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[/] [or1k/] [trunk/] [insight/] [tcl/] [win/] [tclWinTime.c] - Blame information for rev 1767

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1 578 markom
/*
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 * tclWinTime.c --
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 *
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 *      Contains Windows specific versions of Tcl functions that
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 *      obtain time values from the operating system.
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 *
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 * Copyright 1995 by Sun Microsystems, Inc.
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 *
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 * See the file "license.terms" for information on usage and redistribution
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 * of this file, and for a DISCLAIMER OF ALL WARRANTIES.
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 *
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 * RCS: @(#) $Id: tclWinTime.c,v 1.1.1.1 2002-01-16 10:25:39 markom Exp $
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 */
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#include "tclInt.h"
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#include "tclPort.h"
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#define SECSPERDAY (60L * 60L * 24L)
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#define SECSPERYEAR (SECSPERDAY * 365L)
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#define SECSPER4YEAR (SECSPERYEAR * 4L + SECSPERDAY)
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/*
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 * The following arrays contain the day of year for the last day of
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 * each month, where index 1 is January.
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 */
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static int normalDays[] = {
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    -1, 30, 58, 89, 119, 150, 180, 211, 242, 272, 303, 333, 364
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};
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static int leapDays[] = {
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    -1, 30, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365
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};
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/*
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 * Declarations for functions defined later in this file.
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 */
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static struct tm *      ComputeGMT _ANSI_ARGS_((const time_t *tp));
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/*
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 *----------------------------------------------------------------------
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 *
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 * TclpGetSeconds --
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 *
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 *      This procedure returns the number of seconds from the epoch.
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 *      On most Unix systems the epoch is Midnight Jan 1, 1970 GMT.
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 *
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 * Results:
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 *      Number of seconds from the epoch.
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 *
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 * Side effects:
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 *      None.
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 *
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 *----------------------------------------------------------------------
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 */
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unsigned long
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TclpGetSeconds()
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{
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    return (unsigned long) time((time_t *) NULL);
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}
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/*
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 *----------------------------------------------------------------------
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 *
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 * TclpGetClicks --
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 *
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 *      This procedure returns a value that represents the highest
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 *      resolution clock available on the system.  There are no
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 *      guarantees on what the resolution will be.  In Tcl we will
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 *      call this value a "click".  The start time is also system
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 *      dependant.
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 *
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 * Results:
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 *      Number of clicks from some start time.
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 *
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 * Side effects:
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 *      None.
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 *
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 *----------------------------------------------------------------------
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 */
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unsigned long
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TclpGetClicks()
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{
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    return GetTickCount();
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}
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/*
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 *----------------------------------------------------------------------
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 *
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 * TclpGetTimeZone --
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 *
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 *      Determines the current timezone.  The method varies wildly
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 *      between different Platform implementations, so its hidden in
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 *      this function.
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 *
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 * Results:
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 *      Minutes west of GMT.
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 *
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 * Side effects:
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 *      None.
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 *
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 *----------------------------------------------------------------------
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 */
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int
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TclpGetTimeZone (currentTime)
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    unsigned long  currentTime;
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{
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    int timeZone;
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    tzset();
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    timeZone = _timezone / 60;
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    return timeZone;
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}
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/*
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 *----------------------------------------------------------------------
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 *
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 * TclpGetTime --
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 *
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 *      Gets the current system time in seconds and microseconds
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 *      since the beginning of the epoch: 00:00 UCT, January 1, 1970.
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 *
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 * Results:
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 *      Returns the current time in timePtr.
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 *
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 * Side effects:
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 *      None.
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 *
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 *----------------------------------------------------------------------
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 */
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void
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TclpGetTime(timePtr)
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    Tcl_Time *timePtr;          /* Location to store time information. */
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{
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    struct timeb t;
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    ftime(&t);
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    timePtr->sec = t.time;
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    timePtr->usec = t.millitm * 1000;
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}
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/*
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 *----------------------------------------------------------------------
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 *
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 * TclpGetTZName --
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 *
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 *      Gets the current timezone string.
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 *
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 * Results:
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 *      Returns a pointer to a static string, or NULL on failure.
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 *
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 * Side effects:
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 *      None.
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 *
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 *----------------------------------------------------------------------
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 */
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164
char *
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TclpGetTZName()
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{
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    tzset();
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    if (_daylight && _tzname[1] != NULL) {
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        return _tzname[1];
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    } else {
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        return _tzname[0];
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    }
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}
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175
/*
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 *----------------------------------------------------------------------
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 *
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 * TclpGetDate --
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 *
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 *      This function converts between seconds and struct tm.  If
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 *      useGMT is true, then the returned date will be in Greenwich
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 *      Mean Time (GMT).  Otherwise, it will be in the local time zone.
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 *
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 * Results:
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 *      Returns a static tm structure.
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 *
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 * Side effects:
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 *      None.
189
 *
190
 *----------------------------------------------------------------------
191
 */
192
 
193
struct tm *
194
TclpGetDate(tp, useGMT)
195
    const time_t *tp;
196
    int useGMT;
197
{
198
    struct tm *tmPtr;
199
    long time;
200
 
201
    if (!useGMT) {
202
        tzset();
203
 
204
        /*
205
         * If we are in the valid range, let the C run-time library
206
         * handle it.  Otherwise we need to fake it.  Note that this
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         * algorithm ignores daylight savings time before the epoch.
208
         */
209
 
210
        time = *tp - _timezone;
211
        if (time >= 0) {
212
            return localtime(tp);
213
        }
214
 
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        /*
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         * If we aren't near to overflowing the long, just add the bias and
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         * use the normal calculation.  Otherwise we will need to adjust
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         * the result at the end.
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         */
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221
        if (*tp < (LONG_MAX - 2 * SECSPERDAY)
222
                && *tp > (LONG_MIN + 2 * SECSPERDAY)) {
223
            tmPtr = ComputeGMT(&time);
224
        } else {
225
            tmPtr = ComputeGMT(tp);
226
 
227
            tzset();
228
 
229
            /*
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             * Add the bias directly to the tm structure to avoid overflow.
231
             * Propagate seconds overflow into minutes, hours and days.
232
             */
233
 
234
            time = tmPtr->tm_sec - _timezone;
235
            tmPtr->tm_sec = (int)(time % 60);
236
            if (tmPtr->tm_sec < 0) {
237
                tmPtr->tm_sec += 60;
238
                time -= 60;
239
            }
240
 
241
            time = tmPtr->tm_min + time/60;
242
            tmPtr->tm_min = (int)(time % 60);
243
            if (tmPtr->tm_min < 0) {
244
                tmPtr->tm_min += 60;
245
                time -= 60;
246
            }
247
 
248
            time = tmPtr->tm_hour + time/60;
249
            tmPtr->tm_hour = (int)(time % 24);
250
            if (tmPtr->tm_hour < 0) {
251
                tmPtr->tm_hour += 24;
252
                time -= 24;
253
            }
254
 
255
            time /= 24;
256
            tmPtr->tm_mday += time;
257
            tmPtr->tm_yday += time;
258
            tmPtr->tm_wday = (tmPtr->tm_wday + time) % 7;
259
        }
260
    } else {
261
        tmPtr = ComputeGMT(tp);
262
    }
263
    return tmPtr;
264
}
265
 
266
/*
267
 *----------------------------------------------------------------------
268
 *
269
 * ComputeGMT --
270
 *
271
 *      This function computes GMT given the number of seconds since
272
 *      the epoch (midnight Jan 1 1970).
273
 *
274
 * Results:
275
 *      Returns a statically allocated struct tm.
276
 *
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 * Side effects:
278
 *      Updates the values of the static struct tm.
279
 *
280
 *----------------------------------------------------------------------
281
 */
282
 
283
static struct tm *
284
ComputeGMT(tp)
285
    const time_t *tp;
286
{
287
    static struct tm tm;          /* This should be allocated per thread.*/
288
    long tmp, rem;
289
    int isLeap;
290
    int *days;
291
 
292
    /*
293
     * Compute the 4 year span containing the specified time.
294
     */
295
 
296
    tmp = *tp / SECSPER4YEAR;
297
    rem = *tp % SECSPER4YEAR;
298
 
299
    /*
300
     * Correct for weird mod semantics so the remainder is always positive.
301
     */
302
 
303
    if (rem < 0) {
304
        tmp--;
305
        rem += SECSPER4YEAR;
306
    }
307
 
308
    /*
309
     * Compute the year after 1900 by taking the 4 year span and adjusting
310
     * for the remainder.  This works because 2000 is a leap year, and
311
     * 1900/2100 are out of the range.
312
     */
313
 
314
    tmp = (tmp * 4) + 70;
315
    isLeap = 0;
316
    if (rem >= SECSPERYEAR) {                     /* 1971, etc. */
317
        tmp++;
318
        rem -= SECSPERYEAR;
319
        if (rem >= SECSPERYEAR) {                 /* 1972, etc. */
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            tmp++;
321
            rem -= SECSPERYEAR;
322
            if (rem >= SECSPERYEAR + SECSPERDAY) { /* 1973, etc. */
323
                tmp++;
324
                rem -= SECSPERYEAR + SECSPERDAY;
325
            } else {
326
                isLeap = 1;
327
            }
328
        }
329
    }
330
    tm.tm_year = tmp;
331
 
332
    /*
333
     * Compute the day of year and leave the seconds in the current day in
334
     * the remainder.
335
     */
336
 
337
    tm.tm_yday = rem / SECSPERDAY;
338
    rem %= SECSPERDAY;
339
 
340
    /*
341
     * Compute the time of day.
342
     */
343
 
344
    tm.tm_hour = rem / 3600;
345
    rem %= 3600;
346
    tm.tm_min = rem / 60;
347
    tm.tm_sec = rem % 60;
348
 
349
    /*
350
     * Compute the month and day of month.
351
     */
352
 
353
    days = (isLeap) ? leapDays : normalDays;
354
    for (tmp = 1; days[tmp] < tm.tm_yday; tmp++) {
355
    }
356
    tm.tm_mon = --tmp;
357
    tm.tm_mday = tm.tm_yday - days[tmp];
358
 
359
    /*
360
     * Compute day of week.  Epoch started on a Thursday.
361
     */
362
 
363
    tm.tm_wday = (*tp / SECSPERDAY) + 4;
364
    if ((*tp % SECSPERDAY) < 0) {
365
        tm.tm_wday--;
366
    }
367
    tm.tm_wday %= 7;
368
    if (tm.tm_wday < 0) {
369
        tm.tm_wday += 7;
370
    }
371
 
372
    return &tm;
373
}

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