Leaked source code of windows server 2003
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/*++
Copyright (C) 1996-2001 Microsoft Corporation
Module Name:
DATETIMEPARSER.CPP
Abstract:
Parses a date/time string and converts it into it's component values.
History:
raymcc 25-Jul-99 Updated to bypass strict checks on DMTF
formats due to backward compatibility issues
and breaks reported by other teams. See
NOT_USED_IN_WIN2000 #idndef bracketed code.
--*/
//=============================================================================
//
// CDateTimeParser
//
// Parses a date/time string and converts it into it's component values.
//
// Supported DMTF date/time formats:
// 1: yyyymmddhhmmss.uuuuuu+UTC
// 2: yyyymmddhhmmss.uuuuuu-UTC
//
// Supported date formats:
// 1: Mon[th] dd[,] [yy]yy
// 2: Mon[th][,] yyyy
// 3: Mon[th] [yy]yy dd
// 4: dd Mon[th][,][ ][yy]yy
// 5: dd [yy]yy Mon[th]
// 6: [yy]yy Mon[th] dd
// 7: yyyy Mon[th]
// 8: yyyy dd Mon[th]
// 9: [M]M{/-.}dd{/-,}[yy]yy ->Has to be same separator!
// 10: dd{/-.}[M]M{/-.}[yy]yy ->Has to be same separator!
// 11: [M]M{/-.}[yy]yy{/-.}dd ->Has to be same separator!
// 12: dd{/-.}[yy]yy{/-.}[M]M ->Has to be same separator!
// 13: [yy]yy{/-.}dd{/-.}[M]M ->Has to be same separator!
// 14: [yy]yy{/-.}[M]M{/-.}dd ->Has to be same separator!
// 15: [yy]yyMMdd and yyyy[MM[dd]]
//
// Supported Time formats:
// 1: hh[ ]{AP}M
// 2: hh:mm
// 3: hh:mm[ ]{AP}M
// 4: hh:mm:ss
// 5: hh:mm:ss[ ]{AP}M
// 6: hh:mm:ss:uuu
// 7: hh:mm:ss.[[u]u]u
// 8: hh:mm:ss:uuu[ ]{AP}M
// 9: hh:mm:ss.[[u]u]u[ ]{AP}M
//=============================================================================
#include "precomp.h"
#include <string.h>
#include <stdio.h>
#include "wbemutil.h"
#include "DateTimeParser.h"
//=============================================================================
// Constructor. This takes a DateTime string and parses it.
//=============================================================================
CDateTimeParser::CDateTimeParser(const wchar_t *pszDateTime)
: m_nDayFormatPreference(mdy)
{
// Get the prefered date format by using NLS locale call
GetPreferedDateFormat();
//Get the localised long month strings
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME1, m_pszFullMonth[0]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME2, m_pszFullMonth[1]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME3, m_pszFullMonth[2]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME4, m_pszFullMonth[3]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME5, m_pszFullMonth[4]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME6, m_pszFullMonth[5]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME7, m_pszFullMonth[6]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME8, m_pszFullMonth[7]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME9, m_pszFullMonth[8]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME10, m_pszFullMonth[9]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME11, m_pszFullMonth[10]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME12, m_pszFullMonth[11]);
GetLocalInfoAndAlloc(LOCALE_SMONTHNAME13, m_pszFullMonth[12]);
//Get the localised short month strings
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME1, m_pszShortMonth[0]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME2, m_pszShortMonth[1]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME3, m_pszShortMonth[2]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME4, m_pszShortMonth[3]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME5, m_pszShortMonth[4]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME6, m_pszShortMonth[5]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME7, m_pszShortMonth[6]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME8, m_pszShortMonth[7]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME9, m_pszShortMonth[8]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME10, m_pszShortMonth[9]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME11, m_pszShortMonth[10]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME12, m_pszShortMonth[11]);
GetLocalInfoAndAlloc(LOCALE_SABBREVMONTHNAME13, m_pszShortMonth[12]);
//Get the localised AM/PM strings
GetLocalInfoAndAlloc(LOCALE_S1159, m_pszAmPm[0]);
GetLocalInfoAndAlloc(LOCALE_S2359, m_pszAmPm[1]);
//Decode the date time string.
SetDateTime(pszDateTime);
}
CDateTimeParser::CDateTimeParser( void )
: m_nDayFormatPreference(mdy),
m_bValidDateTime( FALSE ),
m_nDay( 0 ),
m_nMonth( 0 ),
m_nYear( 0 ),
m_nHours( 0 ),
m_nMinutes( 0 ),
m_nSeconds( 0 ),
m_nMicroseconds( 0 ),
m_nUTC( 0 )
{
ZeroMemory( m_pszFullMonth, sizeof(m_pszFullMonth) );
ZeroMemory( m_pszShortMonth, sizeof(m_pszShortMonth) );
ZeroMemory( m_pszAmPm, sizeof(m_pszAmPm) );
}
//=============================================================================
// Destructor. Tidies up after itself.
//=============================================================================
CDateTimeParser::~CDateTimeParser()
{
if ( NULL != m_pszFullMonth[0] ) delete [] m_pszFullMonth[0];
if ( NULL != m_pszFullMonth[1] ) delete [] m_pszFullMonth[1];
if ( NULL != m_pszFullMonth[2] ) delete [] m_pszFullMonth[2];
if ( NULL != m_pszFullMonth[3] ) delete [] m_pszFullMonth[3];
if ( NULL != m_pszFullMonth[4] ) delete [] m_pszFullMonth[4];
if ( NULL != m_pszFullMonth[5] ) delete [] m_pszFullMonth[5];
if ( NULL != m_pszFullMonth[6] ) delete [] m_pszFullMonth[6];
if ( NULL != m_pszFullMonth[7] ) delete [] m_pszFullMonth[7];
if ( NULL != m_pszFullMonth[8] ) delete [] m_pszFullMonth[8];
if ( NULL != m_pszFullMonth[9] ) delete [] m_pszFullMonth[9];
if ( NULL != m_pszFullMonth[10] ) delete [] m_pszFullMonth[10];
if ( NULL != m_pszFullMonth[11] ) delete [] m_pszFullMonth[11];
if ( NULL != m_pszFullMonth[12] ) delete [] m_pszFullMonth[12];
if ( NULL != m_pszShortMonth[0] ) delete [] m_pszShortMonth[0];
if ( NULL != m_pszShortMonth[1] ) delete [] m_pszShortMonth[1];
if ( NULL != m_pszShortMonth[2] ) delete [] m_pszShortMonth[2];
if ( NULL != m_pszShortMonth[3] ) delete [] m_pszShortMonth[3];
if ( NULL != m_pszShortMonth[4] ) delete [] m_pszShortMonth[4];
if ( NULL != m_pszShortMonth[5] ) delete [] m_pszShortMonth[5];
if ( NULL != m_pszShortMonth[6] ) delete [] m_pszShortMonth[6];
if ( NULL != m_pszShortMonth[7] ) delete [] m_pszShortMonth[7];
if ( NULL != m_pszShortMonth[8] ) delete [] m_pszShortMonth[8];
if ( NULL != m_pszShortMonth[9] ) delete [] m_pszShortMonth[9];
if ( NULL != m_pszShortMonth[10] ) delete [] m_pszShortMonth[10];
if ( NULL != m_pszShortMonth[11] ) delete [] m_pszShortMonth[11];
if ( NULL != m_pszShortMonth[12] ) delete [] m_pszShortMonth[12];
if ( NULL != m_pszAmPm[0] ) delete [] m_pszAmPm[0];
if ( NULL != m_pszAmPm[1] ) delete [] m_pszAmPm[1];
}
wchar_t* CDateTimeParser::AllocAmPm()
{
wchar_t* pszAP = new wchar_t[4];
if (pszAP)
{
pszAP[0] = ' ';
pszAP[1] = m_pszAmPm[0][0];
pszAP[2] = m_pszAmPm[1][0];
pszAP[3] = 0;
}
return pszAP;
}
//=============================================================================
// Does a GetLocalInfo and allocates the buffer large enough for the item.
//=============================================================================
void CDateTimeParser::GetLocalInfoAndAlloc(LCTYPE LCType, LPTSTR &lpLCData)
{
int nSize;
nSize = GetLocaleInfo(LOCALE_USER_DEFAULT, LCType, NULL, 0);
lpLCData = new wchar_t[nSize];
if (lpLCData)
GetLocaleInfo(LOCALE_USER_DEFAULT, LCType, lpLCData, nSize);
}
//=============================================================================
// Uses locale call to work out the prefered date format.
//=============================================================================
void CDateTimeParser::GetPreferedDateFormat()
{
int nSize;
if (!(nSize = GetLocaleInfo(LOCALE_USER_DEFAULT, LOCALE_SSHORTDATE, NULL, 0)))
return; // will use default of mdy
wchar_t* lpLCData = new wchar_t[nSize];
if(lpLCData == NULL)
return;
if (!GetLocaleInfo(LOCALE_USER_DEFAULT, LOCALE_SSHORTDATE, lpLCData, nSize))
{
delete [] lpLCData;
return; // will use default of mdy
}
nSize -= 2; // index of last character
// It is only necessary to check first and last character to determine format
if (lpLCData[0] == 'M')
{
if (lpLCData[nSize] == 'y')
m_nDayFormatPreference = mdy;
else // lpLCData[nSize] == 'd'
m_nDayFormatPreference = myd;
}
else if (lpLCData[0] == 'd')
{
if (lpLCData[nSize] == 'y')
m_nDayFormatPreference = dmy;
else // lpLCData[nSize] == 'M'
m_nDayFormatPreference = dym;
}
else // lpLCPata[0] == 'y'
{
if (lpLCData[nSize] == 'd')
m_nDayFormatPreference = ymd;
else // lpLCData[nSize] == 'M'
m_nDayFormatPreference = ydm;
}
delete [] lpLCData;
}
//=============================================================================
// Tidies up and parses a new date and time.
//=============================================================================
BOOL CDateTimeParser::SetDateTime(const wchar_t *pszDateTime)
{
ResetDateTime(TRUE);
if (CheckDMTFDateTimeFormatInternal(pszDateTime) == TRUE)
return TRUE;
if (CheckDateFormat(pszDateTime, TRUE) == TRUE)
return TRUE;
if (CheckTimeFormat(pszDateTime, TRUE) == TRUE)
return TRUE;
return TRUE;
}
//=============================================================================
// Resets all the date/time values to the default values.
// If bSQL is TRUE it sets to the SQL default. Otherwise
// sets to the DMTF default.
//=============================================================================
void CDateTimeParser::ResetDateTime(BOOL bSQL)
{
ResetDate(bSQL);
ResetTime(bSQL);
}
void CDateTimeParser::ResetDate(BOOL bSQL)
{
m_bValidDateTime = FALSE;
m_nDay = 1;
m_nMonth = 1;
m_nYear = 1990;
}
void CDateTimeParser::ResetTime(BOOL bSQL)
{
m_bValidDateTime = FALSE;
m_nHours = 0;
m_nMinutes = 0;
m_nSeconds = 0;
m_nMicroseconds = 0;
m_nUTC = 0;
}
//=============================================================================
// Checks the date time for a valid DMTF string
// 1: yyyymmddhhmmss.uuuuuu+UTC
// 2: yyyymmddhhmmss.uuuuuu-UTC
// Note, this code is a near duplicate of the checks used to test the interval format.
//=============================================================================
BOOL CDateTimeParser::CheckDMTFDateTimeFormatInternal(const wchar_t *pszDateTime)
{
if (wcslen(pszDateTime) != 25)
return FALSE;
//Validate digits and puntuation...
for (int i = 0; i < 14; i++)
{
if (!wbem_isdigit(pszDateTime[i]))
return FALSE;
}
if (pszDateTime[i] != '.')
return FALSE;
for (i++;i < 21; i++)
{
if (!wbem_isdigit(pszDateTime[i]))
return FALSE;
}
if ((pszDateTime[i] != '+') && (pszDateTime[i] != '-'))
return FALSE;
for (i++; i < 25; i++)
{
if (!wbem_isdigit(pszDateTime[i]))
return FALSE;
}
m_nYear = ((pszDateTime[0] - '0') * 1000) +
((pszDateTime[1] - '0') * 100) +
((pszDateTime[2] - '0') * 10) +
(pszDateTime[3] - '0');
if (m_nYear < 1601)
return FALSE;
m_nMonth = ((pszDateTime[4] - '0') * 10) +
(pszDateTime[5] - '0');
if (m_nMonth < 1 || m_nMonth > 12)
return FALSE;
m_nDay = ((pszDateTime[6] - '0') * 10) +
(pszDateTime[7] - '0');
if (m_nDay < 1 || m_nDay > 31)
return FALSE;
m_nHours = ((pszDateTime[8] - '0') * 10) +
(pszDateTime[9] - '0');
if (m_nHours > 23)
return FALSE;
m_nMinutes = ((pszDateTime[10] - '0') * 10) +
(pszDateTime[11] - '0');
if (m_nMinutes > 59)
return FALSE;
m_nSeconds = ((pszDateTime[12] - '0') * 10) +
(pszDateTime[13] - '0');
if (m_nSeconds > 59)
return FALSE;
//14 is '.'
m_nMicroseconds = ((pszDateTime[15] - '0') * 100000) +
((pszDateTime[16] - '0') * 10000) +
((pszDateTime[17] - '0') * 1000) +
((pszDateTime[18] - '0') * 100) +
((pszDateTime[19] - '0') * 10) +
(pszDateTime[20] - '0');
//21 is '+' or '-'
m_nUTC = ((pszDateTime[22] - '0') * 100) +
((pszDateTime[23] - '0') * 10) +
(pszDateTime[24] - '0');
if (pszDateTime[21] == '-')
m_nUTC = 0 - m_nUTC;
m_bValidDateTime = TRUE;
return TRUE;
}
//=============================================================================
// Static helper function so outside code can do quick DMTF format checks.
//=============================================================================
BOOL CDateTimeParser::CheckDMTFDateTimeFormat(
const wchar_t *wszDateTime,
BOOL bFailIfRelative,
BOOL bFailIfUnzoned
)
{
if (wszDateTime == 0)
return FALSE;
int nLen = wcslen(wszDateTime);
if (nLen != 25)
return FALSE;
// Do two quick checks. Ensure that the . and : are in
// the right places or at least that * chars are there.
wchar_t c1 = wszDateTime[14];
wchar_t c2 = wszDateTime[21];
if (!(c1 == L'.' || c1 == L'*'))
return FALSE;
if (!(c2 == L'+' || c2 == L'*' || c2 == '-'))
return FALSE;
return TRUE;
#ifdef NOT_USED_IN_WIN2000
BOOL bReturn = FALSE;
// Temporary buffer for conversion
char szTemp[64];
int nNumChars = WideCharToMultiByte( CP_ACP, 0L, wszDateTime, -1, NULL, 0, NULL, NULL );
if ( nNumChars < sizeof(szTemp) - 1 )
{
// We know it will fit, so do the conversion and use the date/time parser to
// perform a conversion
WideCharToMultiByte( CP_ACP, 0L, wszDateTime, -1, szTemp, sizeof(szTemp), NULL, NULL );
// Check for use of asterisks for relative date/time
if (!bFailIfRelative)
{
// Check year and if ALL asterisks then replace with a valid number
if (szTemp[0] == '*' && szTemp[1] == '*' && szTemp[2] == '*' && szTemp[3] == '*')
{
szTemp[0] = '1'; szTemp[1] = '9'; szTemp[2] = '9'; szTemp[3] = '0';
}
// Check month and if ALL asterisks then replace with a valid number
if (szTemp[4] == '*' && szTemp[5] == '*')
{
szTemp[4] = '0'; szTemp[5] = '1';
}
// Check day and if ALL asterisks then replace with a valid number
if (szTemp[6] == '*' && szTemp[7] == '*')
{
szTemp[6] = '0'; szTemp[7] = '1';
}
// Check hour and if ALL asterisks then replace with a valid number
if (szTemp[8] == '*' && szTemp[9] == '*')
{
szTemp[8] = '0'; szTemp[9] = '0';
}
// Check minutes and if ALL asterisks then replace with a valid number
if (szTemp[10] == '*' && szTemp[11] == '*')
{
szTemp[10] = '0'; szTemp[11] = '0';
}
// Check seconds and if ALL asterisks then replace with a valid number
if (szTemp[12] == '*' && szTemp[13] == '*')
{
szTemp[12] = '0'; szTemp[13] = '0';
}
// Check microseconds and if ALL asterisks then replace with a valid number
if (szTemp[15] == '*' && szTemp[16] == '*' && szTemp[17] == '*' &&
szTemp[18] == '*' && szTemp[19] == '*' && szTemp[20] == '*')
{
szTemp[15] = '0'; szTemp[16] = '0'; szTemp[17] = '0';
szTemp[18] = '0'; szTemp[19] = '0'; szTemp[20] = '0';
}
}
// Check for use of asterisks for unzoned date/time
if (!bFailIfUnzoned)
{
// Check UTC and if ALL asterisks then replace with a valid number
if (szTemp[22] == '*' && szTemp[23] == '*' && szTemp[24] == '*')
{
szTemp[22] = '0'; szTemp[23] = '0'; szTemp[24] = '0';
}
}
CDateTimeParser dtParse;
bReturn = dtParse.CheckDMTFDateTimeFormatInternal( szTemp );
}
return bReturn;
#endif
}
//=============================================================================
// Static helper function so outside code can do quick DMTF format checks.
// Currently, a time interval can only be validated, it cannot be used
// to initialize a CDateTimeParser instance.
//=============================================================================
BOOL CDateTimeParser::CheckDMTFDateTimeInterval(
LPCTSTR wszInterval
)
{
if (wszInterval == 0)
return FALSE;
int nLen = wcslen(wszInterval);
if (nLen != 25)
return FALSE;
// Do two quick checks. Ensure that the . and : are in
// the right places or at least that * chars are there.
wchar_t c1 = wszInterval[14];
wchar_t c2 = wszInterval[21];
if (!(c1 == L'.' || c1 == L'*'))
return FALSE;
if (!(c2 == L':' || c2 == L'*'))
return FALSE;
return TRUE;
#ifdef NOT_USED_IN_WIN2000
// Temporary buffer for conversion
char szTemp[64];
int nNumChars = WideCharToMultiByte( CP_ACP, 0L, wszInterval, -1, NULL, 0, NULL, NULL );
if ( nNumChars < sizeof(szTemp) - 1 )
{
// We know it will fit, so do the conversion and use the date/time parser to
// perform a conversion
WideCharToMultiByte( CP_ACP, 0L, wszInterval, -1, szTemp, sizeof(szTemp), NULL, NULL );
// =======================================================================================
// Check the date time for a valid DMTF interval string:
// ddddddddHHMMSS.mmmmmm:000
// Note, this code is a near duplicate of the checks used to test the non-interval format.
// =======================================================================================
if (strlen(szTemp) != 25)
return FALSE;
//Validate digits and puntuation...
for (int i = 0; i < 14; i++)
{
if (!wbem_isdigit(szTemp[i]))
return FALSE;
}
if (szTemp[i] != '.')
return FALSE;
for (i++;i < 21; i++)
{
if (!wbem_isdigit(szTemp[i]))
return FALSE;
}
if (szTemp[i] != ':')
return FALSE;
for (i++; i < 25; i++)
{
if (szTemp[i] != '0')
return FALSE;
}
int nHours = ((szTemp[8] - '0') * 10) +
(szTemp[9] - '0');
if (nHours > 23)
return FALSE;
int nMinutes = ((szTemp[10] - '0') * 10) +
(szTemp[11] - '0');
if (nMinutes > 59)
return FALSE;
int nSeconds = ((szTemp[12] - '0') * 10) +
(szTemp[13] - '0');
if (nSeconds > 59)
return FALSE;
return TRUE;
}
return FALSE;
#endif
}
//=============================================================================
// Goes through each of the date formats checking to see if any are valid
//=============================================================================
BOOL CDateTimeParser::CheckDateFormat(const wchar_t *pszDate, BOOL bCheckTimeAfter)
{
if (DateFormat1(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat2(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat3(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat4(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat5(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat6(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat7(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat8(pszDate, bCheckTimeAfter))
return TRUE;
if (DateFormat15(pszDate, bCheckTimeAfter))
return TRUE;
switch(m_nDayFormatPreference)
{
case dmy:
if (DateFormat10(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
break;
case dym:
if (DateFormat12(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
break;
case mdy:
if (DateFormat9(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
break;
case myd:
if (DateFormat11(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
break;
case ydm:
if (DateFormat13(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
break;
case ymd:
if (DateFormat14(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat14(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat9(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat10(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat11(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat12(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("/"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("-"), bCheckTimeAfter))
return TRUE;
if (DateFormat13(pszDate, TEXT("."), bCheckTimeAfter))
return TRUE;
break;
default:
return FALSE;
}
return FALSE;
}
//=============================================================================
// Goes through each of the time formats checking to see if any are valid
// Order is important here. Re-arranged to properly recognize AM/PM - mdavis.
//=============================================================================
BOOL CDateTimeParser::CheckTimeFormat(const wchar_t *pszTime, BOOL bCheckDateAfter)
{
if (TimeFormat1(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat3(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat2(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat5(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat4(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat8(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat6(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat9(pszTime, bCheckDateAfter))
return TRUE;
if (TimeFormat7(pszTime, bCheckDateAfter))
return TRUE;
return FALSE;
}
//=============================================================================
// Checks for date/time in the following format...
// 'Mon[th] dd[,] [yy]yy'
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat1(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString,pszDateTime);
if (!pszString)
goto error;
if (IsValidMonthString(pszString, TEXT(" "), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (IsValidDayNumber(NULL, TEXT(" ,")) != ok)
goto error;
if (IsValidYearNumber(NULL, TEXT(" "), FALSE) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date/time in the following format...
// 'Mon[th][,] yyyy'
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat2(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidMonthString(pszString, TEXT(" ,"), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (IsValidYearNumber(NULL, TEXT(" "), TRUE) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date/time in the following format...
// 'Mon[th] [yy]yy dd'
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat3(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidMonthString(pszString, TEXT(" ,"), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (IsValidYearNumber(NULL, TEXT(" "), FALSE) != ok)
goto error;
if (IsValidDayNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date/time in the following format...
// 'dd Mon[th][,][ ][yy]yy'
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat4(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidDayNumber(pszString, TEXT(" ")) != ok)
goto error;
if (IsValidMonthString(NULL, TEXT(" ,"), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (IsValidYearNumber(NULL, TEXT(" "), FALSE) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date/time in the following format...
// 'dd [yy]yy Mon[th]'
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat5(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidDayNumber(pszString, TEXT(" ")) != ok)
goto error;
if (IsValidYearNumber(NULL, TEXT(" "), FALSE) != ok)
goto error;
if (IsValidMonthString(NULL, TEXT(" "), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date/time in the following format...
// '[yy]yy Mon[th] dd'
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat6(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidYearNumber(pszString, TEXT(" "), FALSE) != ok)
goto error;
if (IsValidMonthString(NULL, TEXT(" "), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (IsValidDayNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == ' ')
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != '\0')
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// yyyy Mon[th]
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat7(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidYearNumber(pszString, TEXT(" "), TRUE) != ok)
goto error;
if (IsValidMonthString(NULL, TEXT(" "), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date/time in the following format...
// yyyy dd Mon[th]
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat8(const wchar_t *pszDateTime, BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidYearNumber(pszString, TEXT(" "), TRUE) != ok)
goto error;
if (IsValidDayNumber(NULL, TEXT(" ")) != ok)
goto error;
if (IsValidMonthString(NULL, TEXT(" "), m_pszFullMonth, m_pszShortMonth) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != '\0')
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// '[M]M{/-.}dd{/-.}[yy]yy -> Separators have to be the same
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat9(const wchar_t *pszDateTime,
const wchar_t *pszDateSeparator,
BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidMonthNumber(pszString, pszDateSeparator) != ok)
goto error;
if (IsValidDayNumber(NULL, pszDateSeparator) != ok)
goto error;
if (IsValidYearNumber(NULL, TEXT(" "), FALSE) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// dd{/-.}[M]M{/-.}[yy]yy -> Separators have to be the same
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat10(const wchar_t *pszDateTime,
const wchar_t *pszDateSeparator,
BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidDayNumber(pszString, pszDateSeparator) != ok)
goto error;
if (IsValidMonthNumber(NULL, pszDateSeparator) != ok)
goto error;
if (IsValidYearNumber(NULL, TEXT(" "), FALSE) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// [M]M{/-.}[yy]yy{/-.}dd ->Has to be same separator!
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat11(const wchar_t *pszDateTime,
const wchar_t *pszDateSeparator,
BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidMonthNumber(pszString, pszDateSeparator) != ok)
goto error;
if (IsValidYearNumber(NULL, pszDateSeparator, FALSE) != ok)
goto error;
if (IsValidDayNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// dd{/-.}[yy]yy{/-.}[M]M ->Has to be same separator!
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat12(const wchar_t *pszDateTime,
const wchar_t *pszDateSeparator,
BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidDayNumber(pszString, pszDateSeparator) != ok)
goto error;
if (IsValidYearNumber(NULL, pszDateSeparator, FALSE) != ok)
goto error;
if (IsValidMonthNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// [yy]yy{/-.}dd{/-.}[M]M ->Has to be same separator!
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat13(const wchar_t *pszDateTime,
const wchar_t *pszDateSeparator,
BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidYearNumber(pszString, pszDateSeparator, FALSE) != ok)
goto error;
if (IsValidDayNumber(NULL, pszDateSeparator) != ok)
goto error;
if (IsValidMonthNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// [yy]yy{/-.}[M]M{/-.}dd ->Has to be same separator!
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat14(const wchar_t *pszDateTime,
const wchar_t *pszDateSeparator,
BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidYearNumber(pszString, pszDateSeparator, FALSE) != ok)
goto error;
if (IsValidMonthNumber(NULL, pszDateSeparator) != ok)
goto error;
if (IsValidDayNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for date in the following format...
// [yy]yyMMdd
// yyyy[MM[dd]]
// passes remaining string on to time parser if bCheckTimeAfter is set
//=============================================================================
BOOL CDateTimeParser::DateFormat15(const wchar_t *pszDateTime,
BOOL bCheckTimeAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidYearMonthDayNumber(pszString) != ok)
goto error;
if (bCheckTimeAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the time
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckTimeFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetDate(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh[ ]{AP}M
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat1(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
wchar_t *pszAP = AllocAmPm();
if (!pszString || !pszAP)
goto error;
if (IsValidHourNumber(pszString, pszAP) != ok)
goto error;
if (IsValidAmPmString(NULL, TEXT(" "), m_pszAmPm) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
delete [] pszAP;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
if (pszAP)
delete [] pszAP;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat2(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm[ ]{AP}M
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat3(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
wchar_t *pszAP = AllocAmPm();
if (!pszString || !pszAP)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, pszAP) != ok)
goto error;
if (IsValidAmPmString(NULL, TEXT(" "), m_pszAmPm) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
delete [] pszAP;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
if (pszAP)
delete [] pszAP;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm:ss
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat4(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidSecondNumber(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm:ss[ ]{AP}M
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat5(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
wchar_t *pszAP = AllocAmPm();
if (!pszString || !pszAP)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidSecondNumber(NULL, pszAP) != ok)
goto error;
if (IsValidAmPmString(NULL, TEXT(" "), m_pszAmPm) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
delete [] pszAP;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
if (pszAP)
delete [] pszAP;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm:ss:uuu
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat6(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidSecondNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidColonMillisecond(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm:ss.[[u]u]u
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat7(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
if (!pszString)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidSecondNumber(NULL, TEXT(".")) != ok)
goto error;
if (IsValidDotMillisecond(NULL, TEXT(" ")) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm:ss:uuu[ ]{AP}M
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat8(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
wchar_t *pszAP = AllocAmPm();
if (!pszString || !pszAP)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidSecondNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidColonMillisecond(NULL, pszAP) != ok)
goto error;
if (IsValidAmPmString(NULL, TEXT(" "), m_pszAmPm) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
delete [] pszAP;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
if (pszAP)
delete [] pszAP;
return FALSE;
}
//=============================================================================
// Checks for time in the following format...
// hh:mm:ss.[[u]u]u[ ]{AP}M
// passes remaining string on to date parser if bCheckDateAfter is set
//=============================================================================
BOOL CDateTimeParser::TimeFormat9(const wchar_t *pszDateTime, BOOL bCheckDateAfter)
{
//Copy of string which we can change...
wchar_t *pszString;
DUP_STRING_NEW(pszString, pszDateTime);
wchar_t *pszAP = AllocAmPm();
if (!pszString || !pszAP)
goto error;
if (IsValidHourNumber(pszString, TEXT(":")) != ok)
goto error;
if (IsValidMinuteNumber(NULL, TEXT(":")) != ok)
goto error;
if (IsValidSecondNumber(NULL, TEXT(".")) != ok)
goto error;
if (IsValidDotMillisecond(NULL, pszAP) != ok)
goto error;
if (IsValidAmPmString(NULL, TEXT(" "), m_pszAmPm) != ok)
goto error;
if (bCheckDateAfter)
{
//Get the remaining string
wchar_t *pszRemainingString = wcstok(NULL, TEXT(""));
if (pszRemainingString)
{
//Skip white space
while (*pszRemainingString == TEXT(' '))
pszRemainingString++;
//if we are not at the end of the string pass on to the date
//parser
if (*pszRemainingString != TEXT('\0'))
{
if (!CheckDateFormat(pszRemainingString, FALSE))
{
goto error;
}
}
}
}
delete [] pszString;
delete [] pszAP;
//mark date/time as valid...
m_bValidDateTime = TRUE;
return TRUE;
error:
//mark date/time as invalid...
ResetTime(TRUE);
//Tidy up
if (pszString)
delete [] pszString;
if (pszAP)
delete [] pszAP;
return FALSE;
}
//=========================================================================
//Check the month.
//=========================================================================
int CDateTimeParser::IsValidMonthString(wchar_t *pszString,
const wchar_t *pszSeparator,
wchar_t *pszFullMonth[],
wchar_t *pszShortMonth[])
{
BOOL bOK = FALSE;
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
//Skip spaces
while (*pszToken == TEXT(' '))
pszToken++;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Work through the possible months...
for (int i = 0; i < 12; i++)
{
if ((lstrcmpi(pszShortMonth[i], pszToken) == 0) ||
(lstrcmpi(pszFullMonth[i], pszToken) == 0))
{
//That is valid...
bOK = TRUE;
break;
}
}
//Is this a valid month?
if (!bOK)
{
return failed;
}
m_nMonth = i + 1;
return ok;
}
//=========================================================================
//Check the month as a number.
//=========================================================================
int CDateTimeParser::IsValidMonthNumber(wchar_t *pszString,
const wchar_t *pszSeparator)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
//Skip spaces...
while (*pszToken == TEXT(' '))
pszToken++;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//convert it to a number
i = _wtoi(pszToken);
if ((i < 1) || (i > 12))
return failed;
m_nMonth = (unsigned char)i;
return ok;
}
//=========================================================================
//Check the day.
//=========================================================================
int CDateTimeParser::IsValidDayNumber(wchar_t *pszString,
const wchar_t *pszSeparator)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
//Skip spaces...
while (*pszToken == TEXT(' '))
pszToken++;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//convert it to a number
i = _wtoi(pszToken);
if ((i < 1) || (i > 31))
return failed;
m_nDay = (unsigned char)i;
return ok;
}
//=========================================================================
//Check the year.
//=========================================================================
int CDateTimeParser::IsValidYearNumber(wchar_t *pszString,
const wchar_t *pszSeparator,
BOOL bFourDigitsOnly)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
//Skip space
while (*pszToken == TEXT(' '))
pszToken++;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//Needs to be 2 or 4 digits
if ((i != 2) && (i != 4))
return failed;
if ((i == 2) && bFourDigitsOnly)
return failed;
//convert it to a number
m_nYear = _wtoi(pszToken);
//Do any conversions for 2 digit years...
if ((i == 2) && (m_nYear < 50))
{
m_nYear += 2000;
}
else if (i == 2)
{
m_nYear += 1900;
}
return ok;
}
//=========================================================================
//Check the hours.
//=========================================================================
int CDateTimeParser::IsValidHourNumber(wchar_t *pszString,
const wchar_t *pszSeparator)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
//Skip space
while (*pszToken == TEXT(' '))
pszToken++;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//convert it to a number
i = _wtoi(pszToken);
//Validate a little
if ((i < 0) || (i > 23))
return failed;
m_nHours = (unsigned char)i;
return ok;
}
//=========================================================================
//Check the Minutes.
//=========================================================================
int CDateTimeParser::IsValidMinuteNumber(wchar_t *pszString,
const wchar_t *pszSeparator)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//convert it to a number
i = _wtoi(pszToken);
//Validate a little
if ((i < 0) || (i > 59))
return failed;
m_nMinutes = (unsigned char)i;
return ok;
}
//=========================================================================
//Check the Seconds.
//=========================================================================
int CDateTimeParser::IsValidSecondNumber(wchar_t *pszString,
const wchar_t *pszSeparator)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//convert it to a number
i = _wtoi(pszToken);
//Validate a little
if ((i < 0) || (i > 59))
return failed;
m_nSeconds = (unsigned char)i;
return ok;
}
//=========================================================================
//Check the milliseconds. This is a colon prefix version
//=========================================================================
int CDateTimeParser::IsValidColonMillisecond(wchar_t *pszString,
const wchar_t *pszSeparator)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//convert it to a number
i = _wtoi(pszToken);
//Validate a little
if ((i < 0) || (i > 999))
return failed;
//milliseconds to microseconds
m_nMicroseconds = i * 1000;
return ok;
}
//=========================================================================
//Check the milliseconds. This is a dot prefix (decimal) version
//=========================================================================
int CDateTimeParser::IsValidDotMillisecond(wchar_t *pszString,
const wchar_t *pszSeparator)
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//convert it to a number
int nVal = _wtoi(pszToken);
//Convert the value into thousandths of a second.
if (i < 3)
nVal *= 10;
if (i < 2)
nVal *= 10;
//Validate a little
if ((nVal < 0) || (nVal > 999))
return failed;
//milliseconds to microseconds
m_nMicroseconds = nVal * 1000;
return ok;
}
//=========================================================================
//Check the AM/PM part.
//=========================================================================
int CDateTimeParser::IsValidAmPmString(wchar_t *pszString,
const wchar_t *pszSeparator,
wchar_t *pszAmPm[])
{
wchar_t *pszToken = wcstok(pszString, pszSeparator);
if (pszToken == NULL)
return nothingLeft;
BOOL bOK = FALSE;
//Skip spaces
while (*pszToken == TEXT(' '))
{
pszToken++;
}
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
//Work through the possible AM/PM items...
for (int i = 0; i < 2; i++)
{
if (lstrcmpi(pszAmPm[i], pszToken) == 0)
{
//That is valid...
bOK = TRUE;
break;
}
}
if (!bOK)
return failed;
if (i == 1)
{
//PM adds 12 hours
m_nHours += 12;
}
else if (m_nHours == 12)
{
//for AM, 12 o'clock equals 0 in 24 hour time.
m_nHours = 0;
}
//Does this make the number too large now?
if (m_nHours > 23)
return failed;
return ok;
}
//=========================================================================
// Check the purely numeric year, month, day format...
// [yy]yyMMdd
// yyyy[MMdd]
// NOTE: 6 and 8 digit dates are always ymd.
// 4 digits is always year
//=========================================================================
int CDateTimeParser::IsValidYearMonthDayNumber(wchar_t *pszString)
{
int j;
wchar_t *pszToken = wcstok(pszString, TEXT(" "));
if (pszToken == NULL)
return nothingLeft;
BOOL bOK = FALSE;
//Skip spaces
while (*pszToken == TEXT(' '))
{
pszToken++;
}
if (*pszToken == TEXT('\0'))
return nothingLeft;
//Check it is digits...
for (int i = 0; pszToken[i] != TEXT('\0'); i++)
{
if (!wbem_isdigit(pszToken[i]))
return failed;
}
//We support 4, 6 and 8 digits
if ((i != 4) && (i != 6) && (i != 8))
return failed;
//4 digit years...
if ((i == 4) || (i == 8))
{
m_nYear = 0;
for (j = 0;j < 4; j++)
{
m_nYear *= 10;
m_nYear += (*pszToken - '0');
pszToken++;
}
}
else
{
//2 digit years
m_nYear = 0;
for (j = 0;j < 2; j++)
{
m_nYear *= 10;
m_nYear += (*pszToken - '0');
pszToken++;
}
if (m_nYear >= 50)
{
m_nYear += 1900;
}
else
{
m_nYear += 2000;
}
}
//If we have month and year...
if (i > 4)
{
m_nMonth = ((*pszToken - TEXT('0')) * 10) + (*(pszToken+1) - TEXT('0'));
pszToken += 2;
if ((m_nMonth < 0) && (m_nMonth > 12))
return failed;
m_nDay = ((*pszToken - TEXT('0')) * 10) + (*(pszToken+1) - TEXT('0'));
if ((m_nDay < 0) && (m_nDay > 31))
return failed;
}
return ok;
}
int CDateTimeParser::FillDMTF(WCHAR* pwszBuffer, size_t cchSize)
{
if(!IsValidDateTime())
return failed;
if(FAILED(StringCchPrintfW(pwszBuffer, cchSize, L"%04d%02d%02d%02d%02d%02d.%06d%c%03d",
m_nYear, m_nMonth, m_nDay, m_nHours, m_nMinutes, m_nSeconds,
m_nMicroseconds,
((m_nUTC >= 0)?L'+':L'-'),
((m_nUTC >= 0)?m_nUTC:-m_nUTC)))) return failed;
return ok;
}
BOOL NormalizeCimDateTime(
IN LPCWSTR pszSrc,
OUT BSTR *strAdjusted
)
{
int yr = 0, mo = 0, da = 0, hh = 0, mm = 0, ss = 0, micro = 0, utcOffset = 0;
wchar_t wcSign = 0;
if (pszSrc == 0 || strAdjusted == 0)
return FALSE;
// Parse DMTF format.
// yyyymmddhhmmss.mmmmmmsuuu
// =========================
swscanf(pszSrc, L"%04d%02d%02d%02d%02d%02d.%06d%C%03d",
&yr, &mo, &da, &hh, &mm, &ss, &micro, &wcSign, &utcOffset
);
if (wcSign == 0)
return FALSE;
// Convert to Win32 time for adjustment.
// =====================================
SYSTEMTIME st;
FILETIME ft;
st.wYear = WORD(yr);
st.wMonth = WORD(mo);
st.wDay = WORD(da);
st.wDayOfWeek = 0;
st.wHour = WORD(hh);
st.wMinute = WORD(mm);
st.wSecond = WORD(ss);
st.wMilliseconds = WORD(micro / 1000);
BOOL bRes = SystemTimeToFileTime(&st, &ft);
if (!bRes)
return bRes;
ULARGE_INTEGER ul;
ul.HighPart = ft.dwHighDateTime;
ul.LowPart = ft.dwLowDateTime;
unsigned __int64 u64 = ul.QuadPart;
// Adjust rest of time so that we normalize to UTC
if (wcSign == L'-')
u64 += (unsigned __int64) 600000000 * (unsigned __int64) utcOffset;
else
u64 -= (unsigned __int64) 600000000 * (unsigned __int64) utcOffset;
ul.QuadPart = u64;
ft.dwHighDateTime = ul.HighPart;
ft.dwLowDateTime = ul.LowPart;
bRes = FileTimeToSystemTime(&ft, &st);
if (!bRes)
return bRes;
wchar_t buf[128];
StringCchPrintfW(buf, 128, L"%04d%02d%02d%02d%02d%02d.%06d+000",
st.wYear, st.wMonth, st.wDay,
st.wHour, st.wMinute, st.wSecond, st.wMilliseconds*1000
);
*strAdjusted = SysAllocString(buf);
if (*strAdjusted == 0)
return FALSE;
return TRUE;
}