#include "ace/OS_NS_time.h" #if !defined (ACE_HAS_INLINED_OSCALLS) # include "ace/OS_NS_time.inl" #endif /* ACE_HAS_INLINED_OSCALLS */ #if defined (ACE_LACKS_STRPTIME) # include "ace/os_include/os_ctype.h" #endif /* ACE_LACKS_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() */ namespace { ACE_TCHAR const * const ACE_OS_day_of_week_name[] = { ACE_TEXT ("Sun"), ACE_TEXT ("Mon"), ACE_TEXT ("Tue"), ACE_TEXT ("Wed"), ACE_TEXT ("Thu"), ACE_TEXT ("Fri"), ACE_TEXT ("Sat") }; ACE_TCHAR const * const ACE_OS_month_name[] = { ACE_TEXT ("Jan"), ACE_TEXT ("Feb"), ACE_TEXT ("Mar"), ACE_TEXT ("Apr"), ACE_TEXT ("May"), ACE_TEXT ("Jun"), ACE_TEXT ("Jul"), ACE_TEXT ("Aug"), ACE_TEXT ("Sep"), ACE_TEXT ("Oct"), ACE_TEXT ("Nov"), ACE_TEXT ("Dec") }; static ACE_TCHAR const ACE_OS_CTIME_R_FMTSTR[] = ACE_TEXT ("%3s %3s %02d %02d:%02d:%02d %04d\n"); } /* end blank namespace */ #endif /* ACE_HAS_WINCE */ ACE_BEGIN_VERSIONED_NAMESPACE_DECL # 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::snprintf (buf, buflen, 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; 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_TR24731_2005_CRT) ACE_SECURECRTCALL (localtime_s (res, t), struct tm *, 0, res); 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 - 1; 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; #elif defined (ACE_LACKS_LOCALTIME_R) ACE_OS_GUARD ACE_UNUSED_ARG (res); struct tm * res_ptr = 0; ACE_OSCALL (::localtime (t), struct tm *, res_ptr); if (res_ptr == 0) return 0; else { *res = *res_ptr; return res; } #else return ace_localtime_r_helper (t, res); #endif /* ACE_HAS_TR24731_2005_CRT */ } time_t ACE_OS::mktime (struct tm *t) { ACE_OS_TRACE ("ACE_OS::mktime"); # if 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. t_sys.wMilliseconds = 0; 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 */ return std::mktime (t); # endif /* ACE_HAS_WINCE */ } #if defined (ACE_LACKS_STRPTIME) char * ACE_OS::strptime_emulation (const char *buf, const char *format, struct tm *tm) { int bi = 0; int fi = 0; bool percent = false; if (!buf || !format) return 0; while (format[fi] != '\0') { if (percent) { percent = false; switch (format[fi]) { case '%': // an escaped % if (buf[bi] == '%') { ++fi; ++bi; } else return const_cast (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 const_cast (buf + bi); break; case 'D': /* %m/%d/%y */ if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_mon, &bi, &fi, 1, 12)) return const_cast (buf + bi); --fi; tm->tm_mon--; if (buf[bi] != '/') return const_cast (buf + bi); ++bi; if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_mday, &bi, &fi, 1, 31)) return const_cast (buf + bi); --fi; if (buf[bi] != '/') return const_cast (buf + bi); ++bi; if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_year, &bi, &fi, 0, 99)) return const_cast (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 const_cast (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 const_cast (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 const_cast (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 const_cast (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 const_cast (buf + bi); --fi; if (buf[bi] != ':') return const_cast (buf + bi); ++bi; if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_min, &bi, &fi, 0, 59)) return const_cast (buf + bi); break; case 'S': /* seconds (0-61) */ if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_sec, &bi, &fi, 0, 61)) return const_cast (buf + bi); break; case 'T': /* %H:%M:%S */ if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_hour, &bi, &fi, 0, 23)) return const_cast (buf + bi); --fi; if (buf[bi] != ':') return const_cast (buf + bi); ++bi; if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_min, &bi, &fi, 0, 59)) return const_cast (buf + bi); --fi; if (buf[bi] != ':') return const_cast (buf + bi); ++bi; if (!ACE_OS::strptime_getnum (buf + bi, &tm->tm_sec, &bi, &fi, 0, 61)) return const_cast (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 const_cast (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 const_cast (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 const_cast (buf + bi); tm->tm_year -= 1900; break; default: /* unrecognised */ return const_cast (buf + bi); } /* switch (format[fi]) */ } else { /* if (percent) */ if (format[fi] == '%') { percent = true; ++fi; } else { if (format[fi] == buf[bi]) { ++fi; ++bi; } else return const_cast (buf + bi); } } /* if (percent) */ } /* while (format[fi] */ return const_cast (buf + bi); } int ACE_OS::strptime_getnum (const 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_STRPTIME */ ACE_END_VERSIONED_NAMESPACE_DECL