// // strftime.c // // Date to string conversion // // Copyright (C) 2002 Michael Ringgaard. 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. // 3. Neither the name of the project nor the names of its contributors // may be used to endorse or promote products derived from this software // without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 COPYRIGHT OWNER OR CONTRIBUTORS 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. // ///////////////////////////////////////////////////////////////////////////////////////////// // // // time() // // // ///////////////////////////////////////////////////////////////////////////////////////////// #include #include #include "ce_time.h" time_t time(time_t* timer) { SYSTEMTIME systime; struct tm tmtime; time_t tt; GetLocalTime(&systime); tmtime.tm_year = systime.wYear-1900; tmtime.tm_mon = systime.wMonth-1; tmtime.tm_mday = systime.wDay; tmtime.tm_wday = systime.wDayOfWeek; tmtime.tm_hour = systime.wHour; tmtime.tm_min = systime.wMinute; tmtime.tm_sec = systime.wSecond; tt = mktime(&tmtime); if(timer) *timer = tt; return tt; } ///////////////////////////////////////////////////////////////////////////////////////////// // // // mktime() // // // ///////////////////////////////////////////////////////////////////////////////////////////// static int month_to_day[12] = {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334}; time_t mktime(struct tm *t) { short month, year; time_t result; month = t->tm_mon; year = t->tm_year + month / 12 + 1900; month %= 12; if (month < 0) { year -= 1; month += 12; } result = (year - 1970) * 365 + (year - 1969) / 4 + month_to_day[month]; result = (year - 1970) * 365 + month_to_day[month]; if (month <= 1) year -= 1; result += (year - 1968) / 4; result -= (year - 1900) / 100; result += (year - 1600) / 400; result += t->tm_mday; result -= 1; result *= 24; result += t->tm_hour; result *= 60; result += t->tm_min; result *= 60; result += t->tm_sec; return(result); } ///////////////////////////////////////////////////////////////////////////////////////////// // // // strftime() - taken from OpenBSD // // // ///////////////////////////////////////////////////////////////////////////////////////////// #define IN_NONE 0 #define IN_SOME 1 #define IN_THIS 2 #define IN_ALL 3 #define CHAR_BIT 8 #define TYPE_BIT(type) (sizeof (type) * CHAR_BIT) #define TYPE_SIGNED(type) (((type) -1) < 0) #define INT_STRLEN_MAXIMUM(type) \ ((TYPE_BIT(type) - TYPE_SIGNED(type)) * 302 / 1000 + 1 + TYPE_SIGNED(type)) #define isleap(y) (((y) % 4) == 0 && (((y) % 100) != 0 || ((y) % 400) == 0)) #define MONSPERYEAR 12 #define DAYSPERWEEK 7 #define TM_YEAR_BASE 1900 #define HOURSPERDAY 24 #define DAYSPERNYEAR 365 #define DAYSPERLYEAR 366 static char wildabbr[] = "WILDABBR"; static char * tzname[2] = { wildabbr, wildabbr }; #define Locale (&C_time_locale) struct lc_time_T { const char * mon[MONSPERYEAR]; const char * month[MONSPERYEAR]; const char * wday[DAYSPERWEEK]; const char * weekday[DAYSPERWEEK]; const char * X_fmt; const char * x_fmt; const char * c_fmt; const char * am; const char * pm; const char * date_fmt; }; static const struct lc_time_T C_time_locale = { { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }, { "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" }, { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }, { "Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday" }, /* X_fmt */ "%H:%M:%S", /* ** x_fmt ** C99 requires this format. ** Using just numbers (as here) makes Quakers happier; ** it's also compatible with SVR4. */ "%m/%d/%y", /* ** c_fmt ** C99 requires this format. ** Previously this code used "%D %X", but we now conform to C99. ** Note that ** "%a %b %d %H:%M:%S %Y" ** is used by Solaris 2.3. */ "%a %b %e %T %Y", /* am */ "AM", /* pm */ "PM", /* date_fmt */ "%a %b %e %H:%M:%S %Z %Y" }; static char * _add(const char * str, char * pt, const char * const ptlim) { while (pt < ptlim && (*pt = *str++) != '\0') ++pt; return pt; } static char * _conv(const int n, const char * const format, char * const pt, const char * const ptlim) { char buf[INT_STRLEN_MAXIMUM(int) + 1]; (void) _snprintf(buf, sizeof buf, format, n); return _add(buf, pt, ptlim); } static char * _fmt(const char * format, const struct tm * const t, char * pt, const char * const ptlim, int * warnp) { for ( ; *format; ++format) { if (*format == '%') { label: switch (*++format) { case '\0': --format; break; case 'A': pt = _add((t->tm_wday < 0 || t->tm_wday >= DAYSPERWEEK) ? "?" : Locale->weekday[t->tm_wday], pt, ptlim); continue; case 'a': pt = _add((t->tm_wday < 0 || t->tm_wday >= DAYSPERWEEK) ? "?" : Locale->wday[t->tm_wday], pt, ptlim); continue; case 'B': pt = _add((t->tm_mon < 0 || t->tm_mon >= MONSPERYEAR) ? "?" : Locale->month[t->tm_mon], pt, ptlim); continue; case 'b': case 'h': pt = _add((t->tm_mon < 0 || t->tm_mon >= MONSPERYEAR) ? "?" : Locale->mon[t->tm_mon], pt, ptlim); continue; case 'C': /* ** %C used to do a... ** _fmt("%a %b %e %X %Y", t); ** ...whereas now POSIX 1003.2 calls for ** something completely different. ** (ado, 1993-05-24) */ pt = _conv((t->tm_year + TM_YEAR_BASE) / 100, "%02d", pt, ptlim); continue; case 'c': { int warn2 = IN_SOME; pt = _fmt(Locale->c_fmt, t, pt, ptlim, warnp); if (warn2 == IN_ALL) warn2 = IN_THIS; if (warn2 > *warnp) *warnp = warn2; } continue; case 'D': pt = _fmt("%m/%d/%y", t, pt, ptlim, warnp); continue; case 'd': pt = _conv(t->tm_mday, "%02d", pt, ptlim); continue; case 'E': case 'O': /* ** C99 locale modifiers. ** The sequences ** %Ec %EC %Ex %EX %Ey %EY ** %Od %oe %OH %OI %Om %OM ** %OS %Ou %OU %OV %Ow %OW %Oy ** are supposed to provide alternate ** representations. */ goto label; case 'e': pt = _conv(t->tm_mday, "%2d", pt, ptlim); continue; case 'F': pt = _fmt("%Y-%m-%d", t, pt, ptlim, warnp); continue; case 'H': pt = _conv(t->tm_hour, "%02d", pt, ptlim); continue; case 'I': pt = _conv((t->tm_hour % 12) ? (t->tm_hour % 12) : 12, "%02d", pt, ptlim); continue; case 'j': pt = _conv(t->tm_yday + 1, "%03d", pt, ptlim); continue; case 'k': /* ** This used to be... ** _conv(t->tm_hour % 12 ? ** t->tm_hour % 12 : 12, 2, ' '); ** ...and has been changed to the below to ** match SunOS 4.1.1 and Arnold Robbins' ** strftime version 3.0. That is, "%k" and ** "%l" have been swapped. ** (ado, 1993-05-24) */ pt = _conv(t->tm_hour, "%2d", pt, ptlim); continue; #ifdef KITCHEN_SINK case 'K': /* ** After all this time, still unclaimed! */ pt = _add("kitchen sink", pt, ptlim); continue; #endif /* defined KITCHEN_SINK */ case 'l': /* ** This used to be... ** _conv(t->tm_hour, 2, ' '); ** ...and has been changed to the below to ** match SunOS 4.1.1 and Arnold Robbin's ** strftime version 3.0. That is, "%k" and ** "%l" have been swapped. ** (ado, 1993-05-24) */ pt = _conv((t->tm_hour % 12) ? (t->tm_hour % 12) : 12, "%2d", pt, ptlim); continue; case 'M': pt = _conv(t->tm_min, "%02d", pt, ptlim); continue; case 'm': pt = _conv(t->tm_mon + 1, "%02d", pt, ptlim); continue; case 'n': pt = _add("\n", pt, ptlim); continue; case 'p': pt = _add((t->tm_hour >= (HOURSPERDAY / 2)) ? Locale->pm : Locale->am, pt, ptlim); continue; case 'R': pt = _fmt("%H:%M", t, pt, ptlim, warnp); continue; case 'r': pt = _fmt("%I:%M:%S %p", t, pt, ptlim, warnp); continue; case 'S': pt = _conv(t->tm_sec, "%02d", pt, ptlim); continue; case 's': { struct tm tm; char buf[INT_STRLEN_MAXIMUM( time_t) + 1]; time_t mkt; tm = *t; mkt = mktime(&tm); if (TYPE_SIGNED(time_t)) (void) _snprintf(buf, sizeof buf, "%ld", (long) mkt); else (void) _snprintf(buf, sizeof buf, "%lu", (unsigned long) mkt); pt = _add(buf, pt, ptlim); } continue; case 'T': pt = _fmt("%H:%M:%S", t, pt, ptlim, warnp); continue; case 't': pt = _add("\t", pt, ptlim); continue; case 'U': pt = _conv((t->tm_yday + DAYSPERWEEK - t->tm_wday) / DAYSPERWEEK, "%02d", pt, ptlim); continue; case 'u': /* ** From Arnold Robbins' strftime version 3.0: ** "ISO 8601: Weekday as a decimal number ** [1 (Monday) - 7]" ** (ado, 1993-05-24) */ pt = _conv((t->tm_wday == 0) ? DAYSPERWEEK : t->tm_wday, "%d", pt, ptlim); continue; case 'V': /* ISO 8601 week number */ case 'G': /* ISO 8601 year (four digits) */ case 'g': /* ISO 8601 year (two digits) */ { int year; int yday; int wday; int w; year = t->tm_year + TM_YEAR_BASE; yday = t->tm_yday; wday = t->tm_wday; for ( ; ; ) { int len; int bot; int top; len = isleap(year) ? DAYSPERLYEAR : DAYSPERNYEAR; /* ** What yday (-3 ... 3) does ** the ISO year begin on? */ bot = ((yday + 11 - wday) % DAYSPERWEEK) - 3; /* ** What yday does the NEXT ** ISO year begin on? */ top = bot - (len % DAYSPERWEEK); if (top < -3) top += DAYSPERWEEK; top += len; if (yday >= top) { ++year; w = 1; break; } if (yday >= bot) { w = 1 + ((yday - bot) / DAYSPERWEEK); break; } --year; yday += isleap(year) ? DAYSPERLYEAR : DAYSPERNYEAR; } if (*format == 'V') pt = _conv(w, "%02d", pt, ptlim); else if (*format == 'g') { *warnp = IN_ALL; pt = _conv(year % 100, "%02d", pt, ptlim); } else pt = _conv(year, "%04d", pt, ptlim); } continue; case 'v': pt = _fmt("%e-%b-%Y", t, pt, ptlim, warnp); continue; case 'W': pt = _conv((t->tm_yday + DAYSPERWEEK - (t->tm_wday ? (t->tm_wday - 1) : (DAYSPERWEEK - 1))) / DAYSPERWEEK, "%02d", pt, ptlim); continue; case 'w': pt = _conv(t->tm_wday, "%d", pt, ptlim); continue; case 'X': pt = _fmt(Locale->X_fmt, t, pt, ptlim, warnp); continue; case 'x': { int warn2 = IN_SOME; pt = _fmt(Locale->x_fmt, t, pt, ptlim, &warn2); if (warn2 == IN_ALL) warn2 = IN_THIS; if (warn2 > *warnp) *warnp = warn2; } continue; case 'y': *warnp = IN_ALL; pt = _conv((t->tm_year + TM_YEAR_BASE) % 100, "%02d", pt, ptlim); continue; case 'Y': pt = _conv(t->tm_year + TM_YEAR_BASE, "%04d", pt, ptlim); continue; case 'Z': if (t->tm_isdst >= 0) pt = _add(tzname[t->tm_isdst != 0], pt, ptlim); /* ** C99 says that %Z must be replaced by the ** empty string if the time zone is not ** determinable. */ continue; case 'z': { int diff; char const * sign; if (t->tm_isdst < 0) continue; continue; if (diff < 0) { sign = "-"; diff = -diff; } else sign = "+"; pt = _add(sign, pt, ptlim); diff /= 60; pt = _conv((diff/60)*100 + diff%60, "%04d", pt, ptlim); } continue; case '+': pt = _fmt(Locale->date_fmt, t, pt, ptlim, warnp); continue; case '%': default: break; } } if (pt == ptlim) break; *pt++ = *format; } return pt; } size_t strftime(char * const s, const size_t maxsize, const char * const format, const struct tm * const t) { char * p; int warn; //tzset(); warn = IN_NONE; p = _fmt(((format == NULL) ? "%c" : format), t, s, s + maxsize, &warn); if (p == s + maxsize) { if (maxsize > 0) s[maxsize - 1] = '\0'; return 0; } *p = '\0'; return p - s; } ///////////////////////////////////////////////////////////////////////////////////////////// // // // gmtime() // // // ///////////////////////////////////////////////////////////////////////////////////////////// static struct tm mytm; static int DMonth[13] = { 0,31,59,90,120,151,181,212,243,273,304,334,365 }; static int monthCodes[12] = { 6, 2, 2, 5, 0, 3, 5, 1, 4, 6, 2, 4 }; static int calcDayOfWeek(const struct tm* nTM) { int day; day = (nTM->tm_year%100); day += day/4; day += monthCodes[nTM->tm_mon]; day += nTM->tm_mday; while(day>=7) day -= 7; return day; } static struct tm * gmtime(const time_t *timer) { unsigned long x = *timer; int imin, ihrs, iday, iyrs; int sec, min, hrs, day, mon, yrs; int lday, qday, jday, mday; imin = x / 60; // whole minutes since 1/1/70 sec = x - (60 * imin); // leftover seconds ihrs = imin / 60; // whole hours since 1/1/70 min = imin - 60 * ihrs; // leftover minutes iday = ihrs / 24; // whole days since 1/1/70 hrs = ihrs - 24 * iday; // leftover hours iday = iday + 365 + 366; // whole days since 1/1/68 lday = iday / (( 4* 365) + 1); // quadyr = 4 yr period = 1461 days qday = iday % (( 4 * 365) + 1); // days since current quadyr began if(qday >= (31 + 29)) // if past feb 29 then lday = lday + 1; // add this quadyr’s leap day to the // # of quadyrs (leap days) since 68 iyrs = (iday - lday) / 365; // whole years since 1968 jday = iday - (iyrs * 365) - lday; // days since 1 /1 of current year. if(qday <= 365 && qday >= 60) // if past 2/29 and a leap year then jday = jday + 1; // add a leap day to the # of whole // days since 1/1 of current year yrs = iyrs + 1968; // compute year mon = 13; // estimate month ( +1) mday = 366; // max days since 1/1 is 365 while(jday < mday) // mday = # of days passed from 1/1 { // until first day of current month mon = mon - 1; // mon = month (estimated) mday = DMonth[mon]; // # elapsed days at first of ”mon” if((mon > 2) && (yrs % 4) == 0) // if past 2/29 and leap year then mday = mday + 1; // add leap day // compute month by decrementing } // month until found day = jday - mday + 1; // compute day of month mytm.tm_sec = sec; mytm.tm_min = min; mytm.tm_hour = hrs; mytm.tm_mday = day; mytm.tm_mon = mon; mytm.tm_year = yrs - 1900; mytm.tm_wday = calcDayOfWeek(&mytm); mytm.tm_yday = jday; mytm.tm_isdst = 0; return &mytm; } ///////////////////////////////////////////////////////////////////////////////////////////// // // // localtime() - simply using gmtime() // // // ///////////////////////////////////////////////////////////////////////////////////////////// struct tm * localtime(const time_t *timer) { return gmtime(timer); }