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postgres/src/backend/utils/adt/nabstime.c
PostgreSQL Daemon 2ff501590b Tag appropriate files for rc3 
Also performed an initial run through of upgrading our Copyright date to
extend to 2005 ... first run here was very simple ... change everything
where: grep 1996-2004 && the word 'Copyright' ... scanned through the
generated list with 'less' first, and after, to make sure that I only
picked up the right entries ...
2004-12-31 22:04:05 +00:00

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/*-------------------------------------------------------------------------
*
* 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) 1996-2005, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/utils/adt/nabstime.c,v 1.127 2004/12/31 22:01:22 pgsql Exp $
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <ctype.h>
#include <float.h>
#include <limits.h>
#include <time.h>
#include <sys/time.h>
#include "access/xact.h"
#include "libpq/pqformat.h"
#include "miscadmin.h"
#include "pgtime.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 pg_tm * tm, int tz);
static void reltime2tm(RelativeTime time, struct pg_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 pg_tm.
*/
void
GetCurrentDateTime(struct pg_tm * tm)
{
int tz;
abstime2tm(GetCurrentTransactionStartTime(), &tz, tm, NULL);
}
/*
* GetCurrentTimeUsec()
*
* Get the transaction start time ("now()") broken down as a struct pg_tm,
* including fractional seconds and timezone offset.
*/
void
GetCurrentTimeUsec(struct pg_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 pg_tm * tm, char **tzn)
{
pg_time_t time = (pg_time_t) _time;
struct pg_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 = pg_localtime(&time);
else
tx = pg_gmtime(&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;
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 time zone name: \"%s\"",
tm->tm_zone)));
}
}
}
else
tm->tm_isdst = -1;
}
/* tm2abstime()
* Convert a tm structure to abstime.
* Note that tm has full year (not 1900-based) and 1-based month.
*/
static AbsoluteTime
tm2abstime(struct pg_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 pg_tm date,
*tm = &date;
int dterr;
char *field[MAXDATEFIELDS];
char lowstr[MAXDATELEN + 1];
int dtype;
int nf,
ftype[MAXDATEFIELDS];
if (strlen(str) >= sizeof(lowstr))
dterr = DTERR_BAD_FORMAT;
else
dterr = ParseDateTime(str, lowstr, field, ftype, MAXDATEFIELDS, &nf);
if (dterr == 0)
dterr = DecodeDateTime(field, ftype, nf, &dtype, tm, &fsec, &tz);
if (dterr != 0)
DateTimeParseError(dterr, str, "abstime");
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 pg_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 pg_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 pg_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 abstime \"invalid\" 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 pg_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 pg_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 abstime \"invalid\" 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 pg_tm tt,
*tm = &tt;
fsec_t fsec;
int dtype;
int dterr;
char *field[MAXDATEFIELDS];
int nf,
ftype[MAXDATEFIELDS];
char lowstr[MAXDATELEN + 1];
if (strlen(str) >= sizeof(lowstr))
dterr = DTERR_BAD_FORMAT;
else
dterr = ParseDateTime(str, lowstr, field, ftype, MAXDATEFIELDS, &nf);
if (dterr == 0)
dterr = DecodeInterval(field, ftype, nf, &dtype, tm, &fsec);
if (dterr != 0)
{
if (dterr == DTERR_FIELD_OVERFLOW)
dterr = DTERR_INTERVAL_OVERFLOW;
DateTimeParseError(dterr, str, "reltime");
}
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 pg_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 pg_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 type 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, "\"]");
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\" value")));
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 reltime \"invalid\" 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);
}
/*
* reltime comparison routines
*/
static int
reltime_cmp_internal(RelativeTime a, RelativeTime 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_RELTIME)
{
if (b == INVALID_RELTIME)
return 0; /* INVALID = INVALID */
else
return 1; /* INVALID > non-INVALID */
}
if (b == INVALID_RELTIME)
return -1; /* non-INVALID < INVALID */
if (a > b)
return 1;
else if (a == b)
return 0;
else
return -1;
}
Datum
reltimeeq(PG_FUNCTION_ARGS)
{
RelativeTime t1 = PG_GETARG_RELATIVETIME(0);
RelativeTime t2 = PG_GETARG_RELATIVETIME(1);
PG_RETURN_BOOL(reltime_cmp_internal(t1, t2) == 0);
}
Datum
reltimene(PG_FUNCTION_ARGS)
{
RelativeTime t1 = PG_GETARG_RELATIVETIME(0);
RelativeTime t2 = PG_GETARG_RELATIVETIME(1);
PG_RETURN_BOOL(reltime_cmp_internal(t1, t2) != 0);
}
Datum
reltimelt(PG_FUNCTION_ARGS)
{
RelativeTime t1 = PG_GETARG_RELATIVETIME(0);
RelativeTime t2 = PG_GETARG_RELATIVETIME(1);
PG_RETURN_BOOL(reltime_cmp_internal(t1, t2) < 0);
}
Datum
reltimegt(PG_FUNCTION_ARGS)
{
RelativeTime t1 = PG_GETARG_RELATIVETIME(0);
RelativeTime t2 = PG_GETARG_RELATIVETIME(1);
PG_RETURN_BOOL(reltime_cmp_internal(t1, t2) > 0);
}
Datum
reltimele(PG_FUNCTION_ARGS)
{
RelativeTime t1 = PG_GETARG_RELATIVETIME(0);
RelativeTime t2 = PG_GETARG_RELATIVETIME(1);
PG_RETURN_BOOL(reltime_cmp_internal(t1, t2) <= 0);
}
Datum
reltimege(PG_FUNCTION_ARGS)
{
RelativeTime t1 = PG_GETARG_RELATIVETIME(0);
RelativeTime t2 = PG_GETARG_RELATIVETIME(1);
PG_RETURN_BOOL(reltime_cmp_internal(t1, t2) >= 0);
}
Datum
btreltimecmp(PG_FUNCTION_ARGS)
{
RelativeTime t1 = PG_GETARG_RELATIVETIME(0);
RelativeTime t2 = PG_GETARG_RELATIVETIME(1);
PG_RETURN_INT32(reltime_cmp_internal(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);
}
/*
* tinterval comparison routines
*
* Note: comparison is based on the lengths of the intervals, not on
* endpoint value. This is pretty bogus, but since it's only a legacy
* datatype I'm not going to propose changing it.
*/
static int
tinterval_cmp_internal(TimeInterval a, TimeInterval b)
{
bool a_invalid;
bool b_invalid;
AbsoluteTime a_len;
AbsoluteTime b_len;
/*
* 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.
*/
a_invalid = ((a->status == T_INTERVAL_INVAL) ||
(a->data[0] == INVALID_ABSTIME) ||
(a->data[1] == INVALID_ABSTIME));
b_invalid = ((b->status == T_INTERVAL_INVAL) ||
(b->data[0] == INVALID_ABSTIME) ||
(b->data[1] == INVALID_ABSTIME));
if (a_invalid)
{
if (b_invalid)
return 0; /* INVALID = INVALID */
else
return 1; /* INVALID > non-INVALID */
}
if (b_invalid)
return -1; /* non-INVALID < INVALID */
a_len = a->data[1] - a->data[0];
b_len = b->data[1] - b->data[0];
if (a_len > b_len)
return 1;
else if (a_len == b_len)
return 0;
else
return -1;
}
Datum
tintervaleq(PG_FUNCTION_ARGS)
{
TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0);
TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1);
PG_RETURN_BOOL(tinterval_cmp_internal(i1, i2) == 0);
}
Datum
tintervalne(PG_FUNCTION_ARGS)
{
TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0);
TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1);
PG_RETURN_BOOL(tinterval_cmp_internal(i1, i2) != 0);
}
Datum
tintervallt(PG_FUNCTION_ARGS)
{
TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0);
TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1);
PG_RETURN_BOOL(tinterval_cmp_internal(i1, i2) < 0);
}
Datum
tintervalle(PG_FUNCTION_ARGS)
{
TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0);
TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1);
PG_RETURN_BOOL(tinterval_cmp_internal(i1, i2) <= 0);
}
Datum
tintervalgt(PG_FUNCTION_ARGS)
{
TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0);
TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1);
PG_RETURN_BOOL(tinterval_cmp_internal(i1, i2) > 0);
}
Datum
tintervalge(PG_FUNCTION_ARGS)
{
TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0);
TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1);
PG_RETURN_BOOL(tinterval_cmp_internal(i1, i2) >= 0);
}
Datum
bttintervalcmp(PG_FUNCTION_ARGS)
{
TimeInterval i1 = PG_GETARG_TIMEINTERVAL(0);
TimeInterval i2 = PG_GETARG_TIMEINTERVAL(1);
PG_RETURN_INT32(tinterval_cmp_internal(i1, i2));
}
/*
* 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:
* `[' {` '} `'' <AbsTime> `'' {` '} `'' <AbsTime> `'' {` '} `]'
*
* OR `Undefined Range' (see also INVALID_INTERVAL_STR)
*
* where <AbsTime> 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[128];
char buf[128];
text *result;
int len;
pg_time_t tt;
gettimeofday(&tp, &tpz);
tt = (pg_time_t) tp.tv_sec;
pg_strftime(templ, sizeof(templ), "%a %b %d %H:%M:%S.%%06d %Y %Z",
pg_localtime(&tt));
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);
}
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