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4296425bd8
C++20 can automatically synthesize `operator!=` from `operator==`, so there is no point in writing such functions by hand if all they do is call through to `operator==`. This fixes a compile error with compilers that implement P2468 (Clang 16 currently). This paper restores the C++17 behavior that if both `T::operator==(U)` and `T::operator!=(U)` exist, `U == T` won't be rewritten in reverse to call `T::operator==(U)`. Removing `!=` operators makes the rewriting possible again. See https://reviews.llvm.org/D134529#3853062
377 lines
12 KiB
C++
377 lines
12 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#pragma once
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#include <AK/Array.h>
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#include <AK/Assertions.h>
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#include <AK/Platform.h>
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#include <AK/Types.h>
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// Kernel and Userspace pull in the definitions from different places.
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// Avoid trying to figure out which one.
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struct timeval;
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struct timespec;
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#if defined(AK_OS_WINDOWS)
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# include <time.h>
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#endif
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namespace AK {
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// Concept to detect types which look like timespec without requiring the type.
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template<typename T>
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concept TimeSpecType = requires(T t)
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{
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t.tv_sec;
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t.tv_nsec;
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};
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constexpr bool is_leap_year(int year)
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{
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return year % 4 == 0 && (year % 100 != 0 || year % 400 == 0);
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}
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// Month and day start at 1. Month must be >= 1 and <= 12.
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// The return value is 0-indexed, that is 0 is Sunday, 1 is Monday, etc.
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// Day may be negative or larger than the number of days
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// in the given month.
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unsigned day_of_week(int year, unsigned month, int day);
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// Month and day start at 1. Month must be >= 1 and <= 12.
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// The return value is 0-indexed, that is Jan 1 is day 0.
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// Day may be negative or larger than the number of days
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// in the given month. If day is negative enough, the result
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// can be negative.
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constexpr int day_of_year(int year, unsigned month, int day)
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{
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VERIFY(month >= 1 && month <= 12);
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constexpr Array seek_table = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 };
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int day_of_year = seek_table[month - 1] + day - 1;
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if (is_leap_year(year) && month >= 3)
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day_of_year++;
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return day_of_year;
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}
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// Month starts at 1. Month must be >= 1 and <= 12.
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int days_in_month(int year, unsigned month);
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constexpr int days_in_year(int year)
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{
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return 365 + (is_leap_year(year) ? 1 : 0);
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}
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constexpr int years_to_days_since_epoch(int year)
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{
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int days = 0;
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for (int current_year = 1970; current_year < year; ++current_year)
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days += days_in_year(current_year);
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for (int current_year = year; current_year < 1970; ++current_year)
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days -= days_in_year(current_year);
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return days;
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}
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constexpr int days_since_epoch(int year, int month, int day)
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{
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return years_to_days_since_epoch(year) + day_of_year(year, month, day);
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}
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constexpr i64 seconds_since_epoch_to_year(i64 seconds)
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{
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constexpr double seconds_per_year = 60.0 * 60.0 * 24.0 * 365.2425;
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// NOTE: We are not using floor() from <math.h> to avoid LibC / DynamicLoader dependency issues.
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auto round_down = [](double value) -> i64 {
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auto as_i64 = static_cast<i64>(value);
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if ((value == as_i64) || (as_i64 >= 0))
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return as_i64;
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return as_i64 - 1;
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};
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auto years_since_epoch = static_cast<double>(seconds) / seconds_per_year;
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return 1970 + round_down(years_since_epoch);
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}
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/*
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* Represents a time amount in a "safe" way.
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* Minimum: 0 seconds, 0 nanoseconds
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* Maximum: 2**63-1 seconds, 999'999'999 nanoseconds
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* If any operation (e.g. 'from_timeval' or operator-) would over- or underflow, the closest legal value is returned instead.
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* Inputs (e.g. to 'from_timespec') are allowed to be in non-normal form (e.g. "1 second, 2'012'345'678 nanoseconds" or "1 second, -2 microseconds").
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* Outputs (e.g. from 'to_timeval') are always in normal form.
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*/
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class Time {
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public:
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Time() = default;
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Time(Time const&) = default;
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Time& operator=(Time const&) = default;
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Time(Time&& other)
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: m_seconds(exchange(other.m_seconds, 0))
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, m_nanoseconds(exchange(other.m_nanoseconds, 0))
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{
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}
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Time& operator=(Time&& other)
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{
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if (this != &other) {
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m_seconds = exchange(other.m_seconds, 0);
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m_nanoseconds = exchange(other.m_nanoseconds, 0);
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}
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return *this;
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}
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private:
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// This must be part of the header in order to make the various 'from_*' functions constexpr.
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// However, sane_mod can only deal with a limited range of values for 'denominator', so this can't be made public.
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ALWAYS_INLINE static constexpr i64 sane_mod(i64& numerator, i64 denominator)
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{
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VERIFY(2 <= denominator && denominator <= 1'000'000'000);
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// '%' in C/C++ does not work in the obvious way:
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// For example, -9 % 7 is -2, not +5.
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// However, we want a representation like "(-2)*7 + (+5)".
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i64 dividend = numerator / denominator;
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numerator %= denominator;
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if (numerator < 0) {
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// Does not overflow: different signs.
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numerator += denominator;
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// Does not underflow: denominator >= 2.
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dividend -= 1;
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}
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return dividend;
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}
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ALWAYS_INLINE static constexpr i32 sane_mod(i32& numerator, i32 denominator)
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{
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i64 numerator_64 = numerator;
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i64 dividend = sane_mod(numerator_64, denominator);
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// Does not underflow: numerator can only become smaller.
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numerator = static_cast<i32>(numerator_64);
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// Does not overflow: Will be smaller than original value of 'numerator'.
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return static_cast<i32>(dividend);
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}
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public:
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[[nodiscard]] constexpr static Time from_timestamp(i32 year, u8 month, u8 day, u8 hour, u8 minute, u8 second, u16 millisecond)
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{
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constexpr auto milliseconds_per_day = 86'400'000;
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constexpr auto milliseconds_per_hour = 3'600'000;
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constexpr auto milliseconds_per_minute = 60'000;
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constexpr auto milliseconds_per_second = 1'000;
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i64 milliseconds_since_epoch = days_since_epoch(year, month, day);
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milliseconds_since_epoch *= milliseconds_per_day;
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milliseconds_since_epoch += hour * milliseconds_per_hour;
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milliseconds_since_epoch += minute * milliseconds_per_minute;
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milliseconds_since_epoch += second * milliseconds_per_second;
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milliseconds_since_epoch += millisecond;
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return from_milliseconds(milliseconds_since_epoch);
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}
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[[nodiscard]] constexpr static Time from_seconds(i64 seconds) { return Time(seconds, 0); }
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[[nodiscard]] constexpr static Time from_nanoseconds(i64 nanoseconds)
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{
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i64 seconds = sane_mod(nanoseconds, 1'000'000'000);
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return Time(seconds, nanoseconds);
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}
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[[nodiscard]] constexpr static Time from_microseconds(i64 microseconds)
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{
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i64 seconds = sane_mod(microseconds, 1'000'000);
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return Time(seconds, microseconds * 1'000);
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}
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[[nodiscard]] constexpr static Time from_milliseconds(i64 milliseconds)
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{
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i64 seconds = sane_mod(milliseconds, 1'000);
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return Time(seconds, milliseconds * 1'000'000);
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}
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[[nodiscard]] static Time from_ticks(clock_t, time_t);
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[[nodiscard]] static Time from_timespec(const struct timespec&);
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[[nodiscard]] static Time from_timeval(const struct timeval&);
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// We don't pull in <stdint.h> for the pretty min/max definitions because this file is also included in the Kernel
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[[nodiscard]] constexpr static Time min() { return Time(-__INT64_MAX__ - 1LL, 0); };
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[[nodiscard]] constexpr static Time zero() { return Time(0, 0); };
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[[nodiscard]] constexpr static Time max() { return Time(__INT64_MAX__, 999'999'999); };
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#ifndef KERNEL
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[[nodiscard]] static Time now_realtime();
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[[nodiscard]] static Time now_realtime_coarse();
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[[nodiscard]] static Time now_monotonic();
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[[nodiscard]] static Time now_monotonic_coarse();
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#endif
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// Truncates towards zero (2.8s to 2s, -2.8s to -2s).
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[[nodiscard]] i64 to_truncated_seconds() const;
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[[nodiscard]] i64 to_truncated_milliseconds() const;
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[[nodiscard]] i64 to_truncated_microseconds() const;
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// Rounds away from zero (2.3s to 3s, -2.3s to -3s).
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[[nodiscard]] i64 to_seconds() const;
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[[nodiscard]] i64 to_milliseconds() const;
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[[nodiscard]] i64 to_microseconds() const;
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[[nodiscard]] i64 to_nanoseconds() const;
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[[nodiscard]] timespec to_timespec() const;
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// Rounds towards -inf (it was the easiest to implement).
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[[nodiscard]] timeval to_timeval() const;
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[[nodiscard]] bool is_zero() const { return (m_seconds == 0) && (m_nanoseconds == 0); }
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[[nodiscard]] bool is_negative() const { return m_seconds < 0; }
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bool operator==(Time const& other) const { return this->m_seconds == other.m_seconds && this->m_nanoseconds == other.m_nanoseconds; }
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Time operator+(Time const& other) const;
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Time& operator+=(Time const& other);
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Time operator-(Time const& other) const;
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Time& operator-=(Time const& other);
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bool operator<(Time const& other) const;
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bool operator<=(Time const& other) const;
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bool operator>(Time const& other) const;
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bool operator>=(Time const& other) const;
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private:
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constexpr explicit Time(i64 seconds, u32 nanoseconds)
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: m_seconds(seconds)
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, m_nanoseconds(nanoseconds)
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{
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}
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[[nodiscard]] static Time from_half_sanitized(i64 seconds, i32 extra_seconds, u32 nanoseconds);
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i64 m_seconds { 0 };
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u32 m_nanoseconds { 0 }; // Always less than 1'000'000'000
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};
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template<typename TimevalType>
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inline void timeval_sub(TimevalType const& a, TimevalType const& b, TimevalType& result)
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{
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result.tv_sec = a.tv_sec - b.tv_sec;
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result.tv_usec = a.tv_usec - b.tv_usec;
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if (result.tv_usec < 0) {
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--result.tv_sec;
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result.tv_usec += 1'000'000;
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}
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}
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template<typename TimevalType>
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inline void timeval_add(TimevalType const& a, TimevalType const& b, TimevalType& result)
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{
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result.tv_sec = a.tv_sec + b.tv_sec;
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result.tv_usec = a.tv_usec + b.tv_usec;
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if (result.tv_usec >= 1'000'000) {
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++result.tv_sec;
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result.tv_usec -= 1'000'000;
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}
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}
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template<typename TimespecType>
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inline void timespec_sub(TimespecType const& a, TimespecType const& b, TimespecType& result)
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{
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result.tv_sec = a.tv_sec - b.tv_sec;
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result.tv_nsec = a.tv_nsec - b.tv_nsec;
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if (result.tv_nsec < 0) {
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--result.tv_sec;
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result.tv_nsec += 1'000'000'000;
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}
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}
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template<typename TimespecType>
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inline void timespec_add(TimespecType const& a, TimespecType const& b, TimespecType& result)
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{
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result.tv_sec = a.tv_sec + b.tv_sec;
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result.tv_nsec = a.tv_nsec + b.tv_nsec;
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if (result.tv_nsec >= 1000'000'000) {
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++result.tv_sec;
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result.tv_nsec -= 1000'000'000;
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}
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}
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template<typename TimespecType, typename TimevalType>
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inline void timespec_add_timeval(TimespecType const& a, TimevalType const& b, TimespecType& result)
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{
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result.tv_sec = a.tv_sec + b.tv_sec;
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result.tv_nsec = a.tv_nsec + b.tv_usec * 1000;
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if (result.tv_nsec >= 1000'000'000) {
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++result.tv_sec;
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result.tv_nsec -= 1000'000'000;
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}
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}
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template<typename TimevalType, typename TimespecType>
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inline void timeval_to_timespec(TimevalType const& tv, TimespecType& ts)
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{
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ts.tv_sec = tv.tv_sec;
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ts.tv_nsec = tv.tv_usec * 1000;
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}
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template<typename TimespecType, typename TimevalType>
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inline void timespec_to_timeval(TimespecType const& ts, TimevalType& tv)
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{
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tv.tv_sec = ts.tv_sec;
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tv.tv_usec = ts.tv_nsec / 1000;
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}
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template<TimeSpecType T>
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inline bool operator>=(const T& a, const T& b)
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{
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return a.tv_sec > b.tv_sec || (a.tv_sec == b.tv_sec && a.tv_nsec >= b.tv_nsec);
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}
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template<TimeSpecType T>
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inline bool operator>(const T& a, const T& b)
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{
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return a.tv_sec > b.tv_sec || (a.tv_sec == b.tv_sec && a.tv_nsec > b.tv_nsec);
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}
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template<TimeSpecType T>
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inline bool operator<(const T& a, const T& b)
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{
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return a.tv_sec < b.tv_sec || (a.tv_sec == b.tv_sec && a.tv_nsec < b.tv_nsec);
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}
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template<TimeSpecType T>
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inline bool operator<=(const T& a, const T& b)
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{
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return a.tv_sec < b.tv_sec || (a.tv_sec == b.tv_sec && a.tv_nsec <= b.tv_nsec);
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}
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template<TimeSpecType T>
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inline bool operator==(const T& a, const T& b)
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{
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return a.tv_sec == b.tv_sec && a.tv_nsec == b.tv_nsec;
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}
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template<TimeSpecType T>
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inline bool operator!=(const T& a, const T& b)
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{
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return a.tv_sec != b.tv_sec || a.tv_nsec != b.tv_nsec;
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}
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}
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using AK::day_of_week;
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using AK::day_of_year;
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using AK::days_in_month;
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using AK::days_in_year;
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using AK::days_since_epoch;
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using AK::is_leap_year;
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using AK::seconds_since_epoch_to_year;
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using AK::Time;
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using AK::timespec_add;
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using AK::timespec_add_timeval;
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using AK::timespec_sub;
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using AK::timespec_to_timeval;
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using AK::timeval_add;
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using AK::timeval_sub;
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using AK::timeval_to_timespec;
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using AK::years_to_days_since_epoch;
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using AK::operator<=;
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using AK::operator<;
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using AK::operator>;
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using AK::operator>=;
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using AK::operator==;
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using AK::operator!=;
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