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return ticks_.is_pos_infinity();
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}
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else{
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return false;
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}
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}
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//! Is duration neg-infinity
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bool is_neg_infinity()const
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{
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if(traits_type::is_adapted())
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{
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return ticks_.is_neg_infinity();
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}
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else{
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return false;
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}
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}
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//! Is duration not-a-date-time
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bool is_not_a_date_time()const
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{
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if(traits_type::is_adapted())
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{
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return ticks_.is_nan();
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}
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else{
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return false;
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}
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}
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//! Used for special_values output
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impl_type get_rep()const
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{
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return ticks_;
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}
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protected:
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explicit time_duration(impl_type in) : ticks_(in) {}
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impl_type ticks_;
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};
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//! Template for instantiating derived adjusting durations
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/* These templates are designed to work with multiples of
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* 10 for frac_of_second and resoultion adjustment
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*/
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template<class base_duration, boost::int64_t frac_of_second>
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class subsecond_duration : public base_duration
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{
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public:
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typedef typename base_duration::impl_type impl_type;
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typedef typename base_duration::traits_type traits_type;
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private:
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// To avoid integer overflow we precompute the duration resolution conversion coefficient (ticket #3471)
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BOOST_STATIC_ASSERT_MSG((traits_type::ticks_per_second >= frac_of_second ? traits_type::ticks_per_second % frac_of_second : frac_of_second % traits_type::ticks_per_second) == 0,\
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"The base duration resolution must be a multiple of the subsecond duration resolution");
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BOOST_STATIC_CONSTANT(boost::int64_t, adjustment_ratio = (traits_type::ticks_per_second >= frac_of_second ? traits_type::ticks_per_second / frac_of_second : frac_of_second / traits_type::ticks_per_second));
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public:
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explicit subsecond_duration(boost::int64_t ss) :
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base_duration(impl_type(traits_type::ticks_per_second >= frac_of_second ? ss * adjustment_ratio : ss / adjustment_ratio))
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{
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}
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};
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} } //namespace date_time
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#endif
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