AuroraRuntime/Source/Time/Time.hpp

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/***
Copyright (C) 2021 J Reece Wilson (a/k/a "Reece"). All rights reserved.
File: Time.hpp
Date: 2021-6-17
Author: Reece
***/
#pragma once
#if defined(AURORA_IS_POSIX_DERIVED)
#include <time.h>
#endif
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namespace Aurora::Time
{
AuInt64 CTimeNSNormalize(AuUInt64 time);
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#if defined(AURORA_PLATFORM_WIN32)
static AuInt64 ConvertTimestamp(const FILETIME &ft)
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{
ULARGE_INTEGER ull;
ull.LowPart = ft.dwLowDateTime;
ull.HighPart = ft.dwHighDateTime;
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return (ull.QuadPart - 126'435'537'000'000'000ull) / 10'000ULL;
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}
static AuInt64 ConvertTimestampNs(const FILETIME &ft)
{
ULARGE_INTEGER ull;
ull.LowPart = ft.dwLowDateTime;
ull.HighPart = ft.dwHighDateTime;
return (ull.QuadPart - 126'435'537'000'000'000ull) * 100ULL;
}
static AuInt64 ConvertTimestamp(AuUInt64 timeIn)
{
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return (126'435'537'000'000'000ull) + (AuUInt64(timeIn) * 10000ULL);
}
static AuInt64 ConvertTimestampNs(AuUInt64 timeIn)
{
return (126'435'537'000'000'000ull) + (AuUInt64(timeIn) / 100ULL);
}
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#elif defined(AURORA_IS_POSIX_DERIVED)
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static AuInt64 ConvertUnixTimespecToMs(const struct timespec &spec)
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{
return ConvertUnixToAuroraMS(spec.tv_sec * 1000ULL + spec.tv_nsec / 1000000ULL);
}
static void ms2ts(struct timespec *ts, AuUInt64 ms)
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{
ts->tv_sec = ms / 1000;
ts->tv_nsec = (ms % 1000) * 1000000;
}
static void ns2ts(struct timespec *ts, AuUInt64 ns)
{
ts->tv_sec = ns / 1'000'000'000ull;
ts->tv_nsec = ns % 1'000'000'000ull;
}
static void ms2tsabs(struct timespec *ts, unsigned long ms)
{
::clock_gettime(CLOCK_MONOTONIC, ts);
auto baseNS = ((AuUInt64)ms * (AuUInt64)1'000'000) + (AuUInt64)ts->tv_nsec;
auto remainderNS = (AuUInt64)baseNS % (AuUInt64)1'000'000'000;
ts->tv_sec += baseNS / 1'000'000'000ull;
ts->tv_nsec = remainderNS;
}
static void ms2tsabsRealtime(struct timespec *ts, unsigned long ms)
{
::clock_gettime(CLOCK_REALTIME, ts);
auto baseNS = ((AuUInt64)ms * (AuUInt64)1'000'000) + (AuUInt64)ts->tv_nsec;
auto remainderNS = (AuUInt64)baseNS % (AuUInt64)1'000'000'000;
ts->tv_sec += baseNS / 1'000'000'000ull;
ts->tv_nsec = remainderNS;
}
static void monoabsns2ts(struct timespec *ts, unsigned long long ns)
{
auto remainderNS = (AuUInt64)ns % (AuUInt64)1'000'000'000;
ts->tv_sec = ns / 1'000'000'000ull;
ts->tv_nsec = remainderNS;
}
static void auabsns2ts(struct timespec *ts, unsigned long long ns)
{
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auto baseNS = ns + AuMSToNS<AuUInt64>(999'080'100'000);
auto remainderNS = (AuUInt64)baseNS % (AuUInt64)1'000'000'000;
ts->tv_sec = baseNS / 1'000'000'000ull;
ts->tv_nsec = remainderNS;
}
static void auabsms2ts(struct timespec *ts, unsigned long ms)
{
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auabsns2ts(ts, AuMSToNS<AuUInt64>(ms));
}
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static void ms2tvabs(struct timeval *tv, unsigned long ms)
{
timespec ts;
::clock_gettime(CLOCK_REALTIME, &ts);
auto baseNS = ((AuUInt64)ms * (AuUInt64)1'000'000) + (AuUInt64)ts.tv_nsec;
auto remainderNS = (AuUInt64)baseNS % (AuUInt64)1'000'000'000;
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tv->tv_sec = ts.tv_sec;
tv->tv_sec += baseNS / 1'000'000'000ull;
tv->tv_usec = remainderNS / 1'000ull;
}
static void ms2tv(struct timeval *tv, unsigned long ms)
{
tv->tv_sec = ms / 1'000ull;
tv->tv_usec = (ms % 1'000ull) * 1'000ull;
}
static void ms2tsabsmono(struct timespec *ts, unsigned long ms)
{
clock_gettime(CLOCK_MONOTONIC, ts);
auto baseNS = ((AuUInt64)ms * (AuUInt64)1'000'000) + (AuUInt64)ts->tv_nsec;
auto remainderNS = (AuUInt64)baseNS % (AuUInt64)1'000'000'000;
ts->tv_sec += baseNS / 1'000'000'000ull;
ts->tv_nsec = remainderNS;
}
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#endif
}