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I've been working under the assumption that neither Date nor Calendar are thread-safe, but, during a recent discussion, a co-worker told me Calendar was thread-safe.

So, I did some research, and came up with nothing. There are plenty people arguing it's thread-safe, and plenty people arguing it's not thread-safe. And, to top it off, the documentation doesn't say anything one way or another, not for Calendar, nor even for Date.

So, which is it?

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3… see that – Alex Coleman Aug 26 '12 at 15:26
@AlexColeman Note that the first answer says "no", the second answer says "yes", and none of all that discussion is backed by anything. – Daniel C. Sobral Aug 26 '12 at 15:28
+1 for Joda Time though. If thread-safety issues are your concern then using this would be a good option. – Sujay Aug 26 '12 at 15:30
@DanielC.Sobral However, the first was upvoted 8 times and got the correct answer, and seemed to be backed well – Alex Coleman Aug 26 '12 at 15:35
@AlexColeman The first answer is by Jon Skeet, so it's subject to the Jon Skeet effect. And there's no backing: is there any code or explanation or reference to official documentation showing it isn't thread-safe? No. It mentions mutability, which does impact thread safeness, but the question was about the static getInstance, not about Calendar instances themselves. So, no, that isn't an answer to this question. – Daniel C. Sobral Aug 26 '12 at 15:43
up vote 19 down vote accepted

Here is a link to the source code of Calendar and GregorianCalendar in Java 7

If you read the code you will see that none of the instance methods are synchronized, and none of the instance fields are volatile. You will also see that even the field get methods can cause a Calendar instance to mutate. And since there is no synchronization performed, different threads may see stale versions of a Calendar object's fields following such a mutating operation.

For the record, the mutation action in the field get methods happens in / during a call to this method:

 1555 protected void complete()
 1556       {
 1557           if (!isTimeSet)
 1558               updateTime();
 1559           if (!areFieldsSet || !areAllFieldsSet) {
 1560               computeFields(); // fills in unset fields
 1561               areAllFieldsSet = areFieldsSet = true;
 1562           }
 1563       }

In short, the Calendar class is not thread-safe, and GregorianCalendar isn't either because it inherits the non-thread-safe fields and methods.

But don't just take my word for it. Do your own analysis of the source code.

And, to top it off, the documentation doesn't say anything one way or another, not for Calendar, nor even for Date.

If the javadocs don't specify the thread-safety of a class, then you should assume that it is not thread-safe.

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Documentation from Oracle says nothing about thread-safety:

OpenJDK source code (build b147) implements java.util.Calendar in a non-thread-safe way, for example:

public void setTimeInMillis(long millis) {
  // skipped
  time = millis;
  isTimeSet = true;
  areFieldsSet = false;
  areAllFieldsSet = areFieldsSet = true;

I think that it's safe to assume that the class is not thread safe.

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- I am not sure from where your friend got the information, but speaking in simple and straight terms, Calendar class is not Thread safe.

- I didn't find any synchronized keywords on atomic statements, nor volatile fields in Calendar class nor in its subclasses.

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presence of synchronized or volatile keywords is not an indicator of thread-safety – yegor256 Aug 26 '12 at 16:37

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