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|
// -*- C++ -*-
// $Id$
#include "ace/OS_NS_time.h"
ACE_RCSID(ace, OS_NS_time, "$Id$")
#if !defined (ACE_HAS_INLINED_OSCALLS)
# include "ace/OS_NS_time.inl"
#endif /* ACE_HAS_INLINED_OS_CALLS */
#if defined (ACE_LACKS_NATIVE_STRPTIME)
# include "ace/os_include/os_ctype.h"
#endif /* ACE_LACKS_NATIVE_STRPTIME */
#include "ace/OS_NS_Thread.h"
#include "ace/Object_Manager_Base.h"
#if defined (ACE_HAS_WINCE)
# include "ace/OS_NS_stdio.h" /* Need ACE_OS::sprintf() */
const wchar_t *ACE_OS::day_of_week_name[7] =
{ACE_LIB_TEXT ("Sun"),
ACE_LIB_TEXT ("Mon"),
ACE_LIB_TEXT ("Tue"),
ACE_LIB_TEXT ("Wed"),
ACE_LIB_TEXT ("Thu"),
ACE_LIB_TEXT ("Fri"),
ACE_LIB_TEXT ("Sat")};
const wchar_t *ACE_OS::month_name[12] =
{ACE_LIB_TEXT ("Jan"), ACE_LIB_TEXT ("Feb"),
ACE_LIB_TEXT ("Mar"), ACE_LIB_TEXT ("Apr"),
ACE_LIB_TEXT ("May"), ACE_LIB_TEXT ("Jun"),
ACE_LIB_TEXT ("Jul"), ACE_LIB_TEXT ("Aug"),
ACE_LIB_TEXT ("Sep"), ACE_LIB_TEXT ("Oct"),
ACE_LIB_TEXT ("Nov"), ACE_LIB_TEXT ("Dec") };
static const ACE_TCHAR *ACE_OS_CTIME_R_FMTSTR = ACE_LIB_TEXT ("%3s %3s %02d %02d:%02d:%02d %04d\n");
#endif /* ACE_HAS_WINCE */
# if defined (ACE_PSOS)
// bit masks and shifts for prying info out of the pSOS time encoding
const u_long ACE_PSOS_Time_t::year_mask = 0x0000FFFFul;
const u_long ACE_PSOS_Time_t::month_mask = 0x000000FFul;
const u_long ACE_PSOS_Time_t::day_mask = 0x000000FFul;
const u_long ACE_PSOS_Time_t::hour_mask = 0x0000FFFFul;
const u_long ACE_PSOS_Time_t::minute_mask = 0x000000FFul;
const u_long ACE_PSOS_Time_t::second_mask = 0x000000FFul;
const int ACE_PSOS_Time_t::year_shift = 16;
const int ACE_PSOS_Time_t::month_shift = 8;
const int ACE_PSOS_Time_t::hour_shift = 16;
const int ACE_PSOS_Time_t::minute_shift = 8;
const int ACE_PSOS_Time_t::year_origin = 1900;
const int ACE_PSOS_Time_t::month_origin = 1;
// maximum number of clock ticks supported
const u_long ACE_PSOS_Time_t::max_ticks = ~0UL;
ACE_PSOS_Time_t::ACE_PSOS_Time_t (void)
: date_ (0),
time_ (0),
ticks_ (0)
{
}
// default ctor: date, time, and ticks all zeroed
ACE_PSOS_Time_t::ACE_PSOS_Time_t (const timespec_t& t)
{
struct tm* tm_struct = ACE_OS::gmtime (&(t.tv_sec));
// Encode date values from tm struct into pSOS date bit array.
date_ = (ACE_PSOS_Time_t::year_mask &
static_cast <u_long>
(tm_struct->tm_year + ACE_PSOS_Time_t::year_origin)) <<
ACE_PSOS_Time_t::year_shift;
date_ |= (ACE_PSOS_Time_t::month_mask &
static_cast<u_long> (tm_struct->tm_mon + ACE_PSOS_Time_t::month_origin)) <<
ACE_PSOS_Time_t::month_shift;
date_ |= ACE_PSOS_Time_t::day_mask &
static_cast<u_long> (tm_struct->tm_mday);
// Encode time values from tm struct into pSOS time bit array.
time_ = (ACE_PSOS_Time_t::hour_mask &
static_cast<u_long> (tm_struct->tm_hour)) <<
ACE_PSOS_Time_t::hour_shift;
time_ |= (ACE_PSOS_Time_t::minute_mask &
static_cast<u_long> (tm_struct->tm_min)) <<
ACE_PSOS_Time_t::minute_shift;
time_ |= ACE_PSOS_Time_t::second_mask &
static_cast<u_int> (tm_struct->tm_sec);
// encode nanoseconds as system clock ticks
ticks_ = static_cast<u_long> (((static_cast<double> (t.tv_nsec) *
static_cast<double> (KC_TICKS2SEC)) /
static_cast<double> (1000000000)));
}
// ctor from a timespec_t
ACE_PSOS_Time_t::operator timespec_t (void)
{
struct tm tm_struct;
// Decode date and time bit arrays and fill in fields of tm_struct.
tm_struct.tm_year =
static_cast<int> ((ACE_PSOS_Time_t::year_mask &
(date_ >> ACE_PSOS_Time_t::year_shift))) -
ACE_PSOS_Time_t::year_origin;
tm_struct.tm_mon =
static_cast<int> ((ACE_PSOS_Time_t::month_mask &
(date_ >> ACE_PSOS_Time_t::month_shift))) -
ACE_PSOS_Time_t::month_origin;
tm_struct.tm_mday =
static_cast<int> ((ACE_PSOS_Time_t::day_mask & date_));
tm_struct.tm_hour =
static_cast<int> ((ACE_PSOS_Time_t::hour_mask &
(time_ >> ACE_PSOS_Time_t::hour_shift)));
tm_struct.tm_min =
static_cast<int> ((ACE_PSOS_Time_t::minute_mask &
(time_ >> ACE_PSOS_Time_t::minute_shift)));
tm_struct.tm_sec =
static_cast<int> ((ACE_PSOS_Time_t::second_mask & time_));
// Indicate values we don't know as negative numbers.
tm_struct.tm_wday = -1;
tm_struct.tm_yday = -1;
tm_struct.tm_isdst = -1;
timespec_t t;
// Convert calendar time to time struct.
t.tv_sec = ACE_OS::mktime (&tm_struct);
// Encode nanoseconds as system clock ticks.
t.tv_nsec = static_cast<long> (((static_cast<double> (ticks_) *
static_cast<double> (1000000000)) /
static_cast<double> (KC_TICKS2SEC)));
return t;
}
// type cast operator (to a timespec_t)
u_long
ACE_PSOS_Time_t::get_system_time (ACE_PSOS_Time_t& t)
{
u_long ret_val = 0;
# if defined (ACE_PSOSIM) // system time is broken in simulator.
timeval tv;
int result = 0;
ACE_OSCALL (::gettimeofday (&tv, 0), int, -1, result);
if (result == -1)
return 1;
ACE_Time_Value atv (tv);
timespec ts = atv;
ACE_PSOS_Time_t pt (ts);
t.date_ = pt.date_;
t.time_ = pt.time_;
t.ticks_ = pt.ticks_;
# else
ret_val = tm_get (&(t.date_), &(t.time_), &(t.ticks_));
# endif /* ACE_PSOSIM */
return ret_val;
}
// Static member function to get current system time.
u_long
ACE_PSOS_Time_t::set_system_time (const ACE_PSOS_Time_t& t)
{
return tm_set (t.date_, t.time_, t.ticks_);
}
// Static member function to set current system time.
# if defined (ACE_PSOSIM)
u_long
ACE_PSOS_Time_t::init_simulator_time (void)
{
// This is a hack using a direct UNIX system call, because the
// appropriate ACE_OS method ultimately uses the pSOS tm_get
// function, which would fail because the simulator's system time is
// uninitialized (chicken and egg).
timeval t;
int result = 0;
ACE_OSCALL (::gettimeofday (&t, 0),
int,
-1,
result);
if (result == -1)
return 1;
else
{
ACE_Time_Value tv (t);
timespec ts = tv;
ACE_PSOS_Time_t pt (ts);
u_long ret_val =
ACE_PSOS_Time_t::set_system_time (pt);
return ret_val;
}
}
// Static member function to initialize system time, using UNIX calls.
# endif /* ACE_PSOSIM */
# endif /* ACE_PSOS && ! ACE_PSOS_DIAB_MIPS */
# if defined (ACE_HAS_WINCE)
ACE_TCHAR *
ACE_OS::ctime_r (const time_t *clock, ACE_TCHAR *buf, int buflen)
{
// buflen must be at least 26 wchar_t long.
if (buflen < 26) // Again, 26 is a magic number.
{
errno = ERANGE;
return 0;
}
// This is really stupid, converting FILETIME to timeval back and
// forth. It assumes FILETIME and DWORDLONG are the same structure
// internally.
ULARGE_INTEGER _100ns;
_100ns.QuadPart = (DWORDLONG) *clock * 10000 * 1000
+ ACE_Time_Value::FILETIME_to_timval_skew;
FILETIME file_time;
file_time.dwLowDateTime = _100ns.LowPart;
file_time.dwHighDateTime = _100ns.HighPart;
FILETIME localtime;
SYSTEMTIME systime;
FileTimeToLocalFileTime (&file_time, &localtime);
FileTimeToSystemTime (&localtime, &systime);
ACE_OS::sprintf (buf, ACE_OS_CTIME_R_FMTSTR,
ACE_OS::day_of_week_name[systime.wDayOfWeek],
ACE_OS::month_name[systime.wMonth - 1],
systime.wDay,
systime.wHour,
systime.wMinute,
systime.wSecond,
systime.wYear);
return buf;
}
# endif /* ACE_HAS_WINCE */
# if defined (ACE_LACKS_DIFFTIME)
double
ACE_OS::difftime (time_t t1, time_t t0)
{
/* return t1 - t0 in seconds */
struct tm tms[2], *ptms[2], temp;
double seconds;
double days;
int swap = 0;
/* extract the tm structure from time_t */
ptms[1] = gmtime_r (&t1, &tms[1]);
if (ptms[1] == 0) return 0.0;
ptms[0] = gmtime_r (&t0, &tms[0]);
if (ptms[0] == 0) return 0.0;
/* make sure t1 is > t0 */
if (tms[1].tm_year < tms[0].tm_year)
swap = 1;
else if (tms[1].tm_year == tms[0].tm_year)
{
if (tms[1].tm_yday < tms[0].tm_yday)
swap = 1;
else if (tms[1].tm_yday == tms[0].tm_yday)
{
if (tms[1].tm_hour < tms[0].tm_hour)
swap = 1;
else if (tms[1].tm_hour == tms[0].tm_hour)
{
if (tms[1].tm_min < tms[0].tm_min)
swap = 1;
else if (tms[1].tm_min == tms[0].tm_min)
{
if (tms[1].tm_sec < tms[0].tm_sec)
swap = 1;
}
}
}
}
if (swap)
temp = tms[0], tms[0] = tms[1], tms[1] = temp;
seconds = 0.0;
if (tms[1].tm_year > tms[0].tm_year)
{
// Accumulate the time until t[0] catches up to t[1]'s year.
seconds = 60 - tms[0].tm_sec;
tms[0].tm_sec = 0;
tms[0].tm_min += 1;
seconds += 60 * (60 - tms[0].tm_min);
tms[0].tm_min = 0;
tms[0].tm_hour += 1;
seconds += 60*60 * (24 - tms[0].tm_hour);
tms[0].tm_hour = 0;
tms[0].tm_yday += 1;
# define ISLEAPYEAR(y) ((y)&3u?0:(y)%25u?1:(y)/25u&12?0:1)
if (ISLEAPYEAR(tms[0].tm_year))
seconds += 60*60*24 * (366 - tms[0].tm_yday);
else
seconds += 60*60*24 * (365 - tms[0].tm_yday);
tms[0].tm_yday = 0;
tms[0].tm_year += 1;
while (tms[1].tm_year > tms[0].tm_year)
{
if (ISLEAPYEAR(tms[0].tm_year))
seconds += 60*60*24 * 366;
else
seconds += 60*60*24 * 365;
tms[0].tm_year += 1;
}
# undef ISLEAPYEAR
}
else
{
// Normalize
if (tms[1].tm_sec < tms[0].tm_sec)
{
if (tms[1].tm_min == 0)
{
if (tms[1].tm_hour == 0)
{
tms[1].tm_yday -= 1;
tms[1].tm_hour += 24;
}
tms[1].tm_hour -= 1;
tms[1].tm_min += 60;
}
tms[1].tm_min -= 1;
tms[1].tm_sec += 60;
}
tms[1].tm_sec -= tms[0].tm_sec;
if (tms[1].tm_min < tms[0].tm_min)
{
if (tms[1].tm_hour == 0)
{
tms[1].tm_yday -= 1;
tms[1].tm_hour += 24;
}
tms[1].tm_hour -= 1;
tms[1].tm_min += 60;
}
tms[1].tm_min -= tms[0].tm_min;
if (tms[1].tm_hour < tms[0].tm_hour)
{
tms[1].tm_yday -= 1;
tms[1].tm_hour += 24;
}
tms[1].tm_hour -= tms[0].tm_hour;
tms[1].tm_yday -= tms[0].tm_yday;
}
// accumulate the seconds
seconds += tms[1].tm_sec;
seconds += 60 * tms[1].tm_min;
seconds += 60*60 * tms[1].tm_hour;
seconds += 60*60*24 * tms[1].tm_yday;
return seconds;
}
# endif /* ACE_LACKS_DIFFTIME */
struct tm *
ACE_OS::localtime_r (const time_t *t, struct tm *res)
{
ACE_OS_TRACE ("ACE_OS::localtime_r");
#if defined (ACE_HAS_REENTRANT_FUNCTIONS)
# if defined (DIGITAL_UNIX)
ACE_OSCALL_RETURN (::_Plocaltime_r (t, res), struct tm *, 0);
# elif defined (HPUX_10)
return (::localtime_r (t, res) == 0 ? res : (struct tm *)0);
# else
ACE_OSCALL_RETURN (::localtime_r (t, res), struct tm *, 0);
# endif /* DIGITAL_UNIX */
#elif !defined (ACE_HAS_WINCE) && !defined(ACE_PSOS) || defined (ACE_PSOS_HAS_TIME)
ACE_OS_GUARD
ACE_UNUSED_ARG (res);
struct tm * res_ptr;
ACE_OSCALL (::localtime (t), struct tm *, 0, res_ptr);
if (res_ptr == 0)
return 0;
else
{
*res = *res_ptr;
return res;
}
#elif defined (ACE_HAS_WINCE)
// This is really stupid, converting FILETIME to timeval back and
// forth. It assumes FILETIME and DWORDLONG are the same structure
// internally.
TIME_ZONE_INFORMATION pTz;
const unsigned short int __mon_yday[2][13] =
{
/* Normal years. */
{ 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 },
/* Leap years. */
{ 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 }
};
ULARGE_INTEGER _100ns;
::GetTimeZoneInformation (&pTz);
_100ns.QuadPart = (DWORDLONG) *t * 10000 * 1000 + ACE_Time_Value::FILETIME_to_timval_skew;
FILETIME file_time;
file_time.dwLowDateTime = _100ns.LowPart;
file_time.dwHighDateTime = _100ns.HighPart;
FILETIME localtime;
SYSTEMTIME systime;
FileTimeToLocalFileTime (&file_time, &localtime);
FileTimeToSystemTime (&localtime, &systime);
res->tm_hour = systime.wHour;
if(pTz.DaylightBias!=0)
res->tm_isdst = 1;
else
res->tm_isdst = 1;
int iLeap;
iLeap = (res->tm_year % 4 == 0 && (res->tm_year% 100 != 0 || res->tm_year % 400 == 0));
// based on leap select which group to use
res->tm_mday = systime.wDay;
res->tm_min = systime.wMinute;
res->tm_mon = systime.wMonth;
res->tm_sec = systime.wSecond;
res->tm_wday = systime.wDayOfWeek;
res->tm_yday = __mon_yday[iLeap][systime.wMonth] + systime.wDay;
res->tm_year = systime.wYear;// this the correct year but bias the value to start at the 1900
res->tm_year = res->tm_year - 1900;
return res;
#else
// @@ Same as ACE_OS::localtime (), you need to implement it
// yourself.
ACE_UNUSED_ARG (t);
ACE_UNUSED_ARG (res);
ACE_NOTSUP_RETURN (0);
#endif /* ACE_HAS_REENTRANT_FUNCTIONS */
}
time_t
ACE_OS::mktime (struct tm *t)
{
ACE_OS_TRACE ("ACE_OS::mktime");
# if defined (ACE_PSOS) && ! defined (ACE_PSOS_HAS_TIME)
ACE_UNUSED_ARG (t);
ACE_NOTSUP_RETURN (-1);
# elif defined (ACE_HAS_WINCE)
SYSTEMTIME t_sys;
FILETIME t_file;
t_sys.wSecond = t->tm_sec;
t_sys.wMinute = t->tm_min;
t_sys.wHour = t->tm_hour;
t_sys.wDay = t->tm_mday;
t_sys.wMonth = t->tm_mon + 1; // SYSTEMTIME is 1-indexed, tm is 0-indexed
t_sys.wYear = t->tm_year + 1900; // SYSTEMTIME is real; tm is since 1900
t_sys.wDayOfWeek = t->tm_wday; // Ignored in below function call.
if (SystemTimeToFileTime (&t_sys, &t_file) == 0)
return -1;
ACE_Time_Value tv (t_file);
return tv.sec ();
# else
# if defined (ACE_HAS_THREADS) && !defined (ACE_HAS_MT_SAFE_MKTIME)
ACE_OS_GUARD
# endif /* ACE_HAS_THREADS && ! ACE_HAS_MT_SAFE_MKTIME */
ACE_OSCALL_RETURN (ACE_STD_NAMESPACE::mktime (t), time_t, (time_t) -1);
# endif /* ACE_PSOS && ! ACE_PSOS_HAS_TIME */
}
#if defined (ACE_HAS_POWERPC_TIMER) && defined (ghs)
void
ACE_OS::readPPCTimeBase (u_long &most, u_long &least)
{
ACE_OS_TRACE ("ACE_OS::readPPCTimeBase");
// This function can't be inline because it depends on the arguments
// being in particular registers (r3 and r4), in conformance with the
// EABI standard. It would be nice if we knew how to put the variable
// names directly into the assembler instructions . . .
asm("aclock:");
asm("mftb r5,TBU");
asm("mftb r6,TBL");
asm("mftb r7,TBU");
asm("cmpw r5,r7");
asm("bne aclock");
asm("stw r5, 0(r3)");
asm("stw r6, 0(r4)");
}
#endif /* ACE_HAS_POWERPC_TIMER && ghs */
#if defined (ACE_HAS_STRPTIME)
char *
ACE_OS::strptime (char *buf, const char *format, struct tm *tm)
{
#if !defined (ACE_HAS_WINCE)
#if defined (ACE_LACKS_NATIVE_STRPTIME)
int bi = 0;
int fi = 0;
int percent = 0;
if (!buf || !format)
return 0;
while (format[fi] != '\0')
{
if (percent)
{
percent = 0;
switch (format[fi])
{
case '%': // an escaped %
if (buf[bi] == '%')
{
fi++; bi++;
}
else
return buf + bi;
break;
/* not supported yet: weekday via locale long/short names
case 'a': / * weekday via locale * /
/ * FALL THROUGH * /
case 'A': / * long/short names * /
break;
*/
/* not supported yet:
case 'b': / * month via locale * /
/ * FALL THROUGH * /
case 'B': / * long/short names * /
/ * FALL THROUGH * /
case 'h':
break;
*/
/* not supported yet:
case 'c': / * %x %X * /
break;
*/
/* not supported yet:
case 'C': / * date & time - * /
/ * locale long format * /
break;
*/
case 'd': /* day of month (1-31) */
/* FALL THROUGH */
case 'e':
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_mday, &bi, &fi, 1, 31))
return buf + bi;
break;
case 'D': /* %m/%d/%y */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_mon, &bi, &fi, 1, 12))
return buf + bi;
fi--;
tm->tm_mon--;
if (buf[bi] != '/')
return buf + bi;
bi++;
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_mday, &bi, &fi, 1, 31))
return buf + bi;
fi--;
if (buf[bi] != '/')
return buf + bi;
bi++;
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_year, &bi, &fi, 0, 99))
return buf + bi;
if (tm->tm_year < 69)
tm->tm_year += 100;
break;
case 'H': /* hour (0-23) */
/* FALL THROUGH */
case 'k':
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_hour, &bi, &fi, 0, 23))
return buf + bi;
break;
/* not supported yet:
case 'I': / * hour (0-12) * /
/ * FALL THROUGH * /
case 'l':
break;
*/
case 'j': /* day of year (0-366) */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_yday, &bi, &fi, 1, 366))
return buf + bi;
tm->tm_yday--;
break;
case 'm': /* an escaped % */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_mon, &bi, &fi, 1, 12))
return buf + bi;
tm->tm_mon--;
break;
case 'M': /* minute (0-59) */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_min, &bi, &fi, 0, 59))
return buf + bi;
break;
/* not supported yet:
case 'p': / * am or pm for locale * /
break;
*/
/* not supported yet:
case 'r': / * %I:%M:%S %p * /
break;
*/
case 'R': /* %H:%M */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_hour, &bi, &fi, 0, 23))
return buf + bi;
fi--;
if (buf[bi] != ':')
return buf + bi;
bi++;
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_min, &bi, &fi, 0, 59))
return buf + bi;
break;
case 'S': /* seconds (0-61) */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_sec, &bi, &fi, 0, 61))
return buf + bi;
break;
case 'T': /* %H:%M:%S */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_hour, &bi, &fi, 0, 23))
return buf + bi;
fi--;
if (buf[bi] != ':')
return buf + bi;
bi++;
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_min, &bi, &fi, 0, 59))
return buf + bi;
fi--;
if (buf[bi] != ':')
return buf + bi;
bi++;
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_sec, &bi, &fi, 0, 61))
return buf + bi;
break;
case 'w': /* day of week (0=Sun-6) */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_wday, &bi, &fi, 0, 6))
return buf + bi;
break;
/* not supported yet: date, based on locale
case 'x': / * date, based on locale * /
break;
*/
/* not supported yet:
case 'X': / * time, based on locale * /
break;
*/
case 'y': /* the year - 1900 (0-99) */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_year, &bi, &fi, 0, 99))
return buf + bi;
if (tm->tm_year < 69)
tm->tm_year += 100;
break;
case 'Y': /* the full year (1999) */
if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_year, &bi, &fi, 0, 0))
return buf + bi;
tm->tm_year -= 1900;
break;
default: /* unrecognised */
return buf + bi;
} /* switch (format[fi]) */
}
else
{ /* if (percent) */
if (format[fi] == '%')
{
percent = 1;
fi++;
}
else
{
if (format[fi] == buf[bi])
{
fi++;
bi++;
}
else
return buf + bi;
}
} /* if (percent) */
} /* while (format[fi] */
return buf + bi;
#else /* ! ACE_LACKS_NATIVE_STRPTIME */
return ::strptime (buf,
format,
tm);
#endif /* ! ACE_LACKS_NATIVE_STRPTIME */
#else /* ! ACE_HAS_WINCE */
ACE_UNUSED_ARG (buf);
ACE_UNUSED_ARG (format);
ACE_UNUSED_ARG (tm);
ACE_NOTSUP_RETURN (0);
#endif /* ! ACE_HAS_WINCE */
}
# if defined (ACE_LACKS_NATIVE_STRPTIME)
int
ACE_OS::strptime_getnum (char *buf,
int *num,
int *bi,
int *fi,
int min,
int max)
{
int i = 0, tmp = 0;
while (isdigit (buf[i]))
{
tmp = (tmp * 10) + (buf[i] - '0');
if (max && (tmp > max))
return 0;
i++;
}
if (tmp < min)
return 0;
else if (i)
{
*num = tmp;
(*fi)++;
*bi += i;
return 1;
}
else
return 0;
}
# endif /* ACE_LACKS_NATIVE_STRPTIME */
#endif /* ACE_HAS_STRPTIME */
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