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A library jar that provides APIs for Applications written for the Google Android Platform.

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/*
 * Copyright (C) 2006 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package android.text.format;

import android.util.TimeFormatException;

import com.android.i18n.timezone.WallTime;
import com.android.i18n.timezone.ZoneInfoData;
import com.android.i18n.timezone.ZoneInfoDb;

import java.util.Locale;
import java.util.TimeZone;

/**
 * An alternative to the {@link java.util.Calendar} and
 * {@link java.util.GregorianCalendar} classes. An instance of the Time class represents
 * a moment in time, specified with second precision. It is modelled after
 * struct tm. This class is not thread-safe and does not consider leap seconds.
 *
 * 

This class has a number of issues and it is recommended that * {@link java.util.GregorianCalendar} is used instead. * *

Known issues: *

    *
  • For historical reasons when performing time calculations all arithmetic currently takes * place using 32-bit integers. This limits the reliable time range representable from 1902 * until 2037.See the wikipedia article on the * Year 2038 problem for details. * Do not rely on this behavior; it may change in the future. *
  • *
  • Calling {@link #switchTimezone(String)} on a date that cannot exist, such as a wall time * that was skipped due to a DST transition, will result in a date in 1969 (i.e. -1, or 1 second * before 1st Jan 1970 UTC).
  • *
  • Much of the formatting / parsing assumes ASCII text and is therefore not suitable for * use with non-ASCII scripts.
  • *
  • No support for pseudo-zones like "GMT-07:00".
  • *
* * @deprecated Use {@link java.util.GregorianCalendar} instead. */ @Deprecated public class Time { private static final String Y_M_D_T_H_M_S_000 = "%Y-%m-%dT%H:%M:%S.000"; private static final String Y_M_D_T_H_M_S_000_Z = "%Y-%m-%dT%H:%M:%S.000Z"; private static final String Y_M_D = "%Y-%m-%d"; public static final String TIMEZONE_UTC = "UTC"; /** * The Julian day of the epoch, that is, January 1, 1970 on the Gregorian * calendar. */ public static final int EPOCH_JULIAN_DAY = 2440588; /** * The Julian day of the Monday in the week of the epoch, December 29, 1969 * on the Gregorian calendar. */ public static final int MONDAY_BEFORE_JULIAN_EPOCH = EPOCH_JULIAN_DAY - 3; /** * True if this is an allDay event. The hour, minute, second fields are * all zero, and the date is displayed the same in all time zones. */ public boolean allDay; /** * Seconds [0-61] (2 leap seconds allowed) */ public int second; /** * Minute [0-59] */ public int minute; /** * Hour of day [0-23] */ public int hour; /** * Day of month [1-31] */ public int monthDay; /** * Month [0-11] */ public int month; /** * Year. For example, 1970. */ public int year; /** * Day of week [0-6] */ public int weekDay; /** * Day of year [0-365] */ public int yearDay; /** * This time is in daylight savings time. One of: *
    *
  • positive - in dst
  • *
  • 0 - not in dst
  • *
  • negative - unknown
  • *
*/ public int isDst; /** * Offset in seconds from UTC including any DST offset. */ public long gmtoff; /** * The timezone for this Time. Should not be null. */ public String timezone; /* * Define symbolic constants for accessing the fields in this class. Used in * getActualMaximum(). */ public static final int SECOND = 1; public static final int MINUTE = 2; public static final int HOUR = 3; public static final int MONTH_DAY = 4; public static final int MONTH = 5; public static final int YEAR = 6; public static final int WEEK_DAY = 7; public static final int YEAR_DAY = 8; public static final int WEEK_NUM = 9; public static final int SUNDAY = 0; public static final int MONDAY = 1; public static final int TUESDAY = 2; public static final int WEDNESDAY = 3; public static final int THURSDAY = 4; public static final int FRIDAY = 5; public static final int SATURDAY = 6; // An object that is reused for date calculations. private TimeCalculator calculator; /** * Construct a Time object in the timezone named by the string * argument "timezone". The time is initialized to Jan 1, 1970. * @param timezoneId string containing the timezone to use. * @see TimeZone */ public Time(String timezoneId) { if (timezoneId == null) { throw new NullPointerException("timezoneId is null!"); } initialize(timezoneId); } /** * Construct a Time object in the default timezone. The time is initialized to * Jan 1, 1970. */ public Time() { initialize(TimeZone.getDefault().getID()); } /** * A copy constructor. Construct a Time object by copying the given * Time object. No normalization occurs. * * @param other */ public Time(Time other) { initialize(other.timezone); set(other); } /** Initialize the Time to 00:00:00 1/1/1970 in the specified timezone. */ private void initialize(String timezoneId) { this.timezone = timezoneId; this.year = 1970; this.monthDay = 1; // Set the daylight-saving indicator to the unknown value -1 so that // it will be recomputed. this.isDst = -1; // A reusable object that performs the date/time calculations. calculator = new TimeCalculator(timezoneId); } /** * Ensures the values in each field are in range. For example if the * current value of this calendar is March 32, normalize() will convert it * to April 1. It also fills in weekDay, yearDay, isDst and gmtoff. * *

* If "ignoreDst" is true, then this method sets the "isDst" field to -1 * (the "unknown" value) before normalizing. It then computes the * time in milliseconds and sets the correct value for "isDst" if the * fields resolve to a valid date / time. * *

* See {@link #toMillis(boolean)} for more information about when to * use true or false for "ignoreDst" and when {@code -1} * might be returned. * * @return the UTC milliseconds since the epoch, or {@code -1} */ public long normalize(boolean ignoreDst) { calculator.copyFieldsFromTime(this); long timeInMillis = calculator.toMillis(ignoreDst); calculator.copyFieldsToTime(this); return timeInMillis; } /** * Convert this time object so the time represented remains the same, but is * instead located in a different timezone. This method automatically calls * normalize() in some cases. * *

This method can return incorrect results if the date / time cannot be normalized. */ public void switchTimezone(String timezone) { calculator.copyFieldsFromTime(this); calculator.switchTimeZone(timezone); calculator.copyFieldsToTime(this); this.timezone = timezone; } private static final int[] DAYS_PER_MONTH = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; /** * Return the maximum possible value for the given field given the value of * the other fields. Requires that it be normalized for MONTH_DAY and * YEAR_DAY. * @param field one of the constants for HOUR, MINUTE, SECOND, etc. * @return the maximum value for the field. */ public int getActualMaximum(int field) { switch (field) { case SECOND: return 59; // leap seconds, bah humbug case MINUTE: return 59; case HOUR: return 23; case MONTH_DAY: { int n = DAYS_PER_MONTH[this.month]; if (n != 28) { return n; } else { int y = this.year; return ((y % 4) == 0 && ((y % 100) != 0 || (y % 400) == 0)) ? 29 : 28; } } case MONTH: return 11; case YEAR: return 2037; case WEEK_DAY: return 6; case YEAR_DAY: { int y = this.year; // Year days are numbered from 0, so the last one is usually 364. return ((y % 4) == 0 && ((y % 100) != 0 || (y % 400) == 0)) ? 365 : 364; } case WEEK_NUM: throw new RuntimeException("WEEK_NUM not implemented"); default: throw new RuntimeException("bad field=" + field); } } /** * Clears all values, setting the timezone to the given timezone. Sets isDst * to a negative value to mean "unknown". * @param timezoneId the timezone to use. */ public void clear(String timezoneId) { if (timezoneId == null) { throw new NullPointerException("timezone is null!"); } this.timezone = timezoneId; this.allDay = false; this.second = 0; this.minute = 0; this.hour = 0; this.monthDay = 0; this.month = 0; this.year = 0; this.weekDay = 0; this.yearDay = 0; this.gmtoff = 0; this.isDst = -1; } /** * Compare two {@code Time} objects and return a negative number if {@code * a} is less than {@code b}, a positive number if {@code a} is greater than * {@code b}, or 0 if they are equal. * *

* This method can return an incorrect answer when the date / time fields of * either {@code Time} have been set to a local time that contradicts the * available timezone information. * * @param a first {@code Time} instance to compare * @param b second {@code Time} instance to compare * @throws NullPointerException if either argument is {@code null} * @throws IllegalArgumentException if {@link #allDay} is true but {@code * hour}, {@code minute}, and {@code second} are not 0. * @return a negative result if {@code a} is earlier, a positive result if * {@code b} is earlier, or 0 if they are equal. */ public static int compare(Time a, Time b) { if (a == null) { throw new NullPointerException("a == null"); } else if (b == null) { throw new NullPointerException("b == null"); } a.calculator.copyFieldsFromTime(a); b.calculator.copyFieldsFromTime(b); return TimeCalculator.compare(a.calculator, b.calculator); } /** * Print the current value given the format string provided. See * strftime(3) manual page for what means what. The final string must be * less than 256 characters. * @param format a string containing the desired format. * @return a String containing the current time expressed in the current locale. */ public String format(String format) { calculator.copyFieldsFromTime(this); return calculator.format(format); } /** * Return the current time in YYYYMMDDTHHMMSS<tz> format */ @Override public String toString() { // toString() uses its own TimeCalculator rather than the shared one. Otherwise weird stuff // happens during debugging when the debugger calls toString(). TimeCalculator calculator = new TimeCalculator(this.timezone); calculator.copyFieldsFromTime(this); return calculator.toStringInternal(); } /** * Parses a date-time string in either the RFC 2445 format or an abbreviated * format that does not include the "time" field. For example, all of the * following strings are valid: * *

    *
  • "20081013T160000Z"
  • *
  • "20081013T160000"
  • *
  • "20081013"
  • *
* * Returns whether or not the time is in UTC (ends with Z). If the string * ends with "Z" then the timezone is set to UTC. If the date-time string * included only a date and no time field, then the allDay * field of this Time class is set to true and the hour, * minute, and second fields are set to zero; * otherwise (a time field was included in the date-time string) * allDay is set to false. The fields weekDay, * yearDay, and gmtoff are always set to zero, * and the field isDst is set to -1 (unknown). To set those * fields, call {@link #normalize(boolean)} after parsing. * * To parse a date-time string and convert it to UTC milliseconds, do * something like this: * *
     *   Time time = new Time();
     *   String date = "20081013T160000Z";
     *   time.parse(date);
     *   long millis = time.normalize(false);
     * 
* * @param s the string to parse * @return true if the resulting time value is in UTC time * @throws android.util.TimeFormatException if s cannot be parsed. */ public boolean parse(String s) { if (s == null) { throw new NullPointerException("time string is null"); } if (parseInternal(s)) { timezone = TIMEZONE_UTC; return true; } return false; } /** * Parse a time in the current zone in YYYYMMDDTHHMMSS format. */ private boolean parseInternal(String s) { int len = s.length(); if (len < 8) { throw new TimeFormatException("String is too short: \"" + s + "\" Expected at least 8 characters."); } boolean inUtc = false; // year int n = getChar(s, 0, 1000); n += getChar(s, 1, 100); n += getChar(s, 2, 10); n += getChar(s, 3, 1); year = n; // month n = getChar(s, 4, 10); n += getChar(s, 5, 1); n--; month = n; // day of month n = getChar(s, 6, 10); n += getChar(s, 7, 1); monthDay = n; if (len > 8) { if (len < 15) { throw new TimeFormatException( "String is too short: \"" + s + "\" If there are more than 8 characters there must be at least" + " 15."); } checkChar(s, 8, 'T'); allDay = false; // hour n = getChar(s, 9, 10); n += getChar(s, 10, 1); hour = n; // min n = getChar(s, 11, 10); n += getChar(s, 12, 1); minute = n; // sec n = getChar(s, 13, 10); n += getChar(s, 14, 1); second = n; if (len > 15) { // Z checkChar(s, 15, 'Z'); inUtc = true; } } else { allDay = true; hour = 0; minute = 0; second = 0; } weekDay = 0; yearDay = 0; isDst = -1; gmtoff = 0; return inUtc; } private void checkChar(String s, int spos, char expected) { char c = s.charAt(spos); if (c != expected) { throw new TimeFormatException(String.format( "Unexpected character 0x%02d at pos=%d. Expected 0x%02d (\'%c\').", (int) c, spos, (int) expected, expected)); } } private static int getChar(String s, int spos, int mul) { char c = s.charAt(spos); if (Character.isDigit(c)) { return Character.getNumericValue(c) * mul; } else { throw new TimeFormatException("Parse error at pos=" + spos); } } /** * Parse a time in RFC 3339 format. This method also parses simple dates * (that is, strings that contain no time or time offset). For example, * all of the following strings are valid: * *
    *
  • "2008-10-13T16:00:00.000Z"
  • *
  • "2008-10-13T16:00:00.000+07:00"
  • *
  • "2008-10-13T16:00:00.000-07:00"
  • *
  • "2008-10-13"
  • *
* *

* If the string contains a time and time offset, then the time offset will * be used to convert the time value to UTC. *

* *

* If the given string contains just a date (with no time field), then * the {@link #allDay} field is set to true and the {@link #hour}, * {@link #minute}, and {@link #second} fields are set to zero. *

* *

* Returns true if the resulting time value is in UTC time. *

* * @param s the string to parse * @return true if the resulting time value is in UTC time * @throws android.util.TimeFormatException if s cannot be parsed. */ public boolean parse3339(String s) { if (s == null) { throw new NullPointerException("time string is null"); } if (parse3339Internal(s)) { timezone = TIMEZONE_UTC; return true; } return false; } private boolean parse3339Internal(String s) { int len = s.length(); if (len < 10) { throw new TimeFormatException("String too short --- expected at least 10 characters."); } boolean inUtc = false; // year int n = getChar(s, 0, 1000); n += getChar(s, 1, 100); n += getChar(s, 2, 10); n += getChar(s, 3, 1); year = n; checkChar(s, 4, '-'); // month n = getChar(s, 5, 10); n += getChar(s, 6, 1); --n; month = n; checkChar(s, 7, '-'); // day n = getChar(s, 8, 10); n += getChar(s, 9, 1); monthDay = n; if (len >= 19) { // T checkChar(s, 10, 'T'); allDay = false; // hour n = getChar(s, 11, 10); n += getChar(s, 12, 1); // Note that this.hour is not set here. It is set later. int hour = n; checkChar(s, 13, ':'); // minute n = getChar(s, 14, 10); n += getChar(s, 15, 1); // Note that this.minute is not set here. It is set later. int minute = n; checkChar(s, 16, ':'); // second n = getChar(s, 17, 10); n += getChar(s, 18, 1); second = n; // skip the '.XYZ' -- we don't care about subsecond precision. int tzIndex = 19; if (tzIndex < len && s.charAt(tzIndex) == '.') { do { tzIndex++; } while (tzIndex < len && Character.isDigit(s.charAt(tzIndex))); } int offset = 0; if (len > tzIndex) { char c = s.charAt(tzIndex); // NOTE: the offset is meant to be subtracted to get from local time // to UTC. we therefore use 1 for '-' and -1 for '+'. switch (c) { case 'Z': // Zulu time -- UTC offset = 0; break; case '-': offset = 1; break; case '+': offset = -1; break; default: throw new TimeFormatException(String.format( "Unexpected character 0x%02d at position %d. Expected + or -", (int) c, tzIndex)); } inUtc = true; if (offset != 0) { if (len < tzIndex + 6) { throw new TimeFormatException( String.format("Unexpected length; should be %d characters", tzIndex + 6)); } // hour n = getChar(s, tzIndex + 1, 10); n += getChar(s, tzIndex + 2, 1); n *= offset; hour += n; // minute n = getChar(s, tzIndex + 4, 10); n += getChar(s, tzIndex + 5, 1); n *= offset; minute += n; } } this.hour = hour; this.minute = minute; if (offset != 0) { normalize(false); } } else { allDay = true; this.hour = 0; this.minute = 0; this.second = 0; } this.weekDay = 0; this.yearDay = 0; this.isDst = -1; this.gmtoff = 0; return inUtc; } /** * Returns the timezone string that is currently set for the device. */ public static String getCurrentTimezone() { return TimeZone.getDefault().getID(); } /** * Sets the time of the given Time object to the current time. */ public void setToNow() { set(System.currentTimeMillis()); } /** * Converts this time to milliseconds. Suitable for interacting with the * standard java libraries. The time is in UTC milliseconds since the epoch. * This does an implicit normalization to compute the milliseconds but does * not change any of the fields in this Time object. If you want * to normalize the fields in this Time object and also get the milliseconds * then use {@link #normalize(boolean)}. * *

* If "ignoreDst" is false, then this method uses the current setting of the * "isDst" field and will adjust the returned time if the "isDst" field is * wrong for the given time. See the sample code below for an example of * this. * *

* If "ignoreDst" is true, then this method ignores the current setting of * the "isDst" field in this Time object and will instead figure out the * correct value of "isDst" (as best it can) from the fields in this * Time object. The only case where this method cannot figure out the * correct value of the "isDst" field is when the time is inherently * ambiguous because it falls in the hour that is repeated when switching * from Daylight-Saving Time to Standard Time. * *

* Here is an example where toMillis(true) adjusts the time, * assuming that DST changes at 2am on Sunday, Nov 4, 2007. * *

     * Time time = new Time();
     * time.set(4, 10, 2007);  // set the date to Nov 4, 2007, 12am
     * time.normalize(false);       // this sets isDst = 1
     * time.monthDay += 1;     // changes the date to Nov 5, 2007, 12am
     * millis = time.toMillis(false);   // millis is Nov 4, 2007, 11pm
     * millis = time.toMillis(true);    // millis is Nov 5, 2007, 12am
     * 
* *

* To avoid this problem, use toMillis(true) * after adding or subtracting days or explicitly setting the "monthDay" * field. On the other hand, if you are adding * or subtracting hours or minutes, then you should use * toMillis(false). * *

* You should also use toMillis(false) if you want * to read back the same milliseconds that you set with {@link #set(long)} * or {@link #set(Time)} or after parsing a date string. * *

* This method can return {@code -1} when the date / time fields have been * set to a local time that conflicts with available timezone information. * For example, when daylight savings transitions cause an hour to be * skipped: times within that hour will return {@code -1} if isDst = * {@code -1}. */ public long toMillis(boolean ignoreDst) { calculator.copyFieldsFromTime(this); return calculator.toMillis(ignoreDst); } /** * Sets the fields in this Time object given the UTC milliseconds. After * this method returns, all the fields are normalized. * This also sets the "isDst" field to the correct value. * * @param millis the time in UTC milliseconds since the epoch. */ public void set(long millis) { allDay = false; calculator.timezone = timezone; calculator.setTimeInMillis(millis); calculator.copyFieldsToTime(this); } /** * Format according to RFC 2445 DATE-TIME type. * *

The same as format("%Y%m%dT%H%M%S"), or format("%Y%m%dT%H%M%SZ") for a Time with a * timezone set to "UTC". */ public String format2445() { calculator.copyFieldsFromTime(this); return calculator.format2445(!allDay); } /** * Copy the value of that to this Time object. No normalization happens. */ public void set(Time that) { this.timezone = that.timezone; this.allDay = that.allDay; this.second = that.second; this.minute = that.minute; this.hour = that.hour; this.monthDay = that.monthDay; this.month = that.month; this.year = that.year; this.weekDay = that.weekDay; this.yearDay = that.yearDay; this.isDst = that.isDst; this.gmtoff = that.gmtoff; } /** * Sets the fields. Sets weekDay, yearDay and gmtoff to 0, and isDst to -1. * Call {@link #normalize(boolean)} if you need those. */ public void set(int second, int minute, int hour, int monthDay, int month, int year) { this.allDay = false; this.second = second; this.minute = minute; this.hour = hour; this.monthDay = monthDay; this.month = month; this.year = year; this.weekDay = 0; this.yearDay = 0; this.isDst = -1; this.gmtoff = 0; } /** * Sets the date from the given fields. Also sets allDay to true. * Sets weekDay, yearDay and gmtoff to 0, and isDst to -1. * Call {@link #normalize(boolean)} if you need those. * * @param monthDay the day of the month (in the range [1,31]) * @param month the zero-based month number (in the range [0,11]) * @param year the year */ public void set(int monthDay, int month, int year) { this.allDay = true; this.second = 0; this.minute = 0; this.hour = 0; this.monthDay = monthDay; this.month = month; this.year = year; this.weekDay = 0; this.yearDay = 0; this.isDst = -1; this.gmtoff = 0; } /** * Returns true if the time represented by this Time object occurs before * the given time. * *

* Equivalent to {@code Time.compare(this, that) < 0}. See * {@link #compare(Time, Time)} for details. * * @param that a given Time object to compare against * @return true if this time is less than the given time */ public boolean before(Time that) { return Time.compare(this, that) < 0; } /** * Returns true if the time represented by this Time object occurs after * the given time. * *

* Equivalent to {@code Time.compare(this, that) > 0}. See * {@link #compare(Time, Time)} for details. * * @param that a given Time object to compare against * @return true if this time is greater than the given time */ public boolean after(Time that) { return Time.compare(this, that) > 0; } /** * This array is indexed by the weekDay field (SUNDAY=0, MONDAY=1, etc.) * and gives a number that can be added to the yearDay to give the * closest Thursday yearDay. */ private static final int[] sThursdayOffset = { -3, 3, 2, 1, 0, -1, -2 }; /** * Computes the week number according to ISO 8601. The current Time * object must already be normalized because this method uses the * yearDay and weekDay fields. * *

* In IS0 8601, weeks start on Monday. * The first week of the year (week 1) is defined by ISO 8601 as the * first week with four or more of its days in the starting year. * Or equivalently, the week containing January 4. Or equivalently, * the week with the year's first Thursday in it. *

* *

* The week number can be calculated by counting Thursdays. Week N * contains the Nth Thursday of the year. *

* * @return the ISO week number. */ public int getWeekNumber() { // Get the year day for the closest Thursday int closestThursday = yearDay + sThursdayOffset[weekDay]; // Year days start at 0 if (closestThursday >= 0 && closestThursday <= 364) { return closestThursday / 7 + 1; } // The week crosses a year boundary. Time temp = new Time(this); temp.monthDay += sThursdayOffset[weekDay]; temp.normalize(true /* ignore isDst */); return temp.yearDay / 7 + 1; } /** * Return a string in the RFC 3339 format. *

* If allDay is true, expresses the time as Y-M-D

*

* Otherwise, if the timezone is UTC, expresses the time as Y-M-D-T-H-M-S UTC

*

* Otherwise the time is expressed the time as Y-M-D-T-H-M-S +- GMT

* @return string in the RFC 3339 format. */ public String format3339(boolean allDay) { if (allDay) { return format(Y_M_D); } else if (TIMEZONE_UTC.equals(timezone)) { return format(Y_M_D_T_H_M_S_000_Z); } else { String base = format(Y_M_D_T_H_M_S_000); String sign = (gmtoff < 0) ? "-" : "+"; int offset = (int) Math.abs(gmtoff); int minutes = (offset % 3600) / 60; int hours = offset / 3600; return String.format(Locale.US, "%s%s%02d:%02d", base, sign, hours, minutes); } } /** * Returns true if the instant of the supplied time would be for the * Gregorian calendar date January 1, 1970 for a user observing UTC * , i.e. the timezone of the time object is ignored. *

* See {@link #getJulianDay(long, long)} for how to determine the Julian day * for the timezone of the time object. *

* This method can return an incorrect answer when the date / time fields have * been set to a local time that contradicts the available timezone information. * * @param time the time to test * @return true if epoch. */ public static boolean isEpoch(Time time) { long millis = time.toMillis(true); return getJulianDay(millis, 0 /* UTC offset */) == EPOCH_JULIAN_DAY; } /** * Computes the Julian day number for a point in time in a particular * timezone. The Julian day for a given calendar date is the same for * every timezone. For example, the Julian day for July 1, 2008 is * 2454649. * *

Callers must pass the time in UTC millisecond (as can be returned * by {@link #toMillis(boolean)} or {@link #normalize(boolean)}) * and the offset from UTC of the timezone in seconds at that time (as * might be in {@link #gmtoff}). * *

The Julian day is useful for testing if two events occur on the * same calendar date and for determining the relative time of an event * from the present ("yesterday", "3 days ago", etc.). * * @param millis the time in UTC milliseconds * @param gmtoffSeconds the offset from UTC in seconds * @return the Julian day * @deprecated Use {@link java.time.temporal.JulianFields#JULIAN_DAY} instead. */ @Deprecated public static int getJulianDay(long millis, long gmtoffSeconds) { long offsetMillis = gmtoffSeconds * 1000; long adjustedMillis = millis + offsetMillis; long julianDay = adjustedMillis / DateUtils.DAY_IN_MILLIS; // Negative adjustedMillis values must round towards Integer.MIN_VALUE. if (adjustedMillis < 0 && adjustedMillis % DateUtils.DAY_IN_MILLIS != 0) { julianDay--; } return (int) (julianDay + EPOCH_JULIAN_DAY); } /** *

Sets the time from the given Julian day number, which must be based on * the same timezone that is set in this Time object. The "gmtoff" field * need not be initialized because the given Julian day may have a different * GMT offset than whatever is currently stored in this Time object anyway. * After this method returns all the fields will be normalized and the time * will be set to 12am at the beginning of the given Julian day. *

* *

* The only exception to this is if 12am does not exist for that day because * of daylight saving time. For example, Cairo, Eqypt moves time ahead one * hour at 12am on April 25, 2008 and there are a few other places that * also change daylight saving time at 12am. In those cases, the time * will be set to 1am. *

* * @param julianDay the Julian day in the timezone for this Time object * @return the UTC milliseconds for the beginning of the Julian day */ public long setJulianDay(int julianDay) { // Don't bother with the GMT offset since we don't know the correct // value for the given Julian day. Just get close and then adjust // the day. long millis = (julianDay - EPOCH_JULIAN_DAY) * DateUtils.DAY_IN_MILLIS; set(millis); // Figure out how close we are to the requested Julian day. // We can't be off by more than a day. int approximateDay = getJulianDay(millis, gmtoff); int diff = julianDay - approximateDay; monthDay += diff; // Set the time to 12am and re-normalize. hour = 0; minute = 0; second = 0; millis = normalize(true); return millis; } /** * Returns the week since {@link #EPOCH_JULIAN_DAY} (Jan 1, 1970) adjusted * for first day of week. This takes a julian day and the week start day and * calculates which week since {@link #EPOCH_JULIAN_DAY} that day occurs in, * starting at 0. *Do not* use this to compute the ISO week number for the * year. * * @param julianDay The julian day to calculate the week number for * @param firstDayOfWeek Which week day is the first day of the week, see * {@link #SUNDAY} * @return Weeks since the epoch */ public static int getWeeksSinceEpochFromJulianDay(int julianDay, int firstDayOfWeek) { int diff = THURSDAY - firstDayOfWeek; if (diff < 0) { diff += 7; } int refDay = EPOCH_JULIAN_DAY - diff; return (julianDay - refDay) / 7; } /** * Takes a number of weeks since the epoch and calculates the Julian day of * the Monday for that week. This assumes that the week containing the * {@link #EPOCH_JULIAN_DAY} is considered week 0. It returns the Julian day * for the Monday week weeks after the Monday of the week containing the * epoch. * * @param week Number of weeks since the epoch * @return The julian day for the Monday of the given week since the epoch */ public static int getJulianMondayFromWeeksSinceEpoch(int week) { return MONDAY_BEFORE_JULIAN_EPOCH + week * 7; } /** * A class that handles date/time calculations. * * This class originated as a port of a native C++ class ("android.Time") to pure Java. It is * separate from the enclosing class because some methods copy the result of calculations back * to the enclosing object, but others do not: thus separate state is retained. */ private static class TimeCalculator { public final WallTime wallTime; public String timezone; // Information about the current timezone. private ZoneInfoData mZoneInfoData; public TimeCalculator(String timezoneId) { this.mZoneInfoData = lookupZoneInfoData(timezoneId); this.wallTime = new WallTime(); } public long toMillis(boolean ignoreDst) { if (ignoreDst) { wallTime.setIsDst(-1); } int r = wallTime.mktime(mZoneInfoData); if (r == -1) { return -1; } return r * 1000L; } public void setTimeInMillis(long millis) { // Preserve old 32-bit Android behavior. int intSeconds = (int) (millis / 1000); updateZoneInfoFromTimeZone(); wallTime.localtime(intSeconds, mZoneInfoData); } public String format(String format) { if (format == null) { format = "%c"; } TimeFormatter formatter = new TimeFormatter(); return formatter.format(format, wallTime, mZoneInfoData); } private void updateZoneInfoFromTimeZone() { if (!mZoneInfoData.getID().equals(timezone)) { this.mZoneInfoData = lookupZoneInfoData(timezone); } } private static ZoneInfoData lookupZoneInfoData(String timezoneId) { ZoneInfoData zoneInfoData = ZoneInfoDb.getInstance().makeZoneInfoData(timezoneId); if (zoneInfoData == null) { zoneInfoData = ZoneInfoDb.getInstance().makeZoneInfoData("GMT"); } if (zoneInfoData == null) { throw new AssertionError("GMT not found: \"" + timezoneId + "\""); } return zoneInfoData; } public void switchTimeZone(String timezone) { int seconds = wallTime.mktime(mZoneInfoData); this.timezone = timezone; updateZoneInfoFromTimeZone(); wallTime.localtime(seconds, mZoneInfoData); } public String format2445(boolean hasTime) { char[] buf = new char[hasTime ? 16 : 8]; int n = wallTime.getYear(); buf[0] = toChar(n / 1000); n %= 1000; buf[1] = toChar(n / 100); n %= 100; buf[2] = toChar(n / 10); n %= 10; buf[3] = toChar(n); n = wallTime.getMonth() + 1; buf[4] = toChar(n / 10); buf[5] = toChar(n % 10); n = wallTime.getMonthDay(); buf[6] = toChar(n / 10); buf[7] = toChar(n % 10); if (!hasTime) { return new String(buf, 0, 8); } buf[8] = 'T'; n = wallTime.getHour(); buf[9] = toChar(n / 10); buf[10] = toChar(n % 10); n = wallTime.getMinute(); buf[11] = toChar(n / 10); buf[12] = toChar(n % 10); n = wallTime.getSecond(); buf[13] = toChar(n / 10); buf[14] = toChar(n % 10); if (TIMEZONE_UTC.equals(timezone)) { // The letter 'Z' is appended to the end. buf[15] = 'Z'; return new String(buf, 0, 16); } else { return new String(buf, 0, 15); } } private char toChar(int n) { return (n >= 0 && n <= 9) ? (char) (n + '0') : ' '; } /** * A method that will return the state of this object in string form. Note: it has side * effects and so has deliberately not been made the default {@link #toString()}. */ public String toStringInternal() { // This implementation possibly displays the un-normalized fields because that is // what it has always done. return String.format("%04d%02d%02dT%02d%02d%02d%s(%d,%d,%d,%d,%d)", wallTime.getYear(), wallTime.getMonth() + 1, wallTime.getMonthDay(), wallTime.getHour(), wallTime.getMinute(), wallTime.getSecond(), timezone, wallTime.getWeekDay(), wallTime.getYearDay(), wallTime.getGmtOffset(), wallTime.getIsDst(), toMillis(false /* use isDst */) / 1000 ); } public static int compare(TimeCalculator aObject, TimeCalculator bObject) { if (aObject.timezone.equals(bObject.timezone)) { // If the timezones are the same, we can easily compare the two times. int diff = aObject.wallTime.getYear() - bObject.wallTime.getYear(); if (diff != 0) { return diff; } diff = aObject.wallTime.getMonth() - bObject.wallTime.getMonth(); if (diff != 0) { return diff; } diff = aObject.wallTime.getMonthDay() - bObject.wallTime.getMonthDay(); if (diff != 0) { return diff; } diff = aObject.wallTime.getHour() - bObject.wallTime.getHour(); if (diff != 0) { return diff; } diff = aObject.wallTime.getMinute() - bObject.wallTime.getMinute(); if (diff != 0) { return diff; } diff = aObject.wallTime.getSecond() - bObject.wallTime.getSecond(); if (diff != 0) { return diff; } return 0; } else { // Otherwise, convert to milliseconds and compare that. This requires that object be // normalized. Note: For dates that do not exist: toMillis() can return -1, which // can be confused with a valid time. long am = aObject.toMillis(false /* use isDst */); long bm = bObject.toMillis(false /* use isDst */); long diff = am - bm; return (diff < 0) ? -1 : ((diff > 0) ? 1 : 0); } } public void copyFieldsToTime(Time time) { time.second = wallTime.getSecond(); time.minute = wallTime.getMinute(); time.hour = wallTime.getHour(); time.monthDay = wallTime.getMonthDay(); time.month = wallTime.getMonth(); time.year = wallTime.getYear(); // Read-only fields that are derived from other information above. time.weekDay = wallTime.getWeekDay(); time.yearDay = wallTime.getYearDay(); // < 0: DST status unknown, 0: is not in DST, 1: is in DST time.isDst = wallTime.getIsDst(); // This is in seconds and includes any DST offset too. time.gmtoff = wallTime.getGmtOffset(); } public void copyFieldsFromTime(Time time) { wallTime.setSecond(time.second); wallTime.setMinute(time.minute); wallTime.setHour(time.hour); wallTime.setMonthDay(time.monthDay); wallTime.setMonth(time.month); wallTime.setYear(time.year); wallTime.setWeekDay(time.weekDay); wallTime.setYearDay(time.yearDay); wallTime.setIsDst(time.isDst); wallTime.setGmtOffset((int) time.gmtoff); if (time.allDay && (time.second != 0 || time.minute != 0 || time.hour != 0)) { throw new IllegalArgumentException("allDay is true but sec, min, hour are not 0."); } timezone = time.timezone; updateZoneInfoFromTimeZone(); } } }




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