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I'd like to use a Calendar for some static methods and use a static field:

private static Calendar calendar = Calendar.getInstance();

Now I read java.util.Calendar isn't thread safe. How can I make this thread safe (it should be static)?

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Is your static calendar just a fixed date? – toto2 Jun 5 '11 at 18:57
maybe it would help to make it "volatile" ? – cody Jun 5 '11 at 18:57
no, I just don't want to create so many instances - for every call to my methods, as that possibly could take time. – cody Jun 5 '11 at 18:59
You mean you are worried about the performance hit of many calls to the constructor? – toto2 Jun 5 '11 at 19:00
I am beginning to conclude that Calendar should not be regarded as simply "not thread safe." It should be labeled "thread hostile". – scottb Jun 6 '13 at 17:35
up vote 14 down vote accepted

You can't make something thread-safe if it isn't. In the case of Calendar, even reading data from it isn't thread-safe, as it can update internal data structures.

If at all possible, I'd suggest using Joda Time instead:

  • Most of the types are immutable
  • The immutable types are thread-safe
  • It's a generally much better API anyway

If you absolutely have to use a Calendar, you could create a locking object and put all the access through a lock. For example:

private static final Calendar calendar = Calendar.getInstance();
private static final Object calendarLock = new Object();

public static int getYear()
        return calendar.get(Calendar.YEAR);

// Ditto for other methods

It's pretty nasty though. You could have just one synchronized method which created a clone of the original calendar each time it was needed, of course... it's possible that by calling computeFields or computeTime you could make subsequent read-operations thread-safe, of course, but personally I'd be loathe to try it.

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If you clone a template, you dont need synchronized block.As the template itself is immutable. – bestsss Jun 5 '11 at 19:01
Even though a read on Calendar updates internal state, can you give an example of when two threads might try to set different values for that state? – Peter Lawrey Jun 5 '11 at 19:01
@bestsss: Well, that depends on whether clone itself is thread-safe. Given the lack of thread safety in the rest of Calendar, I wouldn't want to rely on it. – Jon Skeet Jun 5 '11 at 19:03
@Peter: Imagine if areFieldsSet becomes visible as true to one thread due to the computation in another before the computed field values themselves become visible. It would potentially be possible for one thread to read some old field values and some new ones, leading to weird results. I don't like trying to reason about implementation details to decide whether or not that's possible. – Jon Skeet Jun 5 '11 at 19:05
@Voo: My alarm clock could be set to wake me up at 8 o'clock local time every day, wherever I am. What time zone should that use in its representation? ;) – Jon Skeet Jun 5 '11 at 19:36

Calendar is thread safe provided you don't change it. The usage in your example is fine.

It is worth noting that Calendar is not an efficient class and you should only use it for complex operations (like finding the next month/year) IMHO: If you do use it for complex operations, use local variables only.

If all you want it a snapshot of the time a faster way is to use currentTimeMillis which does even create an object. You can make the field volatile if you want to make it thread safe.

private static long now = System.currentTimeMillis();

The usage is a bit suspect. Why would you get the current time and store it globally like this. It reminds me of the old joke.

Do you have the time?
Yes, I have it written down somewhere.
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What exactly do you mean by "change it" bearing in mind that reading from it can change its internal state? I wouldn't be entirely surprised to find that two simultaneous read operations could potentially end up corrupting state. It's unlikely, but I wouldn't like to rely on it. Calendar is a nasty, nasty class :( – Jon Skeet Jun 5 '11 at 19:03
Reading it won't change its state in inconsistent ways. If you were worried about this you would have to say the same thing about String.hashCode(). – Peter Lawrey Jun 5 '11 at 19:04
I agree that Calendar is nasty. Have you tried Serializing it? It sends the entire TimeZone information which is not great for performance but it means if you have a system which has up to date TimeZone information, but you read an old Calendar or get a Calendar from a system which is not up to date you get subtle TimeZone issues you never expected to happen due to bugs in code you are not running. :P – Peter Lawrey Jun 5 '11 at 19:07
See my comment replying to you in my answer. String is designed to be thread-safe, so its hash caching is thread-safe: the value is atomically changed from "uncached" to "the cached value". Compare that with Calendar, where a boolean field determines whether the fields are set, and the fields themselves are separate. What guarantees that all changes to that set of data occurs atomically, or in a desirable order? – Jon Skeet Jun 5 '11 at 19:08
I also have a database app in which date/times are stored in a UTC numeric format. Every time I need to show a date to the user, the code for that table needs a way to map from a UTC number to a localized String. For that I've been using Calendar because TimeZone provides historically accurate DST and TimeZone offsets. Because I have so many classes that need this conversion and because Calendars are expensive to create, I've also been using a static Calendar field in my JulianDay class used to do the date localizations. Really struggling how to make this API thread safe. – scottb Jun 6 '13 at 17:31

You cannot. Yes, you could synchronize on it, but it still has mutable state fields. You'll have to create your own Calendar object.

If possible, use something lightweight, like a long measuring the times in milliseconds, and only convert to a Calendar when you NEED to.

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Create a Calendar as a local variable in the method. If you need the same calendar across methods, you may be using statics where a (singleton or quasi-singleton) object would be more appropriate.

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Are you really suggesting that making a singleton of a mutable, non-thread safe object will help make its class thread safe? Really? – scottb Jun 6 '13 at 17:34

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