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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <sal/config.h>
#include <algorithm>
#if defined(_WIN32)
#if !defined WIN32_LEAN_AND_MEAN
# define WIN32_LEAN_AND_MEAN
#endif
#include <windows.h>
#include <mmsystem.h>
#elif defined UNX
#include <sys/time.h>
#include <unistd.h>
#endif
#include <time.h>
#ifdef __MACH__
#include <mach/clock.h>
#include <mach/mach.h>
#include <mach/mach_time.h>
#endif
#include <rtl/math.hxx>
#include <tools/time.hxx>
#include <com/sun/star/util/DateTime.hpp>
#include <systemdatetime.hxx>
#if defined(__sun) && defined(__GNUC__)
extern long altzone;
#endif
namespace {
const sal_Int64 nanoSecInSec = 1000000000;
const sal_Int16 secInMin = 60;
const sal_Int16 minInHour = 60;
sal_Int64 TimeToNanoSec( const tools::Time& rTime )
{
short nSign = (rTime.GetTime() >= 0) ? +1 : -1;
sal_Int32 nHour = rTime.GetHour();
sal_Int32 nMin = rTime.GetMin();
sal_Int32 nSec = rTime.GetSec();
sal_Int32 nNanoSec = rTime.GetNanoSec();
sal_Int64 nRet = nNanoSec;
nRet += nSec * nanoSecInSec;
nRet += nMin * secInMin * nanoSecInSec;
nRet += nHour * minInHour * secInMin * nanoSecInSec;
return (nRet * nSign);
}
tools::Time NanoSecToTime( sal_Int64 nNanoSec )
{
short nSign;
if ( nNanoSec < 0 )
{
nNanoSec *= -1;
nSign = -1;
}
else
nSign = 1;
tools::Time aTime( 0, 0, 0, nNanoSec );
aTime.SetTime( aTime.GetTime() * nSign );
return aTime;
}
} // anonymous namespace
namespace tools {
Time::Time( TimeInitSystem )
{
if ( !GetSystemDateTime( nullptr, &nTime ) )
nTime = 0;
}
Time::Time( const tools::Time& rTime )
{
nTime = rTime.nTime;
}
Time::Time( sal_uInt32 nHour, sal_uInt32 nMin, sal_uInt32 nSec, sal_uInt64 nNanoSec )
{
init(nHour, nMin, nSec, nNanoSec);
}
Time::Time( const css::util::Time &_rTime )
{
init(_rTime.Hours, _rTime.Minutes, _rTime.Seconds, _rTime.NanoSeconds);
}
Time::Time( const css::util::DateTime &_rDateTime )
{
init(_rDateTime.Hours, _rDateTime.Minutes, _rDateTime.Seconds, _rDateTime.NanoSeconds);
}
void tools::Time::init( sal_uInt32 nHour, sal_uInt32 nMin, sal_uInt32 nSec, sal_uInt64 nNanoSec )
{
// normalize time
nSec += nNanoSec / nanoSecInSec;
nNanoSec %= nanoSecInSec;
nMin += nSec / secInMin;
nSec %= secInMin;
nHour += nMin / minInHour;
nMin %= minInHour;
// construct time
nTime = nNanoSec +
nSec * SEC_MASK +
nMin * MIN_MASK +
nHour * HOUR_MASK;
}
void tools::Time::SetHour( sal_uInt16 nNewHour )
{
short nSign = (nTime >= 0) ? +1 : -1;
sal_Int32 nMin = GetMin();
sal_Int32 nSec = GetSec();
sal_Int32 nNanoSec = GetNanoSec();
nTime = nSign *
( nNanoSec +
nSec * SEC_MASK +
nMin * MIN_MASK +
nNewHour * HOUR_MASK );
}
void tools::Time::SetMin( sal_uInt16 nNewMin )
{
short nSign = (nTime >= 0) ? +1 : -1;
sal_Int32 nHour = GetHour();
sal_Int32 nSec = GetSec();
sal_Int32 nNanoSec = GetNanoSec();
// no overflow
nNewMin = nNewMin % minInHour;
nTime = nSign *
( nNanoSec +
nSec * SEC_MASK +
nNewMin * MIN_MASK +
nHour * HOUR_MASK );
}
void tools::Time::SetSec( sal_uInt16 nNewSec )
{
short nSign = (nTime >= 0) ? +1 : -1;
sal_Int32 nHour = GetHour();
sal_Int32 nMin = GetMin();
sal_Int32 nNanoSec = GetNanoSec();
// no overflow
nNewSec = nNewSec % secInMin;
nTime = nSign *
( nNanoSec +
nNewSec * SEC_MASK +
nMin * MIN_MASK +
nHour * HOUR_MASK );
}
void tools::Time::SetNanoSec( sal_uInt32 nNewNanoSec )
{
short nSign = (nTime >= 0) ? +1 : -1;
sal_Int32 nHour = GetHour();
sal_Int32 nMin = GetMin();
sal_Int32 nSec = GetSec();
// no overflow
nNewNanoSec = nNewNanoSec % nanoSecInSec;
nTime = nSign *
( nNewNanoSec +
nSec * SEC_MASK +
nMin * MIN_MASK +
nHour * HOUR_MASK );
}
sal_Int64 tools::Time::GetNSFromTime() const
{
short nSign = (nTime >= 0) ? +1 : -1;
sal_Int32 nHour = GetHour();
sal_Int32 nMin = GetMin();
sal_Int32 nSec = GetSec();
sal_Int32 nNanoSec = GetNanoSec();
return nSign *
( nNanoSec +
nSec * nanoSecInSec +
nMin * (secInMin * nanoSecInSec) +
nHour * (minInHour * secInMin * nanoSecInSec) );
}
void tools::Time::MakeTimeFromNS( sal_Int64 nNS )
{
short nSign;
if ( nNS < 0 )
{
nNS *= -1;
nSign = -1;
}
else
nSign = 1;
// avoid overflow when sal_uIntPtr is 32 bits
tools::Time aTime( 0, 0, nNS/nanoSecInSec, nNS % nanoSecInSec );
SetTime( aTime.GetTime() * nSign );
}
sal_Int32 tools::Time::GetMSFromTime() const
{
short nSign = (nTime >= 0) ? +1 : -1;
sal_Int32 nHour = GetHour();
sal_Int32 nMin = GetMin();
sal_Int32 nSec = GetSec();
sal_Int32 nNanoSec = GetNanoSec();
return nSign *
( nNanoSec/1000000 +
nSec * 1000 +
nMin * 60000 +
nHour * 3600000 );
}
void tools::Time::MakeTimeFromMS( sal_Int32 nMS )
{
short nSign;
if ( nMS < 0 )
{
nMS *= -1;
nSign = -1;
}
else
nSign = 1;
// avoid overflow when sal_uIntPtr is 32 bits
tools::Time aTime( 0, 0, nMS/1000, (nMS % 1000) * 1000000 );
SetTime( aTime.GetTime() * nSign );
}
double tools::Time::GetTimeInDays() const
{
short nSign = (nTime >= 0) ? +1 : -1;
double nHour = GetHour();
double nMin = GetMin();
double nSec = GetSec();
double nNanoSec = GetNanoSec();
return (nHour + (nMin / 60) + (nSec / (minInHour * secInMin)) + (nNanoSec / (minInHour * secInMin * nanoSecInSec))) / 24 * nSign;
}
// static
void tools::Time::GetClock( double fTimeInDays,
sal_uInt16& nHour, sal_uInt16& nMinute, sal_uInt16& nSecond,
double& fFractionOfSecond, int nFractionDecimals )
{
const double fTime = fTimeInDays - rtl::math::approxFloor(fTimeInDays); // date part absent
// If 0 then full day (or no day), shortcut.
// If < 0 then approxFloor() effectively returned the ceiling (note this
// also holds for negative fTimeInDays values) because of a near identical
// value, shortcut this to a full day as well.
// If >= 1.0 (actually == 1.0) then fTimeInDays is a negative small value
// not significant for a representable time and approxFloor() returned -1,
// shortcut to 0:0:0, otherwise it would become 24:0:0.
if (fTime <= 0.0 || fTime >= 1.0)
{
nHour = nMinute = nSecond = 0;
fFractionOfSecond = 0.0;
return;
}
// In seconds, including milli and nano.
const double fRawSeconds = fTime * tools::Time::secondPerDay;
// Round to nanoseconds most, which is the highest resolution this could be
// influenced by, but if the original value included a date round to at
// most 14 significant digits (including adding 4 for *86400), otherwise we
// might end up with a fake precision of h:m:s.999999986 which in fact
// should had been h:m:s+1
// BUT, leave at least 2 decimals to round. Which shouldn't be a problem in
// practice because class Date can calculate only 8-digit days for it's
// sal_Int16 year range, which exactly leaves us with 14-4-8=2.
int nDec = 9;
const double fAbsTimeInDays = fabs( fTimeInDays);
if (fAbsTimeInDays >= 1.0)
{
const int nDig = static_cast<int>(ceil( log10( fAbsTimeInDays)));
nDec = std::clamp( 10 - nDig, 2, 9 );
}
double fSeconds = rtl::math::round( fRawSeconds, nDec);
// If this ended up as a full day the original value was very very close
// but not quite. Take that.
if (fSeconds >= tools::Time::secondPerDay)
fSeconds = fRawSeconds;
// Now do not round values (specifically not up), but truncate to the next
// magnitude, so 23:59:59.99 is still 23:59:59 and not 24:00:00 (or even
// 00:00:00 which Excel does).
nHour = fSeconds / tools::Time::secondPerHour;
fSeconds -= nHour * tools::Time::secondPerHour;
nMinute = fSeconds / tools::Time::secondPerMinute;
fSeconds -= nMinute * tools::Time::secondPerMinute;
nSecond = fSeconds;
fSeconds -= nSecond;
assert(fSeconds < 1.0); // or back to the drawing board...
if (nFractionDecimals > 0)
{
// Do not simply round the fraction, otherwise .999 would end up as .00
// again. Truncate instead if rounding would round up into an integer
// value.
fFractionOfSecond = rtl::math::round( fSeconds, nFractionDecimals);
if (fFractionOfSecond >= 1.0)
fFractionOfSecond = rtl::math::pow10Exp( std::trunc(
rtl::math::pow10Exp( fSeconds, nFractionDecimals)), -nFractionDecimals);
}
else
fFractionOfSecond = fSeconds;
}
Time& tools::Time::operator =( const tools::Time& rTime )
{
nTime = rTime.nTime;
return *this;
}
Time& tools::Time::operator +=( const tools::Time& rTime )
{
nTime = NanoSecToTime( TimeToNanoSec( *this ) +
TimeToNanoSec( rTime ) ).GetTime();
return *this;
}
Time& tools::Time::operator -=( const tools::Time& rTime )
{
nTime = NanoSecToTime( TimeToNanoSec( *this ) -
TimeToNanoSec( rTime ) ).GetTime();
return *this;
}
Time operator +( const tools::Time& rTime1, const tools::Time& rTime2 )
{
return NanoSecToTime( TimeToNanoSec( rTime1 ) +
TimeToNanoSec( rTime2 ) );
}
Time operator -( const tools::Time& rTime1, const tools::Time& rTime2 )
{
return NanoSecToTime( TimeToNanoSec( rTime1 ) -
TimeToNanoSec( rTime2 ) );
}
bool tools::Time::IsEqualIgnoreNanoSec( const tools::Time& rTime ) const
{
sal_Int32 n1 = (nTime < 0 ? -static_cast<sal_Int32>(GetNanoSec()) : GetNanoSec() );
sal_Int32 n2 = (rTime.nTime < 0 ? -static_cast<sal_Int32>(rTime.GetNanoSec()) : rTime.GetNanoSec() );
return (nTime - n1) == (rTime.nTime - n2);
}
Time tools::Time::GetUTCOffset()
{
#if defined(_WIN32)
TIME_ZONE_INFORMATION aTimeZone;
aTimeZone.Bias = 0;
DWORD nTimeZoneRet = GetTimeZoneInformation( &aTimeZone );
sal_Int32 nTempTime = aTimeZone.Bias;
if ( nTimeZoneRet == TIME_ZONE_ID_STANDARD )
nTempTime += aTimeZone.StandardBias;
else if ( nTimeZoneRet == TIME_ZONE_ID_DAYLIGHT )
nTempTime += aTimeZone.DaylightBias;
tools::Time aTime( 0, static_cast<sal_uInt16>(abs( nTempTime )) );
if ( nTempTime > 0 )
aTime = -aTime;
return aTime;
#else
static sal_uInt64 nCacheTicks = 0;
static sal_Int32 nCacheSecOffset = -1;
sal_uInt64 nTicks = tools::Time::GetSystemTicks();
time_t nTime;
tm aTM;
short nTempTime;
// determine value again if needed
if ( (nCacheSecOffset == -1) ||
((nTicks - nCacheTicks) > 360000) ||
( nTicks < nCacheTicks ) // handle overflow
)
{
nTime = time( nullptr );
localtime_r( &nTime, &aTM );
sal_Int32 nLocalTime = mktime( &aTM );
#if defined(__sun)
// Solaris gmtime_r() seems not to handle daylight saving time
// flags correctly
nUTC = nLocalTime + ( aTM.tm_isdst == 0 ? timezone : altzone );
#elif defined( LINUX )
// Linux mktime() seems not to handle tm_isdst correctly
sal_Int32 nUTC = nLocalTime - aTM.tm_gmtoff;
#else
gmtime_r( &nTime, &aTM );
sal_Int32 nUTC = mktime( &aTM );
#endif
nCacheTicks = nTicks;
nCacheSecOffset = (nLocalTime-nUTC) / 60;
}
nTempTime = abs( nCacheSecOffset );
tools::Time aTime( 0, static_cast<sal_uInt16>(nTempTime) );
if ( nCacheSecOffset < 0 )
aTime = -aTime;
return aTime;
#endif
}
sal_uInt64 tools::Time::GetSystemTicks()
{
return tools::Time::GetMonotonicTicks() / 1000;
}
#ifdef _WIN32
static LARGE_INTEGER initPerformanceFrequency()
{
LARGE_INTEGER nTicksPerSecond = { 0, 0 };
if (!QueryPerformanceFrequency(&nTicksPerSecond))
nTicksPerSecond.QuadPart = 0;
return nTicksPerSecond;
}
#endif
sal_uInt64 tools::Time::GetMonotonicTicks()
{
#ifdef _WIN32
static const LARGE_INTEGER nTicksPerSecond = initPerformanceFrequency();
if (nTicksPerSecond.QuadPart > 0)
{
LARGE_INTEGER nPerformanceCount;
QueryPerformanceCounter(&nPerformanceCount);
return static_cast<sal_uInt64>(
( nPerformanceCount.QuadPart * 1000 * 1000 ) / nTicksPerSecond.QuadPart );
}
else
{
return static_cast<sal_uInt64>( timeGetTime() * 1000 );
}
#else
sal_uInt64 nMicroSeconds;
#ifdef __MACH__
static mach_timebase_info_data_t info = { 0, 0 };
if ( 0 == info.numer )
mach_timebase_info( &info );
nMicroSeconds = mach_absolute_time() * static_cast<double>(info.numer / info.denom) / 1000;
#else
#if defined(_POSIX_TIMERS)
struct timespec currentTime;
clock_gettime( CLOCK_MONOTONIC, ¤tTime );
nMicroSeconds
= static_cast<sal_uInt64>(currentTime.tv_sec) * 1000 * 1000 + currentTime.tv_nsec / 1000;
#else
struct timeval currentTime;
gettimeofday( ¤tTime, nullptr );
nMicroSeconds = static_cast<sal_uInt64>(currentTime.tv_sec) * 1000 * 1000 + currentTime.tv_usec;
#endif
#endif // __MACH__
return nMicroSeconds;
#endif // _WIN32
}
} /* namespace tools */
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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