/* * $Id$ */ /* * Harbour Project source code: * The Date conversion module * * Copyright 1999 Antonio Linares * www - http://www.harbour-project.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place, Suite 330, * Boston, MA 02111-1307 USA (or visit the web site http://www.gnu.org/). * * As a special exception, the Harbour Project gives permission for * additional uses of the text contained in its release of Harbour. * * The exception is that, if you link the Harbour libraries with other * files to produce an executable, this does not by itself cause the * resulting executable to be covered by the GNU General Public License. * Your use of that executable is in no way restricted on account of * linking the Harbour library code into it. * * This exception does not however invalidate any other reasons why * the executable file might be covered by the GNU General Public License. * * This exception applies only to the code released by the Harbour * Project under the name Harbour. If you copy code from other * Harbour Project or Free Software Foundation releases into a copy of * Harbour, as the General Public License permits, the exception does * not apply to the code that you add in this way. To avoid misleading * anyone as to the status of such modified files, you must delete * this exception notice from them. * * If you write modifications of your own for Harbour, it is your choice * whether to permit this exception to apply to your modifications. * If you do not wish that, delete this exception notice. * */ /* * The following parts are Copyright of the individual authors. * www - http://www.harbour-project.org * * Copyright 1999-2001 Viktor Szakats (harbour.01 syenar.hu) * hb_dateEncStr() * hb_dateDecStr() * hb_dateStrPut() * hb_dateStrGet() * * Copyright 1999 Jose Lalin * hb_dateDOW() * * Copyright 2009 Przemyslaw Czerpak * time/timestamp functions * * See COPYING for licensing terms. * */ #define HB_OS_WIN_USED #include "hbapi.h" #include "hbdate.h" #if defined( HB_LONG_LONG_OFF ) # include "hbmath.h" #endif #include #if defined( HB_OS_UNIX ) # include #elif !defined( HB_OS_WIN ) # include # if defined( _MSC_VER ) # define timeb _timeb # define ftime _ftime # endif #endif #ifdef HB_C52_STRICT #define HB_DATE_YEAR_LIMIT 2999 #else #define HB_DATE_YEAR_LIMIT 9999 #endif #define HB_STR_DATE_BASE 1721060 /* 0000/01/01 */ #define HB_SYS_DATE_BASE 2440588 /* 1970/01/01 */ void hb_timeStampGetLocal( int * piYear, int * piMonth, int * piDay, int * piHour, int * piMinutes, int * piSeconds, int * piMSec ) { HB_TRACE(HB_TR_DEBUG, ("hb_timeStampGetLocal(%p,%p,%p,%p,%p,%p,%p)", piYear, piMonth, piDay, piHour, piMinutes, piSeconds, piMSec)); #if defined( HB_OS_WIN ) { SYSTEMTIME st; GetLocalTime( &st ); *piYear = st.wYear; *piMonth = st.wMonth; *piDay = st.wDay; *piHour = st.wHour; *piMinutes = st.wMinute; *piSeconds = st.wSecond; *piMSec = st.wMilliseconds; } #else { struct tm st; time_t seconds, millisecs; # if defined( HB_OS_UNIX ) struct timeval tv; gettimeofday( &tv, NULL ); seconds = tv.tv_sec; millisecs = tv.tv_usec / 1000; # else struct timeb tb; ftime( &tb ); seconds = tb.time; millisecs = tb.millitm; # endif # if defined( HB_HAS_LOCALTIME_R ) localtime_r( &seconds, &st ); # else st = *localtime( &seconds ); # endif *piYear = st.tm_year + 1900; *piMonth = st.tm_mon + 1; *piDay = st.tm_mday; *piHour = st.tm_hour; *piMinutes = st.tm_min; *piSeconds = st.tm_sec; *piMSec = millisecs; } #endif } /* return UTC julian timestamp in milliseconds */ HB_ULONG hb_dateMilliSeconds( void ) { HB_TRACE(HB_TR_DEBUG, ("hb_dateMilliSeconds()")); #if defined( HB_OS_WIN ) { SYSTEMTIME st; GetSystemTime( &st ); return ( HB_ULONG ) hb_dateEncode( st.wYear, st.wMonth, st.wDay ) * HB_MILLISECS_PER_DAY + hb_timeEncode( st.wHour, st.wMinute, st.wSecond, st.wMilliseconds ); } #elif defined( HB_OS_UNIX ) { struct timeval tv; gettimeofday( &tv, NULL ); return ( ( HB_ULONG ) tv.tv_sec + ( HB_ULONG ) HB_SYS_DATE_BASE * HB_SECONDS_PER_DAY ) * 1000 + tv.tv_usec / 1000; } #else { struct timeb tb; ftime( &tb ); return ( ( HB_ULONG ) tb.time + ( HB_ULONG ) HB_SYS_DATE_BASE * HB_SECONDS_PER_DAY ) * 1000 + tb.time; } #endif } /* return local timestamp */ void hb_timeStampGet( long * plJulian, long * plMilliSec ) { int iYear, iMonth, iDay, iHour, iMinute, iSeconds, iMillisec; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampGet(%p,%p)", plJulian, plMilliSec)); hb_timeStampGetLocal( &iYear, &iMonth, &iDay, &iHour, &iMinute, &iSeconds, &iMillisec ); *plJulian = hb_dateEncode( iYear, iMonth, iDay ); *plMilliSec = hb_timeEncode( iHour, iMinute, iSeconds, iMillisec ); } double hb_dateSeconds( void ) { int iYear, iMonth, iDay, iHour, iMinute, iSeconds, iMillisec; HB_TRACE(HB_TR_DEBUG, ("hb_dateSeconds()")); hb_timeStampGetLocal( &iYear, &iMonth, &iDay, &iHour, &iMinute, &iSeconds, &iMillisec ); return ( double ) hb_timeEncode( iHour, iMinute, iSeconds, iMillisec ) / 1000; } long hb_dateEncode( int iYear, int iMonth, int iDay ) { HB_TRACE(HB_TR_DEBUG, ("hb_dateEncode(%d, %d, %d)", iYear, iMonth, iDay)); /* Perform date validation */ if( iYear >= 0 && iYear <= HB_DATE_YEAR_LIMIT && iMonth >= 1 && iMonth <= 12 && iDay >= 1 ) { /* Month, year, and lower day limits are simple, but upper day limit is dependent upon month and leap year */ static const int auiDayLimit[ 12 ] = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; if( iDay <= auiDayLimit[ iMonth - 1 ] || ( iDay == 29 && iMonth == 2 && ( iYear & 3 ) == 0 && ( iYear % 100 != 0 || iYear % 400 == 0 ) ) ) { int iFactor = ( iMonth < 3 ) ? -1 : 0; return ( ( long )( iFactor + 4800 + iYear ) * 1461 / 4 ) + ( ( long )( iMonth - 2 - ( iFactor * 12 ) ) * 367 ) / 12 - ( ( long )( ( iFactor + 4900 + iYear ) / 100 ) * 3 / 4 ) + ( long ) iDay - 32075; } } return 0; } void hb_dateDecode( long lJulian, int *piYear, int *piMonth, int *piDay ) { HB_TRACE(HB_TR_DEBUG, ("hb_dateDecode(%ld, %p, %p, %p)", lJulian, piYear, piMonth, piDay)); if( lJulian >= HB_STR_DATE_BASE ) { long U, V, W, X; lJulian += 68569; W = ( lJulian * 4 ) / 146097; lJulian -= ( ( 146097 * W ) + 3 ) / 4; X = 4000 * ( lJulian + 1 ) / 1461001; lJulian -= ( ( 1461 * X ) / 4 ) - 31; V = 80 * lJulian / 2447; U = V / 11; *piYear = (int) ( X + U + ( W - 49 ) * 100 ); *piMonth = (int) ( V + 2 - ( U * 12 ) ); *piDay = (int) ( lJulian - ( 2447 * V / 80 ) ); } else { *piYear = *piMonth = *piDay = 0; } } void hb_dateStrPut( char * szDate, int iYear, int iMonth, int iDay ) { HB_TRACE(HB_TR_DEBUG, ("hb_dateStrPut(%p, %d, %d, %d)", szDate, iYear, iMonth, iDay)); if( iYear >= 0 && iMonth > 0 && iDay > 0 ) { szDate[ 0 ] = ( char ) ( ( ( iYear / 1000 ) % 10 ) + '0' ); szDate[ 1 ] = ( char ) ( ( ( iYear / 100 ) % 10 ) + '0' ); szDate[ 2 ] = ( char ) ( ( ( iYear / 10 ) % 10 ) + '0' ); szDate[ 3 ] = ( char ) ( ( iYear % 10 ) + '0' ); szDate[ 4 ] = ( char ) ( ( iMonth / 10 ) + '0' ); szDate[ 5 ] = ( char ) ( ( iMonth % 10 ) + '0' ); szDate[ 6 ] = ( char ) ( ( iDay / 10 ) + '0' ); szDate[ 7 ] = ( char ) ( ( iDay % 10 ) + '0' ); } else { memset( szDate, '0', 8 ); } } void hb_dateStrGet( const char * szDate, int * piYear, int * piMonth, int * piDay ) { HB_TRACE(HB_TR_DEBUG, ("hb_dateStrGet(%s, %p, %p, %p)", szDate, piYear, piMonth, piDay)); #if defined( HB_C52_STRICT ) || 1 if( szDate ) #else if( szDate && szDate[ 0 ] >= '0' && szDate[ 0 ] <= '9' && szDate[ 1 ] >= '0' && szDate[ 1 ] <= '9' && szDate[ 2 ] >= '0' && szDate[ 2 ] <= '9' && szDate[ 3 ] >= '0' && szDate[ 3 ] <= '9' && szDate[ 4 ] >= '0' && szDate[ 4 ] <= '9' && szDate[ 5 ] >= '0' && szDate[ 5 ] <= '9' && szDate[ 6 ] >= '0' && szDate[ 6 ] <= '9' && szDate[ 7 ] >= '0' && szDate[ 7 ] <= '9' ) #endif { /* Date string has correct length, so attempt to convert */ *piYear = ( ( ( int ) ( szDate[ 0 ] - '0' ) * 10 + ( int ) ( szDate[ 1 ] - '0' ) ) * 10 + ( int ) ( szDate[ 2 ] - '0' ) ) * 10 + ( int ) ( szDate[ 3 ] - '0' ); *piMonth = ( szDate[ 4 ] - '0' ) * 10 + ( szDate[ 5 ] - '0' ); *piDay = ( szDate[ 6 ] - '0' ) * 10 + ( szDate[ 7 ] - '0' ); } else { /* Date string missing or bad length, so force an empty date */ *piYear = *piMonth = *piDay = 0; } } /* This function always closes the date with a zero byte, so it needs a 9 character long buffer. */ char * hb_dateDecStr( char * szDate, long lJulian ) { int iYear, iMonth, iDay; HB_TRACE(HB_TR_DEBUG, ("hb_dateDecStr(%p, %ld)", szDate, lJulian)); if( lJulian <= 0 ) { memset( szDate, ' ', 8 ); } else { hb_dateDecode( lJulian, &iYear, &iMonth, &iDay ); hb_dateStrPut( szDate, iYear, iMonth, iDay ); } szDate[ 8 ] = '\0'; return szDate; } long hb_dateEncStr( const char * szDate ) { int iYear, iMonth, iDay; HB_TRACE(HB_TR_DEBUG, ("hb_dateEncStr(%s)", szDate)); hb_dateStrGet( szDate, &iYear, &iMonth, &iDay ); return hb_dateEncode( iYear, iMonth, iDay ); } int hb_dateJulianDOW( long lJulian ) { HB_TRACE(HB_TR_DEBUG, ("hb_dateJulianDOW(%ld)", lJulian)); if( lJulian >= HB_STR_DATE_BASE ) return ( int ) ( ( lJulian + 1 ) % 7 ) + 1; else return 0; } int hb_dateDOW( int iYear, int iMonth, int iDay ) { HB_TRACE(HB_TR_DEBUG, ("hb_dateDOW(%d, %d, %d)", iYear, iMonth, iDay)); if( iMonth < 3 ) { iMonth += 13; iYear--; } else iMonth++; return ( iDay + 26 * iMonth / 10 + iYear + iYear / 4 - iYear / 100 + iYear / 400 + 6 ) % 7 + 1; } void hb_dateToday( int * piYear, int * piMonth, int * piDay ) { int iHour, iMinute, iSeconds, iMillisec; HB_TRACE(HB_TR_DEBUG, ("hb_dateToday(%p,%p,%p)", piYear, piMonth, piDay)); hb_timeStampGetLocal( piYear, piMonth, piDay, &iHour, &iMinute, &iSeconds, &iMillisec ); } /* NOTE: The passed buffer must be at least 9 chars long */ void hb_dateTimeStr( char * pszTime ) { int iYear, iMonth, iDay, iHour, iMinute, iSeconds, iMillisec; HB_TRACE(HB_TR_DEBUG, ("hb_dateTimeStr(%p)", pszTime)); hb_timeStampGetLocal( &iYear, &iMonth, &iDay, &iHour, &iMinute, &iSeconds, &iMillisec ); hb_snprintf( pszTime, 9, "%02d:%02d:%02d", iHour, iMinute, iSeconds ); } /* functions to operate on time and timestamp values */ long hb_timeEncode( int iHour, int iMinutes, int iSeconds, int iMSec ) { long lMilliSec; HB_TRACE(HB_TR_DEBUG, ("hb_timeEncode(%d, %d, %d, %d)", iHour, iMinutes, iSeconds, iMSec)); if( iHour >= 0 && iHour < 24 && iMinutes >= 0 && iMinutes < 60 && iSeconds >= 0 && iSeconds < 60 && iMSec >= 0 && iMSec < 1000 ) /* <= intentionally for rounded milliseconds values */ { lMilliSec = ( ( long ) ( iHour * 60 + iMinutes ) * 60 + iSeconds ) * 1000 + iMSec; } else lMilliSec = 0; return lMilliSec; } void hb_timeDecode( long lMilliSec, int * piHour, int * piMinutes, int * piSeconds, int * piMSec ) { HB_TRACE(HB_TR_DEBUG, ("hb_timeDecode(%ld, %p, %p, %p, %p)", lMilliSec, piHour, piMinutes, piSeconds, piMSec)); if( lMilliSec <= 0 ) { *piHour = *piMinutes = *piSeconds = *piMSec = 0; } else { *piMSec = lMilliSec % 1000; lMilliSec /= 1000; *piSeconds = lMilliSec % 60; lMilliSec /= 60; *piMinutes = lMilliSec % 60; lMilliSec /= 60; if( lMilliSec >= 24 ) *piHour = *piMinutes = *piSeconds = *piMSec = 0; else *piHour = ( int ) lMilliSec; } } /* This function always closes the time with a zero byte, so it needs a * 13 character long buffer to store time in format "hh:mm:ss.fff" */ char * hb_timeStr( char * szTime, long lMilliSec ) { int iHour, iMinutes, iSeconds, iMSec; HB_TRACE(HB_TR_DEBUG, ("hb_timeStr(%p, %ld)", szTime, lMilliSec)); hb_timeDecode( lMilliSec, &iHour, &iMinutes, &iSeconds, &iMSec ); hb_snprintf( szTime, 13, "%02d:%02d:%02d.%03d", iHour, iMinutes, iSeconds, iMSec ); return szTime; } BOOL hb_timeStrGet( const char * szTime, int * piHour, int * piMinutes, int * piSeconds, int * piMSec ) { int iHour, iMinutes, iSeconds, iMSec, iBlocks; BOOL fValid; HB_TRACE(HB_TR_DEBUG, ("hb_timeStrGet(%s, %p, %p, %p, %p)", szTime, piHour, piMinutes, piSeconds, piMSec)); iHour = iMinutes = iSeconds = iMSec = iBlocks = 0; fValid = FALSE; if( szTime ) { while( HB_ISSPACE( *szTime ) ) ++szTime; if( HB_ISDIGIT( *szTime ) ) { iHour = ( *szTime++ - '0' ); if( HB_ISDIGIT( *szTime ) ) iHour = iHour * 10 + ( *szTime++ - '0' ); if( *szTime == ':' && HB_ISDIGIT( szTime[ 1 ] ) ) { ++iBlocks; ++szTime; iMinutes = ( *szTime++ - '0' ); if( HB_ISDIGIT( *szTime ) ) iMinutes = iMinutes * 10 + ( *szTime++ - '0' ); if( *szTime == ':' && HB_ISDIGIT( szTime[ 1 ] ) ) { ++iBlocks; ++szTime; iSeconds = ( *szTime++ - '0' ); if( HB_ISDIGIT( *szTime ) ) iSeconds = iSeconds * 10 + ( *szTime++ - '0' ); if( *szTime == '.' && HB_ISDIGIT( szTime[ 1 ] ) ) { ++iBlocks; ++szTime; iMSec = ( *szTime++ - '0' ) * 100; if( HB_ISDIGIT( *szTime ) ) { iMSec += ( *szTime++ - '0' ) * 10; if( HB_ISDIGIT( *szTime ) ) iMSec += ( *szTime++ - '0' ); } if( HB_ISDIGIT( *szTime ) ) ++szTime; } } } while( HB_ISSPACE( *szTime ) ) ++szTime; if( ( szTime[ 0 ] == 'p' || szTime[ 0 ] == 'P' ) && ( szTime[ 1 ] == 'm' || szTime[ 1 ] == 'M' ) ) { ++iBlocks; szTime += 2; if( iHour == 0 ) iHour = 24; /* wrong time */ else if( iHour != 12 ) iHour += 12; } else if( ( szTime[ 0 ] == 'a' || szTime[ 0 ] == 'A' ) && ( szTime[ 1 ] == 'm' || szTime[ 1 ] == 'M' ) ) { ++iBlocks; szTime += 2; if( iHour == 0 ) iHour = 24; /* wrong time */ else if( iHour == 12 ) iHour = 0; } while( HB_ISSPACE( *szTime ) ) ++szTime; if( *szTime == 0 && iBlocks > 0 && iHour < 24 && iMinutes < 60 && iSeconds < 60 ) fValid = TRUE; else iHour = iMinutes = iSeconds = iMSec = 0; } } if( piHour ) *piHour = iHour; if( piMinutes ) *piMinutes = iMinutes; if( piSeconds ) *piSeconds = iSeconds; if( piMSec ) *piMSec = iMSec; return fValid; } void hb_timeStrRawGet( const char * szTime, int * piHour, int * piMinutes, int * piSeconds, int * piMSec ) { HB_TRACE(HB_TR_DEBUG, ("hb_timeStrRawGet(%s, %p, %p, %p, %p)", szTime, piHour, piMinutes, piSeconds, piMSec)); *piHour = *piMinutes = *piSeconds = *piMSec = 0; if( szTime ) { int iLen = 0; while( iLen < 10 && HB_ISDIGIT( szTime[ iLen ] ) ) ++iLen; if( iLen >= 2 && ( ( iLen & 1 ) == 0 || iLen == 7 || iLen == 9 ) ) { *piHour = ( szTime[ 0 ] - '0' ) * 10 + ( szTime[ 1 ] - '0' ); szTime += 2; iLen -= 2; if( iLen >= 2 ) { *piMinutes = ( szTime[ 0 ] - '0' ) * 10 + ( szTime[ 1 ] - '0' ); szTime += 2; iLen -= 2; if( iLen >= 2 ) { *piSeconds = ( szTime[ 0 ] - '0' ) * 10 + ( szTime[ 1 ] - '0' ); szTime += 2; iLen -= 2; switch( iLen ) { case 4: case 3: *piMSec = ( ( int ) ( szTime[ 0 ] - '0' ) * 10 + ( int ) ( szTime[ 1 ] - '0' ) ) * 10 + ( int ) ( szTime[ 2 ] - '0' ); break; case 2: *piMSec = ( ( int ) ( szTime[ 0 ] - '0' ) * 10 + ( int ) ( szTime[ 1 ] - '0' ) ) * 10; break; case 1: *piMSec = ( int ) ( szTime[ 0 ] - '0' ) * 100; break; } } } } } } /* This function always closes the time with a zero byte, so it needs a * 18 character long buffer to store time in format "YYYYMMDDhhmmssfff" * with trailing 0 byte. */ char * hb_timeStampStrRawPut( char * szDateTime, long lJulian, long lMilliSec ) { int iYear, iMonth, iDay, iHour, iMinutes, iSeconds, iMSec; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampStrRawPut(%p, %ld, %ld)", szDateTime, lJulian, lMilliSec)); hb_dateDecode( lJulian, &iYear, &iMonth, &iDay ); hb_dateStrPut( szDateTime, iYear, iMonth, iDay ); hb_timeDecode( lMilliSec, &iHour, &iMinutes, &iSeconds, &iMSec ); hb_snprintf( szDateTime + 8, 10, "%02d%02d%02d%03d", iHour, iMinutes, iSeconds, iMSec ); return szDateTime; } void hb_timeStampStrRawGet( const char * szDateTime, long * plJulian, long * plMilliSec ) { int iYear, iMonth, iDay, iHour, iMinutes, iSeconds, iMSec, iLen; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampStrRawGet(%s, %p, %p)", szDateTime, plJulian, plMilliSec)); *plJulian = *plMilliSec = 0; iLen = 0; while( iLen < 10 && HB_ISDIGIT( szDateTime[ iLen ] ) ) ++iLen; if( iLen == 8 || iLen >= 10 ) { hb_dateStrGet( szDateTime, &iYear, &iMonth, &iDay ); *plJulian = hb_dateEncode( iYear, iMonth, iDay ); szDateTime += 8; iLen -= 8; } if( iLen >= 2 ) { hb_timeStrRawGet( szDateTime, &iHour, &iMinutes, &iSeconds, &iMSec ); *plMilliSec = hb_timeEncode( iHour, iMinutes, iSeconds, iMSec ); } } /* This function always closes the time with a zero byte. * It needs a 24 character long buffer for full datetime representation * "YYYY-MM-DD hh:mm:ss.fff" */ char * hb_timeStampStr( char * szDateTime, long lJulian, long lMilliSec ) { int iYear, iMonth, iDay, iHour, iMinutes, iSeconds, iMSec; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampStr(%p, %ld, %ld)", szDateTime, lJulian, lMilliSec)); hb_dateDecode( lJulian, &iYear, &iMonth, &iDay ); hb_timeDecode( lMilliSec, &iHour, &iMinutes, &iSeconds, &iMSec ); hb_snprintf( szDateTime, 24, "%04d-%02d-%02d %02d:%02d:%02d.%03d", iYear, iMonth, iDay, iHour, iMinutes, iSeconds, iMSec ); szDateTime[ 23 ] = '\0'; return szDateTime; } BOOL hb_timeStampStrGet( const char * szDateTime, int * piYear, int * piMonth, int * piDay, int * piHour, int * piMinutes, int * piSeconds, int * piMSec ) { int iYear, iMonth, iDay; BOOL fValid; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampStrGet(%s, %p, %p, %p, %p, %p, %p, %p)", szDateTime, piYear, piMonth, piDay, piHour, piMinutes, piSeconds, piMSec)); iYear = iMonth = iDay = 0; fValid = FALSE; if( szDateTime ) { while( HB_ISSPACE( *szDateTime ) ) ++szDateTime; if( HB_ISDIGIT( szDateTime[ 0 ] ) && HB_ISDIGIT( szDateTime[ 1 ] ) && HB_ISDIGIT( szDateTime[ 2 ] ) && HB_ISDIGIT( szDateTime[ 3 ] ) && ( szDateTime[ 4 ] == '-' || szDateTime[ 4 ] == '/' || szDateTime[ 4 ] == '.' ) && HB_ISDIGIT( szDateTime[ 5 ] ) && HB_ISDIGIT( szDateTime[ 6 ] ) && szDateTime[ 7 ] == szDateTime[ 4 ] && HB_ISDIGIT( szDateTime[ 9 ] ) && HB_ISDIGIT( szDateTime[ 9 ] ) && !HB_ISDIGIT( szDateTime[ 10 ] ) ) { iYear = ( ( ( int ) ( szDateTime[ 0 ] - '0' ) * 10 + ( int ) ( szDateTime[ 1 ] - '0' ) ) * 10 + ( int ) ( szDateTime[ 2 ] - '0' ) ) * 10 + ( int ) ( szDateTime[ 3 ] - '0' ); iMonth = ( szDateTime[ 5 ] - '0' ) * 10 + ( szDateTime[ 6 ] - '0' ); iDay = ( szDateTime[ 8 ] - '0' ) * 10 + ( szDateTime[ 9 ] - '0' ); if( hb_dateEncode( iYear, iMonth, iDay ) != 0 || ( iYear == 0 && iMonth == 0 && iDay == 0 ) ) { szDateTime += 10; if( *szDateTime == 'T' || *szDateTime == 't' ) { if( HB_ISDIGIT( szDateTime[ 1 ] ) ) ++szDateTime; } else { if( *szDateTime == ',' ) ++szDateTime; while( HB_ISSPACE( *szDateTime ) ) ++szDateTime; if( *szDateTime == '\0' ) szDateTime = NULL; fValid = TRUE; } } else { iYear = iMonth = iDay = 0; szDateTime = NULL; } } } if( piHour || piMinutes || piSeconds || piMSec ) { if( !hb_timeStrGet( szDateTime, piHour, piMinutes, piSeconds, piMSec ) ) { if( szDateTime ) fValid = FALSE; } else fValid = TRUE; } else if( szDateTime ) fValid = FALSE; if( piYear ) *piYear = iYear; if( piMonth ) *piMonth = iMonth; if( piDay ) *piDay = iDay; return fValid; } BOOL hb_timeStampStrGetDT( const char * szDateTime, long * plJulian, long * plMilliSec ) { int iYear, iMonth, iDay, iHour, iMinutes, iSeconds, iMSec; BOOL fValid; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampStrGetDT(%s, %p, %p)", szDateTime, plJulian, plMilliSec)); fValid = hb_timeStampStrGet( szDateTime, &iYear, &iMonth, &iDay, &iHour, &iMinutes, &iSeconds, &iMSec ); if( plJulian ) *plJulian = hb_dateEncode( iYear, iMonth, iDay ); if( plMilliSec ) *plMilliSec = hb_timeEncode( iHour, iMinutes, iSeconds, iMSec ); return fValid; } double hb_timeStampPackDT( long lJulian, long lMilliSec ) { HB_TRACE(HB_TR_DEBUG, ("hb_timeStampPackDT(%ld, %ld)", lJulian, lMilliSec)); return ( double ) lJulian + ( double ) lMilliSec / HB_MILLISECS_PER_DAY; } void hb_timeStampUnpackDT( double dTimeStamp, long * plJulian, long * plMilliSec ) { HB_TRACE(HB_TR_DEBUG, ("hb_timeStampUnpackDT(%f, %p, %p)", dTimeStamp, plJulian, plMilliSec)); { #if defined( HB_LONG_LONG_OFF ) double dJulian, dTime; dTime = modf( dTimeStamp + 0.5 / HB_MILLISECS_PER_DAY, &dJulian ); if( plJulian ) *plJulian = ( long ) dJulian; if( plMilliSec ) *plMilliSec = ( long ) ( dTime * HB_MILLISECS_PER_DAY ); #else LONGLONG llMilliSec = ( LONGLONG ) ( dTimeStamp * HB_MILLISECS_PER_DAY + 0.5 ); if( plJulian ) *plJulian = ( long ) ( llMilliSec / HB_MILLISECS_PER_DAY ); if( plMilliSec ) *plMilliSec = ( long ) ( llMilliSec % HB_MILLISECS_PER_DAY ); #endif } } double hb_timeStampPack( int iYear, int iMonth, int iDay, int iHour, int iMinutes, int iSeconds, int iMSec ) { double dTimeStamp = 0; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampPack(%d, %d, %d, %d, %d, %d, %d)", iYear, iMonth, iDay, iHour, iMinutes, iSeconds, iMSec)); if( iHour >= 0 && iHour < 24 && iMinutes >= 0 && iMinutes < 60 && iSeconds >= 0 && iSeconds < 60 && iMSec >= 0 && iMSec < 1000 ) { long lJulian = hb_dateEncode( iYear, iMonth, iDay ); if( lJulian != 0 || ( iYear == 0 && iMonth == 0 && iDay == 0 ) ) { dTimeStamp = ( double ) lJulian + ( double ) ( ( ( long ) ( iHour * 60 + iMinutes ) * 60 + iSeconds ) * 1000 + iMSec ) / HB_SECONDS_PER_DAY; } } return dTimeStamp; } void hb_timeStampUnpack( double dTimeStamp, int * piYear, int * piMonth, int * piDay, int * piHour, int * piMinutes, int * piSeconds, int * piMSec ) { long lJulian, lMilliSec; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampUnpack(%f, %p, %p, %p, %p, %p, %p, %p)", dTimeStamp, piYear, piMonth, piDay, piHour, piMinutes, piSeconds, piMSec)); hb_timeStampUnpackDT( dTimeStamp, &lJulian, &lMilliSec ); hb_dateDecode( lJulian, piYear, piMonth, piDay ); hb_timeDecode( lMilliSec, piHour, piMinutes, piSeconds, piMSec ); } double hb_timeStampPackD( int iYear, int iMonth, int iDay, int iHour, int iMinutes, double dSeconds ) { double dTimeStamp = 0; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampPackD(%d, %d, %d, %d, %d, %f)", iYear, iMonth, iDay, iHour, iMinutes, dSeconds)); if( iHour >= 0 && iHour < 24 && iMinutes >= 0 && iMinutes < 60 && dSeconds >= 0 && dSeconds < 60 ) { long lJulian = hb_dateEncode( iYear, iMonth, iDay ); if( lJulian != 0 || ( iYear == 0 && iMonth == 0 && iDay == 0 ) ) { dTimeStamp = ( double ) lJulian + ( double ) ( ( ( iHour * 60 + iMinutes ) * 60 ) + dSeconds ) / HB_SECONDS_PER_DAY; } } return dTimeStamp; } void hb_timeStampUnpackD( double dTimeStamp, int * piYear, int * piMonth, int * piDay, int * piHour, int * piMinutes, double * pdSeconds ) { long lJulian, lMilliSec; int iSeconds, iMSec; HB_TRACE(HB_TR_DEBUG, ("hb_timeStampUnpackD(%f, %p, %p, %p, %p, %p, %p)", dTimeStamp, piYear, piMonth, piDay, piHour, piMinutes, pdSeconds)); hb_timeStampUnpackDT( dTimeStamp, &lJulian, &lMilliSec ); hb_dateDecode( lJulian, piYear, piMonth, piDay ); hb_timeDecode( lMilliSec, piHour, piMinutes, &iSeconds, &iMSec ); if( pdSeconds ) *pdSeconds = ( double ) iSeconds + ( double ) iMSec / 1000; }