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//usr/include/c++/4.8.2/chrono
// <chrono> -*- C++ -*- // Copyright (C) 2008-2013 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // <http://www.gnu.org/licenses/>. /** @file include/chrono * This is a Standard C++ Library header. */ #ifndef _GLIBCXX_CHRONO #define _GLIBCXX_CHRONO 1 #pragma GCC system_header #if __cplusplus < 201103L # include <bits/c++0x_warning.h> #else #include <ratio> #include <type_traits> #include <limits> #include <ctime> #ifdef _GLIBCXX_USE_C99_STDINT_TR1 namespace std _GLIBCXX_VISIBILITY(default) { /** * @defgroup chrono Time * @ingroup utilities * * Classes and functions for time. * @{ */ /** @namespace std::chrono * @brief ISO C++ 2011 entities sub-namespace for time and date. */ namespace chrono { _GLIBCXX_BEGIN_NAMESPACE_VERSION template<typename _Rep, typename _Period = ratio<1>> struct duration; template<typename _Clock, typename _Dur = typename _Clock::duration> struct time_point; _GLIBCXX_END_NAMESPACE_VERSION } _GLIBCXX_BEGIN_NAMESPACE_VERSION // 20.11.4.3 specialization of common_type (for duration, sfinae-friendly) template<typename _CT, typename _Period1, typename _Period2> struct __duration_common_type_wrapper { private: typedef __static_gcd<_Period1::num, _Period2::num> __gcd_num; typedef __static_gcd<_Period1::den, _Period2::den> __gcd_den; typedef typename _CT::type __cr; typedef ratio<__gcd_num::value, (_Period1::den / __gcd_den::value) * _Period2::den> __r; public: typedef __success_type<chrono::duration<__cr, __r>> type; }; template<typename _Period1, typename _Period2> struct __duration_common_type_wrapper<__failure_type, _Period1, _Period2> { typedef __failure_type type; }; template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> struct common_type<chrono::duration<_Rep1, _Period1>, chrono::duration<_Rep2, _Period2>> : public __duration_common_type_wrapper<typename __member_type_wrapper< common_type<_Rep1, _Rep2>>::type, _Period1, _Period2>::type { }; // 20.11.4.3 specialization of common_type (for time_point, sfinae-friendly) template<typename _CT, typename _Clock> struct __timepoint_common_type_wrapper { typedef __success_type<chrono::time_point<_Clock, typename _CT::type>> type; }; template<typename _Clock> struct __timepoint_common_type_wrapper<__failure_type, _Clock> { typedef __failure_type type; }; template<typename _Clock, typename _Duration1, typename _Duration2> struct common_type<chrono::time_point<_Clock, _Duration1>, chrono::time_point<_Clock, _Duration2>> : public __timepoint_common_type_wrapper<typename __member_type_wrapper< common_type<_Duration1, _Duration2>>::type, _Clock>::type { }; _GLIBCXX_END_NAMESPACE_VERSION namespace chrono { _GLIBCXX_BEGIN_NAMESPACE_VERSION // Primary template for duration_cast impl. template<typename _ToDur, typename _CF, typename _CR, bool _NumIsOne = false, bool _DenIsOne = false> struct __duration_cast_impl { template<typename _Rep, typename _Period> static constexpr _ToDur __cast(const duration<_Rep, _Period>& __d) { typedef typename _ToDur::rep __to_rep; return _ToDur(static_cast<__to_rep>(static_cast<_CR>(__d.count()) * static_cast<_CR>(_CF::num) / static_cast<_CR>(_CF::den))); } }; template<typename _ToDur, typename _CF, typename _CR> struct __duration_cast_impl<_ToDur, _CF, _CR, true, true> { template<typename _Rep, typename _Period> static constexpr _ToDur __cast(const duration<_Rep, _Period>& __d) { typedef typename _ToDur::rep __to_rep; return _ToDur(static_cast<__to_rep>(__d.count())); } }; template<typename _ToDur, typename _CF, typename _CR> struct __duration_cast_impl<_ToDur, _CF, _CR, true, false> { template<typename _Rep, typename _Period> static constexpr _ToDur __cast(const duration<_Rep, _Period>& __d) { typedef typename _ToDur::rep __to_rep; return _ToDur(static_cast<__to_rep>( static_cast<_CR>(__d.count()) / static_cast<_CR>(_CF::den))); } }; template<typename _ToDur, typename _CF, typename _CR> struct __duration_cast_impl<_ToDur, _CF, _CR, false, true> { template<typename _Rep, typename _Period> static constexpr _ToDur __cast(const duration<_Rep, _Period>& __d) { typedef typename _ToDur::rep __to_rep; return _ToDur(static_cast<__to_rep>( static_cast<_CR>(__d.count()) * static_cast<_CR>(_CF::num))); } }; template<typename _Tp> struct __is_duration : std::false_type { }; template<typename _Rep, typename _Period> struct __is_duration<duration<_Rep, _Period>> : std::true_type { }; /// duration_cast template<typename _ToDur, typename _Rep, typename _Period> constexpr typename enable_if<__is_duration<_ToDur>::value, _ToDur>::type duration_cast(const duration<_Rep, _Period>& __d) { typedef typename _ToDur::period __to_period; typedef typename _ToDur::rep __to_rep; typedef ratio_divide<_Period, __to_period> __cf; typedef typename common_type<__to_rep, _Rep, intmax_t>::type __cr; typedef __duration_cast_impl<_ToDur, __cf, __cr, __cf::num == 1, __cf::den == 1> __dc; return __dc::__cast(__d); } /// treat_as_floating_point template<typename _Rep> struct treat_as_floating_point : is_floating_point<_Rep> { }; /// duration_values template<typename _Rep> struct duration_values { static constexpr _Rep zero() { return _Rep(0); } static constexpr _Rep max() { return numeric_limits<_Rep>::max(); } static constexpr _Rep min() { return numeric_limits<_Rep>::lowest(); } }; template<typename _Tp> struct __is_ratio : std::false_type { }; template<intmax_t _Num, intmax_t _Den> struct __is_ratio<ratio<_Num, _Den>> : std::true_type { }; /// duration template<typename _Rep, typename _Period> struct duration { typedef _Rep rep; typedef _Period period; static_assert(!__is_duration<_Rep>::value, "rep cannot be a duration"); static_assert(__is_ratio<_Period>::value, "period must be a specialization of ratio"); static_assert(_Period::num > 0, "period must be positive"); // 20.11.5.1 construction / copy / destroy constexpr duration() = default; // NB: Make constexpr implicit. This cannot be explicitly // constexpr, as any UDT that is not a literal type with a // constexpr copy constructor will be ill-formed. duration(const duration&) = default; template<typename _Rep2, typename = typename enable_if<is_convertible<_Rep2, rep>::value && (treat_as_floating_point<rep>::value || !treat_as_floating_point<_Rep2>::value)>::type> constexpr explicit duration(const _Rep2& __rep) : __r(static_cast<rep>(__rep)) { } template<typename _Rep2, typename _Period2, typename = typename enable_if<treat_as_floating_point<rep>::value || (ratio_divide<_Period2, period>::den == 1 && !treat_as_floating_point<_Rep2>::value)>::type> constexpr duration(const duration<_Rep2, _Period2>& __d) : __r(duration_cast<duration>(__d).count()) { } ~duration() = default; duration& operator=(const duration&) = default; // 20.11.5.2 observer constexpr rep count() const { return __r; } // 20.11.5.3 arithmetic constexpr duration operator+() const { return *this; } constexpr duration operator-() const { return duration(-__r); } duration& operator++() { ++__r; return *this; } duration operator++(int) { return duration(__r++); } duration& operator--() { --__r; return *this; } duration operator--(int) { return duration(__r--); } duration& operator+=(const duration& __d) { __r += __d.count(); return *this; } duration& operator-=(const duration& __d) { __r -= __d.count(); return *this; } duration& operator*=(const rep& __rhs) { __r *= __rhs; return *this; } duration& operator/=(const rep& __rhs) { __r /= __rhs; return *this; } // DR 934. template<typename _Rep2 = rep> typename enable_if<!treat_as_floating_point<_Rep2>::value, duration&>::type operator%=(const rep& __rhs) { __r %= __rhs; return *this; } template<typename _Rep2 = rep> typename enable_if<!treat_as_floating_point<_Rep2>::value, duration&>::type operator%=(const duration& __d) { __r %= __d.count(); return *this; } // 20.11.5.4 special values static constexpr duration zero() { return duration(duration_values<rep>::zero()); } static constexpr duration min() { return duration(duration_values<rep>::min()); } static constexpr duration max() { return duration(duration_values<rep>::max()); } private: rep __r; }; template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr typename common_type<duration<_Rep1, _Period1>, duration<_Rep2, _Period2>>::type operator+(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep1, _Period1> __dur1; typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<__dur1,__dur2>::type __cd; return __cd(__cd(__lhs).count() + __cd(__rhs).count()); } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr typename common_type<duration<_Rep1, _Period1>, duration<_Rep2, _Period2>>::type operator-(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep1, _Period1> __dur1; typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<__dur1,__dur2>::type __cd; return __cd(__cd(__lhs).count() - __cd(__rhs).count()); } template<typename _Rep1, typename _Rep2, bool = is_convertible<_Rep2, typename common_type<_Rep1, _Rep2>::type>::value> struct __common_rep_type { }; template<typename _Rep1, typename _Rep2> struct __common_rep_type<_Rep1, _Rep2, true> { typedef typename common_type<_Rep1, _Rep2>::type type; }; template<typename _Rep1, typename _Period, typename _Rep2> constexpr duration<typename __common_rep_type<_Rep1, _Rep2>::type, _Period> operator*(const duration<_Rep1, _Period>& __d, const _Rep2& __s) { typedef duration<typename common_type<_Rep1, _Rep2>::type, _Period> __cd; return __cd(__cd(__d).count() * __s); } template<typename _Rep1, typename _Rep2, typename _Period> constexpr duration<typename __common_rep_type<_Rep2, _Rep1>::type, _Period> operator*(const _Rep1& __s, const duration<_Rep2, _Period>& __d) { return __d * __s; } template<typename _Rep1, typename _Period, typename _Rep2> constexpr duration<typename __common_rep_type<_Rep1, typename enable_if<!__is_duration<_Rep2>::value, _Rep2>::type>::type, _Period> operator/(const duration<_Rep1, _Period>& __d, const _Rep2& __s) { typedef duration<typename common_type<_Rep1, _Rep2>::type, _Period> __cd; return __cd(__cd(__d).count() / __s); } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr typename common_type<_Rep1, _Rep2>::type operator/(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep1, _Period1> __dur1; typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<__dur1,__dur2>::type __cd; return __cd(__lhs).count() / __cd(__rhs).count(); } // DR 934. template<typename _Rep1, typename _Period, typename _Rep2> constexpr duration<typename __common_rep_type<_Rep1, typename enable_if<!__is_duration<_Rep2>::value, _Rep2>::type>::type, _Period> operator%(const duration<_Rep1, _Period>& __d, const _Rep2& __s) { typedef duration<typename common_type<_Rep1, _Rep2>::type, _Period> __cd; return __cd(__cd(__d).count() % __s); } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr typename common_type<duration<_Rep1, _Period1>, duration<_Rep2, _Period2>>::type operator%(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep1, _Period1> __dur1; typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<__dur1,__dur2>::type __cd; return __cd(__cd(__lhs).count() % __cd(__rhs).count()); } // comparisons template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr bool operator==(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep1, _Period1> __dur1; typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<__dur1,__dur2>::type __ct; return __ct(__lhs).count() == __ct(__rhs).count(); } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr bool operator<(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep1, _Period1> __dur1; typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<__dur1,__dur2>::type __ct; return __ct(__lhs).count() < __ct(__rhs).count(); } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr bool operator!=(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { return !(__lhs == __rhs); } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr bool operator<=(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { return !(__rhs < __lhs); } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr bool operator>(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { return __rhs < __lhs; } template<typename _Rep1, typename _Period1, typename _Rep2, typename _Period2> constexpr bool operator>=(const duration<_Rep1, _Period1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { return !(__lhs < __rhs); } /// nanoseconds typedef duration<int64_t, nano> nanoseconds; /// microseconds typedef duration<int64_t, micro> microseconds; /// milliseconds typedef duration<int64_t, milli> milliseconds; /// seconds typedef duration<int64_t> seconds; /// minutes typedef duration<int, ratio< 60>> minutes; /// hours typedef duration<int, ratio<3600>> hours; /// time_point template<typename _Clock, typename _Dur> struct time_point { typedef _Clock clock; typedef _Dur duration; typedef typename duration::rep rep; typedef typename duration::period period; constexpr time_point() : __d(duration::zero()) { } constexpr explicit time_point(const duration& __dur) : __d(__dur) { } // conversions template<typename _Dur2> constexpr time_point(const time_point<clock, _Dur2>& __t) : __d(__t.time_since_epoch()) { } // observer constexpr duration time_since_epoch() const { return __d; } // arithmetic time_point& operator+=(const duration& __dur) { __d += __dur; return *this; } time_point& operator-=(const duration& __dur) { __d -= __dur; return *this; } // special values static constexpr time_point min() { return time_point(duration::min()); } static constexpr time_point max() { return time_point(duration::max()); } private: duration __d; }; /// time_point_cast template<typename _ToDur, typename _Clock, typename _Dur> constexpr typename enable_if<__is_duration<_ToDur>::value, time_point<_Clock, _ToDur>>::type time_point_cast(const time_point<_Clock, _Dur>& __t) { typedef time_point<_Clock, _ToDur> __time_point; return __time_point(duration_cast<_ToDur>(__t.time_since_epoch())); } template<typename _Clock, typename _Dur1, typename _Rep2, typename _Period2> constexpr time_point<_Clock, typename common_type<_Dur1, duration<_Rep2, _Period2>>::type> operator+(const time_point<_Clock, _Dur1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<_Dur1,__dur2>::type __ct; typedef time_point<_Clock, __ct> __time_point; return __time_point(__lhs.time_since_epoch() + __rhs); } template<typename _Rep1, typename _Period1, typename _Clock, typename _Dur2> constexpr time_point<_Clock, typename common_type<duration<_Rep1, _Period1>, _Dur2>::type> operator+(const duration<_Rep1, _Period1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { typedef duration<_Rep1, _Period1> __dur1; typedef typename common_type<__dur1,_Dur2>::type __ct; typedef time_point<_Clock, __ct> __time_point; return __time_point(__rhs.time_since_epoch() + __lhs); } template<typename _Clock, typename _Dur1, typename _Rep2, typename _Period2> constexpr time_point<_Clock, typename common_type<_Dur1, duration<_Rep2, _Period2>>::type> operator-(const time_point<_Clock, _Dur1>& __lhs, const duration<_Rep2, _Period2>& __rhs) { typedef duration<_Rep2, _Period2> __dur2; typedef typename common_type<_Dur1,__dur2>::type __ct; typedef time_point<_Clock, __ct> __time_point; return __time_point(__lhs.time_since_epoch() -__rhs); } template<typename _Clock, typename _Dur1, typename _Dur2> constexpr typename common_type<_Dur1, _Dur2>::type operator-(const time_point<_Clock, _Dur1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { return __lhs.time_since_epoch() - __rhs.time_since_epoch(); } template<typename _Clock, typename _Dur1, typename _Dur2> constexpr bool operator==(const time_point<_Clock, _Dur1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { return __lhs.time_since_epoch() == __rhs.time_since_epoch(); } template<typename _Clock, typename _Dur1, typename _Dur2> constexpr bool operator!=(const time_point<_Clock, _Dur1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { return !(__lhs == __rhs); } template<typename _Clock, typename _Dur1, typename _Dur2> constexpr bool operator<(const time_point<_Clock, _Dur1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { return __lhs.time_since_epoch() < __rhs.time_since_epoch(); } template<typename _Clock, typename _Dur1, typename _Dur2> constexpr bool operator<=(const time_point<_Clock, _Dur1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { return !(__rhs < __lhs); } template<typename _Clock, typename _Dur1, typename _Dur2> constexpr bool operator>(const time_point<_Clock, _Dur1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { return __rhs < __lhs; } template<typename _Clock, typename _Dur1, typename _Dur2> constexpr bool operator>=(const time_point<_Clock, _Dur1>& __lhs, const time_point<_Clock, _Dur2>& __rhs) { return !(__lhs < __rhs); } // Clocks. // Why nanosecond resolution as the default? // Why have std::system_clock always count in the higest // resolution (ie nanoseconds), even if on some OSes the low 3 // or 9 decimal digits will be always zero? This allows later // implementations to change the system_clock::now() // implementation any time to provide better resolution without // changing function signature or units. // To support the (forward) evolution of the library's defined // clocks, wrap inside inline namespace so that the current // defintions of system_clock, steady_clock, and // high_resolution_clock types are uniquely mangled. This way, new // code can use the latests clocks, while the library can contain // compatibility definitions for previous versions. At some // point, when these clocks settle down, the inlined namespaces // can be removed. XXX GLIBCXX_ABI Deprecated inline namespace _V2 { /** * @brief System clock. * * Time returned represents wall time from the system-wide clock. */ struct system_clock { typedef chrono::nanoseconds duration; typedef duration::rep rep; typedef duration::period period; typedef chrono::time_point<system_clock, duration> time_point; static_assert(system_clock::duration::min() < system_clock::duration::zero(), "a clock's minimum duration cannot be less than its epoch"); static constexpr bool is_steady = false; static time_point now() noexcept; // Map to C API static std::time_t to_time_t(const time_point& __t) noexcept { return std::time_t(duration_cast<chrono::seconds> (__t.time_since_epoch()).count()); } static time_point from_time_t(std::time_t __t) noexcept { typedef chrono::time_point<system_clock, seconds> __from; return time_point_cast<system_clock::duration> (__from(chrono::seconds(__t))); } }; /** * @brief Monotonic clock * * Time returned has the property of only increasing at a uniform rate. */ struct steady_clock { typedef chrono::nanoseconds duration; typedef duration::rep rep; typedef duration::period period; typedef chrono::time_point<steady_clock, duration> time_point; static constexpr bool is_steady = true; static time_point now() noexcept; }; /** * @brief Highest-resolution clock * * This is the clock "with the shortest tick period." Alias to * std::system_clock until higher-than-nanosecond definitions * become feasible. */ using high_resolution_clock = system_clock; } // end inline namespace _V2 _GLIBCXX_END_NAMESPACE_VERSION } // namespace chrono // @} group chrono } // namespace #endif //_GLIBCXX_USE_C99_STDINT_TR1 #endif // C++11 #endif //_GLIBCXX_CHRONO