<i18n dev> Java should handle user defined TimeZone subclass instances supporting historic rule changes properly
masayoshi.okutsu at oracle.com
Mon Oct 20 00:03:50 UTC 2014
Thanks for your bug report which I've closed as a duplicate of
JDK-6380023. Yes, it's an API design flaw of java.util.TimeZone.
Since we now have the java.time API, I guess JDK-6380023 doesn't have
any high priority (unless it gets escalated by someone).
On 10/18/2014 5:43 AM, Yoshito Umaoka wrote:
> Dear Java i18n team,
> I was looking at recent Russian time zone changes and noticed a design
> issue in JDK. I think I knew this issue, but I forgot about this until
> recently. The problem is - Java does not support user defined custom
> TimeZone implementation properly.
> java.util.TimeZone is quite old, and the original design assumed 'raw
> offset' and 'daylight saving amount' will never changed. To implement
> a subclass of TimeZone, you have to override an awkward abstract
> method - abstract int getOffset(int era, int year, int month, int day,
> int dayOfWeek, int milliseconds). This method signature itself does
> not limit a custom TimeZone implementation to support historic raw/dst
> offset changes. However, if you do so, you will see some problems in
> other places.
> I filed a bug below:
> Java should handle user defined TimeZone subclass instances supporting
> historic rule changes properly.
> You can create a custom time zone implementation class by extending
> java.util.TimeZone. By the contract, the subclass must implement a few
> abstract int getOffset(int,int,int,int,int,int);
> abstract int getRawOffset();
> abstract boolean inDaylightTime(Date);
> abstract void setRawOffset(int);
> abstract boolean useDaylightTime();
> Although, the interface above do not assume UTC offset or daylight
> saving amount is not changing time to time, a user can provide an
> implementation supporting historic UTC offset changes by int
> getOffset(int,int,int,int,int,int). However, there are two Java
> implementation problems.
> 1. The default implementation of TimeZone#getOffset(long date) does
> not use the abstract method - int getOffset(int,int,int,int,int,int).
> Therefore, when a different 'raw' offset was used in the past, or will
> be used in future, getOffset(long) always returns a result calculated
> from getRawOffset() and getDSTSavings(). Although a subclass
> implementation can provide TimeZone#getOffset(long date), the default
> implementation should use getOffset(int,int,int,int,int,int).
> 2. java.util.GregorianCalendar checks if a TimeZone instance is
> sun.util.calendar.TimZone or not, and if not, the offset field is
> calculated based on getRawOffset() / getDSTSavings(). Therefore, even
> a custom TimeZone implementation support different 'raw' offsets in
> the past or future, current 'raw' offset (getRawOffset()) value is used.
> Use case:
> A user may want to create a custom TimeZone instance from iCalendar
> VTIMEZONE component. iCalendr VTIMEZONE can support historic time zone
> rule changes.
> 1) Add API TimeZone#getRawOffset(long) with the default implementation
> - return getRawOffset().
> 2) Add API TimeZone#getDSTSavings(long) with the default
> implementation - return getDSTSavings().
> 2) Update the default implementation of TimeZone#getOffset(long) to
> use #getRawOffset(long) #getDSTSavings(long) above along is existing
> 3) Gregorian calendar to use #getRawOffset(long) and
> #getDSTSavings(long), if not ZoneInfo.
> There is an IETF working draft for timezone service protocol. In
> future, someone may want to create a custom time zone, interacting
> with a timezone service server to get the latest time zone rule data,
> instead of applying tzdata update utility. In this case, such
> limitation becomes a blocker. There are several ways to resolve the
> issue - I just suggested one way in the bug report. Are there anyone
> willing to look into this?
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