/* -*- 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 <tools/date.hxx>
#include <sal/log.hxx>
#include <com/sun/star/util/DateTime.hpp>
#include <systemdatetime.hxx>
#include <comphelper/date.hxx>
namespace
{
const sal_Int16 kYearMax = SAL_MAX_INT16;
const sal_Int16 kYearMin = SAL_MIN_INT16;
}
void Date::setDateFromDMY( sal_uInt16 nDay, sal_uInt16 nMonth, sal_Int16 nYear )
{
// don't warn about 0/0/0, commonly used as a default-value/no-value
SAL_WARN_IF( nYear == 0 && !(nYear == 0 && nMonth == 0 && nDay == 0),
"tools.datetime", "Date::setDateFromDMY - sure about 0 year? It's not in the calendar.");
assert( nMonth < 100 && "nMonth % 100 not representable" );
assert( nDay < 100 && "nDay % 100 not representable" );
if (nYear < 0)
mnDate =
(static_cast<sal_Int32>( nYear ) * 10000) -
(static_cast<sal_Int32>( nMonth % 100 ) * 100) -
static_cast<sal_Int32>( nDay % 100 );
else
mnDate =
(static_cast<sal_Int32>( nYear ) * 10000) +
(static_cast<sal_Int32>( nMonth % 100 ) * 100) +
static_cast<sal_Int32>( nDay % 100 );
}
void Date::SetDate( sal_Int32 nNewDate )
{
assert( ((nNewDate / 10000) != 0) && "you don't want to set a 0 year, do you?" );
mnDate = nNewDate;
}
// static
sal_uInt16 Date::GetDaysInMonth( sal_uInt16 nMonth, sal_Int16 nYear )
{
SAL_WARN_IF( nMonth < 1 || 12 < nMonth, "tools.datetime", "Date::GetDaysInMonth - nMonth out of bounds " << nMonth);
if (nMonth < 1)
nMonth = 1;
else if (12 < nMonth)
nMonth = 12;
return comphelper::date::getDaysInMonth( nMonth, nYear);
}
sal_Int32 Date::GetAsNormalizedDays() const
{
// This is a very common datum we often calculate from.
if (mnDate == 18991230) // 1899-12-30
{
#ifndef NDEBUG
static sal_Int32 nDays = DateToDays( GetDay(), GetMonth(), GetYear());
assert(nDays == 693594);
#endif
return 693594;
}
// Not calling comphelper::date::convertDateToDaysNormalizing() here just
// avoids a second check on null-date handling like above.
sal_uInt16 nDay = GetDay();
sal_uInt16 nMonth = GetMonth();
sal_Int16 nYear = GetYear();
comphelper::date::normalize( nDay, nMonth, nYear);
return comphelper::date::convertDateToDays( nDay, nMonth, nYear);
}
sal_Int32 Date::DateToDays( sal_uInt16 nDay, sal_uInt16 nMonth, sal_Int16 nYear )
{
return comphelper::date::convertDateToDaysNormalizing( nDay, nMonth, nYear);
}
static Date lcl_DaysToDate( sal_Int32 nDays )
{
sal_uInt16 nDay;
sal_uInt16 nMonth;
sal_Int16 nYear;
comphelper::date::convertDaysToDate( nDays, nDay, nMonth, nYear);
return Date( nDay, nMonth, nYear);
}
Date::Date( DateInitSystem )
{
if ( !GetSystemDateTime( &mnDate, nullptr ) )
setDateFromDMY( 1, 1, 1900 );
}
Date::Date( const css::util::DateTime& rDateTime )
{
setDateFromDMY( rDateTime.Day, rDateTime.Month, rDateTime.Year );
}
void Date::SetDay( sal_uInt16 nNewDay )
{
setDateFromDMY( nNewDay, GetMonth(), GetYear() );
}
void Date::SetMonth( sal_uInt16 nNewMonth )
{
setDateFromDMY( GetDay(), nNewMonth, GetYear() );
}
void Date::SetYear( sal_Int16 nNewYear )
{
assert( nNewYear != 0 );
setDateFromDMY( GetDay(), GetMonth(), nNewYear );
}
void Date::AddYears( sal_Int16 nAddYears )
{
sal_Int16 nYear = GetYear();
if (nYear < 0)
{
if (nAddYears < 0)
{
if (nYear < kYearMin - nAddYears)
nYear = kYearMin;
else
nYear += nAddYears;
}
else
{
nYear += nAddYears;
if (nYear == 0)
nYear = 1;
}
}
else
{
if (nAddYears > 0)
{
if (kYearMax - nAddYears < nYear)
nYear = kYearMax;
else
nYear += nAddYears;
}
else
{
nYear += nAddYears;
if (nYear == 0)
nYear = -1;
}
}
SetYear( nYear );
if (GetMonth() == 2 && GetDay() == 29 && !comphelper::date::isLeapYear( nYear))
SetDay(28);
}
void Date::AddMonths( sal_Int32 nAddMonths )
{
sal_Int32 nMonths = GetMonth() + nAddMonths;
sal_Int32 nNewMonth = nMonths % 12;
sal_Int32 nYear = GetYear() + nMonths / 12;
if( nMonths <= 0 || nNewMonth == 0 )
--nYear;
if( nNewMonth <= 0 )
nNewMonth += 12;
if (nYear == 0)
nYear = (nAddMonths < 0 ? -1 : 1);
else if (nYear < kYearMin)
nYear = kYearMin;
else if (nYear > kYearMax)
nYear = kYearMax;
SetMonth( static_cast<sal_uInt16>(nNewMonth) );
SetYear( static_cast<sal_Int16>(nYear) );
Normalize();
}
DayOfWeek Date::GetDayOfWeek() const
{
return static_cast<DayOfWeek>((GetAsNormalizedDays()-1) % 7);
}
sal_uInt16 Date::GetDayOfYear() const
{
sal_uInt16 nDay = GetDay();
sal_uInt16 nMonth = GetMonth();
sal_Int16 nYear = GetYear();
Normalize( nDay, nMonth, nYear);
for( sal_uInt16 i = 1; i < nMonth; i++ )
nDay += comphelper::date::getDaysInMonth( i, nYear );
return nDay;
}
sal_uInt16 Date::GetWeekOfYear( DayOfWeek eStartDay,
sal_Int16 nMinimumNumberOfDaysInWeek ) const
{
short nWeek;
short n1WDay = static_cast<short>(Date( 1, 1, GetYear() ).GetDayOfWeek());
assert(n1WDay >= 0);
short nDayOfYear = static_cast<short>(GetDayOfYear());
// weekdays start at 0, thus decrement one
nDayOfYear--;
// account for StartDay
n1WDay = (n1WDay+(7-static_cast<short>(eStartDay))) % 7;
if (nMinimumNumberOfDaysInWeek < 1 || 7 < nMinimumNumberOfDaysInWeek)
{
SAL_WARN( "tools.datetime", "Date::GetWeekOfYear: invalid nMinimumNumberOfDaysInWeek" );
nMinimumNumberOfDaysInWeek = 4;
}
if ( nMinimumNumberOfDaysInWeek == 1 )
{
nWeek = ((n1WDay+nDayOfYear)/7) + 1;
// Set to 53rd week only if we're not in the
// first week of the new year
if ( nWeek == 54 )
nWeek = 1;
else if ( nWeek == 53 )
{
short nDaysInYear = static_cast<short>(GetDaysInYear());
short nDaysNextYear = static_cast<short>(Date( 1, 1, GetNextYear() ).GetDayOfWeek());
nDaysNextYear = (nDaysNextYear+(7-static_cast<short>(eStartDay))) % 7;
if ( nDayOfYear > (nDaysInYear-nDaysNextYear-1) )
nWeek = 1;
}
}
else if ( nMinimumNumberOfDaysInWeek == 7 )
{
nWeek = ((n1WDay+nDayOfYear)/7);
// First week of a year is equal to the last week of the previous year
if ( nWeek == 0 )
{
Date aLastDatePrevYear( 31, 12, GetPrevYear() );
nWeek = aLastDatePrevYear.GetWeekOfYear( eStartDay, nMinimumNumberOfDaysInWeek );
}
}
else // ( nMinimumNumberOfDaysInWeek == something_else, commentary examples for 4 )
{
// x_monday - thursday
if ( n1WDay < nMinimumNumberOfDaysInWeek )
nWeek = 1;
// Friday
else if ( n1WDay == nMinimumNumberOfDaysInWeek )
nWeek = 53;
// Saturday
else if ( n1WDay == nMinimumNumberOfDaysInWeek + 1 )
{
// Year after leap year
if ( Date( 1, 1, GetPrevYear() ).IsLeapYear() )
nWeek = 53;
else
nWeek = 52;
}
// Sunday
else
nWeek = 52;
if ( (nWeek == 1) || (nDayOfYear + n1WDay > 6) )
{
if ( nWeek == 1 )
nWeek += (nDayOfYear + n1WDay) / 7;
else
nWeek = (nDayOfYear + n1WDay) / 7;
if ( nWeek == 53 )
{
// next x_Sunday == first x_Sunday in the new year
// == still the same week!
sal_Int32 nTempDays = GetAsNormalizedDays();
nTempDays += 6 - (GetDayOfWeek()+(7-static_cast<short>(eStartDay))) % 7;
nWeek = lcl_DaysToDate( nTempDays ).GetWeekOfYear( eStartDay, nMinimumNumberOfDaysInWeek );
}
}
}
return static_cast<sal_uInt16>(nWeek);
}
sal_uInt16 Date::GetDaysInMonth() const
{
sal_uInt16 nDay = GetDay();
sal_uInt16 nMonth = GetMonth();
sal_Int16 nYear = GetYear();
Normalize( nDay, nMonth, nYear);
return comphelper::date::getDaysInMonth( nMonth, nYear );
}
bool Date::IsLeapYear() const
{
sal_Int16 nYear = GetYear();
return comphelper::date::isLeapYear( nYear );
}
bool Date::IsValidAndGregorian() const
{
sal_uInt16 nDay = GetDay();
sal_uInt16 nMonth = GetMonth();
sal_Int16 nYear = GetYear();
if ( !nMonth || (nMonth > 12) )
return false;
if ( !nDay || (nDay > comphelper::date::getDaysInMonth( nMonth, nYear )) )
return false;
else if ( nYear <= 1582 )
{
if ( nYear < 1582 )
return false;
else if ( nMonth < 10 )
return false;
else if ( (nMonth == 10) && (nDay < 15) )
return false;
}
return true;
}
bool Date::IsValidDate() const
{
return comphelper::date::isValidDate( GetDay(), GetMonth(), GetYear());
}
//static
bool Date::IsValidDate( sal_uInt16 nDay, sal_uInt16 nMonth, sal_Int16 nYear )
{
return comphelper::date::isValidDate( nDay, nMonth, nYear);
}
bool Date::IsEndOfMonth() const
{
return IsEndOfMonth(GetDay(), GetMonth(), GetYear());
}
//static
bool Date::IsEndOfMonth(sal_uInt16 nDay, sal_uInt16 nMonth, sal_Int16 nYear)
{
return comphelper::date::isValidDate(nDay, nMonth, nYear)
&& comphelper::date::getDaysInMonth(nMonth, nYear) == nDay;
}
void Date::Normalize()
{
sal_uInt16 nDay = GetDay();
sal_uInt16 nMonth = GetMonth();
sal_Int16 nYear = GetYear();
if (!Normalize( nDay, nMonth, nYear))
return;
setDateFromDMY( nDay, nMonth, nYear );
}
//static
bool Date::Normalize( sal_uInt16 & rDay, sal_uInt16 & rMonth, sal_Int16 & rYear )
{
return comphelper::date::normalize( rDay, rMonth, rYear);
}
void Date::AddDays( sal_Int32 nDays )
{
if (nDays != 0)
*this = lcl_DaysToDate( GetAsNormalizedDays() + nDays );
}
Date& Date::operator ++()
{
*this = lcl_DaysToDate( GetAsNormalizedDays() + 1 );
return *this;
}
Date& Date::operator --()
{
*this = lcl_DaysToDate( GetAsNormalizedDays() - 1 );
return *this;
}
Date operator +( const Date& rDate, sal_Int32 nDays )
{
Date aDate( rDate );
aDate.AddDays( nDays );
return aDate;
}
Date operator -( const Date& rDate, sal_Int32 nDays )
{
Date aDate( rDate );
aDate.AddDays( -nDays );
return aDate;
}
sal_Int32 operator -( const Date& rDate1, const Date& rDate2 )
{
return rDate1.GetAsNormalizedDays() - rDate2.GetAsNormalizedDays();
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V560 A part of conditional expression is always true: nYear == 0.