windows-nt/Source/XPSP1/NT/ds/security/passport/atlmfc/atltime.inl

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2020-09-26 03:20:57 -05:00
// This is a part of the Active Template Library.
// Copyright (C) 1996-2001 Microsoft Corporation
// All rights reserved.
//
// This source code is only intended as a supplement to the
// Active Template Library Reference and related
// electronic documentation provided with the library.
// See these sources for detailed information regarding the
// Active Template Library product.
#ifndef __ATLTIME_INL__
#define __ATLTIME_INL__
#pragma once
#ifndef __ATLTIME_H__
#error atltime.inl requires atltime.h to be included first
#endif
#include <math.h>
namespace ATL
{
// Used only if these strings could not be found in resources.
__declspec(selectany) const TCHAR *szInvalidDateTime = _T("Invalid DateTime");
__declspec(selectany) const TCHAR *szInvalidDateTimeSpan = _T("Invalid DateTimeSpan");
const int maxTimeBufferSize = 128;
const long maxDaysInSpan = 3615897L;
/////////////////////////////////////////////////////////////////////////////
// CTimeSpan
/////////////////////////////////////////////////////////////////////////////
inline CTimeSpan::CTimeSpan() :
m_timeSpan(0)
{
}
inline CTimeSpan::CTimeSpan( __time64_t time ) :
m_timeSpan( time )
{
}
inline CTimeSpan::CTimeSpan(LONG lDays, int nHours, int nMins, int nSecs)
{
m_timeSpan = nSecs + 60* (nMins + 60* (nHours + __int64(24) * lDays));
}
inline LONGLONG CTimeSpan::GetDays() const
{
return( m_timeSpan/(24*3600) );
}
inline LONGLONG CTimeSpan::GetTotalHours() const
{
return( m_timeSpan/3600 );
}
inline LONG CTimeSpan::GetHours() const
{
return( LONG( GetTotalHours()-(GetDays()*24) ) );
}
inline LONGLONG CTimeSpan::GetTotalMinutes() const
{
return( m_timeSpan/60 );
}
inline LONG CTimeSpan::GetMinutes() const
{
return( LONG( GetTotalMinutes()-(GetTotalHours()*60) ) );
}
inline LONGLONG CTimeSpan::GetTotalSeconds() const
{
return( m_timeSpan );
}
inline LONG CTimeSpan::GetSeconds() const
{
return( LONG( GetTotalSeconds()-(GetTotalMinutes()*60) ) );
}
inline __time64_t CTimeSpan::GetTimeSpan() const
{
return( m_timeSpan );
}
inline CTimeSpan CTimeSpan::operator+( CTimeSpan span ) const
{
return( CTimeSpan( m_timeSpan+span.m_timeSpan ) );
}
inline CTimeSpan CTimeSpan::operator-( CTimeSpan span ) const
{
return( CTimeSpan( m_timeSpan-span.m_timeSpan ) );
}
inline CTimeSpan& CTimeSpan::operator+=( CTimeSpan span )
{
m_timeSpan += span.m_timeSpan;
return( *this );
}
inline CTimeSpan& CTimeSpan::operator-=( CTimeSpan span )
{
m_timeSpan -= span.m_timeSpan;
return( *this );
}
inline bool CTimeSpan::operator==( CTimeSpan span ) const
{
return( m_timeSpan == span.m_timeSpan );
}
inline bool CTimeSpan::operator!=( CTimeSpan span ) const
{
return( m_timeSpan != span.m_timeSpan );
}
inline bool CTimeSpan::operator<( CTimeSpan span ) const
{
return( m_timeSpan < span.m_timeSpan );
}
inline bool CTimeSpan::operator>( CTimeSpan span ) const
{
return( m_timeSpan > span.m_timeSpan );
}
inline bool CTimeSpan::operator<=( CTimeSpan span ) const
{
return( m_timeSpan <= span.m_timeSpan );
}
inline bool CTimeSpan::operator>=( CTimeSpan span ) const
{
return( m_timeSpan >= span.m_timeSpan );
}
#ifndef _ATL_MIN_CRT
inline CString CTimeSpan::Format(LPCTSTR pFormat) const
// formatting timespans is a little trickier than formatting CTimes
// * we are only interested in relative time formats, ie. it is illegal
// to format anything dealing with absolute time (i.e. years, months,
// day of week, day of year, timezones, ...)
// * the only valid formats:
// %D - # of days
// %H - hour in 24 hour format
// %M - minute (0-59)
// %S - seconds (0-59)
// %% - percent sign
{
TCHAR szBuffer[maxTimeBufferSize];
TCHAR ch;
LPTSTR pch = szBuffer;
while ((ch = *pFormat++) != _T('\0'))
{
ATLASSERT(pch < &szBuffer[maxTimeBufferSize-1]);
if (ch == _T('%'))
{
switch (ch = *pFormat++)
{
default:
ATLASSERT(FALSE); // probably a bad format character
break;
case '%':
*pch++ = ch;
break;
case 'D':
pch += _stprintf(pch, _T("%I64d"), GetDays());
break;
case 'H':
pch += _stprintf(pch, _T("%02ld"), GetHours());
break;
case 'M':
pch += _stprintf(pch, _T("%02ld"), GetMinutes());
break;
case 'S':
pch += _stprintf(pch, _T("%02ld"), GetSeconds());
break;
}
}
else
{
*pch++ = ch;
if (_istlead(ch))
{
ATLASSERT(pch < &szBuffer[maxTimeBufferSize]);
*pch++ = *pFormat++;
}
}
}
*pch = '\0';
return szBuffer;
}
inline CString CTimeSpan::Format(UINT nFormatID) const
{
CString strFormat;
ATLVERIFY(strFormat.LoadString(nFormatID));
return Format(strFormat);
}
#endif // !_ATL_MIN_CRT
#if defined(_AFX) && defined(_UNICODE)
inline CString CTimeSpan::Format(LPCSTR pFormat) const
{
return Format(CString(pFormat));
}
#endif
/////////////////////////////////////////////////////////////////////////////
// CTime
/////////////////////////////////////////////////////////////////////////////
inline CTime CTime::GetCurrentTime()
{
return( CTime( ::_time64( NULL ) ) );
}
inline CTime::CTime() :
m_time(0)
{
}
inline CTime::CTime( __time64_t time ) :
m_time( time )
{
}
inline CTime::CTime(int nYear, int nMonth, int nDay, int nHour, int nMin, int nSec,
int nDST)
{
struct tm atm;
atm.tm_sec = nSec;
atm.tm_min = nMin;
atm.tm_hour = nHour;
ATLASSERT(nDay >= 1 && nDay <= 31);
atm.tm_mday = nDay;
ATLASSERT(nMonth >= 1 && nMonth <= 12);
atm.tm_mon = nMonth - 1; // tm_mon is 0 based
ATLASSERT(nYear >= 1900);
atm.tm_year = nYear - 1900; // tm_year is 1900 based
atm.tm_isdst = nDST;
m_time = _mktime64(&atm);
ATLASSERT(m_time != -1); // indicates an illegal input time
}
inline CTime::CTime(WORD wDosDate, WORD wDosTime, int nDST)
{
struct tm atm;
atm.tm_sec = (wDosTime & ~0xFFE0) << 1;
atm.tm_min = (wDosTime & ~0xF800) >> 5;
atm.tm_hour = wDosTime >> 11;
atm.tm_mday = wDosDate & ~0xFFE0;
atm.tm_mon = ((wDosDate & ~0xFE00) >> 5) - 1;
atm.tm_year = (wDosDate >> 9) + 80;
atm.tm_isdst = nDST;
m_time = _mktime64(&atm);
ATLASSERT(m_time != -1); // indicates an illegal input time
}
inline CTime::CTime(const SYSTEMTIME& sysTime, int nDST)
{
if (sysTime.wYear < 1900)
{
__time64_t time0 = 0L;
CTime timeT(time0);
*this = timeT;
}
else
{
CTime timeT(
(int)sysTime.wYear, (int)sysTime.wMonth, (int)sysTime.wDay,
(int)sysTime.wHour, (int)sysTime.wMinute, (int)sysTime.wSecond,
nDST);
*this = timeT;
}
}
inline CTime::CTime(const FILETIME& fileTime, int nDST)
{
// first convert file time (UTC time) to local time
FILETIME localTime;
if (!FileTimeToLocalFileTime(&fileTime, &localTime))
{
m_time = 0;
return;
}
// then convert that time to system time
SYSTEMTIME sysTime;
if (!FileTimeToSystemTime(&localTime, &sysTime))
{
m_time = 0;
return;
}
// then convert the system time to a time_t (C-runtime local time)
CTime timeT(sysTime, nDST);
*this = timeT;
}
#ifdef __oledb_h__
inline CTime::CTime( const DBTIMESTAMP& dbts, int nDST )
{
struct tm atm;
atm.tm_sec = dbts.second;
atm.tm_min = dbts.minute;
atm.tm_hour = dbts.hour;
atm.tm_mday = dbts.day;
atm.tm_mon = dbts.month - 1; // tm_mon is 0 based
ATLASSERT(dbts.year >= 1900);
atm.tm_year = dbts.year - 1900; // tm_year is 1900 based
atm.tm_isdst = nDST;
m_time = _mktime64(&atm);
ATLASSERT(m_time != -1); // indicates an illegal input time
}
#endif
inline CTime& CTime::operator=( __time64_t time )
{
m_time = time;
return( *this );
}
inline CTime& CTime::operator+=( CTimeSpan span )
{
m_time += span.GetTimeSpan();
return( *this );
}
inline CTime& CTime::operator-=( CTimeSpan span )
{
m_time -= span.GetTimeSpan();
return( *this );
}
inline CTimeSpan CTime::operator-( CTime time ) const
{
return( CTimeSpan( m_time-time.m_time ) );
}
inline CTime CTime::operator-( CTimeSpan span ) const
{
return( CTime( m_time-span.GetTimeSpan() ) );
}
inline CTime CTime::operator+( CTimeSpan span ) const
{
return( CTime( m_time+span.GetTimeSpan() ) );
}
inline bool CTime::operator==( CTime time ) const
{
return( m_time == time.m_time );
}
inline bool CTime::operator!=( CTime time ) const
{
return( m_time != time.m_time );
}
inline bool CTime::operator<( CTime time ) const
{
return( m_time < time.m_time );
}
inline bool CTime::operator>( CTime time ) const
{
return( m_time > time.m_time );
}
inline bool CTime::operator<=( CTime time ) const
{
return( m_time <= time.m_time );
}
inline bool CTime::operator>=( CTime time ) const
{
return( m_time >= time.m_time );
}
inline struct tm* CTime::GetGmtTm(struct tm* ptm) const
{
if (ptm != NULL)
{
*ptm = *_gmtime64(&m_time);
return ptm;
}
else
return _gmtime64(&m_time);
}
inline struct tm* CTime::GetLocalTm(struct tm* ptm) const
{
if (ptm != NULL)
{
struct tm* ptmTemp = _localtime64(&m_time);
if (ptmTemp == NULL)
return NULL; // indicates the m_time was not initialized!
*ptm = *ptmTemp;
return ptm;
}
else
return _localtime64(&m_time);
}
inline bool CTime::GetAsSystemTime(SYSTEMTIME& timeDest) const
{
struct tm* ptm = GetLocalTm(NULL);
if (!ptm)
return false;
timeDest.wYear = (WORD) (1900 + ptm->tm_year);
timeDest.wMonth = (WORD) (1 + ptm->tm_mon);
timeDest.wDayOfWeek = (WORD) ptm->tm_wday;
timeDest.wDay = (WORD) ptm->tm_mday;
timeDest.wHour = (WORD) ptm->tm_hour;
timeDest.wMinute = (WORD) ptm->tm_min;
timeDest.wSecond = (WORD) ptm->tm_sec;
timeDest.wMilliseconds = 0;
return true;
}
#ifdef __oledb_h__
inline bool CTime::GetAsDBTIMESTAMP( DBTIMESTAMP& dbts ) const
{
struct tm* ptm = GetLocalTm(NULL);
if (!ptm)
return false;
dbts.year = (SHORT) (1900 + ptm->tm_year);
dbts.month = (USHORT) (1 + ptm->tm_mon);
dbts.day = (USHORT) ptm->tm_mday;
dbts.hour = (USHORT) ptm->tm_hour;
dbts.minute = (USHORT) ptm->tm_min;
dbts.second = (USHORT) ptm->tm_sec;
dbts.fraction = 0;
return true;
}
#endif
inline __time64_t CTime::GetTime() const
{
return( m_time );
}
inline int CTime::GetYear() const
{
return( GetLocalTm()->tm_year+1900 );
}
inline int CTime::GetMonth() const
{
return( GetLocalTm()->tm_mon+1 );
}
inline int CTime::GetDay() const
{
return( GetLocalTm()->tm_mday );
}
inline int CTime::GetHour() const
{
return( GetLocalTm()->tm_hour );
}
inline int CTime::GetMinute() const
{
return( GetLocalTm()->tm_min );
}
inline int CTime::GetSecond() const
{
return( GetLocalTm()->tm_sec );
}
inline int CTime::GetDayOfWeek() const
{
return( GetLocalTm()->tm_wday+1 );
}
#ifndef _ATL_MIN_CRT
inline CString CTime::Format(LPCTSTR pFormat) const
{
TCHAR szBuffer[maxTimeBufferSize];
struct tm* ptmTemp = _localtime64(&m_time);
if (ptmTemp == NULL ||
!_tcsftime(szBuffer, maxTimeBufferSize, pFormat, ptmTemp))
szBuffer[0] = '\0';
return szBuffer;
}
inline CString CTime::FormatGmt(LPCTSTR pFormat) const
{
TCHAR szBuffer[maxTimeBufferSize];
struct tm* ptmTemp = _gmtime64(&m_time);
if (ptmTemp == NULL ||
!_tcsftime(szBuffer, maxTimeBufferSize, pFormat, ptmTemp))
szBuffer[0] = '\0';
return szBuffer;
}
inline CString CTime::Format(UINT nFormatID) const
{
CString strFormat;
ATLVERIFY(strFormat.LoadString(nFormatID));
return Format(strFormat);
}
inline CString CTime::FormatGmt(UINT nFormatID) const
{
CString strFormat;
ATLVERIFY(strFormat.LoadString(nFormatID));
return FormatGmt(strFormat);
}
#endif // !_ATL_MIN_CRT
#if defined (_AFX) && defined(_UNICODE)
inline CString CTime::Format(LPCSTR pFormat) const
{
return Format(CString(pFormat));
}
inline CString CTime::FormatGmt(LPCSTR pFormat) const
{
return FormatGmt(CString(pFormat));
}
#endif // _AFX && _UNICODE
/////////////////////////////////////////////////////////////////////////////
// COleDateTimeSpan
/////////////////////////////////////////////////////////////////////////////
inline COleDateTimeSpan::COleDateTimeSpan() : m_span(0), m_status(valid)
{
}
inline COleDateTimeSpan::COleDateTimeSpan(double dblSpanSrc) : m_span(dblSpanSrc), m_status(valid)
{
CheckRange();
}
inline COleDateTimeSpan::COleDateTimeSpan(LONG lDays, int nHours, int nMins, int nSecs)
{
SetDateTimeSpan(lDays, nHours, nMins, nSecs);
}
inline void COleDateTimeSpan::SetStatus(DateTimeSpanStatus status)
{
m_status = status;
}
inline COleDateTimeSpan::DateTimeSpanStatus COleDateTimeSpan::GetStatus() const
{
return m_status;
}
__declspec(selectany) const double
COleDateTimeSpan::OLE_DATETIME_HALFSECOND =
1.0 / (2.0 * (60.0 * 60.0 * 24.0));
inline double COleDateTimeSpan::GetTotalDays() const
{
ATLASSERT(GetStatus() == valid);
return LONG(m_span + (m_span < 0 ?
-OLE_DATETIME_HALFSECOND : OLE_DATETIME_HALFSECOND));
}
inline double COleDateTimeSpan::GetTotalHours() const
{
ATLASSERT(GetStatus() == valid);
return LONG((m_span + (m_span < 0 ?
-OLE_DATETIME_HALFSECOND : OLE_DATETIME_HALFSECOND)) * 24);
}
inline double COleDateTimeSpan::GetTotalMinutes() const
{
ATLASSERT(GetStatus() == valid);
return LONG((m_span + (m_span < 0 ?
-OLE_DATETIME_HALFSECOND : OLE_DATETIME_HALFSECOND)) * (24 * 60));
}
inline double COleDateTimeSpan::GetTotalSeconds() const
{
ATLASSERT(GetStatus() == valid);
return LONG((m_span + (m_span < 0 ?
-OLE_DATETIME_HALFSECOND : OLE_DATETIME_HALFSECOND)) * (24 * 60 * 60));
}
inline LONG COleDateTimeSpan::GetDays() const
{
ATLASSERT(GetStatus() == valid);
return LONG(m_span);
}
inline LONG COleDateTimeSpan::GetHours() const
{
return LONG(GetTotalHours()) % 24;
}
inline LONG COleDateTimeSpan::GetMinutes() const
{
return LONG(GetTotalMinutes()) % 60;
}
inline LONG COleDateTimeSpan::GetSeconds() const
{
return LONG(GetTotalSeconds()) % 60;
}
inline COleDateTimeSpan& COleDateTimeSpan::operator=(double dblSpanSrc)
{
m_span = dblSpanSrc;
m_status = valid;
CheckRange();
return *this;
}
inline bool COleDateTimeSpan::operator==(const COleDateTimeSpan& dateSpan) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return (m_status == dateSpan.m_status &&
m_span == dateSpan.m_span);
}
inline bool COleDateTimeSpan::operator!=(const COleDateTimeSpan& dateSpan) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return (m_status != dateSpan.m_status ||
m_span != dateSpan.m_span);
}
inline bool COleDateTimeSpan::operator<(const COleDateTimeSpan& dateSpan) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return m_span < dateSpan.m_span;
}
inline bool COleDateTimeSpan::operator>(const COleDateTimeSpan& dateSpan) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return m_span > dateSpan.m_span;
}
inline bool COleDateTimeSpan::operator<=(const COleDateTimeSpan& dateSpan) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return m_span <= dateSpan.m_span;
}
inline bool COleDateTimeSpan::operator>=(const COleDateTimeSpan& dateSpan) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return m_span >= dateSpan.m_span;
}
inline COleDateTimeSpan COleDateTimeSpan::operator+(const COleDateTimeSpan& dateSpan) const
{
COleDateTimeSpan dateSpanTemp;
// If either operand Null, result Null
if (GetStatus() == null || dateSpan.GetStatus() == null)
{
dateSpanTemp.SetStatus(null);
return dateSpanTemp;
}
// If either operand Invalid, result Invalid
if (GetStatus() == invalid || dateSpan.GetStatus() == invalid)
{
dateSpanTemp.SetStatus(invalid);
return dateSpanTemp;
}
// Add spans and validate within legal range
dateSpanTemp.m_span = m_span + dateSpan.m_span;
dateSpanTemp.CheckRange();
return dateSpanTemp;
}
inline COleDateTimeSpan COleDateTimeSpan::operator-(const COleDateTimeSpan& dateSpan) const
{
COleDateTimeSpan dateSpanTemp;
// If either operand Null, result Null
if (GetStatus() == null || dateSpan.GetStatus() == null)
{
dateSpanTemp.SetStatus(null);
return dateSpanTemp;
}
// If either operand Invalid, result Invalid
if (GetStatus() == invalid || dateSpan.GetStatus() == invalid)
{
dateSpanTemp.SetStatus(invalid);
return dateSpanTemp;
}
// Subtract spans and validate within legal range
dateSpanTemp.m_span = m_span - dateSpan.m_span;
dateSpanTemp.CheckRange();
return dateSpanTemp;
}
inline COleDateTimeSpan& COleDateTimeSpan::operator+=(const COleDateTimeSpan dateSpan)
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
*this = *this + dateSpan;
CheckRange();
return *this;
}
inline COleDateTimeSpan& COleDateTimeSpan::operator-=(const COleDateTimeSpan dateSpan)
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
*this = *this - dateSpan;
CheckRange();
return *this;
}
inline COleDateTimeSpan COleDateTimeSpan::operator-() const
{
return -this->m_span;
}
inline COleDateTimeSpan::operator double() const
{
return m_span;
}
inline void COleDateTimeSpan::SetDateTimeSpan(LONG lDays, int nHours, int nMins, int nSecs)
{
// Set date span by breaking into fractional days (all input ranges valid)
m_span = lDays + ((double)nHours)/24 + ((double)nMins)/(24*60) +
((double)nSecs)/(24*60*60);
m_status = valid;
CheckRange();
}
#ifndef _ATL_MIN_CRT
inline CString COleDateTimeSpan::Format(LPCTSTR pFormat) const
{
// If null, return empty string
if (GetStatus() == null)
return _T("");
CTimeSpan tmp(GetDays(), GetHours(), GetMinutes(), GetSeconds());
return tmp.Format(pFormat);
}
inline CString COleDateTimeSpan::Format(UINT nFormatID) const
{
CString strFormat;
ATLVERIFY(strFormat.LoadString(nFormatID));
return Format(strFormat);
}
#endif // !_ATL_MIN_CRT
inline void COleDateTimeSpan::CheckRange()
{
if(m_span < -maxDaysInSpan || m_span > maxDaysInSpan)
m_status = invalid;
}
/////////////////////////////////////////////////////////////////////////////
// COleDateTime
/////////////////////////////////////////////////////////////////////////////
inline COleDateTime COleDateTime::GetCurrentTime()
{
return COleDateTime(::_time64(NULL));
}
inline COleDateTime::COleDateTime() :
m_dt( 0 ), m_status(valid)
{
}
inline COleDateTime::COleDateTime( const VARIANT& varSrc ) :
m_dt( 0 ), m_status(valid)
{
*this = varSrc;
}
inline COleDateTime::COleDateTime( DATE dtSrc ) :
m_dt( dtSrc ), m_status(valid)
{
}
#ifndef _WIN64
inline COleDateTime::COleDateTime( time_t timeSrc) :
m_dt( 0 ), m_status(valid)
{
*this = timeSrc;
}
#endif
inline COleDateTime::COleDateTime( __time64_t timeSrc ) :
m_dt( 0 ), m_status(valid)
{
*this = timeSrc;
}
inline COleDateTime::COleDateTime( const SYSTEMTIME& systimeSrc ) :
m_dt( 0 ), m_status(valid)
{
*this = systimeSrc;
}
inline COleDateTime::COleDateTime( const FILETIME& filetimeSrc ) :
m_dt( 0 ), m_status(valid)
{
*this = filetimeSrc;
}
inline COleDateTime::COleDateTime(int nYear, int nMonth, int nDay,
int nHour, int nMin, int nSec)
{
SetDateTime(nYear, nMonth, nDay, nHour, nMin, nSec);
}
inline COleDateTime::COleDateTime(WORD wDosDate, WORD wDosTime)
{
m_status = ::DosDateTimeToVariantTime(wDosDate, wDosTime, &m_dt) ?
valid : invalid;
}
inline void COleDateTime::SetStatus(DateTimeStatus status)
{
m_status = status;
}
inline COleDateTime::DateTimeStatus COleDateTime::GetStatus() const
{
return m_status;
}
inline bool COleDateTime::GetAsSystemTime(SYSTEMTIME& sysTime) const
{
return GetStatus() == valid && ::VariantTimeToSystemTime(m_dt, &sysTime);
}
inline bool COleDateTime::GetAsUDATE(UDATE &udate) const
{
return SUCCEEDED(::VarUdateFromDate(m_dt, 0, &udate));
}
inline int COleDateTime::GetYear() const
{
SYSTEMTIME st;
return GetAsSystemTime(st) ? st.wYear : error;
}
inline int COleDateTime::GetMonth() const
{
SYSTEMTIME st;
return GetAsSystemTime(st) ? st.wMonth : error;
}
inline int COleDateTime::GetDay() const
{
SYSTEMTIME st;
return GetAsSystemTime(st) ? st.wDay : error;
}
inline int COleDateTime::GetHour() const
{
SYSTEMTIME st;
return GetAsSystemTime(st) ? st.wHour : error;
}
inline int COleDateTime::GetMinute() const
{
SYSTEMTIME st;
return GetAsSystemTime(st) ? st.wMinute : error;
}
inline int COleDateTime::GetSecond() const
{
SYSTEMTIME st;
return GetAsSystemTime(st) ? st.wSecond : error;
}
inline int COleDateTime::GetDayOfWeek() const
{
SYSTEMTIME st;
return GetAsSystemTime(st) ? st.wDayOfWeek + 1 : error;
}
inline int COleDateTime::GetDayOfYear() const
{
UDATE udate;
return GetAsUDATE(udate) ? udate.wDayOfYear : error;
}
inline COleDateTime& COleDateTime::operator=(const VARIANT& varSrc)
{
if (varSrc.vt != VT_DATE)
{
VARIANT varDest;
varDest.vt = VT_EMPTY;
if(SUCCEEDED(::VariantChangeType(&varDest, const_cast<VARIANT *>(&varSrc), 0, VT_DATE)))
{
m_dt = varDest.date;
m_status = valid;
}
else
m_status = invalid;
}
else
{
m_dt = varSrc.date;
m_status = valid;
}
return *this;
}
inline COleDateTime& COleDateTime::operator=(DATE dtSrc)
{
m_dt = dtSrc;
m_status = valid;
return *this;
}
#ifndef _WIN64
inline COleDateTime& COleDateTime::operator=(const time_t& timeSrc)
{
return operator=(static_cast<__time64_t>(timeSrc));
}
#endif // _WIN64
inline COleDateTime& COleDateTime::operator=(const __time64_t& timeSrc)
{
SYSTEMTIME st;
CTime tmp(timeSrc);
m_status = tmp.GetAsSystemTime(st) &&
::SystemTimeToVariantTime(&st, &m_dt) ? valid : invalid;
return *this;
}
inline COleDateTime &COleDateTime::operator=(const SYSTEMTIME &systimeSrc)
{
m_status = ::SystemTimeToVariantTime(const_cast<SYSTEMTIME *>(&systimeSrc), &m_dt) ?
valid : invalid;
return *this;
}
inline COleDateTime &COleDateTime::operator=(const FILETIME &filetimeSrc)
{
SYSTEMTIME st;
m_status = ::FileTimeToSystemTime(&filetimeSrc, &st) &&
::SystemTimeToVariantTime(&st, &m_dt) ?
valid : invalid;
return *this;
}
inline COleDateTime &COleDateTime::operator=(const UDATE &udate)
{
m_status = (S_OK == VarDateFromUdate((UDATE*)&udate, 0, &m_dt)) ? valid : invalid;
return *this;
}
inline bool COleDateTime::operator==( const COleDateTime& date ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(date.GetStatus() == valid);
return( m_dt == date.m_dt );
}
inline bool COleDateTime::operator!=( const COleDateTime& date ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(date.GetStatus() == valid);
return( m_dt != date.m_dt );
}
inline bool COleDateTime::operator<( const COleDateTime& date ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(date.GetStatus() == valid);
return( DoubleFromDate( m_dt ) < DoubleFromDate( date.m_dt ) );
}
inline bool COleDateTime::operator>( const COleDateTime& date ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(date.GetStatus() == valid);
return( DoubleFromDate( m_dt ) > DoubleFromDate( date.m_dt ) );
}
inline bool COleDateTime::operator<=( const COleDateTime& date ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(date.GetStatus() == valid);
return( DoubleFromDate( m_dt ) <= DoubleFromDate( date.m_dt ) );
}
inline bool COleDateTime::operator>=( const COleDateTime& date ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(date.GetStatus() == valid);
return( DoubleFromDate( m_dt ) >= DoubleFromDate( date.m_dt ) );
}
inline COleDateTime COleDateTime::operator+( COleDateTimeSpan dateSpan ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return( COleDateTime( DateFromDouble( DoubleFromDate( m_dt )+(double)dateSpan ) ) );
}
inline COleDateTime COleDateTime::operator-( COleDateTimeSpan dateSpan ) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
return( COleDateTime( DateFromDouble( DoubleFromDate( m_dt )-(double)dateSpan ) ) );
}
inline COleDateTime& COleDateTime::operator+=( COleDateTimeSpan dateSpan )
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
m_dt = DateFromDouble( DoubleFromDate( m_dt )+(double)dateSpan );
return( *this );
}
inline COleDateTime& COleDateTime::operator-=( COleDateTimeSpan dateSpan )
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(dateSpan.GetStatus() == valid);
m_dt = DateFromDouble( DoubleFromDate( m_dt )-(double)dateSpan );
return( *this );
}
inline COleDateTimeSpan COleDateTime::operator-(const COleDateTime& date) const
{
ATLASSERT(GetStatus() == valid);
ATLASSERT(date.GetStatus() == valid);
return DoubleFromDate(m_dt) - DoubleFromDate(date.m_dt);
}
inline COleDateTime::operator DATE() const
{
ATLASSERT(GetStatus() == valid);
return( m_dt );
}
inline int COleDateTime::SetDateTime(int nYear, int nMonth, int nDay,
int nHour, int nMin, int nSec)
{
SYSTEMTIME st;
::ZeroMemory(&st, sizeof(SYSTEMTIME));
st.wYear = WORD(nYear);
st.wMonth = WORD(nMonth);
st.wDay = WORD(nDay);
st.wHour = WORD(nHour);
st.wMinute = WORD(nMin);
st.wSecond = WORD(nSec);
return m_status = ::SystemTimeToVariantTime(&st, &m_dt) ? valid : invalid;
}
inline int COleDateTime::SetDate(int nYear, int nMonth, int nDay)
{
return SetDateTime(nYear, nMonth, nDay, 0, 0, 0);
}
inline int COleDateTime::SetTime(int nHour, int nMin, int nSec)
{
// Set date to zero date - 12/30/1899
return SetDateTime(1899, 12, 30, nHour, nMin, nSec);
}
inline bool COleDateTime::ParseDateTime(LPCTSTR lpszDate, DWORD dwFlags, LCID lcid)
{
USES_CONVERSION;
CString strDate = lpszDate;
HRESULT hr;
if (FAILED(hr = VarDateFromStr((LPOLESTR)T2COLE(strDate), lcid,
dwFlags, &m_dt)))
{
if (hr == DISP_E_TYPEMISMATCH)
{
// Can't convert string to date, set 0 and invalidate
m_dt = 0;
m_status = invalid;
return false;
}
else if (hr == DISP_E_OVERFLOW)
{
// Can't convert string to date, set -1 and invalidate
m_dt = -1;
m_status = invalid;
return false;
}
else
{
ATLTRACE(atlTraceTime, 0, _T("\nCOleDateTime VarDateFromStr call failed.\n\t"));
// Can't convert string to date, set -1 and invalidate
m_dt = -1;
m_status = invalid;
return false;
}
}
m_status = valid;
return true;
}
#ifndef _ATL_MIN_CRT
inline CString COleDateTime::Format(DWORD dwFlags, LCID lcid) const
{
// If null, return empty string
if (GetStatus() == null)
return _T("");
// If invalid, return DateTime global string
if (GetStatus() == invalid)
{
CString str;
if(str.LoadString(ATL_IDS_DATETIME_INVALID))
return str;
return szInvalidDateTime;
}
CComBSTR bstr;
if (FAILED(::VarBstrFromDate(m_dt, lcid, dwFlags, &bstr)))
{
CString str;
if(str.LoadString(ATL_IDS_DATETIME_INVALID))
return str;
return szInvalidDateTime;
}
CString tmp = CString(bstr);
return tmp;
}
inline CString COleDateTime::Format(LPCTSTR pFormat) const
{
// If null, return empty string
if(GetStatus() == null)
return _T("");
// If invalid, return DateTime global string
if(GetStatus() == invalid)
{
CString str;
if(str.LoadString(ATL_IDS_DATETIME_INVALID))
return str;
return szInvalidDateTime;
}
UDATE ud;
if (S_OK != VarUdateFromDate(m_dt, 0, &ud))
{
CString str;
if(str.LoadString(ATL_IDS_DATETIME_INVALID))
return str;
return szInvalidDateTime;
}
struct tm tmTemp;
tmTemp.tm_sec = ud.st.wSecond;
tmTemp.tm_min = ud.st.wMinute;
tmTemp.tm_hour = ud.st.wHour;
tmTemp.tm_mday = ud.st.wDay;
tmTemp.tm_mon = ud.st.wMonth - 1;
tmTemp.tm_year = ud.st.wYear - 1900;
tmTemp.tm_wday = ud.st.wDayOfWeek;
tmTemp.tm_yday = ud.wDayOfYear - 1;
tmTemp.tm_isdst = 0;
CString strDate;
LPTSTR lpszTemp = strDate.GetBufferSetLength(256);
_tcsftime(lpszTemp, strDate.GetLength(), pFormat, &tmTemp);
strDate.ReleaseBuffer();
return strDate;
}
inline CString COleDateTime::Format(UINT nFormatID) const
{
CString strFormat;
ATLVERIFY(strFormat.LoadString(nFormatID));
return Format(strFormat);
}
#endif // !_ATL_MIN_CRT
inline double COleDateTime::DoubleFromDate( DATE date )
{
double fTemp;
// No problem if positive
if( date >= 0 )
{
return( date );
}
// If negative, must convert since negative dates not continuous
// (examples: -1.25 to -.75, -1.50 to -.50, -1.75 to -.25)
fTemp = ceil( date );
return( fTemp-(date-fTemp) );
}
inline DATE COleDateTime::DateFromDouble( double f )
{
double fTemp;
// No problem if positive
if( f >= 0 )
{
return( f );
}
// If negative, must convert since negative dates not continuous
// (examples: -.75 to -1.25, -.50 to -1.50, -.25 to -1.75)
fTemp = floor( f ); // fTemp is now whole part
return( fTemp+(fTemp-f) );
}
/////////////////////////////////////////////////////////////////////////////
// CFileTimeSpan
/////////////////////////////////////////////////////////////////////////////
inline CFileTimeSpan::CFileTimeSpan() :
m_nSpan( 0 )
{
}
// REVIEW
inline CFileTimeSpan::CFileTimeSpan( const CFileTimeSpan& span ) :
m_nSpan( span.m_nSpan )
{
}
inline CFileTimeSpan::CFileTimeSpan( LONGLONG nSpan ) :
m_nSpan( nSpan )
{
}
inline CFileTimeSpan& CFileTimeSpan::operator=( const CFileTimeSpan& span )
{
m_nSpan = span.m_nSpan;
return( *this );
}
inline CFileTimeSpan& CFileTimeSpan::operator+=( CFileTimeSpan span )
{
m_nSpan += span.m_nSpan;
return( *this );
}
inline CFileTimeSpan& CFileTimeSpan::operator-=( CFileTimeSpan span )
{
m_nSpan -= span.m_nSpan;
return( *this );
}
inline CFileTimeSpan CFileTimeSpan::operator+( CFileTimeSpan span ) const
{
return( CFileTimeSpan( m_nSpan+span.m_nSpan ) );
}
inline CFileTimeSpan CFileTimeSpan::operator-( CFileTimeSpan span ) const
{
return( CFileTimeSpan( m_nSpan-span.m_nSpan ) );
}
inline bool CFileTimeSpan::operator==( CFileTimeSpan span ) const
{
return( m_nSpan == span.m_nSpan );
}
inline bool CFileTimeSpan::operator!=( CFileTimeSpan span ) const
{
return( m_nSpan != span.m_nSpan );
}
inline bool CFileTimeSpan::operator<( CFileTimeSpan span ) const
{
return( m_nSpan < span.m_nSpan );
}
inline bool CFileTimeSpan::operator>( CFileTimeSpan span ) const
{
return( m_nSpan > span.m_nSpan );
}
inline bool CFileTimeSpan::operator<=( CFileTimeSpan span ) const
{
return( m_nSpan <= span.m_nSpan );
}
inline bool CFileTimeSpan::operator>=( CFileTimeSpan span ) const
{
return( m_nSpan >= span.m_nSpan );
}
inline LONGLONG CFileTimeSpan::GetTimeSpan() const
{
return( m_nSpan );
}
inline void CFileTimeSpan::SetTimeSpan( LONGLONG nSpan )
{
m_nSpan = nSpan;
}
/////////////////////////////////////////////////////////////////////////////
// CFileTime
/////////////////////////////////////////////////////////////////////////////
inline CFileTime::CFileTime()
{
dwLowDateTime = 0;
dwHighDateTime = 0;
}
inline CFileTime::CFileTime( const FILETIME& ft )
{
dwLowDateTime = ft.dwLowDateTime;
dwHighDateTime = ft.dwHighDateTime;
}
inline CFileTime::CFileTime( ULONGLONG nTime )
{
dwLowDateTime = DWORD( nTime );
dwHighDateTime = DWORD( nTime>>32 );
}
inline CFileTime& CFileTime::operator=( const FILETIME& ft )
{
dwLowDateTime = ft.dwLowDateTime;
dwHighDateTime = ft.dwHighDateTime;
return( *this );
}
inline CFileTime CFileTime::GetCurrentTime()
{
CFileTime ft;
GetSystemTimeAsFileTime(&ft);
return ft;
}
inline CFileTime& CFileTime::operator+=( CFileTimeSpan span )
{
SetTime( GetTime()+span.GetTimeSpan() );
return( *this );
}
inline CFileTime& CFileTime::operator-=( CFileTimeSpan span )
{
SetTime( GetTime()-span.GetTimeSpan() );
return( *this );
}
inline CFileTime CFileTime::operator+( CFileTimeSpan span ) const
{
return( CFileTime( GetTime()+span.GetTimeSpan() ) );
}
inline CFileTime CFileTime::operator-( CFileTimeSpan span ) const
{
return( CFileTime( GetTime()-span.GetTimeSpan() ) );
}
inline CFileTimeSpan CFileTime::operator-( CFileTime ft ) const
{
return( CFileTimeSpan( GetTime()-ft.GetTime() ) );
}
inline bool CFileTime::operator==( CFileTime ft ) const
{
return( GetTime() == ft.GetTime() );
}
inline bool CFileTime::operator!=( CFileTime ft ) const
{
return( GetTime() != ft.GetTime() );
}
inline bool CFileTime::operator<( CFileTime ft ) const
{
return( GetTime() < ft.GetTime() );
}
inline bool CFileTime::operator>( CFileTime ft ) const
{
return( GetTime() > ft.GetTime() );
}
inline bool CFileTime::operator<=( CFileTime ft ) const
{
return( GetTime() <= ft.GetTime() );
}
inline bool CFileTime::operator>=( CFileTime ft ) const
{
return( GetTime() >= ft.GetTime() );
}
inline ULONGLONG CFileTime::GetTime() const
{
return( (ULONGLONG( dwHighDateTime )<<32)|dwLowDateTime );
}
inline void CFileTime::SetTime( ULONGLONG nTime )
{
dwLowDateTime = DWORD( nTime );
dwHighDateTime = DWORD( nTime>>32 );
}
inline CFileTime CFileTime::UTCToLocal() const
{
CFileTime ftLocal;
::FileTimeToLocalFileTime( this, &ftLocal );
return( ftLocal );
}
inline CFileTime CFileTime::LocalToUTC() const
{
CFileTime ftUTC;
::LocalFileTimeToFileTime( this, &ftUTC );
return( ftUTC );
}
} // namespace ATL
#endif //__ATLTIME_INL__