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| | /* Timestamp functions for Emacs
Copyright (C) 1985-1987, 1989, 1993-2019 Free Software Foundation, Inc.
This file is part of GNU Emacs.
GNU Emacs is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or (at
your option) any later version.
GNU Emacs is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>. */
#include <config.h>
#include "systime.h"
#include "blockinput.h"
#include "bignum.h"
#include "coding.h"
#include "lisp.h"
#include "pdumper.h"
#include <strftime.h>
#include <errno.h>
#include <limits.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#ifdef HAVE_TIMEZONE_T
# include <sys/param.h>
# if defined __NetBSD_Version__ && __NetBSD_Version__ < 700000000
# define HAVE_TZALLOC_BUG true
# endif
#endif
#ifndef HAVE_TZALLOC_BUG
# define HAVE_TZALLOC_BUG false
#endif
enum { TM_YEAR_BASE = 1900 };
#ifndef HAVE_TM_GMTOFF
# define HAVE_TM_GMTOFF false
#endif
#ifndef TIME_T_MIN
# define TIME_T_MIN TYPE_MINIMUM (time_t)
#endif
#ifndef TIME_T_MAX
# define TIME_T_MAX TYPE_MAXIMUM (time_t)
#endif
/* Compile with -DFASTER_TIMEFNS=0 to disable common optimizations and
allow easier testing of some slow-path code. */
#ifndef FASTER_TIMEFNS
# define FASTER_TIMEFNS 1
#endif
/* Whether to warn about Lisp timestamps (TICKS . HZ) that may be
instances of obsolete-format timestamps (HI . LO) where HI is
the high-order bits and LO the low-order 16 bits. Currently this
is true, but it should change to false in a future version of
Emacs. Compile with -DWARN_OBSOLETE_TIMESTAMPS=0 to see what the
future will be like. */
#ifndef WARN_OBSOLETE_TIMESTAMPS
enum { WARN_OBSOLETE_TIMESTAMPS = true };
#endif
/* Although current-time etc. generate list-format timestamps
(HI LO US PS), the plan is to change these functions to generate
frequency-based timestamps (TICKS . HZ) in a future release.
To try this now, compile with -DCURRENT_TIME_LIST=0. */
#ifndef CURRENT_TIME_LIST
enum { CURRENT_TIME_LIST = true };
#endif
#if FIXNUM_OVERFLOW_P (1000000000)
static Lisp_Object timespec_hz;
#else
# define timespec_hz make_fixnum (TIMESPEC_HZ)
#endif
#define TRILLION 1000000000000
#if FIXNUM_OVERFLOW_P (TRILLION)
static Lisp_Object trillion;
# define ztrillion (XBIGNUM (trillion)->value)
#else
# define trillion make_fixnum (TRILLION)
# if ULONG_MAX < TRILLION || !FASTER_TIMEFNS
mpz_t ztrillion;
# endif
#endif
/* Return a struct timeval that is roughly equivalent to T.
Use the least timeval not less than T.
Return an extremal value if the result would overflow. */
struct timeval
make_timeval (struct timespec t)
{
struct timeval tv;
tv.tv_sec = t.tv_sec;
tv.tv_usec = t.tv_nsec / 1000;
if (t.tv_nsec % 1000 != 0)
{
if (tv.tv_usec < 999999)
tv.tv_usec++;
else if (tv.tv_sec < TIME_T_MAX)
{
tv.tv_sec++;
tv.tv_usec = 0;
}
}
return tv;
}
/* Yield A's UTC offset, or an unspecified value if unknown. */
static long int
tm_gmtoff (struct tm *a)
{
#if HAVE_TM_GMTOFF
return a->tm_gmtoff;
#else
return 0;
#endif
}
/* Yield A - B, measured in seconds.
This function is copied from the GNU C Library. */
static int
tm_diff (struct tm *a, struct tm *b)
{
/* Compute intervening leap days correctly even if year is negative.
Take care to avoid int overflow in leap day calculations,
but it's OK to assume that A and B are close to each other. */
int a4 = (a->tm_year >> 2) + (TM_YEAR_BASE >> 2) - ! (a->tm_year & 3);
int b4 = (b->tm_year >> 2) + (TM_YEAR_BASE >> 2) - ! (b->tm_year & 3);
int a100 = a4 / 25 - (a4 % 25 < 0);
int b100 = b4 / 25 - (b4 % 25 < 0);
int a400 = a100 >> 2;
int b400 = b100 >> 2;
int intervening_leap_days = (a4 - b4) - (a100 - b100) + (a400 - b400);
int years = a->tm_year - b->tm_year;
int days = (365 * years + intervening_leap_days
+ (a->tm_yday - b->tm_yday));
return (60 * (60 * (24 * days + (a->tm_hour - b->tm_hour))
+ (a->tm_min - b->tm_min))
+ (a->tm_sec - b->tm_sec));
}
enum { tzeqlen = sizeof "TZ=" - 1 };
/* Time zones equivalent to current local time and to UTC, respectively. */
static timezone_t local_tz;
static timezone_t const utc_tz = 0;
static struct tm *
emacs_localtime_rz (timezone_t tz, time_t const *t, struct tm *tm)
{
tm = localtime_rz (tz, t, tm);
if (!tm && errno == ENOMEM)
memory_full (SIZE_MAX);
return tm;
}
static _Noreturn void
invalid_time_zone_specification (Lisp_Object zone)
{
xsignal2 (Qerror, build_string ("Invalid time zone specification"), zone);
}
/* Free a timezone, except do not free the time zone for local time.
Freeing utc_tz is also a no-op. */
static void
xtzfree (timezone_t tz)
{
if (tz != local_tz)
tzfree (tz);
}
/* Convert the Lisp time zone rule ZONE to a timezone_t object.
The returned value either is 0, or is LOCAL_TZ, or is newly allocated.
If SETTZ, set Emacs local time to the time zone rule; otherwise,
the caller should eventually pass the returned value to xtzfree. */
static timezone_t
tzlookup (Lisp_Object zone, bool settz)
{
static char const tzbuf_format[] = "<%+.*"pI"d>%s%"pI"d:%02d:%02d";
char const *trailing_tzbuf_format = tzbuf_format + sizeof "<%+.*"pI"d" - 1;
char tzbuf[sizeof tzbuf_format + 2 * INT_STRLEN_BOUND (EMACS_INT)];
char const *zone_string;
timezone_t new_tz;
if (NILP (zone))
return local_tz;
else if (EQ (zone, Qt) || EQ (zone, make_fixnum (0)))
{
zone_string = "UTC0";
new_tz = utc_tz;
}
else
{
bool plain_integer = FIXNUMP (zone);
if (EQ (zone, Qwall))
zone_string = 0;
else if (STRINGP (zone))
zone_string = SSDATA (ENCODE_SYSTEM (zone));
else if (plain_integer || (CONSP (zone) && FIXNUMP (XCAR (zone))
&& CONSP (XCDR (zone))))
{
Lisp_Object abbr UNINIT;
if (!plain_integer)
{
abbr = XCAR (XCDR (zone));
zone = XCAR (zone);
}
EMACS_INT abszone = eabs (XFIXNUM (zone)), hour = abszone / (60 * 60);
int hour_remainder = abszone % (60 * 60);
int min = hour_remainder / 60, sec = hour_remainder % 60;
if (plain_integer)
{
int prec = 2;
EMACS_INT numzone = hour;
if (hour_remainder != 0)
{
prec += 2, numzone = 100 * numzone + min;
if (sec != 0)
prec += 2, numzone = 100 * numzone + sec;
}
sprintf (tzbuf, tzbuf_format, prec,
XFIXNUM (zone) < 0 ? -numzone : numzone,
&"-"[XFIXNUM (zone) < 0], hour, min, sec);
zone_string = tzbuf;
}
else
{
AUTO_STRING (leading, "<");
AUTO_STRING_WITH_LEN (trailing, tzbuf,
sprintf (tzbuf, trailing_tzbuf_format,
&"-"[XFIXNUM (zone) < 0],
hour, min, sec));
zone_string = SSDATA (concat3 (leading, ENCODE_SYSTEM (abbr),
trailing));
}
}
else
invalid_time_zone_specification (zone);
new_tz = tzalloc (zone_string);
if (HAVE_TZALLOC_BUG && !new_tz && errno != ENOMEM && plain_integer
&& XFIXNUM (zone) % (60 * 60) == 0)
{
/* tzalloc mishandles POSIX strings; fall back on tzdb if
possible (Bug#30738). */
sprintf (tzbuf, "Etc/GMT%+"pI"d", - (XFIXNUM (zone) / (60 * 60)));
new_tz = tzalloc (zone_string);
}
if (!new_tz)
{
if (errno == ENOMEM)
memory_full (SIZE_MAX);
invalid_time_zone_specification (zone);
}
}
if (settz)
{
block_input ();
emacs_setenv_TZ (zone_string);
tzset ();
timezone_t old_tz = local_tz;
local_tz = new_tz;
tzfree (old_tz);
unblock_input ();
}
return new_tz;
}
void
init_timefns (void)
{
#ifdef HAVE_UNEXEC
/* A valid but unlikely setting for the TZ environment variable.
It is OK (though a bit slower) if the user chooses this value. */
static char dump_tz_string[] = "TZ=UtC0";
/* When just dumping out, set the time zone to a known unlikely value
and skip the rest of this function. */
if (will_dump_with_unexec_p ())
{
xputenv (dump_tz_string);
tzset ();
return;
}
#endif
char *tz = getenv ("TZ");
#ifdef HAVE_UNEXEC
/* If the execution TZ happens to be the same as the dump TZ,
change it to some other value and then change it back,
to force the underlying implementation to reload the TZ info.
This is needed on implementations that load TZ info from files,
since the TZ file contents may differ between dump and execution. */
if (tz && strcmp (tz, &dump_tz_string[tzeqlen]) == 0)
{
++*tz;
tzset ();
--*tz;
}
#endif
/* Set the time zone rule now, so that the call to putenv is done
before multiple threads are active. */
tzlookup (tz ? build_string (tz) : Qwall, true);
}
/* Report that a time value is out of range for Emacs. */
void
time_overflow (void)
{
error ("Specified time is not representable");
}
static _Noreturn void
time_error (int err)
{
switch (err)
{
case ENOMEM: memory_full (SIZE_MAX);
case EOVERFLOW: time_overflow ();
default: error ("Invalid time specification");
}
}
static _Noreturn void
invalid_hz (Lisp_Object hz)
{
xsignal2 (Qerror, build_string ("Invalid time frequency"), hz);
}
/* Return the upper part of the time T (everything but the bottom 16 bits). */
static Lisp_Object
hi_time (time_t t)
{
return INT_TO_INTEGER (t >> LO_TIME_BITS);
}
/* Return the bottom bits of the time T. */
static Lisp_Object
lo_time (time_t t)
{
return make_fixnum (t & ((1 << LO_TIME_BITS) - 1));
}
/* Convert T into an Emacs time *RESULT, truncating toward minus infinity.
Return zero if successful, an error number otherwise. */
static int
decode_float_time (double t, struct lisp_time *result)
{
if (!isfinite (t))
return isnan (t) ? EINVAL : EOVERFLOW;
/* Actual hz unknown; guess TIMESPEC_HZ. */
mpz_set_d (mpz[1], t);
mpz_set_si (mpz[0], floor ((t - trunc (t)) * TIMESPEC_HZ));
mpz_addmul_ui (mpz[0], mpz[1], TIMESPEC_HZ);
result->ticks = make_integer_mpz ();
result->hz = timespec_hz;
return 0;
}
/* Compute S + NS/TIMESPEC_HZ as a double.
Calls to this function suffer from double-rounding;
work around some of the problem by using long double. */
static double
s_ns_to_double (long double s, long double ns)
{
return s + ns / TIMESPEC_HZ;
}
/* Make a 4-element timestamp (HI LO US PS) from TICKS and HZ.
Drop any excess precision. */
static Lisp_Object
ticks_hz_list4 (Lisp_Object ticks, Lisp_Object hz)
{
mpz_t *zticks = bignum_integer (&mpz[0], ticks);
#if FASTER_TIMEFNS && TRILLION <= ULONG_MAX
mpz_mul_ui (mpz[0], *zticks, TRILLION);
#else
mpz_mul (mpz[0], *zticks, ztrillion);
#endif
mpz_fdiv_q (mpz[0], mpz[0], *bignum_integer (&mpz[1], hz));
#if FASTER_TIMEFNS && TRILLION <= ULONG_MAX
unsigned long int fullps = mpz_fdiv_q_ui (mpz[0], mpz[0], TRILLION);
int us = fullps / 1000000;
int ps = fullps % 1000000;
#else
mpz_fdiv_qr (mpz[0], mpz[1], mpz[0], ztrillion);
int ps = mpz_fdiv_q_ui (mpz[1], mpz[1], 1000000);
int us = mpz_get_ui (mpz[1]);
#endif
unsigned long ulo = mpz_get_ui (mpz[0]);
if (mpz_sgn (mpz[0]) < 0)
ulo = -ulo;
int lo = ulo & ((1 << LO_TIME_BITS) - 1);
mpz_fdiv_q_2exp (mpz[0], mpz[0], LO_TIME_BITS);
return list4 (make_integer_mpz (), make_fixnum (lo),
make_fixnum (us), make_fixnum (ps));
}
/* Set ROP to T. */
static void
mpz_set_time (mpz_t rop, time_t t)
{
if (EXPR_SIGNED (t))
mpz_set_intmax (rop, t);
else
mpz_set_uintmax (rop, t);
}
/* Store into mpz[0] a clock tick count for T, assuming a
TIMESPEC_HZ-frequency clock. Use mpz[1] as a temp. */
static void
timespec_mpz (struct timespec t)
{
mpz_set_ui (mpz[0], t.tv_nsec);
mpz_set_time (mpz[1], t.tv_sec);
mpz_addmul_ui (mpz[0], mpz[1], TIMESPEC_HZ);
}
/* Convert T to a Lisp integer counting TIMESPEC_HZ ticks. */
static Lisp_Object
timespec_ticks (struct timespec t)
{
intmax_t accum;
if (FASTER_TIMEFNS
&& !INT_MULTIPLY_WRAPV (t.tv_sec, TIMESPEC_HZ, &accum)
&& !INT_ADD_WRAPV (t.tv_nsec, accum, &accum))
return make_int (accum);
timespec_mpz (t);
return make_integer_mpz ();
}
/* Convert T to a Lisp integer counting HZ ticks, taking the floor.
Assume T is valid, but check HZ. */
static Lisp_Object
time_hz_ticks (time_t t, Lisp_Object hz)
{
if (FIXNUMP (hz))
{
if (XFIXNUM (hz) <= 0)
invalid_hz (hz);
intmax_t ticks;
if (FASTER_TIMEFNS && !INT_MULTIPLY_WRAPV (t, XFIXNUM (hz), &ticks))
return make_int (ticks);
}
else if (! (BIGNUMP (hz) && 0 < mpz_sgn (XBIGNUM (hz)->value)))
invalid_hz (hz);
mpz_set_time (mpz[0], t);
mpz_mul (mpz[0], mpz[0], *bignum_integer (&mpz[1], hz));
return make_integer_mpz ();
}
static Lisp_Object
lisp_time_hz_ticks (struct lisp_time t, Lisp_Object hz)
{
if (FASTER_TIMEFNS && EQ (t.hz, hz))
return t.ticks;
if (FIXNUMP (hz))
{
if (XFIXNUM (hz) <= 0)
invalid_hz (hz);
intmax_t ticks;
if (FASTER_TIMEFNS && FIXNUMP (t.ticks) && FIXNUMP (t.hz)
&& !INT_MULTIPLY_WRAPV (XFIXNUM (t.ticks), XFIXNUM (hz), &ticks))
return make_int (ticks / XFIXNUM (t.hz)
- (ticks % XFIXNUM (t.hz) < 0));
}
else if (! (BIGNUMP (hz) && 0 < mpz_sgn (XBIGNUM (hz)->value)))
invalid_hz (hz);
mpz_mul (mpz[0],
*bignum_integer (&mpz[0], t.ticks),
*bignum_integer (&mpz[1], hz));
mpz_fdiv_q (mpz[0], mpz[0], *bignum_integer (&mpz[1], t.hz));
return make_integer_mpz ();
}
/* Convert T to a Lisp integer counting seconds, taking the floor. */
static Lisp_Object
lisp_time_seconds (struct lisp_time t)
{
if (!FASTER_TIMEFNS)
return lisp_time_hz_ticks (t, make_fixnum (1));
if (FIXNUMP (t.ticks) && FIXNUMP (t.hz))
return make_fixnum (XFIXNUM (t.ticks) / XFIXNUM (t.hz)
- (XFIXNUM (t.ticks) % XFIXNUM (t.hz) < 0));
mpz_fdiv_q (mpz[0],
*bignum_integer (&mpz[0], t.ticks),
*bignum_integer (&mpz[1], t.hz));
return make_integer_mpz ();
}
/* Convert T to a Lisp timestamp. */
Lisp_Object
make_lisp_time (struct timespec t)
{
if (CURRENT_TIME_LIST)
{
time_t s = t.tv_sec;
int ns = t.tv_nsec;
return list4 (hi_time (s), lo_time (s),
make_fixnum (ns / 1000), make_fixnum (ns % 1000 * 1000));
}
else
return Fcons (timespec_ticks (t), timespec_hz);
}
/* Convert T to a Lisp timestamp. FORM specifies the timestamp format. */
static Lisp_Object
time_form_stamp (time_t t, Lisp_Object form)
{
if (NILP (form))
form = CURRENT_TIME_LIST ? Qlist : Qt;
if (EQ (form, Qlist))
return list2 (hi_time (t), lo_time (t));
if (EQ (form, Qt) || EQ (form, Qinteger))
return INT_TO_INTEGER (t);
return Fcons (time_hz_ticks (t, form), form);
}
static Lisp_Object
lisp_time_form_stamp (struct lisp_time t, Lisp_Object form)
{
if (NILP (form))
form = CURRENT_TIME_LIST ? Qlist : Qt;
if (EQ (form, Qlist))
return ticks_hz_list4 (t.ticks, t.hz);
if (EQ (form, Qinteger))
return lisp_time_seconds (t);
if (EQ (form, Qt))
form = t.hz;
return Fcons (lisp_time_hz_ticks (t, form), form);
}
/* From what should be a valid timestamp (TICKS . HZ), generate the
corresponding time values.
If RESULT is not null, store into *RESULT the converted time.
Otherwise, store into *DRESULT the number of seconds since the
start of the POSIX Epoch. Unsuccessful calls may or may not store
results.
Return zero if successful, an error number if (TICKS . HZ) would not
be a valid new-format timestamp. */
static int
decode_ticks_hz (Lisp_Object ticks, Lisp_Object hz,
struct lisp_time *result, double *dresult)
{
int ns;
mpz_t *q = &mpz[0];
if (! (INTEGERP (ticks)
&& ((FIXNUMP (hz) && 0 < XFIXNUM (hz))
|| (BIGNUMP (hz) && 0 < mpz_sgn (XBIGNUM (hz)->value)))))
return EINVAL;
if (result)
{
result->ticks = ticks;
result->hz = hz;
}
else
{
if (FASTER_TIMEFNS && EQ (hz, timespec_hz))
{
if (FIXNUMP (ticks))
{
verify (1 < TIMESPEC_HZ);
EMACS_INT s = XFIXNUM (ticks) / TIMESPEC_HZ;
ns = XFIXNUM (ticks) % TIMESPEC_HZ;
if (ns < 0)
s--, ns += TIMESPEC_HZ;
*dresult = s_ns_to_double (s, ns);
return 0;
}
ns = mpz_fdiv_q_ui (*q, XBIGNUM (ticks)->value, TIMESPEC_HZ);
}
else if (FASTER_TIMEFNS && EQ (hz, make_fixnum (1)))
{
ns = 0;
if (FIXNUMP (ticks))
{
*dresult = XFIXNUM (ticks);
return 0;
}
q = &XBIGNUM (ticks)->value;
}
else
{
mpz_mul_ui (*q, *bignum_integer (&mpz[1], ticks), TIMESPEC_HZ);
mpz_fdiv_q (*q, *q, *bignum_integer (&mpz[1], hz));
ns = mpz_fdiv_q_ui (*q, *q, TIMESPEC_HZ);
}
*dresult = s_ns_to_double (mpz_get_d (*q), ns);
}
return 0;
}
/* Lisp timestamp classification. */
enum timeform
{
TIMEFORM_INVALID = 0,
TIMEFORM_HI_LO, /* seconds in the form (HI << LO_TIME_BITS) + LO. */
TIMEFORM_HI_LO_US, /* seconds plus microseconds (HI LO US) */
TIMEFORM_NIL, /* current time in nanoseconds */
TIMEFORM_HI_LO_US_PS, /* seconds plus micro and picoseconds (HI LO US PS) */
TIMEFORM_FLOAT, /* time as a float */
TIMEFORM_TICKS_HZ /* fractional time: HI is ticks, LO is ticks per second */
};
/* From the valid form FORM and the time components HIGH, LOW, USEC
and PSEC, generate the corresponding time value. If LOW is
floating point, the other components should be zero and FORM should
not be TIMEFORM_TICKS_HZ.
If RESULT is not null, store into *RESULT the converted time.
Otherwise, store into *DRESULT the number of seconds since the
start of the POSIX Epoch. Unsuccessful calls may or may not store
results.
Return zero if successful, an error number otherwise. */
static int
decode_time_components (enum timeform form,
Lisp_Object high, Lisp_Object low,
Lisp_Object usec, Lisp_Object psec,
struct lisp_time *result, double *dresult)
{
switch (form)
{
case TIMEFORM_INVALID:
return EINVAL;
case TIMEFORM_TICKS_HZ:
return decode_ticks_hz (high, low, result, dresult);
case TIMEFORM_FLOAT:
{
double t = XFLOAT_DATA (low);
if (result)
return decode_float_time (t, result);
else
{
*dresult = t;
return 0;
}
}
case TIMEFORM_NIL:
{
struct timespec now = current_timespec ();
if (result)
{
result->ticks = timespec_ticks (now);
result->hz = timespec_hz;
}
else
*dresult = s_ns_to_double (now.tv_sec, now.tv_nsec);
return 0;
}
default:
break;
}
if (! (INTEGERP (high) && INTEGERP (low)
&& FIXNUMP (usec) && FIXNUMP (psec)))
return EINVAL;
EMACS_INT us = XFIXNUM (usec);
EMACS_INT ps = XFIXNUM (psec);
/* Normalize out-of-range lower-order components by carrying
each overflow into the next higher-order component. */
us += ps / 1000000 - (ps % 1000000 < 0);
mpz_set_intmax (mpz[0], us / 1000000 - (us % 1000000 < 0));
mpz_add (mpz[0], mpz[0], *bignum_integer (&mpz[1], low));
mpz_addmul_ui (mpz[0], *bignum_integer (&mpz[1], high), 1 << LO_TIME_BITS);
ps = ps % 1000000 + 1000000 * (ps % 1000000 < 0);
us = us % 1000000 + 1000000 * (us % 1000000 < 0);
if (result)
{
switch (form)
{
case TIMEFORM_HI_LO:
/* Floats and nil were handled above, so it was an integer. */
result->hz = make_fixnum (1);
break;
case TIMEFORM_HI_LO_US:
mpz_mul_ui (mpz[0], mpz[0], 1000000);
mpz_add_ui (mpz[0], mpz[0], us);
result->hz = make_fixnum (1000000);
break;
case TIMEFORM_HI_LO_US_PS:
mpz_mul_ui (mpz[0], mpz[0], 1000000);
mpz_add_ui (mpz[0], mpz[0], us);
mpz_mul_ui (mpz[0], mpz[0], 1000000);
mpz_add_ui (mpz[0], mpz[0], ps);
result->hz = trillion;
break;
default:
eassume (false);
}
result->ticks = make_integer_mpz ();
}
else
*dresult = mpz_get_d (mpz[0]) + (us * 1e6L + ps) / 1e12L;
return 0;
}
enum { DECODE_SECS_ONLY = WARN_OBSOLETE_TIMESTAMPS + 1 };
/* Decode a Lisp timestamp SPECIFIED_TIME that represents a time.
FLAGS specifies conversion flags. If FLAGS & DECODE_SECS_ONLY,
ignore and do not validate any sub-second components of an
old-format SPECIFIED_TIME. If FLAGS & WARN_OBSOLETE_TIMESTAMPS,
diagnose what could be obsolete (HIGH . LOW) timestamps.
If PFORM is not null, store into *PFORM the form of SPECIFIED-TIME.
If RESULT is not null, store into *RESULT the converted time;
otherwise, store into *DRESULT the number of seconds since the
start of the POSIX Epoch. Unsuccessful calls may or may not store
results.
Signal an error if unsuccessful. */
static void
decode_lisp_time (Lisp_Object specified_time, int flags,
enum timeform *pform,
struct lisp_time *result, double *dresult)
{
Lisp_Object high = make_fixnum (0);
Lisp_Object low = specified_time;
Lisp_Object usec = make_fixnum (0);
Lisp_Object psec = make_fixnum (0);
enum timeform form = TIMEFORM_HI_LO;
if (NILP (specified_time))
form = TIMEFORM_NIL;
else if (FLOATP (specified_time))
form = TIMEFORM_FLOAT;
else if (CONSP (specified_time))
{
high = XCAR (specified_time);
low = XCDR (specified_time);
if (CONSP (low))
{
Lisp_Object low_tail = XCDR (low);
low = XCAR (low);
if (! (flags & DECODE_SECS_ONLY))
{
if (CONSP (low_tail))
{
usec = XCAR (low_tail);
low_tail = XCDR (low_tail);
if (CONSP (low_tail))
{
psec = XCAR (low_tail);
form = TIMEFORM_HI_LO_US_PS;
}
else
form = TIMEFORM_HI_LO_US;
}
else if (!NILP (low_tail))
{
usec = low_tail;
form = TIMEFORM_HI_LO_US;
}
}
}
else
{
if (flags & WARN_OBSOLETE_TIMESTAMPS
&& RANGED_FIXNUMP (0, low, (1 << LO_TIME_BITS) - 1))
message ("obsolete timestamp with cdr %"pI"d", XFIXNUM (low));
form = TIMEFORM_TICKS_HZ;
}
/* Require LOW to be an integer, as otherwise the computation
would be considerably trickier. */
if (! INTEGERP (low))
form = TIMEFORM_INVALID;
}
if (pform)
*pform = form;
int err = decode_time_components (form, high, low, usec, psec,
result, dresult);
if (err)
time_error (err);
}
/* Convert Z to time_t, returning true if it fits. */
static bool
mpz_time (mpz_t const z, time_t *t)
{
if (TYPE_SIGNED (time_t))
{
intmax_t i;
if (! (mpz_to_intmax (z, &i) && TIME_T_MIN <= i && i <= TIME_T_MAX))
return false;
*t = i;
}
else
{
uintmax_t i;
if (! (mpz_to_uintmax (z, &i) && i <= TIME_T_MAX))
return false;
*t = i;
}
return true;
}
/* Convert T to struct timespec, returning an invalid timespec
if T does not fit. */
static struct timespec
lisp_to_timespec (struct lisp_time t)
{
struct timespec result = invalid_timespec ();
int ns;
mpz_t *q = &mpz[0];
if (FASTER_TIMEFNS && EQ (t.hz, timespec_hz))
{
if (FIXNUMP (t.ticks))
{
EMACS_INT s = XFIXNUM (t.ticks) / TIMESPEC_HZ;
ns = XFIXNUM (t.ticks) % TIMESPEC_HZ;
if (ns < 0)
s--, ns += TIMESPEC_HZ;
if ((TYPE_SIGNED (time_t) ? TIME_T_MIN <= s : 0 <= s)
&& s <= TIME_T_MAX)
{
result.tv_sec = s;
result.tv_nsec = ns;
}
return result;
}
else
ns = mpz_fdiv_q_ui (*q, XBIGNUM (t.ticks)->value, TIMESPEC_HZ);
}
else if (FASTER_TIMEFNS && EQ (t.hz, make_fixnum (1)))
{
ns = 0;
if (FIXNUMP (t.ticks))
{
EMACS_INT s = XFIXNUM (t.ticks);
if ((TYPE_SIGNED (time_t) ? TIME_T_MIN <= s : 0 <= s)
&& s <= TIME_T_MAX)
{
result.tv_sec = s;
result.tv_nsec = ns;
}
return result;
}
else
q = &XBIGNUM (t.ticks)->value;
}
else
{
mpz_mul_ui (*q, *bignum_integer (q, t.ticks), TIMESPEC_HZ);
mpz_fdiv_q (*q, *q, *bignum_integer (&mpz[1], t.hz));
ns = mpz_fdiv_q_ui (*q, *q, TIMESPEC_HZ);
}
/* With some versions of MinGW, tv_sec is a 64-bit type, whereas
time_t is a 32-bit type. */
time_t sec;
if (mpz_time (*q, &sec))
{
result.tv_sec = sec;
result.tv_nsec = ns;
}
return result;
}
/* Convert (HIGH LOW USEC PSEC) to struct timespec.
Return true if successful. */
bool
list4_to_timespec (Lisp_Object high, Lisp_Object low,
Lisp_Object usec, Lisp_Object psec,
struct timespec *result)
{
struct lisp_time t;
if (decode_time_components (TIMEFORM_HI_LO_US_PS, high, low, usec, psec,
&t, 0))
return false;
*result = lisp_to_timespec (t);
return timespec_valid_p (*result);
}
/* Decode a Lisp list SPECIFIED_TIME that represents a time.
If SPECIFIED_TIME is nil, use the current time.
Signal an error if SPECIFIED_TIME does not represent a time. */
static struct lisp_time
lisp_time_struct (Lisp_Object specified_time, enum timeform *pform)
{
struct lisp_time t;
decode_lisp_time (specified_time, WARN_OBSOLETE_TIMESTAMPS, pform, &t, 0);
return t;
}
/* Decode a Lisp list SPECIFIED_TIME that represents a time.
Discard any low-order (sub-ns) resolution.
If SPECIFIED_TIME is nil, use the current time.
Signal an error if SPECIFIED_TIME does not represent a timespec. */
struct timespec
lisp_time_argument (Lisp_Object specified_time)
{
struct lisp_time lt = lisp_time_struct (specified_time, 0);
struct timespec t = lisp_to_timespec (lt);
if (! timespec_valid_p (t))
time_overflow ();
return t;
}
/* Like lisp_time_argument, except decode only the seconds part, and
do not check the subseconds part. */
static time_t
lisp_seconds_argument (Lisp_Object specified_time)
{
int flags = WARN_OBSOLETE_TIMESTAMPS | DECODE_SECS_ONLY;
struct lisp_time lt;
decode_lisp_time (specified_time, flags, 0, <, 0);
struct timespec t = lisp_to_timespec (lt);
if (! timespec_valid_p (t))
time_overflow ();
return t.tv_sec;
}
/* Given Lisp operands A and B, add their values, and return the
result as a Lisp timestamp that is in (TICKS . HZ) form if either A
or B are in that form, (HI LO US PS) form otherwise. Subtract
instead of adding if SUBTRACT. */
static Lisp_Object
time_arith (Lisp_Object a, Lisp_Object b, bool subtract)
{
if (FLOATP (a) && !isfinite (XFLOAT_DATA (a)))
{
double da = XFLOAT_DATA (a);
double db = XFLOAT_DATA (Ffloat_time (b));
return make_float (subtract ? da - db : da + db);
}
if (FLOATP (b) && !isfinite (XFLOAT_DATA (b)))
return subtract ? make_float (-XFLOAT_DATA (b)) : b;
enum timeform aform, bform;
struct lisp_time ta = lisp_time_struct (a, &aform);
struct lisp_time tb = lisp_time_struct (b, &bform);
Lisp_Object ticks, hz;
if (FASTER_TIMEFNS && EQ (ta.hz, tb.hz))
{
hz = ta.hz;
if (FIXNUMP (ta.ticks) && FIXNUMP (tb.ticks))
ticks = make_int (subtract
? XFIXNUM (ta.ticks) - XFIXNUM (tb.ticks)
: XFIXNUM (ta.ticks) + XFIXNUM (tb.ticks));
else
{
(subtract ? mpz_sub : mpz_add)
(mpz[0],
*bignum_integer (&mpz[0], ta.ticks),
*bignum_integer (&mpz[1], tb.ticks));
ticks = make_integer_mpz ();
}
}
else
{
/* The plan is to decompose ta into na/da and tb into nb/db.
Start by computing da and db. */
mpz_t *da = bignum_integer (&mpz[1], ta.hz);
mpz_t *db = bignum_integer (&mpz[2], tb.hz);
/* The plan is to compute (na * (db/g) + nb * (da/g)) / lcm (da, db)
where g = gcd (da, db). Start by computing g. */
mpz_t *g = &mpz[3];
mpz_gcd (*g, *da, *db);
/* fa = da/g, fb = db/g. */
mpz_t *fa = &mpz[1], *fb = &mpz[3];
mpz_tdiv_q (*fa, *da, *g);
mpz_tdiv_q (*fb, *db, *g);
/* FIXME: Maybe omit need for extra temp by computing fa * db here? */
/* hz = fa * db. This is equal to lcm (da, db). */
mpz_mul (mpz[0], *fa, *db);
hz = make_integer_mpz ();
/* ticks = (fb * na) OPER (fa * nb), where OPER is + or -.
OP is the multiply-add or multiply-sub form of OPER. */
mpz_t *na = bignum_integer (&mpz[0], ta.ticks);
mpz_mul (mpz[0], *fb, *na);
mpz_t *nb = bignum_integer (&mpz[3], tb.ticks);
(subtract ? mpz_submul : mpz_addmul) (mpz[0], *fa, *nb);
ticks = make_integer_mpz ();
}
/* Return the (TICKS . HZ) form if either argument is that way,
otherwise the (HI LO US PS) form for backward compatibility. */
return (aform == TIMEFORM_TICKS_HZ || bform == TIMEFORM_TICKS_HZ
? Fcons (ticks, hz)
: ticks_hz_list4 (ticks, hz));
}
DEFUN ("time-add", Ftime_add, Stime_add, 2, 2, 0,
doc: /* Return the sum of two time values A and B, as a time value.
See `format-time-string' for the various forms of a time value.
For example, nil stands for the current time. */)
(Lisp_Object a, Lisp_Object b)
{
return time_arith (a, b, false);
}
DEFUN ("time-subtract", Ftime_subtract, Stime_subtract, 2, 2, 0,
doc: /* Return the difference between two time values A and B, as a time value.
You can use `float-time' to convert the difference into elapsed seconds.
See `format-time-string' for the various forms of a time value.
For example, nil stands for the current time. */)
(Lisp_Object a, Lisp_Object b)
{
return time_arith (a, b, true);
}
/* Return negative, 0, positive if a < b, a == b, a > b respectively.
Return positive if either a or b is a NaN; this is good enough
for the current callers. */
static int
time_cmp (Lisp_Object a, Lisp_Object b)
{
if ((FLOATP (a) && !isfinite (XFLOAT_DATA (a)))
|| (FLOATP (b) && !isfinite (XFLOAT_DATA (b))))
{
double da = FLOATP (a) ? XFLOAT_DATA (a) : 0;
double db = FLOATP (b) ? XFLOAT_DATA (b) : 0;
return da < db ? -1 : da != db;
}
struct lisp_time ta = lisp_time_struct (a, 0);
/* Compare nil to nil correctly, and other eq values while we're at it.
Compare here rather than earlier, to handle NaNs and check formats. */
if (EQ (a, b))
return 0;
struct lisp_time tb = lisp_time_struct (b, 0);
mpz_t *za = bignum_integer (&mpz[0], ta.ticks);
mpz_t *zb = bignum_integer (&mpz[1], tb.ticks);
if (! (FASTER_TIMEFNS && EQ (ta.hz, tb.hz)))
{
/* This could be sped up by looking at the signs, sizes, and
number of bits of the two sides; see how GMP does mpq_cmp.
It may not be worth the trouble here, though. */
mpz_mul (mpz[0], *za, *bignum_integer (&mpz[2], tb.hz));
mpz_mul (mpz[1], *zb, *bignum_integer (&mpz[2], ta.hz));
za = &mpz[0];
zb = &mpz[1];
}
return mpz_cmp (*za, *zb);
}
DEFUN ("time-less-p", Ftime_less_p, Stime_less_p, 2, 2, 0,
doc: /* Return non-nil if time value A is less than time value B.
See `format-time-string' for the various forms of a time value.
For example, nil stands for the current time. */)
(Lisp_Object a, Lisp_Object b)
{
return time_cmp (a, b) < 0 ? Qt : Qnil;
}
DEFUN ("time-equal-p", Ftime_equal_p, Stime_equal_p, 2, 2, 0,
doc: /* Return non-nil if A and B are equal time values.
See `format-time-string' for the various forms of a time value. */)
(Lisp_Object a, Lisp_Object b)
{
return time_cmp (a, b) == 0 ? Qt : Qnil;
}
\f
DEFUN ("float-time", Ffloat_time, Sfloat_time, 0, 1, 0,
doc: /* Return the current time, as a float number of seconds since the epoch.
If SPECIFIED-TIME is given, it is a time value to convert to float
instead of the current time. See `format-time-string' for the various
forms of a time value.
WARNING: Since the result is floating point, it may not be exact.
If precise time stamps are required, use either `encode-time',
or (if you need time as a string) `format-time-string'. */)
(Lisp_Object specified_time)
{
double t;
decode_lisp_time (specified_time, 0, 0, 0, &t);
return make_float (t);
}
/* Write information into buffer S of size MAXSIZE, according to the
FORMAT of length FORMAT_LEN, using time information taken from *TP.
Use the time zone specified by TZ.
Use NS as the number of nanoseconds in the %N directive.
Return the number of bytes written, not including the terminating
'\0'. If S is NULL, nothing will be written anywhere; so to
determine how many bytes would be written, use NULL for S and
((size_t) -1) for MAXSIZE.
This function behaves like nstrftime, except it allows NUL
bytes in FORMAT and it does not support nanoseconds. */
static size_t
emacs_nmemftime (char *s, size_t maxsize, const char *format,
size_t format_len, const struct tm *tp, timezone_t tz, int ns)
{
size_t total = 0;
/* Loop through all the NUL-terminated strings in the format
argument. Normally there's just one NUL-terminated string, but
there can be arbitrarily many, concatenated together, if the
format contains '\0' bytes. nstrftime stops at the first
'\0' byte so we must invoke it separately for each such string. */
for (;;)
{
size_t len;
size_t result;
if (s)
s[0] = '\1';
result = nstrftime (s, maxsize, format, tp, tz, ns);
if (s)
{
if (result == 0 && s[0] != '\0')
return 0;
s += result + 1;
}
maxsize -= result + 1;
total += result;
len = strlen (format);
if (len == format_len)
return total;
total++;
format += len + 1;
format_len -= len + 1;
}
}
static Lisp_Object
format_time_string (char const *format, ptrdiff_t formatlen,
struct timespec t, Lisp_Object zone, struct tm *tmp)
{
char buffer[4000];
char *buf = buffer;
ptrdiff_t size = sizeof buffer;
size_t len;
int ns = t.tv_nsec;
USE_SAFE_ALLOCA;
timezone_t tz = tzlookup (zone, false);
/* On some systems, like 32-bit MinGW, tv_sec of struct timespec is
a 64-bit type, but time_t is a 32-bit type. emacs_localtime_rz
expects a pointer to time_t value. */
time_t tsec = t.tv_sec;
tmp = emacs_localtime_rz (tz, &tsec, tmp);
if (! tmp)
{
int localtime_errno = errno;
xtzfree (tz);
time_error (localtime_errno);
}
synchronize_system_time_locale ();
while (true)
{
buf[0] = '\1';
len = emacs_nmemftime (buf, size, format, formatlen, tmp, tz, ns);
if ((0 < len && len < size) || (len == 0 && buf[0] == '\0'))
break;
/* Buffer was too small, so make it bigger and try again. */
len = emacs_nmemftime (NULL, SIZE_MAX, format, formatlen, tmp, tz, ns);
if (STRING_BYTES_BOUND <= len)
{
xtzfree (tz);
string_overflow ();
}
size = len + 1;
buf = SAFE_ALLOCA (size);
}
xtzfree (tz);
AUTO_STRING_WITH_LEN (bufstring, buf, len);
Lisp_Object result = code_convert_string_norecord (bufstring,
Vlocale_coding_system, 0);
SAFE_FREE ();
return result;
}
DEFUN ("format-time-string", Fformat_time_string, Sformat_time_string, 1, 3, 0,
doc: /* Use FORMAT-STRING to format the time value TIME.
A time value that is omitted or nil stands for the current time,
a number stands for that many seconds, an integer pair (TICKS . HZ)
stands for TICKS/HZ seconds, and an integer list (HI LO US PS) stands
for HI*2**16 + LO + US/10**6 + PS/10**12 seconds. This function
treats seconds as time since the epoch of 1970-01-01 00:00:00 UTC.
The optional ZONE is omitted or nil for Emacs local time, t for
Universal Time, `wall' for system wall clock time, or a string as in
the TZ environment variable. It can also be a list (as from
`current-time-zone') or an integer (as from `decode-time') applied
without consideration for daylight saving time.
The value is a copy of FORMAT-STRING, but with certain constructs replaced
by text that describes the specified date and time in TIME:
%Y is the year, %y within the century, %C the century.
%G is the year corresponding to the ISO week, %g within the century.
%m is the numeric month.
%b and %h are the locale's abbreviated month name, %B the full name.
(%h is not supported on MS-Windows.)
%d is the day of the month, zero-padded, %e is blank-padded.
%u is the numeric day of week from 1 (Monday) to 7, %w from 0 (Sunday) to 6.
%a is the locale's abbreviated name of the day of week, %A the full name.
%U is the week number starting on Sunday, %W starting on Monday,
%V according to ISO 8601.
%j is the day of the year.
%H is the hour on a 24-hour clock, %I is on a 12-hour clock, %k is like %H
only blank-padded, %l is like %I blank-padded.
%p is the locale's equivalent of either AM or PM.
%q is the calendar quarter (1–4).
%M is the minute (00-59).
%S is the second (00-59; 00-60 on platforms with leap seconds)
%s is the number of seconds since 1970-01-01 00:00:00 +0000.
%N is the nanosecond, %6N the microsecond, %3N the millisecond, etc.
%Z is the time zone abbreviation, %z is the numeric form.
%c is the locale's date and time format.
%x is the locale's "preferred" date format.
%D is like "%m/%d/%y".
%F is the ISO 8601 date format (like "%+4Y-%m-%d").
%R is like "%H:%M", %T is like "%H:%M:%S", %r is like "%I:%M:%S %p".
%X is the locale's "preferred" time format.
Finally, %n is a newline, %t is a tab, %% is a literal %, and
unrecognized %-sequences stand for themselves.
A %-sequence can contain optional flags, field width, and a modifier
(in that order) after the `%'. The flags are:
`-' Do not pad the field.
`_' Pad with spaces.
`0' Pad with zeros.
`+' Pad with zeros and put `+' before nonnegative year numbers with >4 digits.
`^' Use upper case characters if possible.
`#' Use opposite case characters if possible.
A field width N is an unsigned decimal integer with a leading digit nonzero.
%NX is like %X, but takes up at least N positions.
The modifiers are:
`E' Use the locale's alternative version.
`O' Use the locale's number symbols.
For example, to produce full ISO 8601 format, use "%FT%T%z".
usage: (format-time-string FORMAT-STRING &optional TIME ZONE) */)
(Lisp_Object format_string, Lisp_Object timeval, Lisp_Object zone)
{
struct timespec t = lisp_time_argument (timeval);
struct tm tm;
CHECK_STRING (format_string);
format_string = code_convert_string_norecord (format_string,
Vlocale_coding_system, 1);
return format_time_string (SSDATA (format_string), SBYTES (format_string),
t, zone, &tm);
}
DEFUN ("decode-time", Fdecode_time, Sdecode_time, 0, 2, 0,
doc: /* Decode a time value as (SEC MINUTE HOUR DAY MONTH YEAR DOW DST UTCOFF).
The optional TIME is the time value to convert. See
`format-time-string' for the various forms of a time value.
The optional ZONE is omitted or nil for Emacs local time, t for
Universal Time, `wall' for system wall clock time, or a string as in
the TZ environment variable. It can also be a list (as from
`current-time-zone') or an integer (the UTC offset in seconds) applied
without consideration for daylight saving time.
The list has the following nine members: SEC is an integer between 0
and 60; SEC is 60 for a leap second, which only some operating systems
support. MINUTE is an integer between 0 and 59. HOUR is an integer
between 0 and 23. DAY is an integer between 1 and 31. MONTH is an
integer between 1 and 12. YEAR is an integer indicating the
four-digit year. DOW is the day of week, an integer between 0 and 6,
where 0 is Sunday. DST is t if daylight saving time is in effect,
nil if it is not in effect, and -1 if daylight saving information is
not available. UTCOFF is an integer indicating the UTC offset in
seconds, i.e., the number of seconds east of Greenwich. (Note that
Common Lisp has different meanings for DOW and UTCOFF.)
usage: (decode-time &optional TIME ZONE) */)
(Lisp_Object specified_time, Lisp_Object zone)
{
time_t time_spec = lisp_seconds_argument (specified_time);
struct tm local_tm, gmt_tm;
timezone_t tz = tzlookup (zone, false);
struct tm *tm = emacs_localtime_rz (tz, &time_spec, &local_tm);
int localtime_errno = errno;
xtzfree (tz);
if (!tm)
time_error (localtime_errno);
Lisp_Object year;
if (FASTER_TIMEFNS
&& MOST_NEGATIVE_FIXNUM - TM_YEAR_BASE <= local_tm.tm_year
&& local_tm.tm_year <= MOST_POSITIVE_FIXNUM - TM_YEAR_BASE)
{
/* Avoid overflow when INT_MAX - TM_YEAR_BASE < local_tm.tm_year. */
EMACS_INT tm_year_base = TM_YEAR_BASE;
year = make_fixnum (local_tm.tm_year + tm_year_base);
}
else
{
mpz_set_si (mpz[0], local_tm.tm_year);
mpz_add_ui (mpz[0], mpz[0], TM_YEAR_BASE);
year = make_integer_mpz ();
}
return CALLN (Flist,
make_fixnum (local_tm.tm_sec),
make_fixnum (local_tm.tm_min),
make_fixnum (local_tm.tm_hour),
make_fixnum (local_tm.tm_mday),
make_fixnum (local_tm.tm_mon + 1),
year,
make_fixnum (local_tm.tm_wday),
(local_tm.tm_isdst < 0 ? make_fixnum (-1)
: local_tm.tm_isdst == 0 ? Qnil : Qt),
(HAVE_TM_GMTOFF
? make_fixnum (tm_gmtoff (&local_tm))
: gmtime_r (&time_spec, &gmt_tm)
? make_fixnum (tm_diff (&local_tm, &gmt_tm))
: Qnil));
}
/* Return OBJ - OFFSET, checking that OBJ is a valid integer and that
the result is representable as an int. 0 <= OFFSET <= TM_YEAR_BASE. */
static int
check_tm_member (Lisp_Object obj, int offset)
{
if (FASTER_TIMEFNS && INT_MAX <= MOST_POSITIVE_FIXNUM - TM_YEAR_BASE)
{
CHECK_FIXNUM (obj);
EMACS_INT n = XFIXNUM (obj);
int i;
if (INT_SUBTRACT_WRAPV (n, offset, &i))
time_overflow ();
return i;
}
else
{
CHECK_INTEGER (obj);
mpz_sub_ui (mpz[0], *bignum_integer (&mpz[0], obj), offset);
intmax_t i;
if (! (mpz_to_intmax (mpz[0], &i) && INT_MIN <= i && i <= INT_MAX))
time_overflow ();
return i;
}
}
DEFUN ("encode-time", Fencode_time, Sencode_time, 1, MANY, 0,
doc: /* Convert optional TIME to a timestamp.
Optional FORM specifies how the returned value should be encoded.
This can act as the reverse operation of `decode-time', which see.
If TIME is a list (SECOND MINUTE HOUR DAY MONTH YEAR IGNORED DST ZONE)
it is a decoded time in the style of `decode-time', so that (encode-time
(decode-time ...)) works. TIME can also be a time value.
See `format-time-string' for the various forms of a time value.
For example, an omitted TIME stands for the current time.
If FORM is a positive integer, the time is returned as a pair of
integers (TICKS . FORM), where TICKS is the number of clock ticks and FORM
is the clock frequency in ticks per second. (Currently the positive
integer should be at least 65536 if the returned value is expected to
be given to standard functions expecting Lisp timestamps.) If FORM is
t, the time is returned as (TICKS . PHZ), where PHZ is a platform dependent
clock frequency in ticks per second. If FORM is `integer', the time is
returned as an integer count of seconds. If FORM is `list', the time is
returned as an integer list (HIGH LOW USEC PSEC), where HIGH has the
most significant bits of the seconds, LOW has the least significant 16
bits, and USEC and PSEC are the microsecond and picosecond counts.
Returned values are rounded toward minus infinity. Although an
omitted or nil FORM currently acts like `list', this is planned to
change, so callers requiring list timestamps should specify `list'.
As an obsolescent calling convention, if this function is called with
6 or more arguments, the first 6 arguments are SECOND, MINUTE, HOUR,
DAY, MONTH, and YEAR, and specify the components of a decoded time,
where DST assumed to be -1 and FORM is omitted. If there are more
than 6 arguments the *last* argument is used as ZONE and any other
extra arguments are ignored, so that (apply #\\='encode-time
(decode-time ...)) works; otherwise ZONE is assumed to be nil.
If the input is a decoded time, ZONE is nil for Emacs local time, t
for Universal Time, `wall' for system wall clock time, or a string as
in the TZ environment variable. It can also be a list (as from
`current-time-zone') or an integer (as from `decode-time') applied
without consideration for daylight saving time.
If the input is a decoded time and ZONE specifies a time zone with
daylight-saving transitions, DST is t for daylight saving time and nil
for standard time. If DST is -1, the daylight saving flag is guessed.
Out-of-range values for SECOND, MINUTE, HOUR, DAY, or MONTH are allowed;
for example, a DAY of 0 means the day preceding the given month.
Year numbers less than 100 are treated just like other year numbers.
If you want them to stand for years in this century, you must do that yourself.
Years before 1970 are not guaranteed to work. On some systems,
year values as low as 1901 do work.
usage: (encode-time &optional TIME FORM &rest OBSOLESCENT-ARGUMENTS) */)
(ptrdiff_t nargs, Lisp_Object *args)
{
struct tm tm;
Lisp_Object form = Qnil, zone = Qnil;
Lisp_Object a = args[0];
tm.tm_isdst = -1;
if (nargs <= 2)
{
if (nargs == 2)
form = args[1];
Lisp_Object tail = a;
for (int i = 0; i < 9; i++, tail = XCDR (tail))
if (! CONSP (tail))
{
struct lisp_time t;
decode_lisp_time (a, 0, 0, &t, 0);
return lisp_time_form_stamp (t, form);
}
tm.tm_sec = check_tm_member (XCAR (a), 0); a = XCDR (a);
tm.tm_min = check_tm_member (XCAR (a), 0); a = XCDR (a);
tm.tm_hour = check_tm_member (XCAR (a), 0); a = XCDR (a);
tm.tm_mday = check_tm_member (XCAR (a), 0); a = XCDR (a);
tm.tm_mon = check_tm_member (XCAR (a), 1); a = XCDR (a);
tm.tm_year = check_tm_member (XCAR (a), TM_YEAR_BASE); a = XCDR (a);
a = XCDR (a);
if (SYMBOLP (XCAR (a)))
tm.tm_isdst = !NILP (XCAR (a));
a = XCDR (a);
zone = XCAR (a);
}
else if (nargs < 6)
xsignal2 (Qwrong_number_of_arguments, Qencode_time, make_fixnum (nargs));
else
{
if (6 < nargs)
zone = args[nargs - 1];
tm.tm_sec = check_tm_member (a, 0);
tm.tm_min = check_tm_member (args[1], 0);
tm.tm_hour = check_tm_member (args[2], 0);
tm.tm_mday = check_tm_member (args[3], 0);
tm.tm_mon = check_tm_member (args[4], 1);
tm.tm_year = check_tm_member (args[5], TM_YEAR_BASE);
}
timezone_t tz = tzlookup (zone, false);
tm.tm_wday = -1;
time_t value = mktime_z (tz, &tm);
int mktime_errno = errno;
xtzfree (tz);
if (tm.tm_wday < 0)
time_error (mktime_errno);
return time_form_stamp (value, form);
}
DEFUN ("current-time", Fcurrent_time, Scurrent_time, 0, 0, 0,
doc: /* Return the current time, as the number of seconds since 1970-01-01 00:00:00.
The time is returned as a list of integers (HIGH LOW USEC PSEC).
HIGH has the most significant bits of the seconds, while LOW has the
least significant 16 bits. USEC and PSEC are the microsecond and
picosecond counts. Use `encode-time' if you need a particular
timestamp form; for example, (encode-time nil \\='integer) returns the
current time in seconds. */)
(void)
{
return make_lisp_time (current_timespec ());
}
DEFUN ("current-time-string", Fcurrent_time_string, Scurrent_time_string,
0, 2, 0,
doc: /* Return the current local time, as a human-readable string.
Programs can use this function to decode a time,
since the number of columns in each field is fixed
if the year is in the range 1000-9999.
The format is `Sun Sep 16 01:03:52 1973'.
However, see also the functions `decode-time' and `format-time-string'
which provide a much more powerful and general facility.
If SPECIFIED-TIME is given, it is the time value to format instead of
the current time. See `format-time-string' for the various forms of a
time value.
The optional ZONE is omitted or nil for Emacs local time, t for
Universal Time, `wall' for system wall clock time, or a string as in
the TZ environment variable. It can also be a list (as from
`current-time-zone') or an integer (as from `decode-time') applied
without consideration for daylight saving time. */)
(Lisp_Object specified_time, Lisp_Object zone)
{
time_t value = lisp_seconds_argument (specified_time);
timezone_t tz = tzlookup (zone, false);
/* Convert to a string in ctime format, except without the trailing
newline, and without the 4-digit year limit. Don't use asctime
or ctime, as they might dump core if the year is outside the
range -999 .. 9999. */
struct tm tm;
struct tm *tmp = emacs_localtime_rz (tz, &value, &tm);
int localtime_errno = errno;
xtzfree (tz);
if (! tmp)
time_error (localtime_errno);
static char const wday_name[][4] =
{ "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" };
static char const mon_name[][4] =
{ "Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec" };
printmax_t year_base = TM_YEAR_BASE;
char buf[sizeof "Mon Apr 30 12:49:17 " + INT_STRLEN_BOUND (int) + 1];
int len = sprintf (buf, "%s %s%3d %02d:%02d:%02d %"pMd,
wday_name[tm.tm_wday], mon_name[tm.tm_mon], tm.tm_mday,
tm.tm_hour, tm.tm_min, tm.tm_sec,
tm.tm_year + year_base);
return make_unibyte_string (buf, len);
}
DEFUN ("current-time-zone", Fcurrent_time_zone, Scurrent_time_zone, 0, 2, 0,
doc: /* Return the offset and name for the local time zone.
This returns a list of the form (OFFSET NAME).
OFFSET is an integer number of seconds ahead of UTC (east of Greenwich).
A negative value means west of Greenwich.
NAME is a string giving the name of the time zone.
If SPECIFIED-TIME is given, the time zone offset is determined from it
instead of using the current time. The argument should be a Lisp
time value; see `format-time-string' for the various forms of a time
value.
The optional ZONE is omitted or nil for Emacs local time, t for
Universal Time, `wall' for system wall clock time, or a string as in
the TZ environment variable. It can also be a list (as from
`current-time-zone') or an integer (as from `decode-time') applied
without consideration for daylight saving time.
Some operating systems cannot provide all this information to Emacs;
in this case, `current-time-zone' returns a list containing nil for
the data it can't find. */)
(Lisp_Object specified_time, Lisp_Object zone)
{
struct timespec value;
struct tm local_tm, gmt_tm;
Lisp_Object zone_offset, zone_name;
zone_offset = Qnil;
value = make_timespec (lisp_seconds_argument (specified_time), 0);
zone_name = format_time_string ("%Z", sizeof "%Z" - 1, value,
zone, &local_tm);
/* gmtime_r expects a pointer to time_t, but tv_sec of struct
timespec on some systems (MinGW) is a 64-bit field. */
time_t tsec = value.tv_sec;
if (HAVE_TM_GMTOFF || gmtime_r (&tsec, &gmt_tm))
{
long int offset = (HAVE_TM_GMTOFF
? tm_gmtoff (&local_tm)
: tm_diff (&local_tm, &gmt_tm));
zone_offset = make_fixnum (offset);
if (SCHARS (zone_name) == 0)
{
/* No local time zone name is available; use numeric zone instead. */
long int hour = offset / 3600;
int min_sec = offset % 3600;
int amin_sec = min_sec < 0 ? - min_sec : min_sec;
int min = amin_sec / 60;
int sec = amin_sec % 60;
int min_prec = min_sec ? 2 : 0;
int sec_prec = sec ? 2 : 0;
char buf[sizeof "+0000" + INT_STRLEN_BOUND (long int)];
zone_name = make_formatted_string (buf, "%c%.2ld%.*d%.*d",
(offset < 0 ? '-' : '+'),
hour, min_prec, min, sec_prec, sec);
}
}
return list2 (zone_offset, zone_name);
}
DEFUN ("set-time-zone-rule", Fset_time_zone_rule, Sset_time_zone_rule, 1, 1, 0,
doc: /* Set the Emacs local time zone using TZ, a string specifying a time zone rule.
If TZ is nil or `wall', use system wall clock time; this differs from
the usual Emacs convention where nil means current local time. If TZ
is t, use Universal Time. If TZ is a list (as from
`current-time-zone') or an integer (as from `decode-time'), use the
specified time zone without consideration for daylight saving time.
Instead of calling this function, you typically want something else.
To temporarily use a different time zone rule for just one invocation
of `decode-time', `encode-time', or `format-time-string', pass the
function a ZONE argument. To change local time consistently
throughout Emacs, call (setenv "TZ" TZ): this changes both the
environment of the Emacs process and the variable
`process-environment', whereas `set-time-zone-rule' affects only the
former. */)
(Lisp_Object tz)
{
tzlookup (NILP (tz) ? Qwall : tz, true);
return Qnil;
}
/* A buffer holding a string of the form "TZ=value", intended
to be part of the environment. If TZ is supposed to be unset,
the buffer string is "tZ=". */
static char *tzvalbuf;
/* Get the local time zone rule. */
char *
emacs_getenv_TZ (void)
{
return tzvalbuf[0] == 'T' ? tzvalbuf + tzeqlen : 0;
}
/* Set the local time zone rule to TZSTRING, which can be null to
denote wall clock time. Do not record the setting in LOCAL_TZ.
This function is not thread-safe, in theory because putenv is not,
but mostly because of the static storage it updates. Other threads
that invoke localtime etc. may be adversely affected while this
function is executing. */
int
emacs_setenv_TZ (const char *tzstring)
{
static ptrdiff_t tzvalbufsize;
ptrdiff_t tzstringlen = tzstring ? strlen (tzstring) : 0;
char *tzval = tzvalbuf;
bool new_tzvalbuf = tzvalbufsize <= tzeqlen + tzstringlen;
if (new_tzvalbuf)
{
/* Do not attempt to free the old tzvalbuf, since another thread
may be using it. In practice, the first allocation is large
enough and memory does not leak. */
tzval = xpalloc (NULL, &tzvalbufsize,
tzeqlen + tzstringlen - tzvalbufsize + 1, -1, 1);
tzvalbuf = tzval;
tzval[1] = 'Z';
tzval[2] = '=';
}
if (tzstring)
{
/* Modify TZVAL in place. Although this is dicey in a
multithreaded environment, we know of no portable alternative.
Calling putenv or setenv could crash some other thread. */
tzval[0] = 'T';
strcpy (tzval + tzeqlen, tzstring);
}
else
{
/* Turn 'TZ=whatever' into an empty environment variable 'tZ='.
Although this is also dicey, calling unsetenv here can crash Emacs.
See Bug#8705. */
tzval[0] = 't';
tzval[tzeqlen] = 0;
}
#ifndef WINDOWSNT
/* Modifying *TZVAL merely requires calling tzset (which is the
caller's responsibility). However, modifying TZVAL requires
calling putenv; although this is not thread-safe, in practice this
runs only on startup when there is only one thread. */
bool need_putenv = new_tzvalbuf;
#else
/* MS-Windows 'putenv' copies the argument string into a block it
allocates, so modifying *TZVAL will not change the environment.
However, the other threads run by Emacs on MS-Windows never call
'xputenv' or 'putenv' or 'unsetenv', so the original cause for the
dicey in-place modification technique doesn't exist there in the
first place. */
bool need_putenv = true;
#endif
if (need_putenv)
xputenv (tzval);
return 0;
}
#if (ULONG_MAX < TRILLION || !FASTER_TIMEFNS) && !defined ztrillion
# define NEED_ZTRILLION_INIT 1
#endif
#ifdef NEED_ZTRILLION_INIT
static void
syms_of_timefns_for_pdumper (void)
{
mpz_init_set_ui (ztrillion, 1000000);
mpz_mul_ui (ztrillion, ztrillion, 1000000);
}
#endif
void
syms_of_timefns (void)
{
#ifndef timespec_hz
timespec_hz = make_int (TIMESPEC_HZ);
staticpro (×pec_hz);
#endif
#ifndef trillion
trillion = make_int (1000000000000);
staticpro (&trillion);
#endif
DEFSYM (Qencode_time, "encode-time");
defsubr (&Scurrent_time);
defsubr (&Stime_add);
defsubr (&Stime_subtract);
defsubr (&Stime_less_p);
defsubr (&Stime_equal_p);
defsubr (&Sformat_time_string);
defsubr (&Sfloat_time);
defsubr (&Sdecode_time);
defsubr (&Sencode_time);
defsubr (&Scurrent_time_string);
defsubr (&Scurrent_time_zone);
defsubr (&Sset_time_zone_rule);
#ifdef NEED_ZTRILLION_INIT
pdumper_do_now_and_after_load (syms_of_timefns_for_pdumper);
#endif
}
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