/*------------------------------------------------------------------------- * * nabstime.c * Utilities for the built-in type "AbsoluteTime". * Functions for the built-in type "RelativeTime". * Functions for the built-in type "TimeInterval". * * Portions Copyright (c) 1996-2002, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/utils/adt/nabstime.c,v 1.111 2003/07/28 00:09:16 tgl Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include #include #include #include #include "access/xact.h" #include "libpq/pqformat.h" #include "miscadmin.h" #include "utils/builtins.h" #define MIN_DAYNUM -24856 /* December 13, 1901 */ #define MAX_DAYNUM 24854 /* January 18, 2038 */ #define INVALID_RELTIME_STR "Undefined RelTime" #define INVALID_RELTIME_STR_LEN (sizeof(INVALID_RELTIME_STR)-1) #define RELTIME_LABEL '@' #define RELTIME_PAST "ago" #define DIRMAXLEN (sizeof(RELTIME_PAST)-1) /* * Unix epoch is Jan 1 00:00:00 1970. * Postgres knows about times sixty-eight years on either side of that * for these 4-byte types. * * "tinterval" is two 4-byte fields. * Definitions for parsing tinterval. */ #define IsSpace(C) ((C) == ' ') #define T_INTERVAL_INVAL 0 /* data represents no valid interval */ #define T_INTERVAL_VALID 1 /* data represents a valid interval */ /* * ['Mon May 10 23:59:12 1943 PST' 'Sun Jan 14 03:14:21 1973 PST'] * 0 1 2 3 4 5 6 * 1234567890123456789012345678901234567890123456789012345678901234 * * we allocate some extra -- timezones are usually 3 characters but * this is not in the POSIX standard... */ #define T_INTERVAL_LEN 80 #define INVALID_INTERVAL_STR "Undefined Range" #define INVALID_INTERVAL_STR_LEN (sizeof(INVALID_INTERVAL_STR)-1) #define ABSTIMEMIN(t1, t2) \ (DatumGetBool(DirectFunctionCall2(abstimele, \ AbsoluteTimeGetDatum(t1), \ AbsoluteTimeGetDatum(t2))) ? (t1) : (t2)) #define ABSTIMEMAX(t1, t2) \ (DatumGetBool(DirectFunctionCall2(abstimelt, \ AbsoluteTimeGetDatum(t1), \ AbsoluteTimeGetDatum(t2))) ? (t2) : (t1)) /* * Function prototypes -- internal to this file only */ static AbsoluteTime tm2abstime(struct tm * tm, int tz); static void reltime2tm(RelativeTime time, struct tm * tm); static int istinterval(char *i_string, AbsoluteTime *i_start, AbsoluteTime *i_end); /* * GetCurrentAbsoluteTime() * * Get the current system time (relative to Unix epoch). */ AbsoluteTime GetCurrentAbsoluteTime(void) { time_t now; now = time(NULL); return (AbsoluteTime) now; } /* * GetCurrentAbsoluteTimeUsec() * * Get the current system time (relative to Unix epoch), including fractional * seconds expressed as microseconds. */ AbsoluteTime GetCurrentAbsoluteTimeUsec(int *usec) { time_t now; struct timeval tp; gettimeofday(&tp, NULL); now = tp.tv_sec; *usec = tp.tv_usec; return (AbsoluteTime) now; } /* * AbsoluteTimeUsecToTimestampTz() * * Convert system time including microseconds to TimestampTz representation. */ TimestampTz AbsoluteTimeUsecToTimestampTz(AbsoluteTime sec, int usec) { TimestampTz result; #ifdef HAVE_INT64_TIMESTAMP result = ((sec - ((POSTGRES_EPOCH_JDATE - UNIX_EPOCH_JDATE) * 86400)) * INT64CONST(1000000)) + usec; #else result = sec - ((POSTGRES_EPOCH_JDATE - UNIX_EPOCH_JDATE) * 86400) + (usec / 1000000.0); #endif return result; } /* * GetCurrentDateTime() * * Get the transaction start time ("now()") broken down as a struct tm. */ void GetCurrentDateTime(struct tm * tm) { int tz; abstime2tm(GetCurrentTransactionStartTime(), &tz, tm, NULL); } /* * GetCurrentTimeUsec() * * Get the transaction start time ("now()") broken down as a struct tm, * including fractional seconds and timezone offset. */ void GetCurrentTimeUsec(struct tm * tm, fsec_t *fsec, int *tzp) { int tz; int usec; abstime2tm(GetCurrentTransactionStartTimeUsec(&usec), &tz, tm, NULL); /* Note: don't pass NULL tzp to abstime2tm; affects behavior */ if (tzp != NULL) *tzp = tz; #ifdef HAVE_INT64_TIMESTAMP *fsec = usec; #else *fsec = usec / 1000000.0; #endif } void abstime2tm(AbsoluteTime _time, int *tzp, struct tm * tm, char **tzn) { time_t time = (time_t) _time; struct tm *tx; /* * If HasCTZSet is true then we have a brute force time zone * specified. Go ahead and rotate to the local time zone since we will * later bypass any calls which adjust the tm fields. */ if (HasCTZSet && (tzp != NULL)) time -= CTimeZone; if ((!HasCTZSet) && (tzp != NULL)) tx = localtime((time_t *) &time); else tx = gmtime((time_t *) &time); tm->tm_year = tx->tm_year + 1900; tm->tm_mon = tx->tm_mon + 1; tm->tm_mday = tx->tm_mday; tm->tm_hour = tx->tm_hour; tm->tm_min = tx->tm_min; tm->tm_sec = tx->tm_sec; tm->tm_isdst = tx->tm_isdst; #if defined(HAVE_TM_ZONE) tm->tm_gmtoff = tx->tm_gmtoff; tm->tm_zone = tx->tm_zone; if (tzp != NULL) { /* * We have a brute force time zone per SQL99? Then use it without * change since we have already rotated to the time zone. */ if (HasCTZSet) { *tzp = CTimeZone; tm->tm_gmtoff = CTimeZone; tm->tm_isdst = 0; tm->tm_zone = NULL; if (tzn != NULL) *tzn = NULL; } else { *tzp = -tm->tm_gmtoff; /* tm_gmtoff is Sun/DEC-ism */ /* * XXX FreeBSD man pages indicate that this should work - tgl * 97/04/23 */ if (tzn != NULL) { /* * Copy no more than MAXTZLEN bytes of timezone to tzn, in * case it contains an error message, which doesn't fit in * the buffer */ StrNCpy(*tzn, tm->tm_zone, MAXTZLEN + 1); if (strlen(tm->tm_zone) > MAXTZLEN) ereport(WARNING, (errcode(ERRCODE_INVALID_PARAMETER_VALUE), errmsg("invalid timezone name: \"%s\"", tm->tm_zone))); } } } else tm->tm_isdst = -1; #elif defined(HAVE_INT_TIMEZONE) if (tzp != NULL) { /* * We have a brute force time zone per SQL99? Then use it without * change since we have already rotated to the time zone. */ if (HasCTZSet) { *tzp = CTimeZone; tm->tm_isdst = 0; if (tzn != NULL) *tzn = NULL; } else { *tzp = ((tm->tm_isdst > 0) ? (TIMEZONE_GLOBAL - 3600) : TIMEZONE_GLOBAL); if (tzn != NULL) { /* * Copy no more than MAXTZLEN bytes of timezone to tzn, in * case it contains an error message, which doesn't fit in * the buffer */ StrNCpy(*tzn, tzname[tm->tm_isdst], MAXTZLEN + 1); if (strlen(tzname[tm->tm_isdst]) > MAXTZLEN) ereport(WARNING, (errcode(ERRCODE_INVALID_PARAMETER_VALUE), errmsg("invalid timezone name: \"%s\"", tzname[tm->tm_isdst]))); } } } else tm->tm_isdst = -1; #else /* not (HAVE_TM_ZONE || HAVE_INT_TIMEZONE) */ if (tzp != NULL) { /* * We have a brute force time zone per SQL99? Then use it without * change since we have already rotated to the time zone. */ if (HasCTZSet) { *tzp = CTimeZone; if (tzn != NULL) *tzn = NULL; } else { /* default to UTC */ *tzp = 0; if (tzn != NULL) *tzn = NULL; } } else tm->tm_isdst = -1; #endif } /* tm2abstime() * Convert a tm structure to abstime. * Note that tm has full year (not 1900-based) and 1-based month. */ static AbsoluteTime tm2abstime(struct tm * tm, int tz) { int day; AbsoluteTime sec; /* validate, before going out of range on some members */ if (tm->tm_year < 1901 || tm->tm_year > 2038 || tm->tm_mon < 1 || tm->tm_mon > 12 || tm->tm_mday < 1 || tm->tm_mday > 31 || tm->tm_hour < 0 || tm->tm_hour > 23 || tm->tm_min < 0 || tm->tm_min > 59 || tm->tm_sec < 0 || tm->tm_sec > 60) return INVALID_ABSTIME; day = date2j(tm->tm_year, tm->tm_mon, tm->tm_mday) - UNIX_EPOCH_JDATE; /* check for time out of range */ if ((day < MIN_DAYNUM) || (day > MAX_DAYNUM)) return INVALID_ABSTIME; /* convert to seconds */ sec = tm->tm_sec + tz + (tm->tm_min + (day * 24 + tm->tm_hour) * 60) * 60; /* check for overflow */ if ((day == MAX_DAYNUM && sec < 0) || (day == MIN_DAYNUM && sec > 0)) return INVALID_ABSTIME; /* check for reserved values (e.g. "current" on edge of usual range */ if (!AbsoluteTimeIsReal(sec)) return INVALID_ABSTIME; return sec; } /* abstimein() * Decode date/time string and return abstime. */ Datum abstimein(PG_FUNCTION_ARGS) { char *str = PG_GETARG_CSTRING(0); AbsoluteTime result; fsec_t fsec; int tz = 0; struct tm date, *tm = &date; char *field[MAXDATEFIELDS]; char lowstr[MAXDATELEN + 1]; int dtype; int nf, ftype[MAXDATEFIELDS]; if (strlen(str) >= sizeof(lowstr)) ereport(ERROR, (errcode(ERRCODE_INVALID_DATETIME_FORMAT), errmsg("invalid input syntax for abstime: \"%s\"", str))); if ((ParseDateTime(str, lowstr, field, ftype, MAXDATEFIELDS, &nf) != 0) || (DecodeDateTime(field, ftype, nf, &dtype, tm, &fsec, &tz) != 0)) ereport(ERROR, (errcode(ERRCODE_INVALID_DATETIME_FORMAT), errmsg("invalid input syntax for abstime: \"%s\"", str))); switch (dtype) { case DTK_DATE: result = tm2abstime(tm, tz); break; case DTK_EPOCH: /* * Don't bother retaining this as a reserved value, but * instead just set to the actual epoch time (1970-01-01) */ result = 0; break; case DTK_LATE: result = NOEND_ABSTIME; break; case DTK_EARLY: result = NOSTART_ABSTIME; break; case DTK_INVALID: result = INVALID_ABSTIME; break; default: elog(ERROR, "unexpected dtype %d while parsing abstime \"%s\"", dtype, str); result = INVALID_ABSTIME; break; }; PG_RETURN_ABSOLUTETIME(result); } /* abstimeout() * Given an AbsoluteTime return the English text version of the date */ Datum abstimeout(PG_FUNCTION_ARGS) { AbsoluteTime time = PG_GETARG_ABSOLUTETIME(0); char *result; int tz; double fsec = 0; struct tm tt, *tm = &tt; char buf[MAXDATELEN + 1]; char zone[MAXDATELEN + 1], *tzn = zone; switch (time) { /* * Note that timestamp no longer supports 'invalid'. Retain * 'invalid' for abstime for now, but dump it someday. */ case INVALID_ABSTIME: strcpy(buf, INVALID); break; case NOEND_ABSTIME: strcpy(buf, LATE); break; case NOSTART_ABSTIME: strcpy(buf, EARLY); break; default: abstime2tm(time, &tz, tm, &tzn); EncodeDateTime(tm, fsec, &tz, &tzn, DateStyle, buf); break; } result = pstrdup(buf); PG_RETURN_CSTRING(result); } /* * abstimerecv - converts external binary format to abstime */ Datum abstimerecv(PG_FUNCTION_ARGS) { StringInfo buf = (StringInfo) PG_GETARG_POINTER(0); PG_RETURN_ABSOLUTETIME((AbsoluteTime) pq_getmsgint(buf, sizeof(AbsoluteTime))); } /* * abstimesend - converts abstime to binary format */ Datum abstimesend(PG_FUNCTION_ARGS) { AbsoluteTime time = PG_GETARG_ABSOLUTETIME(0); StringInfoData buf; pq_begintypsend(&buf); pq_sendint(&buf, time, sizeof(time)); PG_RETURN_BYTEA_P(pq_endtypsend(&buf)); } /* abstime_finite() */ Datum abstime_finite(PG_FUNCTION_ARGS) { AbsoluteTime abstime = PG_GETARG_ABSOLUTETIME(0); PG_RETURN_BOOL((abstime != INVALID_ABSTIME) && (abstime != NOSTART_ABSTIME) && (abstime != NOEND_ABSTIME)); } /* * abstime comparison routines */ static int abstime_cmp_internal(AbsoluteTime a, AbsoluteTime b) { /* * We consider all INVALIDs to be equal and larger than any non-INVALID. * This is somewhat arbitrary; the important thing is to have a * consistent sort order. */ if (a == INVALID_ABSTIME) { if (b == INVALID_ABSTIME) return 0; /* INVALID = INVALID */ else return 1; /* INVALID > non-INVALID */ } if (b == INVALID_ABSTIME) return -1; /* non-INVALID < INVALID */ #if 0 /* CURRENT is no longer stored internally... */ /* XXX this is broken, should go away: */ if (a == CURRENT_ABSTIME) a = GetCurrentTransactionStartTime(); if (b == CURRENT_ABSTIME) b = GetCurrentTransactionStartTime(); #endif if (a > b) return 1; else if (a == b) return 0; else return -1; } Datum abstimeeq(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); PG_RETURN_BOOL(abstime_cmp_internal(t1, t2) == 0); } Datum abstimene(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); PG_RETURN_BOOL(abstime_cmp_internal(t1, t2) != 0); } Datum abstimelt(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); PG_RETURN_BOOL(abstime_cmp_internal(t1, t2) < 0); } Datum abstimegt(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); PG_RETURN_BOOL(abstime_cmp_internal(t1, t2) > 0); } Datum abstimele(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); PG_RETURN_BOOL(abstime_cmp_internal(t1, t2) <= 0); } Datum abstimege(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); PG_RETURN_BOOL(abstime_cmp_internal(t1, t2) >= 0); } Datum btabstimecmp(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); PG_RETURN_INT32(abstime_cmp_internal(t1, t2)); } /* timestamp_abstime() * Convert timestamp to abstime. */ Datum timestamp_abstime(PG_FUNCTION_ARGS) { Timestamp timestamp = PG_GETARG_TIMESTAMP(0); AbsoluteTime result; fsec_t fsec; int tz; struct tm tt, *tm = &tt; if (TIMESTAMP_IS_NOBEGIN(timestamp)) result = NOSTART_ABSTIME; else if (TIMESTAMP_IS_NOEND(timestamp)) result = NOEND_ABSTIME; else if (timestamp2tm(timestamp, NULL, tm, &fsec, NULL) == 0) { tz = DetermineLocalTimeZone(tm); result = tm2abstime(tm, tz); } else { ereport(ERROR, (errcode(ERRCODE_DATETIME_VALUE_OUT_OF_RANGE), errmsg("timestamp out of range"))); result = INVALID_ABSTIME; } PG_RETURN_ABSOLUTETIME(result); } /* abstime_timestamp() * Convert abstime to timestamp. */ Datum abstime_timestamp(PG_FUNCTION_ARGS) { AbsoluteTime abstime = PG_GETARG_ABSOLUTETIME(0); Timestamp result; struct tm tt, *tm = &tt; int tz; char zone[MAXDATELEN + 1], *tzn = zone; switch (abstime) { case INVALID_ABSTIME: ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("cannot convert \"invalid\" abstime to timestamp"))); TIMESTAMP_NOBEGIN(result); break; case NOSTART_ABSTIME: TIMESTAMP_NOBEGIN(result); break; case NOEND_ABSTIME: TIMESTAMP_NOEND(result); break; default: abstime2tm(abstime, &tz, tm, &tzn); if (tm2timestamp(tm, 0, NULL, &result) != 0) ereport(ERROR, (errcode(ERRCODE_DATETIME_VALUE_OUT_OF_RANGE), errmsg("timestamp out of range"))); break; }; PG_RETURN_TIMESTAMP(result); } /* timestamptz_abstime() * Convert timestamp with time zone to abstime. */ Datum timestamptz_abstime(PG_FUNCTION_ARGS) { TimestampTz timestamp = PG_GETARG_TIMESTAMP(0); AbsoluteTime result; fsec_t fsec; struct tm tt, *tm = &tt; if (TIMESTAMP_IS_NOBEGIN(timestamp)) result = NOSTART_ABSTIME; else if (TIMESTAMP_IS_NOEND(timestamp)) result = NOEND_ABSTIME; else if (timestamp2tm(timestamp, NULL, tm, &fsec, NULL) == 0) result = tm2abstime(tm, 0); else { ereport(ERROR, (errcode(ERRCODE_DATETIME_VALUE_OUT_OF_RANGE), errmsg("timestamp out of range"))); result = INVALID_ABSTIME; } PG_RETURN_ABSOLUTETIME(result); } /* abstime_timestamptz() * Convert abstime to timestamp with time zone. */ Datum abstime_timestamptz(PG_FUNCTION_ARGS) { AbsoluteTime abstime = PG_GETARG_ABSOLUTETIME(0); TimestampTz result; struct tm tt, *tm = &tt; int tz; char zone[MAXDATELEN + 1], *tzn = zone; switch (abstime) { case INVALID_ABSTIME: ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("cannot convert \"invalid\" abstime to timestamp"))); TIMESTAMP_NOBEGIN(result); break; case NOSTART_ABSTIME: TIMESTAMP_NOBEGIN(result); break; case NOEND_ABSTIME: TIMESTAMP_NOEND(result); break; default: abstime2tm(abstime, &tz, tm, &tzn); if (tm2timestamp(tm, 0, &tz, &result) != 0) ereport(ERROR, (errcode(ERRCODE_DATETIME_VALUE_OUT_OF_RANGE), errmsg("timestamp out of range"))); break; }; PG_RETURN_TIMESTAMP(result); } /***************************************************************************** * USER I/O ROUTINES * *****************************************************************************/ /* * reltimein - converts a reltime string in an internal format */ Datum reltimein(PG_FUNCTION_ARGS) { char *str = PG_GETARG_CSTRING(0); RelativeTime result; struct tm tt, *tm = &tt; fsec_t fsec; int dtype; char *field[MAXDATEFIELDS]; int nf, ftype[MAXDATEFIELDS]; char lowstr[MAXDATELEN + 1]; if (strlen(str) >= sizeof(lowstr)) ereport(ERROR, (errcode(ERRCODE_INVALID_DATETIME_FORMAT), errmsg("invalid input syntax for reltime: \"%s\"", str))); if ((ParseDateTime(str, lowstr, field, ftype, MAXDATEFIELDS, &nf) != 0) || (DecodeInterval(field, ftype, nf, &dtype, tm, &fsec) != 0)) ereport(ERROR, (errcode(ERRCODE_INVALID_DATETIME_FORMAT), errmsg("invalid input syntax for reltime: \"%s\"", str))); switch (dtype) { case DTK_DELTA: result = ((((tm->tm_hour * 60) + tm->tm_min) * 60) + tm->tm_sec); result += ((tm->tm_year * 36525 * 864) + (((tm->tm_mon * 30) + tm->tm_mday) * 86400)); break; default: elog(ERROR, "unexpected dtype %d while parsing reltime \"%s\"", dtype, str); result = INVALID_RELTIME; break; } PG_RETURN_RELATIVETIME(result); } /* * reltimeout - converts the internal format to a reltime string */ Datum reltimeout(PG_FUNCTION_ARGS) { RelativeTime time = PG_GETARG_RELATIVETIME(0); char *result; struct tm tt, *tm = &tt; char buf[MAXDATELEN + 1]; reltime2tm(time, tm); EncodeInterval(tm, 0, DateStyle, buf); result = pstrdup(buf); PG_RETURN_CSTRING(result); } /* * reltimerecv - converts external binary format to reltime */ Datum reltimerecv(PG_FUNCTION_ARGS) { StringInfo buf = (StringInfo) PG_GETARG_POINTER(0); PG_RETURN_RELATIVETIME((RelativeTime) pq_getmsgint(buf, sizeof(RelativeTime))); } /* * reltimesend - converts reltime to binary format */ Datum reltimesend(PG_FUNCTION_ARGS) { RelativeTime time = PG_GETARG_RELATIVETIME(0); StringInfoData buf; pq_begintypsend(&buf); pq_sendint(&buf, time, sizeof(time)); PG_RETURN_BYTEA_P(pq_endtypsend(&buf)); } static void reltime2tm(RelativeTime time, struct tm * tm) { double dtime = time; FMODULO(dtime, tm->tm_year, 31557600); FMODULO(dtime, tm->tm_mon, 2592000); FMODULO(dtime, tm->tm_mday, 86400); FMODULO(dtime, tm->tm_hour, 3600); FMODULO(dtime, tm->tm_min, 60); FMODULO(dtime, tm->tm_sec, 1); } /* * tintervalin - converts an interval string to internal format */ Datum tintervalin(PG_FUNCTION_ARGS) { char *intervalstr = PG_GETARG_CSTRING(0); TimeInterval interval; AbsoluteTime i_start, i_end, t1, t2; interval = (TimeInterval) palloc(sizeof(TimeIntervalData)); if (istinterval(intervalstr, &t1, &t2) == 0) ereport(ERROR, (errcode(ERRCODE_INVALID_DATETIME_FORMAT), errmsg("invalid input syntax for tinterval: \"%s\"", intervalstr))); if (t1 == INVALID_ABSTIME || t2 == INVALID_ABSTIME) interval->status = T_INTERVAL_INVAL; /* undefined */ else interval->status = T_INTERVAL_VALID; i_start = ABSTIMEMIN(t1, t2); i_end = ABSTIMEMAX(t1, t2); interval->data[0] = i_start; interval->data[1] = i_end; PG_RETURN_TIMEINTERVAL(interval); } /* * tintervalout - converts an internal interval format to a string */ Datum tintervalout(PG_FUNCTION_ARGS) { TimeInterval interval = PG_GETARG_TIMEINTERVAL(0); char *i_str, *p; i_str = (char *) palloc(T_INTERVAL_LEN); /* ['...' '...'] */ strcpy(i_str, "[\""); if (interval->status == T_INTERVAL_INVAL) strcat(i_str, INVALID_INTERVAL_STR); else { p = DatumGetCString(DirectFunctionCall1(abstimeout, AbsoluteTimeGetDatum(interval->data[0]))); strcat(i_str, p); pfree(p); strcat(i_str, "\" \""); p = DatumGetCString(DirectFunctionCall1(abstimeout, AbsoluteTimeGetDatum(interval->data[1]))); strcat(i_str, p); pfree(p); } strcat(i_str, "\"]\0"); PG_RETURN_CSTRING(i_str); } /* * tintervalrecv - converts external binary format to tinterval */ Datum tintervalrecv(PG_FUNCTION_ARGS) { StringInfo buf = (StringInfo) PG_GETARG_POINTER(0); TimeInterval interval; interval = (TimeInterval) palloc(sizeof(TimeIntervalData)); interval->status = pq_getmsgint(buf, sizeof(interval->status)); if (!(interval->status == T_INTERVAL_INVAL || interval->status == T_INTERVAL_VALID)) ereport(ERROR, (errcode(ERRCODE_INVALID_BINARY_REPRESENTATION), errmsg("invalid status in external tinterval"))); interval->data[0] = pq_getmsgint(buf, sizeof(interval->data[0])); interval->data[1] = pq_getmsgint(buf, sizeof(interval->data[1])); PG_RETURN_TIMEINTERVAL(interval); } /* * tintervalsend - converts tinterval to binary format */ Datum tintervalsend(PG_FUNCTION_ARGS) { TimeInterval interval = PG_GETARG_TIMEINTERVAL(0); StringInfoData buf; pq_begintypsend(&buf); pq_sendint(&buf, interval->status, sizeof(interval->status)); pq_sendint(&buf, interval->data[0], sizeof(interval->data[0])); pq_sendint(&buf, interval->data[1], sizeof(interval->data[1])); PG_RETURN_BYTEA_P(pq_endtypsend(&buf)); } /***************************************************************************** * PUBLIC ROUTINES * *****************************************************************************/ Datum interval_reltime(PG_FUNCTION_ARGS) { Interval *interval = PG_GETARG_INTERVAL_P(0); RelativeTime time; int year, month; #ifdef HAVE_INT64_TIMESTAMP int64 span; #else double span; #endif if (interval->month == 0) { year = 0; month = 0; } else if (abs(interval->month) >= 12) { year = (interval->month / 12); month = (interval->month % 12); } else { year = 0; month = interval->month; } #ifdef HAVE_INT64_TIMESTAMP span = ((((INT64CONST(365250000) * year) + (INT64CONST(30000000) * month)) * INT64CONST(86400)) + interval->time); span /= INT64CONST(1000000); #else span = (((((double) 365.25 * year) + ((double) 30 * month)) * 86400) + interval->time); #endif if ((span < INT_MIN) || (span > INT_MAX)) time = INVALID_RELTIME; else time = span; PG_RETURN_RELATIVETIME(time); } Datum reltime_interval(PG_FUNCTION_ARGS) { RelativeTime reltime = PG_GETARG_RELATIVETIME(0); Interval *result; int year, month; result = (Interval *) palloc(sizeof(Interval)); switch (reltime) { case INVALID_RELTIME: ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("cannot convert \"invalid\" reltime to interval"))); result->time = 0; result->month = 0; break; default: #ifdef HAVE_INT64_TIMESTAMP year = (reltime / (36525 * 864)); reltime -= (year * (36525 * 864)); month = (reltime / (30 * 86400)); reltime -= (month * (30 * 86400)); result->time = (reltime * INT64CONST(1000000)); #else TMODULO(reltime, year, (36525 * 864)); TMODULO(reltime, month, (30 * 86400)); result->time = reltime; #endif result->month = ((12 * year) + month); break; } PG_RETURN_INTERVAL_P(result); } /* * mktinterval - creates a time interval with endpoints t1 and t2 */ Datum mktinterval(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); AbsoluteTime t2 = PG_GETARG_ABSOLUTETIME(1); AbsoluteTime tstart = ABSTIMEMIN(t1, t2); AbsoluteTime tend = ABSTIMEMAX(t1, t2); TimeInterval interval; interval = (TimeInterval) palloc(sizeof(TimeIntervalData)); if (t1 == INVALID_ABSTIME || t2 == INVALID_ABSTIME) interval->status = T_INTERVAL_INVAL; else { interval->status = T_INTERVAL_VALID; interval->data[0] = tstart; interval->data[1] = tend; } PG_RETURN_TIMEINTERVAL(interval); } /* * timepl, timemi and abstimemi use the formula * abstime + reltime = abstime * so abstime - reltime = abstime * and abstime - abstime = reltime */ /* * timepl - returns the value of (abstime t1 + reltime t2) */ Datum timepl(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (AbsoluteTimeIsReal(t1) && RelativeTimeIsValid(t2) && ((t2 > 0) ? (t1 < NOEND_ABSTIME - t2) : (t1 > NOSTART_ABSTIME - t2))) /* prevent overflow */ PG_RETURN_ABSOLUTETIME(t1 + t2); PG_RETURN_ABSOLUTETIME(INVALID_ABSTIME); } /* * timemi - returns the value of (abstime t1 - reltime t2) */ Datum timemi(PG_FUNCTION_ARGS) { AbsoluteTime t1 = PG_GETARG_ABSOLUTETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (AbsoluteTimeIsReal(t1) && RelativeTimeIsValid(t2) && ((t2 > 0) ? (t1 > NOSTART_ABSTIME + t2) : (t1 < NOEND_ABSTIME + t2))) /* prevent overflow */ PG_RETURN_ABSOLUTETIME(t1 - t2); PG_RETURN_ABSOLUTETIME(INVALID_ABSTIME); } /* * intinterval - returns true iff absolute date is in the interval */ Datum intinterval(PG_FUNCTION_ARGS) { AbsoluteTime t = PG_GETARG_ABSOLUTETIME(0); TimeInterval interval = PG_GETARG_TIMEINTERVAL(1); if (interval->status == T_INTERVAL_VALID && t != INVALID_ABSTIME) { if (DatumGetBool(DirectFunctionCall2(abstimege, AbsoluteTimeGetDatum(t), AbsoluteTimeGetDatum(interval->data[0]))) && DatumGetBool(DirectFunctionCall2(abstimele, AbsoluteTimeGetDatum(t), AbsoluteTimeGetDatum(interval->data[1])))) PG_RETURN_BOOL(true); } PG_RETURN_BOOL(false); } /* * tintervalrel - returns relative time corresponding to interval */ Datum tintervalrel(PG_FUNCTION_ARGS) { TimeInterval interval = PG_GETARG_TIMEINTERVAL(0); AbsoluteTime t1 = interval->data[0]; AbsoluteTime t2 = interval->data[1]; if (interval->status != T_INTERVAL_VALID) PG_RETURN_RELATIVETIME(INVALID_RELTIME); if (AbsoluteTimeIsReal(t1) && AbsoluteTimeIsReal(t2)) PG_RETURN_RELATIVETIME(t2 - t1); PG_RETURN_RELATIVETIME(INVALID_RELTIME); } /* * timenow - returns time "now", internal format * * Now AbsoluteTime is time since Jan 1 1970 -mer 7 Feb 1992 */ Datum timenow(PG_FUNCTION_ARGS) { time_t sec; if (time(&sec) < 0) PG_RETURN_ABSOLUTETIME(INVALID_ABSTIME); PG_RETURN_ABSOLUTETIME((AbsoluteTime) sec); } /* * reltimeeq - returns true iff arguments are equal * reltimene - returns true iff arguments are not equal * reltimelt - returns true iff t1 less than t2 * reltimegt - returns true iff t1 greater than t2 * reltimele - returns true iff t1 less than or equal to t2 * reltimege - returns true iff t1 greater than or equal to t2 */ Datum reltimeeq(PG_FUNCTION_ARGS) { RelativeTime t1 = PG_GETARG_RELATIVETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (t1 == INVALID_RELTIME || t2 == INVALID_RELTIME) PG_RETURN_BOOL(false); PG_RETURN_BOOL(t1 == t2); } Datum reltimene(PG_FUNCTION_ARGS) { RelativeTime t1 = PG_GETARG_RELATIVETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (t1 == INVALID_RELTIME || t2 == INVALID_RELTIME) PG_RETURN_BOOL(false); PG_RETURN_BOOL(t1 != t2); } Datum reltimelt(PG_FUNCTION_ARGS) { RelativeTime t1 = PG_GETARG_RELATIVETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (t1 == INVALID_RELTIME || t2 == INVALID_RELTIME) PG_RETURN_BOOL(false); PG_RETURN_BOOL(t1 < t2); } Datum reltimegt(PG_FUNCTION_ARGS) { RelativeTime t1 = PG_GETARG_RELATIVETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (t1 == INVALID_RELTIME || t2 == INVALID_RELTIME) PG_RETURN_BOOL(false); PG_RETURN_BOOL(t1 > t2); } Datum reltimele(PG_FUNCTION_ARGS) { RelativeTime t1 = PG_GETARG_RELATIVETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (t1 == INVALID_RELTIME || t2 == INVALID_RELTIME) PG_RETURN_BOOL(false); PG_RETURN_BOOL(t1 <= t2); } Datum reltimege(PG_FUNCTION_ARGS) { RelativeTime t1 = PG_GETARG_RELATIVETIME(0); RelativeTime t2 = PG_GETARG_RELATIVETIME(1); if (t1 == INVALID_RELTIME || t2 == INVALID_RELTIME) PG_RETURN_BOOL(false); PG_RETURN_BOOL(t1 >= t2); } /* * tintervalsame - returns true iff interval i1 is same as interval i2 * Check begin and end time. */ Datum tintervalsame(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); if (DatumGetBool(DirectFunctionCall2(abstimeeq, AbsoluteTimeGetDatum(i1->data[0]), AbsoluteTimeGetDatum(i2->data[0]))) && DatumGetBool(DirectFunctionCall2(abstimeeq, AbsoluteTimeGetDatum(i1->data[1]), AbsoluteTimeGetDatum(i2->data[1])))) PG_RETURN_BOOL(true); PG_RETURN_BOOL(false); } /* * tintervaleq - returns true iff interval i1 is equal to interval i2 * Check length of intervals. */ Datum tintervaleq(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); AbsoluteTime t10, t11, t20, t21; if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); t10 = i1->data[0]; t11 = i1->data[1]; t20 = i2->data[0]; t21 = i2->data[1]; if ((t10 == INVALID_ABSTIME) || (t11 == INVALID_ABSTIME) || (t20 == INVALID_ABSTIME) || (t21 == INVALID_ABSTIME)) PG_RETURN_BOOL(false); PG_RETURN_BOOL((t11 - t10) == (t21 - t20)); } Datum tintervalne(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); AbsoluteTime t10, t11, t20, t21; if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); t10 = i1->data[0]; t11 = i1->data[1]; t20 = i2->data[0]; t21 = i2->data[1]; if ((t10 == INVALID_ABSTIME) || (t11 == INVALID_ABSTIME) || (t20 == INVALID_ABSTIME) || (t21 == INVALID_ABSTIME)) PG_RETURN_BOOL(false); PG_RETURN_BOOL((t11 - t10) != (t21 - t20)); } Datum tintervallt(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); AbsoluteTime t10, t11, t20, t21; if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); t10 = i1->data[0]; t11 = i1->data[1]; t20 = i2->data[0]; t21 = i2->data[1]; if ((t10 == INVALID_ABSTIME) || (t11 == INVALID_ABSTIME) || (t20 == INVALID_ABSTIME) || (t21 == INVALID_ABSTIME)) PG_RETURN_BOOL(false); PG_RETURN_BOOL((t11 - t10) < (t21 - t20)); } Datum tintervalle(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); AbsoluteTime t10, t11, t20, t21; if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); t10 = i1->data[0]; t11 = i1->data[1]; t20 = i2->data[0]; t21 = i2->data[1]; if ((t10 == INVALID_ABSTIME) || (t11 == INVALID_ABSTIME) || (t20 == INVALID_ABSTIME) || (t21 == INVALID_ABSTIME)) PG_RETURN_BOOL(false); PG_RETURN_BOOL((t11 - t10) <= (t21 - t20)); } Datum tintervalgt(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); AbsoluteTime t10, t11, t20, t21; if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); t10 = i1->data[0]; t11 = i1->data[1]; t20 = i2->data[0]; t21 = i2->data[1]; if ((t10 == INVALID_ABSTIME) || (t11 == INVALID_ABSTIME) || (t20 == INVALID_ABSTIME) || (t21 == INVALID_ABSTIME)) PG_RETURN_BOOL(false); PG_RETURN_BOOL((t11 - t10) > (t21 - t20)); } Datum tintervalge(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); AbsoluteTime t10, t11, t20, t21; if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); t10 = i1->data[0]; t11 = i1->data[1]; t20 = i2->data[0]; t21 = i2->data[1]; if ((t10 == INVALID_ABSTIME) || (t11 == INVALID_ABSTIME) || (t20 == INVALID_ABSTIME) || (t21 == INVALID_ABSTIME)) PG_RETURN_BOOL(false); PG_RETURN_BOOL((t11 - t10) >= (t21 - t20)); } /* * tintervalleneq - returns true iff length of interval i is equal to * reltime t * tintervallenne - returns true iff length of interval i is not equal * to reltime t * tintervallenlt - returns true iff length of interval i is less than * reltime t * tintervallengt - returns true iff length of interval i is greater * than reltime t * tintervallenle - returns true iff length of interval i is less or * equal than reltime t * tintervallenge - returns true iff length of interval i is greater or * equal than reltime t */ Datum tintervalleneq(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); RelativeTime t = PG_GETARG_RELATIVETIME(1); RelativeTime rt; if (i->status == T_INTERVAL_INVAL || t == INVALID_RELTIME) PG_RETURN_BOOL(false); rt = DatumGetRelativeTime(DirectFunctionCall1(tintervalrel, TimeIntervalGetDatum(i))); PG_RETURN_BOOL((rt != INVALID_RELTIME) && (rt == t)); } Datum tintervallenne(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); RelativeTime t = PG_GETARG_RELATIVETIME(1); RelativeTime rt; if (i->status == T_INTERVAL_INVAL || t == INVALID_RELTIME) PG_RETURN_BOOL(false); rt = DatumGetRelativeTime(DirectFunctionCall1(tintervalrel, TimeIntervalGetDatum(i))); PG_RETURN_BOOL((rt != INVALID_RELTIME) && (rt != t)); } Datum tintervallenlt(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); RelativeTime t = PG_GETARG_RELATIVETIME(1); RelativeTime rt; if (i->status == T_INTERVAL_INVAL || t == INVALID_RELTIME) PG_RETURN_BOOL(false); rt = DatumGetRelativeTime(DirectFunctionCall1(tintervalrel, TimeIntervalGetDatum(i))); PG_RETURN_BOOL((rt != INVALID_RELTIME) && (rt < t)); } Datum tintervallengt(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); RelativeTime t = PG_GETARG_RELATIVETIME(1); RelativeTime rt; if (i->status == T_INTERVAL_INVAL || t == INVALID_RELTIME) PG_RETURN_BOOL(false); rt = DatumGetRelativeTime(DirectFunctionCall1(tintervalrel, TimeIntervalGetDatum(i))); PG_RETURN_BOOL((rt != INVALID_RELTIME) && (rt > t)); } Datum tintervallenle(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); RelativeTime t = PG_GETARG_RELATIVETIME(1); RelativeTime rt; if (i->status == T_INTERVAL_INVAL || t == INVALID_RELTIME) PG_RETURN_BOOL(false); rt = DatumGetRelativeTime(DirectFunctionCall1(tintervalrel, TimeIntervalGetDatum(i))); PG_RETURN_BOOL((rt != INVALID_RELTIME) && (rt <= t)); } Datum tintervallenge(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); RelativeTime t = PG_GETARG_RELATIVETIME(1); RelativeTime rt; if (i->status == T_INTERVAL_INVAL || t == INVALID_RELTIME) PG_RETURN_BOOL(false); rt = DatumGetRelativeTime(DirectFunctionCall1(tintervalrel, TimeIntervalGetDatum(i))); PG_RETURN_BOOL((rt != INVALID_RELTIME) && (rt >= t)); } /* * tintervalct - returns true iff interval i1 contains interval i2 */ Datum tintervalct(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); if (DatumGetBool(DirectFunctionCall2(abstimele, AbsoluteTimeGetDatum(i1->data[0]), AbsoluteTimeGetDatum(i2->data[0]))) && DatumGetBool(DirectFunctionCall2(abstimege, AbsoluteTimeGetDatum(i1->data[1]), AbsoluteTimeGetDatum(i2->data[1])))) PG_RETURN_BOOL(true); PG_RETURN_BOOL(false); } /* * tintervalov - returns true iff interval i1 (partially) overlaps i2 */ Datum tintervalov(PG_FUNCTION_ARGS) { TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0); TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1); if (i1->status == T_INTERVAL_INVAL || i2->status == T_INTERVAL_INVAL) PG_RETURN_BOOL(false); if (DatumGetBool(DirectFunctionCall2(abstimelt, AbsoluteTimeGetDatum(i1->data[1]), AbsoluteTimeGetDatum(i2->data[0]))) || DatumGetBool(DirectFunctionCall2(abstimegt, AbsoluteTimeGetDatum(i1->data[0]), AbsoluteTimeGetDatum(i2->data[1])))) PG_RETURN_BOOL(false); PG_RETURN_BOOL(true); } /* * tintervalstart - returns the start of interval i */ Datum tintervalstart(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); if (i->status == T_INTERVAL_INVAL) PG_RETURN_ABSOLUTETIME(INVALID_ABSTIME); PG_RETURN_ABSOLUTETIME(i->data[0]); } /* * tintervalend - returns the end of interval i */ Datum tintervalend(PG_FUNCTION_ARGS) { TimeInterval i = PG_GETARG_TIMEINTERVAL(0); if (i->status == T_INTERVAL_INVAL) PG_RETURN_ABSOLUTETIME(INVALID_ABSTIME); PG_RETURN_ABSOLUTETIME(i->data[1]); } /***************************************************************************** * PRIVATE ROUTINES * *****************************************************************************/ /* * istinterval - returns 1, iff i_string is a valid interval descr. * 0, iff i_string is NOT a valid interval desc. * 2, iff any time is INVALID_ABSTIME * * output parameter: * i_start, i_end: interval margins * * Time interval: * `[' {` '} `'' `'' {` '} `'' `'' {` '} `]' * * OR `Undefined Range' (see also INVALID_INTERVAL_STR) * * where satisfies the syntax of absolute time. * * e.g. [ ' Jan 18 1902' 'Jan 1 00:00:00 1970'] */ static int istinterval(char *i_string, AbsoluteTime *i_start, AbsoluteTime *i_end) { char *p, *p1; char c; p = i_string; /* skip leading blanks up to '[' */ while ((c = *p) != '\0') { if (IsSpace(c)) p++; else if (c != '[') return 0; /* syntax error */ else break; } p++; /* skip leading blanks up to "'" */ while ((c = *p) != '\0') { if (IsSpace(c)) p++; else if (c != '"') return 0; /* syntax error */ else break; } p++; if (strncmp(INVALID_INTERVAL_STR, p, strlen(INVALID_INTERVAL_STR)) == 0) return 0; /* undefined range, handled like a syntax * err. */ /* search for the end of the first date and change it to a NULL */ p1 = p; while ((c = *p1) != '\0') { if (c == '"') { *p1 = '\0'; break; } p1++; } /* get the first date */ *i_start = DatumGetAbsoluteTime(DirectFunctionCall1(abstimein, CStringGetDatum(p))); /* rechange NULL at the end of the first date to a "'" */ *p1 = '"'; p = ++p1; /* skip blanks up to "'", beginning of second date */ while ((c = *p) != '\0') { if (IsSpace(c)) p++; else if (c != '"') return 0; /* syntax error */ else break; } p++; /* search for the end of the second date and change it to a NULL */ p1 = p; while ((c = *p1) != '\0') { if (c == '"') { *p1 = '\0'; break; } p1++; } /* get the second date */ *i_end = DatumGetAbsoluteTime(DirectFunctionCall1(abstimein, CStringGetDatum(p))); /* rechange NULL at the end of the first date to a ''' */ *p1 = '"'; p = ++p1; /* skip blanks up to ']' */ while ((c = *p) != '\0') { if (IsSpace(c)) p++; else if (c != ']') return 0; /* syntax error */ else break; } p++; c = *p; if (c != '\0') return 0; /* syntax error */ /* it seems to be a valid interval */ return 1; } /***************************************************************************** * *****************************************************************************/ /* * timeofday - * returns the current time as a text. similar to timenow() but returns * seconds with more precision (up to microsecs). (I need this to compare * the Wisconsin benchmark with Illustra whose TimeNow() shows current * time with precision up to microsecs.) - ay 3/95 */ Datum timeofday(PG_FUNCTION_ARGS) { struct timeval tp; struct timezone tpz; char templ[100]; char buf[100]; text *result; int len; gettimeofday(&tp, &tpz); strftime(templ, sizeof(templ), "%a %b %d %H:%M:%S.%%06d %Y %Z", localtime((time_t *) &tp.tv_sec)); snprintf(buf, sizeof(buf), templ, tp.tv_usec); len = VARHDRSZ + strlen(buf); result = (text *) palloc(len); VARATT_SIZEP(result) = len; memcpy(VARDATA(result), buf, strlen(buf)); PG_RETURN_TEXT_P(result); }