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Piece.xs
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#ifdef __cplusplus
extern "C" {
#endif
#define PERL_NO_GET_CONTEXT
#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"
#include <time.h>
#ifdef __cplusplus
}
#endif
#define DAYS_PER_YEAR 365
#define DAYS_PER_QYEAR (4*DAYS_PER_YEAR+1)
#define DAYS_PER_CENT (25*DAYS_PER_QYEAR-1)
#define DAYS_PER_QCENT (4*DAYS_PER_CENT+1)
#define SECS_PER_HOUR (60*60)
#define SECS_PER_DAY (24*SECS_PER_HOUR)
/* parentheses deliberately absent on these two, otherwise they don't work */
#define MONTH_TO_DAYS 153/5
#define DAYS_TO_MONTH 5/153
/* offset to bias by March (month 4) 1st between month/mday & year finding */
#define YEAR_ADJUST (4*MONTH_TO_DAYS+1)
/* as used here, the algorithm leaves Sunday as day 1 unless we adjust it */
#define WEEKDAY_BIAS 6 /* (1+6)%7 makes Sunday 0 again */
#ifdef WIN32
/*
* (1) The CRT maintains its own copy of the environment, separate from
* the Win32API copy.
*
* (2) CRT getenv() retrieves from this copy. CRT putenv() updates this
* copy, and then calls SetEnvironmentVariableA() to update the Win32API
* copy.
*
* (3) win32_getenv() and win32_putenv() call GetEnvironmentVariableA() and
* SetEnvironmentVariableA() directly, bypassing the CRT copy of the
* environment.
*
* (4) The CRT strftime() "%Z" implementation calls __tzset(). That
* calls CRT tzset(), but only the first time it is called, and in turn
* that uses CRT getenv("TZ") to retrieve the timezone info from the CRT
* local copy of the environment and hence gets the original setting as
* perl never updates the CRT copy when assigning to $ENV{TZ}.
*
* Therefore, we need to retrieve the value of $ENV{TZ} and call CRT
* putenv() to update the CRT copy of the environment (if it is different)
* whenever we're about to call tzset().
*
* In addition to all that, when perl is built with PERL_IMPLICIT_SYS
* defined:
*
* (a) Each interpreter has its own copy of the environment inside the
* perlhost structure. That allows applications that host multiple
* independent Perl interpreters to isolate environment changes from
* each other. (This is similar to how the perlhost mechanism keeps a
* separate working directory for each Perl interpreter, so that calling
* chdir() will not affect other interpreters.)
*
* (b) Only the first Perl interpreter instantiated within a process will
* "write through" environment changes to the process environment.
*
* (c) Even the primary Perl interpreter won't update the CRT copy of the
* the environment, only the Win32API copy (it calls win32_putenv()).
*
* As with CPerlHost::Getenv() and CPerlHost::Putenv() themselves, it makes
* sense to only update the process environment when inside the main
* interpreter, but we don't have access to CPerlHost's m_bTopLevel member
* from here so we'll just have to check PL_curinterp instead.
*
* Therefore, we can simply #undef getenv() and putenv() so that those names
* always refer to the CRT functions, and explicitly call win32_getenv() to
* access perl's %ENV.
*
* We also #undef malloc() and free() to be sure we are using the CRT
* functions otherwise under PERL_IMPLICIT_SYS they are redefined to calls
* into VMem::Malloc() and VMem::Free() and all allocations will be freed
* when the Perl interpreter is being destroyed so we'd end up with a pointer
* into deallocated memory in environ[] if a program embedding a Perl
* interpreter continues to operate even after the main Perl interpreter has
* been destroyed.
*
* Note that we don't free() the malloc()ed memory unless and until we call
* malloc() again ourselves because the CRT putenv() function simply puts its
* pointer argument into the environ[] arrary (it doesn't make a copy of it)
* so this memory must otherwise be leaked.
*/
#undef getenv
#undef putenv
# ifdef UNDER_CE
# define getenv xcegetenv
# define putenv xceputenv
# endif
#undef malloc
#undef free
static void
fix_win32_tzenv(void)
{
static char* oldenv = NULL;
char* newenv;
const char* perl_tz_env = win32_getenv("TZ");
const char* crt_tz_env = getenv("TZ");
if (perl_tz_env == NULL)
perl_tz_env = "";
if (crt_tz_env == NULL)
crt_tz_env = "";
if (strcmp(perl_tz_env, crt_tz_env) != 0) {
STRLEN perl_tz_env_len = strlen(perl_tz_env);
newenv = (char*)malloc(perl_tz_env_len + 4);
if (newenv != NULL) {
/* putenv with old MS CRTs will cause a double free internally if you delete
an env var with the CRT env that doesn't exist in Win32 env (perl %ENV only
modifies the Win32 env, not CRT env), so always create the env var in Win32
env before deleting it with CRT env api, so the error branch never executes
in __crtsetenv after SetEnvironmentVariableA executes inside __crtsetenv.
VC 9/2008 and up dont have this bug, older VC (msvcrt80.dll and older) and
mingw (msvcrt.dll) have it see [perl #125529]
*/
#if !(_MSC_VER >= 1500)
if(!perl_tz_env_len)
SetEnvironmentVariableA("TZ", "");
#endif
sprintf(newenv, "TZ=%s", perl_tz_env);
putenv(newenv);
if (oldenv != NULL)
free(oldenv);
oldenv = newenv;
}
}
}
#endif
/*
* my_tzset - wrapper to tzset() with a fix to make it work (better) on Win32.
* This code is duplicated in the POSIX module, so any changes made here
* should be made there too.
*/
static void
my_tzset(pTHX)
{
#ifdef WIN32
#if defined(USE_ITHREADS) && defined(PERL_IMPLICIT_SYS)
if (PL_curinterp == aTHX)
#endif
fix_win32_tzenv();
#endif
tzset();
}
/*
* my_mini_mktime - normalise struct tm values without the localtime()
* semantics (and overhead) of mktime(). Stolen shamelessly from Perl's
* Perl_mini_mktime() in util.c - for details on the algorithm, see that
* file.
*/
static void
my_mini_mktime(struct tm *ptm)
{
int yearday;
int secs;
int month, mday, year, jday;
int odd_cent, odd_year;
year = 1900 + ptm->tm_year;
month = ptm->tm_mon;
mday = ptm->tm_mday;
/* allow given yday with no month & mday to dominate the result */
if (ptm->tm_yday >= 0 && mday <= 0 && month <= 0) {
month = 0;
mday = 0;
jday = 1 + ptm->tm_yday;
}
else {
jday = 0;
}
if (month >= 2)
month+=2;
else
month+=14, year--;
yearday = DAYS_PER_YEAR * year + year/4 - year/100 + year/400;
yearday += month*MONTH_TO_DAYS + mday + jday;
/*
* Note that we don't know when leap-seconds were or will be,
* so we have to trust the user if we get something which looks
* like a sensible leap-second. Wild values for seconds will
* be rationalised, however.
*/
if ((unsigned) ptm->tm_sec <= 60) {
secs = 0;
}
else {
secs = ptm->tm_sec;
ptm->tm_sec = 0;
}
secs += 60 * ptm->tm_min;
secs += SECS_PER_HOUR * ptm->tm_hour;
if (secs < 0) {
if (secs-(secs/SECS_PER_DAY*SECS_PER_DAY) < 0) {
/* got negative remainder, but need positive time */
/* back off an extra day to compensate */
yearday += (secs/SECS_PER_DAY)-1;
secs -= SECS_PER_DAY * (secs/SECS_PER_DAY - 1);
}
else {
yearday += (secs/SECS_PER_DAY);
secs -= SECS_PER_DAY * (secs/SECS_PER_DAY);
}
}
else if (secs >= SECS_PER_DAY) {
yearday += (secs/SECS_PER_DAY);
secs %= SECS_PER_DAY;
}
ptm->tm_hour = secs/SECS_PER_HOUR;
secs %= SECS_PER_HOUR;
ptm->tm_min = secs/60;
secs %= 60;
ptm->tm_sec += secs;
/* done with time of day effects */
/*
* The algorithm for yearday has (so far) left it high by 428.
* To avoid mistaking a legitimate Feb 29 as Mar 1, we need to
* bias it by 123 while trying to figure out what year it
* really represents. Even with this tweak, the reverse
* translation fails for years before A.D. 0001.
* It would still fail for Feb 29, but we catch that one below.
*/
jday = yearday; /* save for later fixup vis-a-vis Jan 1 */
yearday -= YEAR_ADJUST;
year = (yearday / DAYS_PER_QCENT) * 400;
yearday %= DAYS_PER_QCENT;
odd_cent = yearday / DAYS_PER_CENT;
year += odd_cent * 100;
yearday %= DAYS_PER_CENT;
year += (yearday / DAYS_PER_QYEAR) * 4;
yearday %= DAYS_PER_QYEAR;
odd_year = yearday / DAYS_PER_YEAR;
year += odd_year;
yearday %= DAYS_PER_YEAR;
if (!yearday && (odd_cent==4 || odd_year==4)) { /* catch Feb 29 */
month = 1;
yearday = 29;
}
else {
yearday += YEAR_ADJUST; /* recover March 1st crock */
month = yearday*DAYS_TO_MONTH;
yearday -= month*MONTH_TO_DAYS;
/* recover other leap-year adjustment */
if (month > 13) {
month-=14;
year++;
}
else {
month-=2;
}
}
ptm->tm_year = year - 1900;
if (yearday) {
ptm->tm_mday = yearday;
ptm->tm_mon = month;
}
else {
ptm->tm_mday = 31;
ptm->tm_mon = month - 1;
}
/* re-build yearday based on Jan 1 to get tm_yday */
year--;
yearday = year*DAYS_PER_YEAR + year/4 - year/100 + year/400;
yearday += 14*MONTH_TO_DAYS + 1;
ptm->tm_yday = jday - yearday;
/* fix tm_wday if not overridden by caller */
ptm->tm_wday = (jday + WEEKDAY_BIAS) % 7;
}
# if defined(WIN32) || (defined(__QNX__) && defined(__WATCOMC__))
# define strncasecmp(x,y,n) strnicmp(x,y,n)
# endif
/* strptime.c 0.1 (Powerdog) 94/03/27 */
/* strptime copied from freebsd with the following copyright: */
/*
* Copyright (c) 1994 Powerdog Industries. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
*
* THIS SOFTWARE IS PROVIDED BY POWERDOG INDUSTRIES ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE POWERDOG INDUSTRIES BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of Powerdog Industries.
*/
#include <time.h>
#include <ctype.h>
#include <string.h>
static char * _strptime(pTHX_ const char *, const char *, struct tm *,
int *got_GMT);
#define asizeof(a) (sizeof (a) / sizeof ((a)[0]))
struct lc_time_T {
char * mon[12];
char * month[12];
char * wday[7];
char * weekday[7];
char * am;
char * pm;
char * AM;
char * PM;
char * alt_month[12];
};
static struct lc_time_T _C_time_locale;
#define Locale (&_C_time_locale)
static char *
_strptime(pTHX_ const char *buf, const char *fmt, struct tm *tm, int *got_GMT)
{
char c;
const char *ptr;
int i,
len;
int Ealternative, Oalternative;
/* There seems to be a slightly improved version at
* http://www.opensource.apple.com/source/Libc/Libc-583/stdtime/strptime-fbsd.c
* which we may end up borrowing more from
*/
ptr = fmt;
while (*ptr != 0) {
if (*buf == 0)
break;
c = *ptr++;
if (c != '%') {
if (isspace((unsigned char)c))
while (*buf != 0 && isspace((unsigned char)*buf))
buf++;
else if (c != *buf++)
return 0;
continue;
}
Ealternative = 0;
Oalternative = 0;
label:
c = *ptr++;
switch (c) {
case 0:
case '%':
if (*buf++ != '%')
return 0;
break;
case '+':
buf = _strptime(aTHX_ buf, "%c", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'C':
if (!isdigit((unsigned char)*buf))
return 0;
/* XXX This will break for 3-digit centuries. */
len = 2;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (i < 19)
return 0;
tm->tm_year = i * 100 - 1900;
break;
case 'c':
/* NOTE: c_fmt is intentionally ignored */
buf = _strptime(aTHX_ buf, "%a %d %b %Y %I:%M:%S %p %Z", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'D':
buf = _strptime(aTHX_ buf, "%m/%d/%y", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'E':
if (Ealternative || Oalternative)
break;
Ealternative++;
goto label;
case 'O':
if (Ealternative || Oalternative)
break;
Oalternative++;
goto label;
case 'F':
buf = _strptime(aTHX_ buf, "%Y-%m-%d", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'R':
buf = _strptime(aTHX_ buf, "%H:%M", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'r':
buf = _strptime(aTHX_ buf, "%I:%M:%S %p", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'n': /* whitespace */
case 't':
if (!isspace((unsigned char)*buf))
return 0;
while (isspace((unsigned char)*buf))
buf++;
break;
case 'T':
buf = _strptime(aTHX_ buf, "%H:%M:%S", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'X':
buf = _strptime(aTHX_ buf, "%I:%M:%S %p", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'x':
buf = _strptime(aTHX_ buf, "%a %d %b %Y", tm, got_GMT);
if (buf == 0)
return 0;
break;
case 'j':
if (!isdigit((unsigned char)*buf))
return 0;
len = 3;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (i < 1 || i > 366)
return 0;
tm->tm_yday = i - 1;
tm->tm_mday = 0;
break;
case 'M':
case 'S':
if (*buf == 0 || isspace((unsigned char)*buf))
break;
if (!isdigit((unsigned char)*buf))
return 0;
len = 2;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (c == 'M') {
if (i > 59)
return 0;
tm->tm_min = i;
} else {
if (i > 60)
return 0;
tm->tm_sec = i;
}
if (*buf != 0 && isspace((unsigned char)*buf))
while (*ptr != 0 && !isspace((unsigned char)*ptr))
ptr++;
break;
case 'H':
case 'I':
case 'k':
case 'l':
/*
* Of these, %l is the only specifier explicitly
* documented as not being zero-padded. However,
* there is no harm in allowing zero-padding.
*
* XXX The %l specifier may gobble one too many
* digits if used incorrectly.
*/
if (!isdigit((unsigned char)*buf))
return 0;
len = 2;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (c == 'H' || c == 'k') {
if (i > 23)
return 0;
} else if (i > 12)
return 0;
tm->tm_hour = i;
if (*buf != 0 && isspace((unsigned char)*buf))
while (*ptr != 0 && !isspace((unsigned char)*ptr))
ptr++;
break;
case 'p':
case 'P':
/*
* XXX This is bogus if parsed before hour-related
* specifiers.
*/
len = strlen(Locale->am);
if (strncasecmp(buf, Locale->am, len) == 0 ||
strncasecmp(buf, Locale->AM, len) == 0) {
if (tm->tm_hour > 12)
return 0;
if (tm->tm_hour == 12)
tm->tm_hour = 0;
buf += len;
break;
}
len = strlen(Locale->pm);
if (strncasecmp(buf, Locale->pm, len) == 0 ||
strncasecmp(buf, Locale->PM, len) == 0) {
if (tm->tm_hour > 12)
return 0;
if (tm->tm_hour != 12)
tm->tm_hour += 12;
buf += len;
break;
}
return 0;
case 'A':
case 'a':
for (i = 0; i < (int)asizeof(Locale->weekday); i++) {
if (c == 'A') {
len = strlen(Locale->weekday[i]);
if (strncasecmp(buf,
Locale->weekday[i],
len) == 0)
break;
} else {
len = strlen(Locale->wday[i]);
if (strncasecmp(buf,
Locale->wday[i],
len) == 0)
break;
}
}
if (i == (int)asizeof(Locale->weekday))
return 0;
tm->tm_wday = i;
buf += len;
break;
case 'U':
case 'V':
case 'W':
/*
* XXX This is bogus, as we can not assume any valid
* information present in the tm structure at this
* point to calculate a real value, so just check the
* range for now.
*/
if (!isdigit((unsigned char)*buf))
return 0;
len = 2;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (i > 53)
return 0;
if (*buf != 0 && isspace((unsigned char)*buf))
while (*ptr != 0 && !isspace((unsigned char)*ptr))
ptr++;
break;
case 'u':
case 'w':
if (!isdigit((unsigned char)*buf))
return 0;
i = *buf - '0';
if (i > 6 + (c == 'u'))
return 0;
if (i == 7)
i = 0;
tm->tm_wday = i;
buf++;
if (*buf != 0 && isspace((unsigned char)*buf))
while (*ptr != 0 && !isspace((unsigned char)*ptr))
ptr++;
break;
case 'd':
case 'e':
/*
* The %e specifier is explicitly documented as not
* being zero-padded but there is no harm in allowing
* such padding.
*
* XXX The %e specifier may gobble one too many
* digits if used incorrectly.
*/
if (!isdigit((unsigned char)*buf))
return 0;
len = 2;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (i > 31)
return 0;
tm->tm_mday = i;
if (*buf != 0 && isspace((unsigned char)*buf))
while (*ptr != 0 && !isspace((unsigned char)*ptr))
ptr++;
break;
case 'B':
case 'b':
case 'h':
for (i = 0; i < (int)asizeof(Locale->month); i++) {
if (Oalternative) {
if (c == 'B') {
len = strlen(Locale->alt_month[i]);
if (strncasecmp(buf,
Locale->alt_month[i],
len) == 0)
break;
}
} else {
if (c == 'B') {
len = strlen(Locale->month[i]);
if (strncasecmp(buf,
Locale->month[i],
len) == 0)
break;
} else {
len = strlen(Locale->mon[i]);
if (strncasecmp(buf,
Locale->mon[i],
len) == 0)
break;
}
}
}
if (i == (int)asizeof(Locale->month))
return 0;
tm->tm_mon = i;
buf += len;
break;
case 'm':
if (!isdigit((unsigned char)*buf))
return 0;
len = 2;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (i < 1 || i > 12)
return 0;
tm->tm_mon = i - 1;
if (*buf != 0 && isspace((unsigned char)*buf))
while (*ptr != 0 && !isspace((unsigned char)*ptr))
ptr++;
break;
case 's':
{
char *cp;
int sverrno;
long n;
time_t t;
struct tm mytm;
sverrno = errno;
errno = 0;
n = strtol(buf, &cp, 10);
if (errno == ERANGE || (long)(t = n) != n) {
errno = sverrno;
return 0;
}
errno = sverrno;
buf = cp;
memset(&mytm, 0, sizeof(mytm));
if(*got_GMT == 1)
mytm = *localtime(&t);
else
mytm = *gmtime(&t);
tm->tm_sec = mytm.tm_sec;
tm->tm_min = mytm.tm_min;
tm->tm_hour = mytm.tm_hour;
tm->tm_mday = mytm.tm_mday;
tm->tm_mon = mytm.tm_mon;
tm->tm_year = mytm.tm_year;
tm->tm_wday = mytm.tm_wday;
tm->tm_yday = mytm.tm_yday;
tm->tm_isdst = mytm.tm_isdst;
}
break;
case 'Y':
case 'y':
if (*buf == 0 || isspace((unsigned char)*buf))
break;
if (!isdigit((unsigned char)*buf))
return 0;
len = (c == 'Y') ? 4 : 2;
for (i = 0; len && *buf != 0 && isdigit((unsigned char)*buf); buf++) {
i *= 10;
i += *buf - '0';
len--;
}
if (c == 'Y')
i -= 1900;
if (c == 'y' && i < 69)
i += 100;
if (i < 0)
return 0;
tm->tm_year = i;
if (*buf != 0 && isspace((unsigned char)*buf))
while (*ptr != 0 && !isspace((unsigned char)*ptr))
ptr++;
break;
case 'Z':
{
const char *cp;
char *zonestr;
for (cp = buf; *cp && isupper((unsigned char)*cp); ++cp)
{/*empty*/}
if (cp - buf) {
zonestr = (char *)malloc(cp - buf + 1);
if (!zonestr) {
errno = ENOMEM;
return 0;
}
strncpy(zonestr, buf, cp - buf);
zonestr[cp - buf] = '\0';
my_tzset(aTHX);
if (0 == strcmp(zonestr, "GMT")) {
*got_GMT = 1;
}
free(zonestr);
if (!*got_GMT) return 0;
buf += cp - buf;
}
}
break;
case 'z':
{
int sign = 1;
if (*buf != '+') {
if (*buf == '-')
sign = -1;
else
return 0;
}
buf++;
i = 0;
for (len = 4; len > 0; len--) {
if (isdigit((int)*buf)) {
i *= 10;
i += *buf - '0';
buf++;
} else
return 0;
}
tm->tm_hour -= sign * (i / 100);
tm->tm_min -= sign * (i % 100);
*got_GMT = 1;
}
break;
}
}
return (char *)buf;
}
/* Saves alot of machine code.
Takes a (auto) SP, which may or may not have been PUSHed before, puts
tm struct members on Perl stack, then returns new, advanced, SP to caller.
Assign the return of push_common_tm to your SP, so you can continue to PUSH
or do a PUTBACK and return eventually.
!!!! push_common_tm does not touch PL_stack_sp !!!!
!!!! do not use PUTBACK then SPAGAIN semantics around push_common_tm !!!!
!!!! You must mortalize whatever push_common_tm put on stack yourself to
avoid leaking !!!!
*/
static SV **
push_common_tm(pTHX_ SV ** SP, struct tm *mytm)
{
PUSHs(newSViv(mytm->tm_sec));
PUSHs(newSViv(mytm->tm_min));
PUSHs(newSViv(mytm->tm_hour));
PUSHs(newSViv(mytm->tm_mday));
PUSHs(newSViv(mytm->tm_mon));
PUSHs(newSViv(mytm->tm_year));
PUSHs(newSViv(mytm->tm_wday));
PUSHs(newSViv(mytm->tm_yday));
PUSHs(newSViv(mytm->tm_isdst));
return SP;
}
/* specialized common end of 2 XSUBs
SV ** SP -- pass your (auto) SP, which has not been PUSHed before, but was
reset to 0 (PPCODE only or SP -= items or XSprePUSH)
tm *mytm -- a tm *, will be proprocessed with my_mini_mktime
return -- none, after calling return_11part_tm, you must call "return;"
no exceptions
*/
static void
return_11part_tm(pTHX_ SV ** SP, struct tm *mytm)
{
my_mini_mktime(mytm);
/* warn("tm: %d-%d-%d %d:%d:%d\n", mytm->tm_year, mytm->tm_mon, mytm->tm_mday, mytm->tm_hour, mytm->tm_min, mytm->tm_sec); */
EXTEND(SP, 11);
SP = push_common_tm(aTHX_ SP, mytm);
/* epoch */
PUSHs(newSViv(0));
/* islocal */
PUSHs(newSViv(0));
PUTBACK;
{
SV ** endsp = SP; /* the SV * under SP needs to be mortaled */
SP -= (11 - 1); /* subtract 0 based count of SVs to mortal */
/* mortal target of SP, then increment before function call
so SP is already calculated before next comparison to not stall CPU */
do {
sv_2mortal(*SP++);
} while(SP <= endsp);
}
return;
}
static void _populate_C_time_locale(pTHX_ HV* locales )
{
AV* alt_names = (AV *) SvRV( *hv_fetch(locales, "alt_month", strlen("alt_month"), 0) );
AV* long_names = (AV *) SvRV( *hv_fetch(locales, "month", strlen("month"), 0) );
AV* short_names = (AV *) SvRV( *hv_fetch(locales, "mon", strlen("mon"), 0) );
int i;
for (i = 0; i < 1 + (int) av_len( long_names ); i++) {
Locale->alt_month[i] = SvPV_nolen( (SV *) *av_fetch(alt_names, i, 0) );
Locale->month[i] = SvPV_nolen( (SV *) *av_fetch(long_names, i, 0) );
Locale->mon[i] = SvPV_nolen( (SV *) *av_fetch(short_names, i, 0) );
}
long_names = (AV *) SvRV( *hv_fetch(locales, "weekday", strlen("weekday"), 0) );
short_names = (AV *) SvRV( *hv_fetch(locales, "wday", strlen("wday"), 0) );
for (i = 0; i < 1 + (int) av_len( long_names ); i++) {
Locale->wday[i] = SvPV_nolen( (SV *) *av_fetch(short_names, i, 0) );
Locale->weekday[i] = SvPV_nolen( (SV *) *av_fetch(long_names, i, 0) );
}
Locale->am = SvPV_nolen( (SV *) *hv_fetch(locales, "am", strlen("am"), 0) );
Locale->pm = SvPV_nolen( (SV *) *hv_fetch(locales, "pm", strlen("pm"), 0) );
Locale->AM = SvPV_nolen( (SV *) *hv_fetch(locales, "AM", strlen("AM"), 0) );
Locale->PM = SvPV_nolen( (SV *) *hv_fetch(locales, "PM", strlen("PM"), 0) );
return;
}
MODULE = Time::Piece PACKAGE = Time::Piece
PROTOTYPES: ENABLE
void
_strftime(fmt, epoch, islocal = 1)
char * fmt
time_t epoch
int islocal
CODE:
{
char tmpbuf[128];
struct tm mytm;
size_t len;
if(islocal == 1)
mytm = *localtime(&epoch);
else
mytm = *gmtime(&epoch);
len = strftime(tmpbuf, sizeof tmpbuf, fmt, &mytm);
/*
** The following is needed to handle to the situation where
** tmpbuf overflows. Basically we want to allocate a buffer
** and try repeatedly. The reason why it is so complicated
** is that getting a return value of 0 from strftime can indicate
** one of the following:
** 1. buffer overflowed,
** 2. illegal conversion specifier, or
** 3. the format string specifies nothing to be returned(not
** an error). This could be because format is an empty string
** or it specifies %p that yields an empty string in some locale.
** If there is a better way to make it portable, go ahead by
** all means.
*/
if ((len > 0 && len < sizeof(tmpbuf)) || (len == 0 && *fmt == '\0'))
ST(0) = sv_2mortal(newSVpv(tmpbuf, len));
else {
/* Possibly buf overflowed - try again with a bigger buf */
int fmtlen = strlen(fmt);
int bufsize = fmtlen + sizeof(tmpbuf);
char* buf;
int buflen;
New(0, buf, bufsize, char);
while (buf) {
buflen = strftime(buf, bufsize, fmt, &mytm);
if (buflen > 0 && buflen < bufsize)
break;
/* heuristic to prevent out-of-memory errors */
if (bufsize > 100*fmtlen) {