/*------------------------------------------------------------------------- * * datetime.c-- * implements DATE and TIME data types specified in SQL-92 standard * * Copyright (c) 1994-5, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/utils/adt/datetime.c,v 1.7 1997/05/30 15:02:48 thomas Exp $ * *------------------------------------------------------------------------- */ #include /* for sprintf() */ #include #include #include "postgres.h" #ifdef HAVE_FLOAT_H #include #endif #include "miscadmin.h" #include "utils/builtins.h" #include "utils/nabstime.h" #include "utils/datetime.h" #include "access/xact.h" static int day_tab[2][12] = { {31,28,31,30,31,30,31,31,30,31,30,31}, {31,29,31,30,31,30,31,31,30,31,30,31} }; #define isleap(y) (((y % 4) == 0 && (y % 100) != 0) || (y % 400) == 0) #define UTIME_MINYEAR (1901) #define UTIME_MINMONTH (12) #define UTIME_MINDAY (14) #define UTIME_MAXYEAR (2038) #define UTIME_MAXMONTH (01) #define UTIME_MAXDAY (18) #define IS_VALID_UTIME(y,m,d) (((y > UTIME_MINYEAR) \ || ((y == UTIME_MINYEAR) && ((m > UTIME_MINMONTH) \ || ((m == UTIME_MINMONTH) && (d >= UTIME_MINDAY))))) \ && ((y < UTIME_MAXYEAR) \ || ((y == UTIME_MAXYEAR) && ((m < UTIME_MAXMONTH) \ || ((m == UTIME_MAXMONTH) && (d <= UTIME_MAXDAY)))))) /***************************************************************************** * Date ADT *****************************************************************************/ /* date_in() * Given date text string, convert to internal date format. */ #if USE_NEW_DATE DateADT date_in(char *str) { DateADT date; #else int4 date_in(char *str) { int4 result; DateADT *date = (DateADT *)&result; #endif double fsec; struct tm tt, *tm = &tt; int tzp; int dtype; int nf; char *field[MAXDATEFIELDS]; int ftype[MAXDATEFIELDS]; char lowstr[MAXDATELEN+1]; if (!PointerIsValid(str)) elog(WARN,"Bad (null) date external representation",NULL); #ifdef DATEDEBUG printf( "date_in- input string is %s\n", str); #endif if ((ParseDateTime( str, lowstr, field, ftype, MAXDATEFIELDS, &nf) != 0) || (DecodeDateTime( field, ftype, nf, &dtype, tm, &fsec, &tzp) != 0)) elog(WARN,"Bad date external representation %s",str); switch (dtype) { case DTK_DATE: break; case DTK_CURRENT: GetCurrentTime(tm); break; case DTK_EPOCH: tm->tm_year = 1970; tm->tm_mon = 1; tm->tm_mday = 1; break; default: elog(WARN,"Unrecognized date external representation %s",str); }; if (tm->tm_year < 0 || tm->tm_year > 32767) elog(WARN, "date_in: year must be limited to values 0 through 32767 in '%s'", str); if (tm->tm_mon < 1 || tm->tm_mon > 12) elog(WARN, "date_in: month must be limited to values 1 through 12 in '%s'", str); if (tm->tm_mday < 1 || tm->tm_mday > day_tab[isleap(tm->tm_year)][tm->tm_mon-1]) elog(WARN, "date_in: day must be limited to values 1 through %d in '%s'", day_tab[isleap(tm->tm_year)][tm->tm_mon-1], str); #if USE_NEW_DATE date = (date2j( tm->tm_year, tm->tm_mon, tm->tm_mday) - date2j(2000,1,1)); return(date); #else date->day = tm->tm_mday; date->month = tm->tm_mon; date->year = tm->tm_year; return(result); #endif } /* date_in() */ /* date_out() * Given internal format date, convert to text string. */ #if USE_NEW_DATE char * date_out(DateADT date) { #else char * date_out(int4 dateVal) { DateADT *date = (DateADT *)&dateVal; #endif char *result; char buf[MAXDATELEN+1]; int year, month, day; #if USE_NEW_DATE j2date( (date + date2j(2000,1,1)), &year, &month, &day); #else day = date->day; month = date->month; year = date->year; #endif if (EuroDates == 1) /* Output European-format dates */ sprintf(buf, "%02d-%02d-%04d", day, month, year); else sprintf(buf, "%02d-%02d-%04d", month, day, year); result = PALLOC(strlen(buf)+1); strcpy( result, buf); return(result); } /* date_out() */ #if USE_NEW_DATE int date2tm(DateADT dateVal, int *tzp, struct tm *tm, double *fsec, char **tzn); bool date_eq(DateADT dateVal1, DateADT dateVal2) { return(dateVal1 == dateVal2); } bool date_ne(DateADT dateVal1, DateADT dateVal2) { return(dateVal1 != dateVal2); } bool date_lt(DateADT dateVal1, DateADT dateVal2) { return(dateVal1 < dateVal2); } /* date_lt() */ bool date_le(DateADT dateVal1, DateADT dateVal2) { return(dateVal1 <= dateVal2); } /* date_le() */ bool date_gt(DateADT dateVal1, DateADT dateVal2) { return(dateVal1 > dateVal2); } /* date_gt() */ bool date_ge(DateADT dateVal1, DateADT dateVal2) { return(dateVal1 >= dateVal2); } /* date_ge() */ int date_cmp(DateADT dateVal1, DateADT dateVal2) { if (dateVal1 < dateVal2) { return -1; } else if (dateVal1 > dateVal2) { return 1; }; return 0; } /* date_cmp() */ DateADT date_larger(DateADT dateVal1, DateADT dateVal2) { return(date_gt(dateVal1, dateVal2) ? dateVal1 : dateVal2); } /* date_larger() */ DateADT date_smaller(DateADT dateVal1, DateADT dateVal2) { return(date_lt(dateVal1, dateVal2) ? dateVal1 : dateVal2); } /* date_smaller() */ /* Compute difference between two dates in days. */ int4 date_mi(DateADT dateVal1, DateADT dateVal2) { return(dateVal1-dateVal2); } /* date_mi() */ /* Add a number of days to a date, giving a new date. Must handle both positive and negative numbers of days. */ DateADT date_pli(DateADT dateVal, int4 days) { return(dateVal+days); } /* date_pli() */ /* Subtract a number of days from a date, giving a new date. */ DateADT date_mii(DateADT dateVal, int4 days) { return(date_pli(dateVal, -days)); } /* date_mii() */ /* date_datetime() * Convert date to datetime data type. */ DateTime * date_datetime(DateADT dateVal) { DateTime *result; struct tm tt, *tm = &tt; int tz; double fsec = 0; char *tzn; result = PALLOCTYPE(DateTime); if (date2tm( dateVal, &tz, tm, &fsec, &tzn) != 0) elog(WARN,"Unable to convert date to datetime",NULL); #ifdef DATEDEBUG printf( "date_datetime- date is %d.%02d.%02d\n", tm->tm_year, tm->tm_mon, tm->tm_mday); printf( "date_datetime- time is %02d:%02d:%02d %.7f\n", tm->tm_hour, tm->tm_min, tm->tm_sec, *fsec); #endif if (tm2datetime( tm, fsec, &tz, result) != 0) elog(WARN,"Datetime out of range",NULL); return(result); } /* date_datetime() */ /* datetime_date() * Convert datetime to date data type. */ DateADT datetime_date(DateTime *datetime) { DateADT result; struct tm tt, *tm = &tt; int tz; double fsec; char *tzn; if (!PointerIsValid(datetime)) elog(WARN,"Unable to convert null datetime to date",NULL); if (DATETIME_NOT_FINITE(*datetime)) elog(WARN,"Unable to convert datetime to date",NULL); if (DATETIME_IS_EPOCH(*datetime)) { datetime2tm( SetDateTime(*datetime), NULL, tm, &fsec, NULL); } else if (DATETIME_IS_CURRENT(*datetime)) { datetime2tm( SetDateTime(*datetime), &tz, tm, &fsec, &tzn); } else { if (datetime2tm( *datetime, &tz, tm, &fsec, &tzn) != 0) elog(WARN,"Unable to convert datetime to date",NULL); }; result = (date2j( tm->tm_year, tm->tm_mon, tm->tm_mday) - date2j( 2000, 1, 1)); return(result); } /* datetime_date() */ /* abstime_date() * Convert abstime to date data type. */ DateADT abstime_date(AbsoluteTime abstime) { DateADT result; struct tm tt, *tm = &tt; int tz; switch (abstime) { case INVALID_ABSTIME: case NOSTART_ABSTIME: case NOEND_ABSTIME: elog(WARN,"Unable to convert reserved abstime value to date",NULL); /* pretend to drop through to make compiler think that result will be set */ case EPOCH_ABSTIME: result = date2j(1970,1,1) - date2j(2000,1,1); break; case CURRENT_ABSTIME: GetCurrentTime(tm); result = date2j( tm->tm_year, tm->tm_mon, tm->tm_mday) - date2j(2000,1,1); break; default: abstime2tm(abstime, &tz, tm); result = date2j(tm->tm_year,tm->tm_mon,tm->tm_mday) - date2j(2000,1,1); break; }; return(result); } /* abstime_date() */ /* date2tm() * Convert date to time structure. * Note that date is an implicit local time, but the system calls assume * that everything is GMT. So, convert to GMT, rotate to local time, * and then convert again to try to get the time zones correct. */ int date2tm(DateADT dateVal, int *tzp, struct tm *tm, double *fsec, char **tzn) { struct tm *tx; time_t utime; *fsec = 0; j2date( (dateVal + date2j( 2000, 1, 1)), &(tm->tm_year), &(tm->tm_mon), &(tm->tm_mday)); tm->tm_hour = 0; tm->tm_min = 0; tm->tm_sec = 0; tm->tm_isdst = -1; if (IS_VALID_UTIME( tm->tm_year, tm->tm_mon, tm->tm_mday)) { /* convert to system time */ utime = ((dateVal + (date2j(2000,1,1)-date2j(1970,1,1)))*86400); utime += (12*60*60); /* rotate to noon to get the right day in time zone */ #ifdef USE_POSIX_TIME tx = localtime(&utime); #ifdef DATEDEBUG #ifdef HAVE_INT_TIMEZONE printf( "date2tm- (localtime) %d.%02d.%02d %02d:%02d:%02.0f %s %s dst=%d\n", tx->tm_year, tx->tm_mon, tx->tm_mday, tx->tm_hour, tx->tm_min, sec, tzname[0], tzname[1], tx->tm_isdst); #endif #endif tm->tm_year = tx->tm_year + 1900; tm->tm_mon = tx->tm_mon + 1; tm->tm_mday = tx->tm_mday; #if FALSE tm->tm_hour = tx->tm_hour; tm->tm_min = tx->tm_min; tm->tm_sec = tx->tm_sec; #endif tm->tm_isdst = tx->tm_isdst; #ifdef HAVE_INT_TIMEZONE *tzp = (tm->tm_isdst? (timezone - 3600): timezone); if (tzn != NULL) *tzn = tzname[(tm->tm_isdst > 0)]; #else /* !HAVE_INT_TIMEZONE */ tm->tm_gmtoff = tx->tm_gmtoff; tm->tm_zone = tx->tm_zone; *tzp = (tm->tm_isdst? (tm->tm_gmtoff - 3600): tm->tm_gmtoff); /* tm_gmtoff is Sun/DEC-ism */ if (tzn != NULL) *tzn = tm->tm_zone; #endif #else /* !USE_POSIX_TIME */ *tzp = CTimeZone; /* V7 conventions; don't know timezone? */ if (tzn != NULL) *tzn = CTZName; #endif /* otherwise, outside of timezone range so convert to GMT... */ } else { #if FALSE j2date( (dateVal + date2j( 2000, 1, 1)), &(tm->tm_year), &(tm->tm_mon), &(tm->tm_mday)); tm->tm_hour = 0; tm->tm_min = 0; tm->tm_sec = 0; #endif #ifdef DATEDEBUG printf( "date2tm- convert %d-%d-%d %d:%d%d to datetime\n", tm->tm_year, tm->tm_mon, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec); #endif *tzp = 0; tm->tm_isdst = 0; if (tzn != NULL) *tzn = NULL; }; return 0; } /* date2tm() */ #else bool date_eq(int4 dateVal1, int4 dateVal2) { int4 dateStore1 = dateVal1; int4 dateStore2 = dateVal2; DateADT *date1, *date2; date1 = (DateADT*)&dateStore1; date2 = (DateADT*)&dateStore2; return (date1->day==date2->day && date1->month==date2->month && date1->year==date2->year); } bool date_ne(int4 dateVal1, int4 dateVal2) { int4 dateStore1 = dateVal1; int4 dateStore2 = dateVal2; DateADT *date1, *date2; date1 = (DateADT*)&dateStore1; date2 = (DateADT*)&dateStore2; return (date1->day!=date2->day || date1->month!=date2->month || date1->year!=date2->year); } bool date_lt(int4 dateVal1, int4 dateVal2) { int4 dateStore1 = dateVal1; int4 dateStore2 = dateVal2; DateADT *date1, *date2; date1 = (DateADT*)&dateStore1; date2 = (DateADT*)&dateStore2; if (date1->year!=date2->year) return (date1->yearyear); if (date1->month!=date2->month) return (date1->monthmonth); return (date1->dayday); } bool date_le(int4 dateVal1, int4 dateVal2) { int4 dateStore1 = dateVal1; int4 dateStore2 = dateVal2; DateADT *date1, *date2; date1 = (DateADT*)&dateStore1; date2 = (DateADT*)&dateStore2; if (date1->year!=date2->year) return (date1->year<=date2->year); if (date1->month!=date2->month) return (date1->month<=date2->month); return (date1->day<=date2->day); } bool date_gt(int4 dateVal1, int4 dateVal2) { int4 dateStore1 = dateVal1; int4 dateStore2 = dateVal2; DateADT *date1, *date2; date1 = (DateADT*)&dateStore1; date2 = (DateADT*)&dateStore2; if (date1->year!=date2->year) return (date1->year>date2->year); if (date1->month!=date2->month) return (date1->month>date2->month); return (date1->day>date2->day); } bool date_ge(int4 dateVal1, int4 dateVal2) { int4 dateStore1 = dateVal1; int4 dateStore2 = dateVal2; DateADT *date1, *date2; date1 = (DateADT*)&dateStore1; date2 = (DateADT*)&dateStore2; if (date1->year!=date2->year) return (date1->year>=date2->year); if (date1->month!=date2->month) return (date1->month>=date2->month); return (date1->day>=date2->day); } int date_cmp(int4 dateVal1, int4 dateVal2) { int4 dateStore1 = dateVal1; int4 dateStore2 = dateVal2; DateADT *date1, *date2; date1 = (DateADT*)&dateStore1; date2 = (DateADT*)&dateStore2; if (date1->year!=date2->year) return ((date1->yearyear) ? -1 : 1); if (date1->month!=date2->month) return ((date1->monthmonth) ? -1 : 1); if (date1->day!=date2->day) return ((date1->dayday) ? -1 : 1); return 0; } int4 date_larger(int4 dateVal1, int4 dateVal2) { return (date_gt (dateVal1, dateVal2) ? dateVal1 : dateVal2); } int4 date_smaller(int4 dateVal1, int4 dateVal2) { return (date_lt (dateVal1, dateVal2) ? dateVal1 : dateVal2); } /* Compute difference between two dates in days. */ int32 date_mi(int4 dateVal1, int4 dateVal2) { DateADT *date1, *date2; int days; date1 = (DateADT *) &dateVal1; date2 = (DateADT *) &dateVal2; days = (date2j(date1->year, date1->month, date1->day) - date2j(date2->year, date2->month, date2->day)); return (days); } /* Add a number of days to a date, giving a new date. Must handle both positive and negative numbers of days. */ int4 date_pli(int4 dateVal, int32 days) { DateADT *date1 = (DateADT *) &dateVal; int date, year, month, day; date = (date2j(date1->year, date1->month, date1->day) + days); j2date( date, &year, &month, &day); date1->year = year; date1->month = month; date1->day = day; return (dateVal); } /* date_pli() */ /* Subtract a number of days from a date, giving a new date. */ int4 date_mii(int4 dateVal, int32 days) { return (date_pli(dateVal, -days)); } DateTime * date_datetime(int4 dateVal) { DateTime *result; DateADT *date = (DateADT *) &dateVal; int tz; double fsec; char *tzn; struct tm tt, *tm = &tt; result = PALLOCTYPE(DateTime); *result = (date2j(date->year, date->month, date->day) - date2j( 2000, 1, 1)); *result *= 86400; *result += (12*60*60); datetime2tm( *result, &tz, tm, &fsec, &tzn); tm->tm_hour = 0; tm->tm_min = 0; tm->tm_sec = 0; tm2datetime( tm, fsec, &tz, result); #ifdef DATEDEBUG printf( "date_datetime- convert %04d-%02d-%02d to %f\n", date->year, date->month, date->day, *result); #endif return(result); } /* date_datetime() */ int4 datetime_date(DateTime *datetime) { int4 result; int tz; double fsec; char *tzn; struct tm tt, *tm = &tt; DateADT *date = (DateADT *) &result; if (!PointerIsValid(datetime)) elog(WARN,"Unable to convert null datetime to date",NULL); if (DATETIME_NOT_FINITE(*datetime)) elog(WARN,"Unable to convert datetime to date",NULL); if (DATETIME_IS_EPOCH(*datetime)) { datetime2tm( SetDateTime(*datetime), NULL, tm, &fsec, NULL); } else if (DATETIME_IS_CURRENT(*datetime)) { datetime2tm( SetDateTime(*datetime), &tz, tm, &fsec, &tzn); } else { if (datetime2tm( *datetime, &tz, tm, &fsec, &tzn) != 0) elog(WARN,"Unable to convert datetime to date",NULL); }; date->year = tm->tm_year; date->month = tm->tm_mon; date->day = tm->tm_mday; return(result); } /* datetime_date() */ int4 abstime_date(AbsoluteTime abstime) { int4 result; DateADT *date = (DateADT *) &result; int tz; struct tm tt, *tm = &tt; switch (abstime) { case INVALID_ABSTIME: case NOSTART_ABSTIME: case NOEND_ABSTIME: elog(WARN,"Unable to convert reserved abstime value to date",NULL); break; case EPOCH_ABSTIME: date->year = 1970; date->month = 1; date->day = 1; break; case CURRENT_ABSTIME: abstime = GetCurrentTransactionStartTime(); abstime2tm(abstime, &tz, tm); date->year = tm->tm_year; date->month = tm->tm_mon; date->day = tm->tm_mday; break; default: #if FALSE tm = localtime((time_t *) &abstime); tm->tm_year += 1900; tm->tm_mon += 1; #endif abstime2tm(abstime, &tz, tm); date->year = tm->tm_year; date->month = tm->tm_mon; date->day = tm->tm_mday; break; }; return(result); } /* abstime_date() */ #endif /***************************************************************************** * Time ADT *****************************************************************************/ TimeADT * time_in(char *str) { TimeADT *time; double fsec; struct tm tt, *tm = &tt; int nf; char lowstr[MAXDATELEN+1]; char *field[MAXDATEFIELDS]; int dtype; int ftype[MAXDATEFIELDS]; if (!PointerIsValid(str)) elog(WARN,"Bad (null) time external representation",NULL); if ((ParseDateTime( str, lowstr, field, ftype, MAXDATEFIELDS, &nf) != 0) || (DecodeTimeOnly( field, ftype, nf, &dtype, tm, &fsec) != 0)) elog(WARN,"Bad time external representation '%s'",str); if ((tm->tm_hour < 0) || (tm->tm_hour > 23)) elog(WARN,"Hour must be limited to values 0 through 23 in '%s'",str); if ((tm->tm_min < 0) || (tm->tm_min > 59)) elog(WARN,"Minute must be limited to values 0 through 59 in '%s'",str); if ((tm->tm_sec < 0) || ((tm->tm_sec + fsec) >= 60)) elog(WARN,"Second must be limited to values 0 through < 60 in '%s'",str); time = PALLOCTYPE(TimeADT); #if USE_NEW_TIME *time = ((((tm->tm_hour*60)+tm->tm_min)*60)+tm->tm_sec+fsec); #else time->hr = tm->tm_hour; time->min = tm->tm_min; time->sec = (tm->tm_sec + fsec); #endif return(time); } /* time_in() */ char * time_out(TimeADT *time) { char *result; #if USE_NEW_TIME int hour, min, sec; double fsec; #endif char buf[32]; if (!PointerIsValid(time)) return NULL; #if USE_NEW_TIME hour = (*time / (60*60)); min = (((int) (*time / 60)) % 60); sec = (((int) *time) % 60); fsec = 0; if (sec == 0.0) { sprintf(buf, "%02d:%02d", hour, min); } else { if (fsec == 0) { sprintf(buf, "%02d:%02d:%02d", hour, min, sec); } else { sprintf(buf, "%02d:%02d:%05.2f", hour, min, (sec+fsec)); }; }; #else if (time->sec == 0.0) { sprintf(buf, "%02d:%02d", (int)time->hr, (int)time->min); } else { if (((int) time->sec) == time->sec) { sprintf(buf, "%02d:%02d:%02d", (int)time->hr, (int)time->min, (int)time->sec); } else { sprintf(buf, "%02d:%02d:%09.6f", (int)time->hr, (int)time->min, time->sec); }; }; #endif result = PALLOC(strlen(buf)+1); strcpy( result, buf); return(result); } /* time_out() */ #if USE_NEW_TIME bool time_eq(TimeADT *time1, TimeADT *time2) { if (!PointerIsValid(time1) || !PointerIsValid(time2)) return(FALSE); return(*time1 == *time2); } /* time_eq() */ bool time_ne(TimeADT *time1, TimeADT *time2) { if (!PointerIsValid(time1) || !PointerIsValid(time2)) return(FALSE); return(*time1 != *time2); } /* time_eq() */ bool time_lt(TimeADT *time1, TimeADT *time2) { if (!PointerIsValid(time1) || !PointerIsValid(time2)) return(FALSE); return(*time1 < *time2); } /* time_eq() */ bool time_le(TimeADT *time1, TimeADT *time2) { if (!PointerIsValid(time1) || !PointerIsValid(time2)) return(FALSE); return(*time1 <= *time2); } /* time_eq() */ bool time_gt(TimeADT *time1, TimeADT *time2) { if (!PointerIsValid(time1) || !PointerIsValid(time2)) return(FALSE); return(*time1 > *time2); } /* time_eq() */ bool time_ge(TimeADT *time1, TimeADT *time2) { if (!PointerIsValid(time1) || !PointerIsValid(time2)) return(FALSE); return(*time1 >= *time2); } /* time_eq() */ int time_cmp(TimeADT *time1, TimeADT *time2) { return((*time1 < *time2)? -1: (((*time1 < *time2)? 1: 0))); } /* time_cmp() */ /* datetime_datetime() * Convert date and time to datetime data type. */ DateTime * datetime_datetime(DateADT date, TimeADT *time) { DateTime *result; if (!PointerIsValid(time)) { result = PALLOCTYPE(DateTime); DATETIME_INVALID(*result); } else { result = date_datetime(date); *result += *time; }; return(result); } /* datetime_datetime() */ #else bool time_eq(TimeADT *time1, TimeADT *time2) { return (time1->sec==time2->sec && time1->min==time2->min && time1->hr==time2->hr); } bool time_ne(TimeADT *time1, TimeADT *time2) { return (time1->sec!=time2->sec || time1->min!=time2->min || time1->hr!=time2->hr); } bool time_lt(TimeADT *time1, TimeADT *time2) { if (time1->hr!=time2->hr) return (time1->hrhr); if (time1->min!=time2->min) return (time1->minmin); return (time1->secsec); } bool time_le(TimeADT *time1, TimeADT *time2) { if (time1->hr!=time2->hr) return (time1->hr<=time2->hr); if (time1->min!=time2->min) return (time1->min<=time2->min); return (time1->sec<=time2->sec); } bool time_gt(TimeADT *time1, TimeADT *time2) { if (time1->hr!=time2->hr) return (time1->hr>time2->hr); if (time1->min!=time2->min) return (time1->min>time2->min); return (time1->sec>time2->sec); } bool time_ge(TimeADT *time1, TimeADT *time2) { if (time1->hr!=time2->hr) return (time1->hr>=time2->hr); if (time1->min!=time2->min) return (time1->min>=time2->min); return (time1->sec>=time2->sec); } int time_cmp(TimeADT *time1, TimeADT *time2) { if (time1->hr!=time2->hr) return ((time1->hrhr) ? -1 : 1); if (time1->min!=time2->min) return ((time1->minmin) ? -1 : 1); if (time1->sec!=time2->sec) return ((time1->secsec) ? -1 : 1); return 0; } DateTime * datetime_datetime(int4 dateVal, TimeADT *time) { DateTime *result; #ifdef DATEDEBUG DateADT *date = (DateADT *) &dateVal; #endif if (!PointerIsValid(time)) { result = PALLOCTYPE(DateTime); DATETIME_INVALID(*result); } else { #ifdef DATEDEBUG printf( "datetime_datetime- convert %04d-%02d-%02d %02d:%02d:%05.2f\n", date->year, date->month, date->day, time->hr, time->min, time->sec); #endif result = date_datetime(dateVal); *result += (((time->hr*60)+time->min)*60+time->sec); }; return(result); } /* datetime_datetime() */ #endif int32 /* RelativeTime */ int42reltime(int32 timevalue) { return(timevalue); }