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1 771 jeremybenn
/* java.util.SimpleTimeZone
2
   Copyright (C) 1998, 1999, 2000, 2003, 2004, 2005, 2007
3
   Free Software Foundation, Inc.
4
 
5
This file is part of GNU Classpath.
6
 
7
GNU Classpath is free software; you can redistribute it and/or modify
8
it under the terms of the GNU General Public License as published by
9
the Free Software Foundation; either version 2, or (at your option)
10
any later version.
11
 
12
GNU Classpath is distributed in the hope that it will be useful, but
13
WITHOUT ANY WARRANTY; without even the implied warranty of
14
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15
General Public License for more details.
16
 
17
You should have received a copy of the GNU General Public License
18
along with GNU Classpath; see the file COPYING.  If not, write to the
19
Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
20
02110-1301 USA.
21
 
22
Linking this library statically or dynamically with other modules is
23
making a combined work based on this library.  Thus, the terms and
24
conditions of the GNU General Public License cover the whole
25
combination.
26
 
27
As a special exception, the copyright holders of this library give you
28
permission to link this library with independent modules to produce an
29
executable, regardless of the license terms of these independent
30
modules, and to copy and distribute the resulting executable under
31
terms of your choice, provided that you also meet, for each linked
32
independent module, the terms and conditions of the license of that
33
module.  An independent module is a module which is not derived from
34
or based on this library.  If you modify this library, you may extend
35
this exception to your version of the library, but you are not
36
obligated to do so.  If you do not wish to do so, delete this
37
exception statement from your version. */
38
 
39
 
40
package java.util;
41
 
42
 
43
/**
44
 * This class represents a simple time zone offset and handles
45
 * daylight savings.  It can only handle one daylight savings rule, so
46
 * it can't represent historical changes.
47
 *
48
 * This object is tightly bound to the Gregorian calendar.  It assumes
49
 * a regular seven days week, and the month lengths are that of the
50
 * Gregorian Calendar.  It can only handle daylight savings for years
51
 * lying in the AD era.
52
 *
53
 * @see Calendar
54
 * @see GregorianCalendar
55
 * @author Jochen Hoenicke
56
 */
57
public class SimpleTimeZone extends TimeZone
58
{
59
  /**
60
   * The raw time zone offset in milliseconds to GMT, ignoring
61
   * daylight savings.
62
   * @serial
63
   */
64
  private int rawOffset;
65
 
66
  /**
67
   * True, if this timezone uses daylight savings, false otherwise.
68
   * @serial
69
   */
70
  private boolean useDaylight;
71
 
72
  /**
73
   * The daylight savings offset.  This is a positive offset in
74
   * milliseconds with respect to standard time.  Typically this
75
   * is one hour, but for some time zones this may be half an hour.
76
   * @serial
77
   * @since JDK1.1.4
78
   */
79
  private int dstSavings = 60 * 60 * 1000;
80
 
81
  /**
82
   * The first year, in which daylight savings rules applies.
83
   * @serial
84
   */
85
  private int startYear;
86
  private static final int DOM_MODE = 1;
87
  private static final int DOW_IN_MONTH_MODE = 2;
88
  private static final int DOW_GE_DOM_MODE = 3;
89
  private static final int DOW_LE_DOM_MODE = 4;
90
 
91
  /**
92
   * The mode of the start rule. This takes one of the following values:
93
   * <dl>
94
   * <dt>DOM_MODE (1)</dt>
95
   * <dd> startDay contains the day in month of the start date,
96
   * startDayOfWeek is unused. </dd>
97
   * <dt>DOW_IN_MONTH_MODE (2)</dt>
98
   * <dd> The startDay gives the day of week in month, and
99
   * startDayOfWeek the day of week.  For example startDay=2 and
100
   * startDayOfWeek=Calender.SUNDAY specifies that the change is on
101
   * the second sunday in that month.  You must make sure, that this
102
   * day always exists (ie. don't specify the 5th sunday).
103
   * </dd>
104
   * <dt>DOW_GE_DOM_MODE (3)</dt>
105
   * <dd> The start is on the first startDayOfWeek on or after
106
   * startDay.  For example startDay=13 and
107
   * startDayOfWeek=Calendar.FRIDAY specifies that the daylight
108
   * savings start on the first FRIDAY on or after the 13th of that
109
   * Month. Make sure that the change is always in the given month, or
110
   * the result is undefined.
111
   * </dd>
112
   * <dt>DOW_LE_DOM_MONTH (4)</dt>
113
   * <dd> The start is on the first startDayOfWeek on or before the
114
   * startDay.  Make sure that the change is always in the given
115
   * month, or the result is undefined.
116
   </dd>
117
   * </dl>
118
   * @serial */
119
  private int startMode;
120
 
121
  /**
122
   * The month in which daylight savings start.  This is one of the
123
   * constants Calendar.JANUARY, ..., Calendar.DECEMBER.
124
   * @serial
125
   */
126
  private int startMonth;
127
 
128
  /**
129
   * This variable can have different meanings.  See startMode for details
130
   * @see #startMode
131
   * @serial
132
   */
133
  private int startDay;
134
 
135
  /**
136
   * This variable specifies the day of week the change takes place.  If
137
   * startMode == DOM_MODE, this is undefined.
138
   * @serial
139
   * @see #startMode
140
   */
141
  private int startDayOfWeek;
142
 
143
  /**
144
   * This variable specifies the time of change to daylight savings.
145
   * This time is given in milliseconds after midnight in startTimeMode
146
   * chosen time mode.
147
   * @serial
148
   */
149
  private int startTime;
150
 
151
  /**
152
   * This variable specifies the mode that startTime is specified in.  By
153
   * default it is WALL_TIME, but can also be STANDARD_TIME or UTC_TIME.  For
154
   * startTime, STANDARD_TIME and WALL_TIME are equivalent.
155
   * @serial
156
   */
157
  private int startTimeMode = WALL_TIME;
158
 
159
  /**
160
   * The month in which daylight savings ends.  This is one of the
161
   * constants Calendar.JANUARY, ..., Calendar.DECEMBER.
162
   * @serial
163
   */
164
  private int endMonth;
165
 
166
  /**
167
   * This variable gives the mode for the end of daylight savings rule.
168
   * It can take the same values as startMode.
169
   * @serial
170
   * @see #startMode
171
   */
172
  private int endMode;
173
 
174
  /**
175
   * This variable can have different meanings.  See startMode for details
176
   * @serial
177
   * @see #startMode
178
   */
179
  private int endDay;
180
 
181
  /**
182
   * This variable specifies the day of week the change takes place.  If
183
   * endMode == DOM_MODE, this is undefined.
184
   * @serial
185
   * @see #startMode
186
   */
187
  private int endDayOfWeek;
188
 
189
  /**
190
   * This variable specifies the time of change back to standard time.
191
   * This time is given in milliseconds after midnight in endTimeMode
192
   * chosen time mode.
193
   * @serial
194
   */
195
  private int endTime;
196
 
197
  /**
198
   * This variable specifies the mode that endTime is specified in.  By
199
   * default it is WALL_TIME, but can also be STANDARD_TIME or UTC_TIME.
200
   * @serial
201
   */
202
  private int endTimeMode = WALL_TIME;
203
 
204
  /**
205
   * This variable points to a deprecated array from JDK 1.1.  It is
206
   * ignored in JDK 1.2 but streamed out for compatibility with JDK 1.1.
207
   * The array contains the lengths of the months in the year and is
208
   * assigned from a private static final field to avoid allocating
209
   * the array for every instance of the object.
210
   * Note that static final fields are not serialized.
211
   * @serial
212
   */
213
  private byte[] monthLength = monthArr;
214
  private static final byte[] monthArr =
215
                                         {
216
                                           31, 28, 31, 30, 31, 30, 31, 31, 30,
217
                                           31, 30, 31
218
                                         };
219
 
220
  /**
221
   * The version of the serialized data on the stream.
222
   * <dl>
223
   * <dt>0 or not present on stream</dt>
224
   * <dd> JDK 1.1.3 or earlier, only provides this fields:
225
   * rawOffset, startDay, startDayOfWeek, startMonth, startTime,
226
   * startYear, endDay, endDayOfWeek, endMonth, endTime
227
   * </dd>
228
   * <dd> JDK 1.1.4 or later. This includes three new fields, namely
229
   * startMode, endMode and dstSavings.  And there is a optional section
230
   * as described in writeObject.
231
   * </dd>
232
   * </dl>
233
   *
234
   * XXX - JDK 1.2 Beta 4 docu states 1.1.4, but my 1.1.5 has the old
235
   * version.
236
   *
237
   * When streaming out this class it is always written in the latest
238
   * version.
239
   * @serial
240
   * @since JDK1.1.4
241
   */
242
  private int serialVersionOnStream = 2;
243
  private static final long serialVersionUID = -403250971215465050L;
244
 
245
  /**
246
   * Constant to indicate that start and end times are specified in standard
247
   * time, without adjusting for daylight savings.
248
   */
249
  public static final int STANDARD_TIME = 1;
250
 
251
  /**
252
   * Constant to indicate that start and end times are specified in wall
253
   * time, adjusting for daylight savings.  This is the default.
254
   */
255
  public static final int WALL_TIME = 0;
256
 
257
  /**
258
   * Constant to indicate that start and end times are specified in UTC.
259
   */
260
  public static final int UTC_TIME = 2;
261
 
262
  /**
263
   * Create a <code>SimpleTimeZone</code> with the given time offset
264
   * from GMT and without daylight savings.
265
   * @param rawOffset the time offset from GMT in milliseconds.
266
   * @param id The identifier of this time zone.
267
   */
268
  public SimpleTimeZone(int rawOffset, String id)
269
  {
270
    this.rawOffset = rawOffset;
271
    setID(id);
272
    useDaylight = false;
273
    startYear = 0;
274
  }
275
 
276
  /**
277
   * Create a <code>SimpleTimeZone</code> with the given time offset
278
   * from GMT and with daylight savings.  The start/end parameters
279
   * can have different meaning (replace WEEKDAY with a real day of
280
   * week). Only the first two meanings were supported by earlier
281
   * versions of jdk.
282
   *
283
   * <dl>
284
   * <dt><code>day &gt; 0, dayOfWeek = Calendar.WEEKDAY</code></dt>
285
   * <dd>The start/end of daylight savings is on the <code>day</code>-th
286
   * <code>WEEKDAY</code> in the given month. </dd>
287
   * <dt><code>day &lt; 0, dayOfWeek = Calendar.WEEKDAY</code></dt>
288
   * <dd>The start/end of daylight savings is on the <code>-day</code>-th
289
   * <code>WEEKDAY</code> counted from the <i>end</i> of the month. </dd>
290
   * <dt><code>day &gt; 0, dayOfWeek = 0</code></dt>
291
   * <dd>The start/end of daylight is on the <code>day</code>-th day of
292
   * the month. </dd>
293
   * <dt><code>day &gt; 0, dayOfWeek = -Calendar.WEEKDAY</code></dt>
294
   * <dd>The start/end of daylight is on the first WEEKDAY on or after
295
   * the <code>day</code>-th day of the month.  You must make sure that
296
   * this day lies in the same month. </dd>
297
   * <dt><code>day &lt; 0, dayOfWeek = -Calendar.WEEKDAY</code></dt>
298
   * <dd>The start/end of daylight is on the first WEEKDAY on or
299
   * <i>before</i> the <code>-day</code>-th day of the month.  You
300
   * must make sure that this day lies in the same month. </dd>
301
   * </dl>
302
   *
303
   * If you give a non existing month, a day that is zero, or too big,
304
   * or a dayOfWeek that is too big,  the result is undefined.
305
   *
306
   * The start rule must have a different month than the end rule.
307
   * This restriction shouldn't hurt for all possible time zones.
308
   *
309
   * @param rawOffset The time offset from GMT in milliseconds.
310
   * @param id  The identifier of this time zone.
311
   * @param startMonth The start month of daylight savings; use the
312
   * constants in Calendar.
313
   * @param startDayOfWeekInMonth A day in month or a day of week number, as
314
   * described above.
315
   * @param startDayOfWeek The start rule day of week; see above.
316
   * @param startTime A time in millis in standard time.
317
   * @param endMonth The end month of daylight savings; use the
318
   * constants in Calendar.
319
   * @param endDayOfWeekInMonth A day in month or a day of week number, as
320
   * described above.
321
   * @param endDayOfWeek The end rule day of week; see above.
322
   * @param endTime A time in millis in standard time.
323
   * @throws IllegalArgumentException if parameters are invalid or out of
324
   * range.
325
   */
326
  public SimpleTimeZone(int rawOffset, String id, int startMonth,
327
                        int startDayOfWeekInMonth, int startDayOfWeek,
328
                        int startTime, int endMonth, int endDayOfWeekInMonth,
329
                        int endDayOfWeek, int endTime)
330
  {
331
    this.rawOffset = rawOffset;
332
    setID(id);
333
    useDaylight = true;
334
 
335
    setStartRule(startMonth, startDayOfWeekInMonth, startDayOfWeek, startTime);
336
    setEndRule(endMonth, endDayOfWeekInMonth, endDayOfWeek, endTime);
337
    if (startMonth == endMonth)
338
      throw new IllegalArgumentException("startMonth and endMonth must be different");
339
    this.startYear = 0;
340
  }
341
 
342
  /**
343
   * This constructs a new SimpleTimeZone that supports a daylight savings
344
   * rule.  The parameter are the same as for the constructor above, except
345
   * there is the additional dstSavaings parameter.
346
   *
347
   * @param dstSavings the amount of savings for daylight savings
348
   * time in milliseconds.  This must be positive.
349
   * @since 1.2
350
   */
351
  public SimpleTimeZone(int rawOffset, String id, int startMonth,
352
                        int startDayOfWeekInMonth, int startDayOfWeek,
353
                        int startTime, int endMonth, int endDayOfWeekInMonth,
354
                        int endDayOfWeek, int endTime, int dstSavings)
355
  {
356
    this(rawOffset, id, startMonth, startDayOfWeekInMonth, startDayOfWeek,
357
         startTime, endMonth, endDayOfWeekInMonth, endDayOfWeek, endTime);
358
 
359
    this.dstSavings = dstSavings;
360
  }
361
 
362
  /**
363
   * This constructs a new SimpleTimeZone that supports a daylight savings
364
   * rule.  The parameter are the same as for the constructor above, except
365
   * there are the additional startTimeMode, endTimeMode, and dstSavings
366
   * parameters.
367
   *
368
   * @param startTimeMode the mode that start times are specified in.  One of
369
   * WALL_TIME, STANDARD_TIME, or UTC_TIME.
370
   * @param endTimeMode the mode that end times are specified in.  One of
371
   * WALL_TIME, STANDARD_TIME, or UTC_TIME.
372
   * @param dstSavings the amount of savings for daylight savings
373
   * time in milliseconds.  This must be positive.
374
   * @throws IllegalArgumentException if parameters are invalid or out of
375
   * range.
376
   * @since 1.4
377
   */
378
  public SimpleTimeZone(int rawOffset, String id, int startMonth,
379
                        int startDayOfWeekInMonth, int startDayOfWeek,
380
                        int startTime, int startTimeMode, int endMonth,
381
                        int endDayOfWeekInMonth, int endDayOfWeek,
382
                        int endTime, int endTimeMode, int dstSavings)
383
  {
384
    this(rawOffset, id, startMonth, startDayOfWeekInMonth, startDayOfWeek,
385
         startTime, endMonth, endDayOfWeekInMonth, endDayOfWeek, endTime);
386
 
387
    if (startTimeMode < WALL_TIME || startTimeMode > UTC_TIME)
388
      throw new IllegalArgumentException("startTimeMode must be one of WALL_TIME, STANDARD_TIME, or UTC_TIME");
389
    if (endTimeMode < WALL_TIME || endTimeMode > UTC_TIME)
390
      throw new IllegalArgumentException("endTimeMode must be one of WALL_TIME, STANDARD_TIME, or UTC_TIME");
391
 
392
    this.dstSavings = dstSavings;
393
    this.startTimeMode = startTimeMode;
394
    this.endTimeMode = endTimeMode;
395
  }
396
 
397
  /**
398
   * Sets the first year, where daylight savings applies.  The daylight
399
   * savings rule never apply for years in the BC era.  Note that this
400
   * is gregorian calendar specific.
401
   * @param year the start year.
402
   */
403
  public void setStartYear(int year)
404
  {
405
    startYear = year;
406
    useDaylight = true;
407
  }
408
 
409
  /**
410
   * Checks if the month, day, dayOfWeek arguments are in range and
411
   * returns the mode of the rule.
412
   * @param month the month parameter as in the constructor
413
   * @param day the day parameter as in the constructor
414
   * @param dayOfWeek the day of week parameter as in the constructor
415
   * @return the mode of this rule see startMode.
416
   * @exception IllegalArgumentException if parameters are out of range.
417
   * @see #SimpleTimeZone(int, String, int, int, int, int, int, int, int, int)
418
   * @see #startMode
419
   */
420
  private int checkRule(int month, int day, int dayOfWeek)
421
  {
422
    if (month < 0 || month > 11)
423
      throw new IllegalArgumentException("month out of range");
424
 
425
    int daysInMonth = getDaysInMonth(month, 1);
426
    if (dayOfWeek == 0)
427
      {
428
        if (day <= 0 || day > daysInMonth)
429
          throw new IllegalArgumentException("day out of range");
430
        return DOM_MODE;
431
      }
432
    else if (dayOfWeek > 0)
433
      {
434
        if (Math.abs(day) > (daysInMonth + 6) / 7)
435
          throw new IllegalArgumentException("dayOfWeekInMonth out of range");
436
        if (dayOfWeek > Calendar.SATURDAY)
437
          throw new IllegalArgumentException("dayOfWeek out of range");
438
        return DOW_IN_MONTH_MODE;
439
      }
440
    else
441
      {
442
        if (day == 0 || Math.abs(day) > daysInMonth)
443
          throw new IllegalArgumentException("day out of range");
444
        if (dayOfWeek < -Calendar.SATURDAY)
445
          throw new IllegalArgumentException("dayOfWeek out of range");
446
        if (day < 0)
447
          return DOW_LE_DOM_MODE;
448
        else
449
          return DOW_GE_DOM_MODE;
450
      }
451
  }
452
 
453
  /**
454
   * Sets the daylight savings start rule.  You must also set the
455
   * end rule with <code>setEndRule</code> or the result of
456
   * getOffset is undefined.  For the parameters see the ten-argument
457
   * constructor above.
458
   *
459
   * @param month The month where daylight savings start, zero
460
   * based.  You should use the constants in Calendar.
461
   * @param day A day of month or day of week in month.
462
   * @param dayOfWeek The day of week where daylight savings start.
463
   * @param time The time in milliseconds standard time where daylight
464
   * savings start.
465
   * @exception IllegalArgumentException if parameters are out of range.
466
   * @see SimpleTimeZone
467
   */
468
  public void setStartRule(int month, int day, int dayOfWeek, int time)
469
  {
470
    this.startMode = checkRule(month, day, dayOfWeek);
471
    this.startMonth = month;
472
    this.startDay = day;
473
    this.startDayOfWeek = Math.abs(dayOfWeek);
474
    this.startTime = time;
475
    this.startTimeMode = WALL_TIME;
476
  }
477
 
478
  /**
479
   * Sets the daylight savings start rule.  You must also set the
480
   * end rule with <code>setEndRule</code> or the result of
481
   * getOffset is undefined.  For the parameters see the ten-argument
482
   * constructor above.
483
   *
484
   * Note that this API isn't incredibly well specified.  It appears that the
485
   * after flag must override the parameters, since normally, the day and
486
   * dayofweek can select this.  I.e., if day < 0 and dayOfWeek < 0, on or
487
   * before mode is chosen.  But if after == true, this implementation
488
   * overrides the signs of the other arguments.  And if dayOfWeek == 0, it
489
   * falls back to the behavior in the other APIs.  I guess this should be
490
   * checked against Sun's implementation.
491
   *
492
   * @param month The month where daylight savings start, zero
493
   * based.  You should use the constants in Calendar.
494
   * @param day A day of month or day of week in month.
495
   * @param dayOfWeek The day of week where daylight savings start.
496
   * @param time The time in milliseconds standard time where daylight
497
   * savings start.
498
   * @param after If true, day and dayOfWeek specify first day of week on or
499
   * after day, else first day of week on or before.
500
   * @since 1.2
501
   * @see SimpleTimeZone
502
   */
503
  public void setStartRule(int month, int day, int dayOfWeek, int time,
504
                           boolean after)
505
  {
506
    if (after)
507
      setStartRule(month, day, -dayOfWeek, time);
508
    else
509
      setStartRule(month, -day, -dayOfWeek, time);
510
  }
511
 
512
  /**
513
   * Sets the daylight savings start rule.  You must also set the
514
   * end rule with <code>setEndRule</code> or the result of
515
   * getOffset is undefined.  For the parameters see the ten-argument
516
   * constructor above.
517
   *
518
   * @param month The month where daylight savings start, zero
519
   * based.  You should use the constants in Calendar.
520
   * @param day A day of month or day of week in month.
521
   * @param time The time in milliseconds standard time where daylight
522
   * savings start.
523
   * @see SimpleTimeZone
524
   * @since 1.2
525
   */
526
  public void setStartRule(int month, int day, int time)
527
  {
528
    setStartRule(month, day, 0, time);
529
  }
530
 
531
  /**
532
   * Sets the daylight savings end rule.  You must also set the
533
   * start rule with <code>setStartRule</code> or the result of
534
   * getOffset is undefined. For the parameters see the ten-argument
535
   * constructor above.
536
   *
537
   * @param month The end month of daylight savings.
538
   * @param day A day in month, or a day of week in month.
539
   * @param dayOfWeek A day of week, when daylight savings ends.
540
   * @param time A time in millis in standard time.
541
   * @see #setStartRule(int, int, int, int)
542
   */
543
  public void setEndRule(int month, int day, int dayOfWeek, int time)
544
  {
545
    this.endMode = checkRule(month, day, dayOfWeek);
546
    this.endMonth = month;
547
    this.endDay = day;
548
    this.endDayOfWeek = Math.abs(dayOfWeek);
549
    this.endTime = time;
550
    this.endTimeMode = WALL_TIME;
551
    useDaylight = true;
552
  }
553
 
554
  /**
555
   * Sets the daylight savings end rule.  You must also set the
556
   * start rule with <code>setStartRule</code> or the result of
557
   * getOffset is undefined. For the parameters see the ten-argument
558
   * constructor above.
559
   *
560
   * Note that this API isn't incredibly well specified.  It appears that the
561
   * after flag must override the parameters, since normally, the day and
562
   * dayofweek can select this.  I.e., if day < 0 and dayOfWeek < 0, on or
563
   * before mode is chosen.  But if after == true, this implementation
564
   * overrides the signs of the other arguments.  And if dayOfWeek == 0, it
565
   * falls back to the behavior in the other APIs.  I guess this should be
566
   * checked against Sun's implementation.
567
   *
568
   * @param month The end month of daylight savings.
569
   * @param day A day in month, or a day of week in month.
570
   * @param dayOfWeek A day of week, when daylight savings ends.
571
   * @param time A time in millis in standard time.
572
   * @param after If true, day and dayOfWeek specify first day of week on or
573
   * after day, else first day of week on or before.
574
   * @since 1.2
575
   * @see #setStartRule(int, int, int, int, boolean)
576
   */
577
  public void setEndRule(int month, int day, int dayOfWeek, int time,
578
                         boolean after)
579
  {
580
    if (after)
581
      setEndRule(month, day, -dayOfWeek, time);
582
    else
583
      setEndRule(month, -day, -dayOfWeek, time);
584
  }
585
 
586
  /**
587
   * Sets the daylight savings end rule.  You must also set the
588
   * start rule with <code>setStartRule</code> or the result of
589
   * getOffset is undefined. For the parameters see the ten-argument
590
   * constructor above.
591
   *
592
   * @param month The end month of daylight savings.
593
   * @param day A day in month, or a day of week in month.
594
   * @param time A time in millis in standard time.
595
   * @see #setStartRule(int, int, int)
596
   */
597
  public void setEndRule(int month, int day, int time)
598
  {
599
    setEndRule(month, day, 0, time);
600
  }
601
 
602
  /**
603
   * Gets the time zone offset, for current date, modified in case of
604
   * daylight savings.  This is the offset to add to UTC to get the local
605
   * time.
606
   *
607
   * In the standard JDK the results given by this method may result in
608
   * inaccurate results at the end of February or the beginning of March.
609
   * To avoid this, you should use Calendar instead:
610
   * <code>offset = cal.get(Calendar.ZONE_OFFSET)
611
   * + cal.get(Calendar.DST_OFFSET);</code>
612
   *
613
   * This version doesn't suffer this inaccuracy.
614
   *
615
   * The arguments don't follow the approach for setting start and end rules.
616
   * The day must be a positive number and dayOfWeek must be a positive value
617
   * from Calendar.  dayOfWeek is redundant, but must match the other values
618
   * or an inaccurate result may be returned.
619
   *
620
   * @param era the era of the given date
621
   * @param year the year of the given date
622
   * @param month the month of the given date, 0 for January.
623
   * @param day the day of month
624
   * @param dayOfWeek the day of week; this must match the other fields.
625
   * @param millis the millis in the day (in local standard time)
626
   * @return the time zone offset in milliseconds.
627
   * @throws IllegalArgumentException if arguments are incorrect.
628
   */
629
  public int getOffset(int era, int year, int month, int day, int dayOfWeek,
630
                       int millis)
631
  {
632
    int daysInMonth = getDaysInMonth(month, year);
633
    if (day < 1 || day > daysInMonth)
634
      throw new IllegalArgumentException("day out of range");
635
    if (dayOfWeek < Calendar.SUNDAY || dayOfWeek > Calendar.SATURDAY)
636
      throw new IllegalArgumentException("dayOfWeek out of range");
637
    if (month < Calendar.JANUARY || month > Calendar.DECEMBER)
638
      throw new IllegalArgumentException("month out of range:" + month);
639
 
640
    // This method is called by Calendar, so we mustn't use that class.
641
    int daylightSavings = 0;
642
    if (useDaylight && era == GregorianCalendar.AD && year >= startYear)
643
      {
644
        int orig_year = year;
645
        int time = startTime + (startTimeMode == UTC_TIME ? rawOffset : 0);
646
        // This does only work for Gregorian calendars :-(
647
        // This is mainly because setStartYear doesn't take an era.
648
        boolean afterStart = ! isBefore(year, month, day, dayOfWeek, millis,
649
                                        startMode, startMonth, startDay,
650
                                        startDayOfWeek, time);
651
        millis += dstSavings;
652
        if (millis >= 24 * 60 * 60 * 1000)
653
          {
654
            millis -= 24 * 60 * 60 * 1000;
655
            dayOfWeek = (dayOfWeek % 7) + 1;
656
            if (++day > daysInMonth)
657
              {
658
                day = 1;
659
                if (month++ == Calendar.DECEMBER)
660
                  {
661
                    month = Calendar.JANUARY;
662
                    year++;
663
                  }
664
              }
665
          }
666
        time = endTime + (endTimeMode == UTC_TIME ? rawOffset : 0);
667
        if (endTimeMode != WALL_TIME)
668
          time += dstSavings;
669
        boolean beforeEnd = isBefore(year, month, day, dayOfWeek, millis,
670
                                     endMode, endMonth, endDay, endDayOfWeek,
671
                                     time);
672
 
673
        if (year != orig_year)
674
          afterStart = false;
675
        if (startMonth < endMonth)
676
          // use daylight savings, if the date is after the start of
677
          // savings, and before the end of savings.
678
          daylightSavings = afterStart && beforeEnd ? dstSavings : 0;
679
        else
680
          // use daylight savings, if the date is before the end of
681
          // savings, or after the start of savings.
682
          daylightSavings = beforeEnd || afterStart ? dstSavings : 0;
683
      }
684
    return rawOffset + daylightSavings;
685
  }
686
 
687
  /**
688
   * Returns the time zone offset to GMT in milliseconds, ignoring
689
   * day light savings.
690
   * @return the time zone offset.
691
   */
692
  public int getRawOffset()
693
  {
694
    return rawOffset;
695
  }
696
 
697
  /**
698
   * Sets the standard time zone offset to GMT.
699
   * @param rawOffset The time offset from GMT in milliseconds.
700
   */
701
  public void setRawOffset(int rawOffset)
702
  {
703
    this.rawOffset = rawOffset;
704
  }
705
 
706
  /**
707
   * Gets the daylight savings offset.  This is a positive offset in
708
   * milliseconds with respect to standard time.  Typically this
709
   * is one hour, but for some time zones this may be half an our.
710
   * @return the daylight savings offset in milliseconds.
711
   *
712
   * @since 1.2
713
   */
714
  public int getDSTSavings()
715
  {
716
    return dstSavings;
717
  }
718
 
719
  /**
720
   * Sets the daylight savings offset.  This is a positive offset in
721
   * milliseconds with respect to standard time.
722
   *
723
   * @param dstSavings the daylight savings offset in milliseconds.
724
   *
725
   * @since 1.2
726
   */
727
  public void setDSTSavings(int dstSavings)
728
  {
729
    if (dstSavings <= 0)
730
      throw new IllegalArgumentException("illegal value for dstSavings");
731
 
732
    this.dstSavings = dstSavings;
733
  }
734
 
735
  /**
736
   * Returns if this time zone uses daylight savings time.
737
   * @return true, if we use daylight savings time, false otherwise.
738
   */
739
  public boolean useDaylightTime()
740
  {
741
    return useDaylight;
742
  }
743
 
744
  /**
745
   * Returns the number of days in the given month.
746
   * Uses gregorian rules prior to 1582 (The default and earliest cutover)
747
   * @param month The month, zero based; use one of the Calendar constants.
748
   * @param year  The year.
749
   */
750
  private int getDaysInMonth(int month, int year)
751
  {
752
    if (month == Calendar.FEBRUARY)
753
      {
754
        if ((year & 3) != 0)
755
          return 28;
756
 
757
        // Assume default Gregorian cutover,
758
        // all years prior to this must be Julian
759
        if (year < 1582)
760
          return 29;
761
 
762
        // Gregorian rules
763
        return ((year % 100) != 0 || (year % 400) == 0) ? 29 : 28;
764
      }
765
    else
766
      return monthArr[month];
767
  }
768
 
769
  /**
770
   * Checks if the date given in calXXXX, is before the change between
771
   * dst and standard time.
772
   * @param calYear the year of the date to check (for leap day checking).
773
   * @param calMonth the month of the date to check.
774
   * @param calDayOfMonth the day of month of the date to check.
775
   * @param calDayOfWeek the day of week of the date to check.
776
   * @param calMillis the millis of day of the date to check (standard time).
777
   * @param mode  the change mode; same semantic as startMode.
778
   * @param month the change month; same semantic as startMonth.
779
   * @param day   the change day; same semantic as startDay.
780
   * @param dayOfWeek the change day of week;
781
   * @param millis the change time in millis since midnight standard time.
782
   * same semantic as startDayOfWeek.
783
   * @return true, if cal is before the change, false if cal is on
784
   * or after the change.
785
   */
786
  private boolean isBefore(int calYear, int calMonth, int calDayOfMonth,
787
                           int calDayOfWeek, int calMillis, int mode,
788
                           int month, int day, int dayOfWeek, int millis)
789
  {
790
    // This method is called by Calendar, so we mustn't use that class.
791
    // We have to do all calculations by hand.
792
    // check the months:
793
    // XXX - this is not correct:
794
    // for the DOW_GE_DOM and DOW_LE_DOM modes the change date may
795
    // be in a different month.
796
    if (calMonth != month)
797
      return calMonth < month;
798
 
799
    // check the day:
800
    switch (mode)
801
      {
802
      case DOM_MODE:
803
        if (calDayOfMonth != day)
804
          return calDayOfMonth < day;
805
        break;
806
      case DOW_IN_MONTH_MODE:
807
        {
808
          // This computes the day of month of the day of type
809
          // "dayOfWeek" that lies in the same (sunday based) week as cal.
810
          calDayOfMonth += (dayOfWeek - calDayOfWeek);
811
 
812
          // Now we convert it to 7 based number (to get a one based offset
813
          // after dividing by 7).  If we count from the end of the
814
          // month, we get want a -7 based number counting the days from
815
          // the end:
816
          if (day < 0)
817
            calDayOfMonth -= getDaysInMonth(calMonth, calYear) + 7;
818
          else
819
            calDayOfMonth += 6;
820
 
821
          //  day > 0                    day < 0
822
          //  S  M  T  W  T  F  S        S  M  T  W  T  F  S
823
          //     7  8  9 10 11 12         -36-35-34-33-32-31
824
          // 13 14 15 16 17 18 19      -30-29-28-27-26-25-24
825
          // 20 21 22 23 24 25 26      -23-22-21-20-19-18-17
826
          // 27 28 29 30 31 32 33      -16-15-14-13-12-11-10
827
          // 34 35 36                   -9 -8 -7
828
          // Now we calculate the day of week in month:
829
          int week = calDayOfMonth / 7;
830
 
831
          //  day > 0                    day < 0
832
          //  S  M  T  W  T  F  S        S  M  T  W  T  F  S
833
          //     1  1  1  1  1  1          -5 -5 -4 -4 -4 -4
834
          //  1  2  2  2  2  2  2       -4 -4 -4 -3 -3 -3 -3
835
          //  2  3  3  3  3  3  3       -3 -3 -3 -2 -2 -2 -2
836
          //  3  4  4  4  4  4  4       -2 -2 -2 -1 -1 -1 -1
837
          //  4  5  5                   -1 -1 -1
838
          if (week != day)
839
            return week < day;
840
 
841
          if (calDayOfWeek != dayOfWeek)
842
            return calDayOfWeek < dayOfWeek;
843
 
844
          // daylight savings starts/ends  on the given day.
845
          break;
846
        }
847
      case DOW_LE_DOM_MODE:
848
        // The greatest sunday before or equal December, 12
849
        // is the same as smallest sunday after or equal December, 6.
850
        day = Math.abs(day) - 6;
851
      case DOW_GE_DOM_MODE:
852
        // Calculate the day of month of the day of type
853
        // "dayOfWeek" that lies before (or on) the given date.
854
        calDayOfMonth -= (calDayOfWeek < dayOfWeek ? 7 : 0) + calDayOfWeek
855
        - dayOfWeek;
856
        if (calDayOfMonth < day)
857
          return true;
858
        if (calDayOfWeek != dayOfWeek || calDayOfMonth >= day + 7)
859
          return false;
860
 
861
        // now we have the same day
862
        break;
863
      }
864
 
865
    // the millis decides:
866
    return (calMillis < millis);
867
  }
868
 
869
  /**
870
   * Determines if the given date is in daylight savings time.
871
   * @return true, if it is in daylight savings time, false otherwise.
872
   */
873
  public boolean inDaylightTime(Date date)
874
  {
875
    Calendar cal = Calendar.getInstance(this);
876
    cal.setTime(date);
877
    return (cal.get(Calendar.DST_OFFSET) != 0);
878
  }
879
 
880
  /**
881
   * Generates the hashCode for the SimpleDateFormat object.  It is
882
   * the rawOffset, possibly, if useDaylightSavings is true, xored
883
   * with startYear, startMonth, startDayOfWeekInMonth, ..., endTime.
884
   */
885
  public synchronized int hashCode()
886
  {
887
    return rawOffset
888
           ^ (useDaylight
889
              ? startMonth ^ startDay ^ startDayOfWeek ^ startTime ^ endMonth
890
              ^ endDay ^ endDayOfWeek ^ endTime : 0);
891
  }
892
 
893
  public synchronized boolean equals(Object o)
894
  {
895
    if (this == o)
896
      return true;
897
    if (! (o instanceof SimpleTimeZone))
898
      return false;
899
    SimpleTimeZone zone = (SimpleTimeZone) o;
900
    if (zone.hashCode() != hashCode() || ! getID().equals(zone.getID())
901
        || rawOffset != zone.rawOffset || useDaylight != zone.useDaylight)
902
      return false;
903
    if (! useDaylight)
904
      return true;
905
    return (startYear == zone.startYear && startMonth == zone.startMonth
906
           && startDay == zone.startDay
907
           && startDayOfWeek == zone.startDayOfWeek
908
           && startTime == zone.startTime
909
           && startTimeMode == zone.startTimeMode && endMonth == zone.endMonth
910
           && endDay == zone.endDay && endDayOfWeek == zone.endDayOfWeek
911
           && endTime == zone.endTime && endTimeMode == zone.endTimeMode);
912
  }
913
 
914
  /**
915
   * Test if the other time zone uses the same rule and only
916
   * possibly differs in ID.  This implementation for this particular
917
   * class will return true if the other object is a SimpleTimeZone,
918
   * the raw offsets and useDaylight are identical and if useDaylight
919
   * is true, also the start and end datas are identical.
920
   * @return true if this zone uses the same rule.
921
   */
922
  public boolean hasSameRules(TimeZone other)
923
  {
924
    if (this == other)
925
      return true;
926
    if (! (other instanceof SimpleTimeZone))
927
      return false;
928
    SimpleTimeZone zone = (SimpleTimeZone) other;
929
    if (zone.hashCode() != hashCode() || rawOffset != zone.rawOffset
930
        || useDaylight != zone.useDaylight)
931
      return false;
932
    if (! useDaylight)
933
      return true;
934
    return (startYear == zone.startYear && startMonth == zone.startMonth
935
           && startDay == zone.startDay
936
           && startDayOfWeek == zone.startDayOfWeek
937
           && startTime == zone.startTime
938
           && startTimeMode == zone.startTimeMode && endMonth == zone.endMonth
939
           && endDay == zone.endDay && endDayOfWeek == zone.endDayOfWeek
940
           && endTime == zone.endTime && endTimeMode == zone.endTimeMode);
941
  }
942
 
943
  /**
944
   * Returns a string representation of this SimpleTimeZone object.
945
   * @return a string representation of this SimpleTimeZone object.
946
   */
947
  public String toString()
948
  {
949
    // the test for useDaylight is an incompatibility to jdk1.2, but
950
    // I think this shouldn't hurt.
951
    return getClass().getName() + "[" + "id=" + getID() + ",offset="
952
           + rawOffset + ",dstSavings=" + dstSavings + ",useDaylight="
953
           + useDaylight
954
           + (useDaylight
955
              ? ",startYear=" + startYear + ",startMode=" + startMode
956
              + ",startMonth=" + startMonth + ",startDay=" + startDay
957
              + ",startDayOfWeek=" + startDayOfWeek + ",startTime="
958
              + startTime + ",startTimeMode=" + startTimeMode + ",endMode="
959
              + endMode + ",endMonth=" + endMonth + ",endDay=" + endDay
960
              + ",endDayOfWeek=" + endDayOfWeek + ",endTime=" + endTime
961
              + ",endTimeMode=" + endTimeMode : "") + "]";
962
  }
963
 
964
  /**
965
   * Reads a serialized simple time zone from stream.
966
   * @see #writeObject
967
   */
968
  private void readObject(java.io.ObjectInputStream input)
969
    throws java.io.IOException, ClassNotFoundException
970
  {
971
    input.defaultReadObject();
972
    if (serialVersionOnStream == 0)
973
      {
974
        // initialize the new fields to default values.
975
        dstSavings = 60 * 60 * 1000;
976
        endMode = DOW_IN_MONTH_MODE;
977
        startMode = DOW_IN_MONTH_MODE;
978
        startTimeMode = WALL_TIME;
979
        endTimeMode = WALL_TIME;
980
        serialVersionOnStream = 2;
981
      }
982
    else
983
      {
984
        int length = input.readInt();
985
        byte[] byteArray = new byte[length];
986
        input.read(byteArray, 0, length);
987
        if (length >= 4)
988
          {
989
            // Lets hope that Sun does extensions to the serialized
990
            // form in a sane manner.
991
            startDay = byteArray[0];
992
            startDayOfWeek = byteArray[1];
993
            endDay = byteArray[2];
994
            endDayOfWeek = byteArray[3];
995
          }
996
      }
997
  }
998
 
999
  /**
1000
   * Serializes this object to a stream.  @serialdata The object is
1001
   * first written in the old JDK 1.1 format, so that it can be read
1002
   * by the old classes.  This means, that the
1003
   * <code>start/endDay(OfWeek)</code>-Fields are written in the
1004
   * DOW_IN_MONTH_MODE rule, since this was the only supported rule
1005
   * in 1.1.
1006
   *
1007
   * In the optional section, we write first the length of an byte
1008
   * array as int and afterwards the byte array itself.  The byte
1009
   * array contains in this release four elements, namely the real
1010
   * startDay, startDayOfWeek endDay, endDayOfWeek in that Order.
1011
   * These fields are needed, because for compatibility reasons only
1012
   * approximative values are written to the required section, as
1013
   * described above.
1014
   */
1015
  private void writeObject(java.io.ObjectOutputStream output)
1016
    throws java.io.IOException
1017
  {
1018
    byte[] byteArray = new byte[]
1019
                       {
1020
                         (byte) startDay, (byte) startDayOfWeek, (byte) endDay,
1021
                         (byte) endDayOfWeek
1022
                       };
1023
 
1024
    /* calculate the approximation for JDK 1.1 */
1025
    switch (startMode)
1026
      {
1027
      case DOM_MODE:
1028
        startDayOfWeek = Calendar.SUNDAY; // random day of week
1029
 
1030
      // fall through
1031
      case DOW_GE_DOM_MODE:
1032
      case DOW_LE_DOM_MODE:
1033
        startDay = (startDay + 6) / 7;
1034
      }
1035
    switch (endMode)
1036
      {
1037
      case DOM_MODE:
1038
        endDayOfWeek = Calendar.SUNDAY;
1039
 
1040
      // fall through
1041
      case DOW_GE_DOM_MODE:
1042
      case DOW_LE_DOM_MODE:
1043
        endDay = (endDay + 6) / 7;
1044
      }
1045
 
1046
    // the required part:
1047
    output.defaultWriteObject();
1048
    // the optional part:
1049
    output.writeInt(byteArray.length);
1050
    output.write(byteArray, 0, byteArray.length);
1051
  }
1052
}

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