This header is part of the date and time library.
Defined in namespace std::chrono |
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(C++11) | a time interval (class template) |
(C++11) | wall clock time from the system-wide realtime clock (class) |
(C++11) | monotonic clock that will never be adjusted (class) |
(C++11) | the clock with the shortest tick period available (class) |
(C++11) | a point in time (class template) |
indicates that a duration is convertible to duration with different tick period (class template) |
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constructs zero, min, and max values of a tick count of given type (class template) |
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Convenience Typedefs |
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Defined in namespace std::chrono |
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std::chrono::nanoseconds | duration type with Period std::nano |
std::chrono::microseconds | duration type with Period std::micro |
std::chrono::milliseconds | duration type with Period std::milli |
std::chrono::seconds | duration type with Period std::ratio<1> |
std::chrono::minutes | duration type with Period std::ratio<60> |
std::chrono::hours | duration type with Period std::ratio<3600> |
Specializations |
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Defined in namespace std |
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specializes the std::common_type trait (class template specialization) |
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specializes the std::common_type trait (class template specialization) |
Duration |
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Defined in namespace std::chrono |
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implements arithmetic operations with durations as arguments (function template) |
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compares two durations (function template) |
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converts a duration to another, with a different tick interval (function template) |
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(C++17) | converts a duration to another, rounding down (function template) |
(C++17) | converts a duration to another, rounding up (function template) |
(C++17) | converts a duration to another, rounding to nearest, ties to even (function template) |
(C++17) | obtains the absolute value of the duration (function template) |
Time point |
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Defined in namespace std::chrono |
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performs add and subtract operations involving a time point (function template) |
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compares two time points (function template) |
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converts a time point to another time point on the same clock, with a different duration (function template) |
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(C++17) | converts a time_point to another, rounding down (function template) |
(C++17) | converts a time_point to another, rounding up (function template) |
(C++17) | converts a time_point to another, rounding to nearest, ties to even (function template) |
Literals |
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Defined in inline namespace std::literals::chrono_literals |
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(C++14) | A std::chrono::duration literal representing hours (function) |
(C++14) | A std::chrono::duration literal representing minutes (function) |
(C++14) | A std::chrono::duration literal representing seconds (function) |
(C++14) | A std::chrono::duration literal representing milliseconds (function) |
(C++14) | A std::chrono::duration literal representing microseconds (function) |
(C++14) | A std::chrono::duration literal representing nanoseconds (function) |
namespace std { namespace chrono { // class template duration template <class Rep, class Period = ratio<1>> class duration; // class template time_point template <class Clock, class Duration = typename Clock::duration> class time_point; } // common_type specializations template <class Rep1, class Period1, class Rep2, class Period2> struct common_type<chrono::duration<Rep1, Period1>, chrono::duration<Rep2, Period2>>; template <class Clock, class Duration1, class Duration2> struct common_type<chrono::time_point<Clock, Duration1>, chrono::time_point<Clock, Duration2>>; namespace chrono { // customization traits template <class Rep> struct treat_as_floating_point; template <class Rep> struct duration_values; template <class Rep> constexpr bool treat_as_floating_point_v = treat_as_floating_point<Rep>::value; // duration arithmetic template <class Rep1, class Period1, class Rep2, class Period2> common_type_t<duration<Rep1, Period1>, duration<Rep2, Period2>> constexpr operator+(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period1, class Rep2, class Period2> common_type_t<duration<Rep1, Period1>, duration<Rep2, Period2>> constexpr operator-(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period, class Rep2> duration<common_type_t<Rep1, Rep2>, Period> constexpr operator*(const duration<Rep1, Period>& d, const Rep2& s); template <class Rep1, class Rep2, class Period> duration<common_type_t<Rep1, Rep2>, Period> constexpr operator*(const Rep1& s, const duration<Rep2, Period>& d); template <class Rep1, class Period, class Rep2> duration<common_type_t<Rep1, Rep2>, Period> constexpr operator/(const duration<Rep1, Period>& d, const Rep2& s); template <class Rep1, class Period1, class Rep2, class Period2> common_type_t<Rep1, Rep2> constexpr operator/(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period, class Rep2> duration<common_type_t<Rep1, Rep2>, Period> constexpr operator%(const duration<Rep1, Period>& d, const Rep2& s); template <class Rep1, class Period1, class Rep2, class Period2> common_type_t<duration<Rep1, Period1>, duration<Rep2, Period2>> constexpr operator%(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); // duration comparisons template <class Rep1, class Period1, class Rep2, class Period2> constexpr bool operator==(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period1, class Rep2, class Period2> constexpr bool operator!=(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period1, class Rep2, class Period2> constexpr bool operator< (const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period1, class Rep2, class Period2> constexpr bool operator<=(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period1, class Rep2, class Period2> constexpr bool operator> (const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period1, class Rep2, class Period2> constexpr bool operator>=(const duration<Rep1, Period1>& lhs, const duration<Rep2, Period2>& rhs); // duration_cast template <class ToDuration, class Rep, class Period> constexpr ToDuration duration_cast(const duration<Rep, Period>& d); template <class ToDuration, class Rep, class Period> constexpr ToDuration floor(const duration<Rep, Period>& d); template <class ToDuration, class Rep, class Period> constexpr ToDuration ceil(const duration<Rep, Period>& d); template <class ToDuration, class Rep, class Period> constexpr ToDuration round(const duration<Rep, Period>& d); // convenience typedefs using nanoseconds = duration</*signed integer type of at least 64 bits*/ , nano>; using microseconds = duration</*signed integer type of at least 55 bits*/ , micro>; using milliseconds = duration</*signed integer type of at least 45 bits*/ , milli>; using seconds = duration</*signed integer type of at least 35 bits*/ >; using minutes = duration</*signed integer type of at least 29 bits*/ , ratio< 60>>; using hours = duration</*signed integer type of at least 23 bits*/ , ratio<3600>>; // time_point arithmetic template <class Clock, class Duration1, class Rep2, class Period2> constexpr time_point<Clock, common_type_t<Duration1, duration<Rep2, Period2>>> operator+(const time_point<Clock, Duration1>& lhs, const duration<Rep2, Period2>& rhs); template <class Rep1, class Period1, class Clock, class Duration2> constexpr time_point<Clock, common_type_t<duration<Rep1, Period1>, Duration2>> operator+(const duration<Rep1, Period1>& lhs, const time_point<Clock, Duration2>& rhs); template <class Clock, class Duration1, class Rep2, class Period2> constexpr time_point<Clock, common_type_t<Duration1, duration<Rep2, Period2>>> operator-(const time_point<Clock, Duration1>& lhs, const duration<Rep2, Period2>& rhs); template <class Clock, class Duration1, class Duration2> constexpr common_type_t<Duration1, Duration2> operator-(const time_point<Clock, Duration1>& lhs, const time_point<Clock, Duration2>& rhs); // time_point comparisons template <class Clock, class Duration1, class Duration2> constexpr bool operator==(const time_point<Clock, Duration1>& lhs, const time_point<Clock, Duration2>& rhs); template <class Clock, class Duration1, class Duration2> constexpr bool operator!=(const time_point<Clock, Duration1>& lhs, const time_point<Clock, Duration2>& rhs); template <class Clock, class Duration1, class Duration2> constexpr bool operator< (const time_point<Clock, Duration1>& lhs, const time_point<Clock, Duration2>& rhs); template <class Clock, class Duration1, class Duration2> constexpr bool operator<=(const time_point<Clock, Duration1>& lhs, const time_point<Clock, Duration2>& rhs); template <class Clock, class Duration1, class Duration2> constexpr bool operator> (const time_point<Clock, Duration1>& lhs, const time_point<Clock, Duration2>& rhs); template <class Clock, class Duration1, class Duration2> constexpr bool operator>=(const time_point<Clock, Duration1>& lhs, const time_point<Clock, Duration2>& rhs); // time_point_cast template <class ToDuration, class Clock, class Duration> constexpr time_point<Clock, ToDuration> time_point_cast(const time_point<Clock, Duration>& t); template <class ToDuration, class Clock, class Duration> constexpr time_point<Clock, ToDuration> floor(const time_point<Clock, Duration>& tp); template <class ToDuration, class Clock, class Duration> constexpr time_point<Clock, ToDuration> ceil(const time_point<Clock, Duration>& tp); template <class ToDuration, class Clock, class Duration> constexpr time_point<Clock, ToDuration> round(const time_point<Clock, Duration>& tp); // specialized algorithms template <class Rep, class Period> constexpr duration<Rep, Period> abs(duration<Rep, Period> d); // clocks class system_clock; class steady_clock; class high_resolution_clock; } inline namespace literals { inline namespace chrono_literals { // suffixes for duration literals constexpr chrono::hours operator "" h(unsigned long long); constexpr chrono::duration</*unspecified*/, ratio<3600,1>> operator "" h(long double); constexpr chrono::minutes operator "" min(unsigned long long); constexpr chrono::duration</*unspecified*/, ratio<60,1>> operator "" min(long double); constexpr chrono::seconds operator "" s(unsigned long long); constexpr chrono::duration</*unspecified*/ > operator "" s(long double); constexpr chrono::milliseconds operator "" ms(unsigned long long); constexpr chrono::duration</*unspecified*/, milli> operator "" ms(long double); constexpr chrono::microseconds operator "" us(unsigned long long); constexpr chrono::duration</*unspecified*/, micro> operator "" us(long double); constexpr chrono::nanoseconds operator "" ns(unsigned long long); constexpr chrono::duration</*unspecified*/, nano> operator "" ns(long double); } } namespace chrono { using namespace literals::chrono_literals; }
std::chrono::treat_as_floating_point
template <class Rep> struct treat_as_floating_point : is_floating_point<Rep> { };
std::chrono::duration_values
template <class Rep> struct duration_values { public: static constexpr Rep zero(); static constexpr Rep min(); static constexpr Rep max(); };
std::chrono::duration
template <class Rep, class Period = ratio<1>> class duration { public: using rep = Rep; using period = Period; private: rep rep_; // exposition only public: // construct/copy/destroy constexpr duration() = default; template <class Rep2> constexpr explicit duration(const Rep2& r); template <class Rep2, class Period2> constexpr duration(const duration<Rep2, Period2>& d); ~duration() = default; duration(const duration&) = default; duration& operator=(const duration&) = default; // observer constexpr rep count() const; // arithmetic constexpr duration operator+() const; constexpr duration operator-() const; constexpr duration& operator++(); constexpr duration operator++(int); constexpr duration& operator--(); constexpr duration operator--(int); constexpr duration& operator+=(const duration& d); constexpr duration& operator-=(const duration& d); constexpr duration& operator*=(const rep& rhs); constexpr duration& operator/=(const rep& rhs); constexpr duration& operator%=(const rep& rhs); constexpr duration& operator%=(const duration& rhs); // special values static constexpr duration zero(); static constexpr duration min(); static constexpr duration max(); };
std::chrono::time_point
template <class Clock, class Duration = typename Clock::duration> class time_point { public: using clock = Clock; using duration = Duration; using rep = typename duration::rep; using period = typename duration::period; private: duration d_; // exposition only public: // construct constexpr time_point(); // has value epoch constexpr explicit time_point(const duration& d); // same as time_point() + d template <class Duration2> constexpr time_point(const time_point<clock, Duration2>& t); // observer constexpr duration time_since_epoch() const; // arithmetic constexpr time_point& operator+=(const duration& d); constexpr time_point& operator-=(const duration& d); // special values static constexpr time_point min(); static constexpr time_point max(); };
std::chrono::system_clock
class system_clock { public: using rep = /*see description*/ ; using period = ratio</*unspecified*/, /*unspecified*/ >; using duration = chrono::duration<rep, period>; using time_point = chrono::time_point<system_clock>; static constexpr bool is_steady = /*unspecified*/ ; static time_point now() noexcept; // Map to C API static time_t to_time_t (const time_point& t) noexcept; static time_point from_time_t(time_t t) noexcept; };
std::chrono::steady_clock
class steady_clock { public: using rep = /*unspecified*/ ; using period = ratio</*unspecified*/, /*unspecified*/ >; using duration = chrono::duration<rep, period>; using time_point = chrono::time_point</*unspecified*/, duration>; static constexpr bool is_steady = true; static time_point now() noexcept; };
std::chrono::high_resolution_clock
class high_resolution_clock { public: using rep = /*unspecified*/ ; using period = ratio</*unspecified*/, /*unspecified*/ >; using duration = chrono::duration<rep, period>; using time_point = chrono::time_point</*unspecified*/, duration>; static constexpr bool is_steady = /*unspecified*/ ; static time_point now() noexcept; };
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