Method Summary

Method Details

• get

  public T get()

  Returns this reference object's referent. If this reference object has been cleared, either by the program or by the garbage collector, then this method returnsnull.

  API Note:

  This method returns a strong reference to the referent. This may cause the garbage collector to treat it as strongly reachable until some later collection cycle. TherefersTo method can be used to avoid such strengthening when testing whether some object is the referent of a reference object; that is, useref.refersTo(obj) rather thanref.get() == obj.

  Returns:

  The object to which this reference refers, ornull if this reference object has been cleared

  See Also:

  • refersTo(T)

• refersTo

  public final boolean refersTo(T obj)

  Tests if the referent of this reference object isobj. Using anullobj returnstrue if the reference object has been cleared.

  Parameters:

  obj - the object to compare with this reference object's referent

  Returns:

  true ifobj is the referent of this reference object

  Since:

  16

• clear

  public void clear()

  Clears this reference object. Invoking this method does not enqueue this object, and the garbage collector will not clear or enqueue this object.

  When the garbage collector or theenqueue() method clear references they do so directly, without invoking this method.

  API Note:

  There is a potential race condition with the garbage collector. When this method is called, the garbage collector may already be in the process of (or already completed) clearing and/or enqueueing this reference. Avoid this race by ensuring the referent remains strongly reachable until after the call to clear(), usingreachabilityFence(Object) if necessary.

• isEnqueued

  @Deprecated(since="16")public boolean isEnqueued()

  Deprecated.

  This method was originally specified to test if a reference object has been cleared and enqueued but was never implemented to do this test. This method could be misused due to the inherent race condition or without an associatedReferenceQueue. An application relying on this method to release critical resources could cause serious performance issue. An application should useReferenceQueue to reliably determine what reference objects that have been enqueued orrefersTo(null) to determine if this reference object has been cleared.

  Tests if this reference object is in its associated queue, if any. This method returnstrue only if all of the following conditions are met:

  • this reference object was registered with a queue when it was created; and
  • the garbage collector has added this reference object to the queue orenqueue() is called; and
  • this reference object is not yet removed from the queue.

  Otherwise, this method returnsfalse. This method may returnfalse if this reference object has been cleared but not enqueued due to the race condition.

  Returns:

  true if and only if this reference object is in its associated queue (if any).

• enqueue

  public boolean enqueue()

  Clears this reference object, then attempts to add it to the queue with which it is registered, if any.

  If this reference is registered with a queue but not yet enqueued, the reference is added to the queue; this method issuccessful and returns true. If this reference is not registered with a queue, or was already enqueued (by the garbage collector, or a previous call toenqueue), this method isunsuccessful and returns false.

  Memory consistency effects: Actions in a thread prior to asuccessful call toenqueuehappen-before the reference is removed from the queue byReferenceQueue.poll() orReferenceQueue.remove(long).Unsuccessful calls toenqueue have no specified memory consistency effects.

  When this method clears references it does so directly, without invoking theclear() method. When the garbage collector clears and enqueues references it does so directly, without invoking theclear() method or this method.

  API Note:

  Use of this method allows the registered queue'sReferenceQueue.poll() andReferenceQueue.remove(long) methods to return this reference even though the referent may still be strongly reachable.

  Returns:

  true if this reference object was successfully enqueued;false if it was already enqueued or if it was not registered with a queue when it was created

• clone

  protected Object clone() throwsCloneNotSupportedException

  ThrowsCloneNotSupportedException. AReference cannot be meaningfully cloned. Construct a newReference instead.

  Overrides:

  clone in class Object

  Returns:

  never returns normally

  Throws:

  CloneNotSupportedException - always

  See Also:

  • Cloneable

• reachabilityFence

  public static void reachabilityFence(Object ref)

  Ensures that the given object remainsstrongly reachable. This reachability is assured regardless of any optimizing transformations the virtual machine may perform that might otherwise allow the object to become unreachable (see JLS12.6.1). Thus, the given object is not reclaimable by garbage collection at least until after the invocation of this method. References to the given object will not be cleared (or enqueued, if applicable) by the garbage collector until after invocation of this method. Invocation of this method does not itself initiate reference processing, garbage collection, or finalization.

  This method establishes an ordering forstrong reachability with respect to garbage collection. It controls relations that are otherwise only implicit in a program -- the reachability conditions triggering garbage collection. This method is applicable only when reclamation may have visible effects, such as for objects that use finalizers orCleaner, or code that performsreference processing.

  Memory consistency effects: Actions in a thread prior to callingreachabilityFence(x)happen-before the garbage collector clears any reference tox.

  API Note:

  Reference processing or finalization can occur after an object becomes unreachable. An object can become unreachable when the virtual machine detects that there is no further need for the object (other than for running a finalizer). In the course of optimization, the virtual machine can reorder operations of an object's methods such that the object becomes unneeded earlier than might naively be expected — including while a method of the object is still running. For instance, the VM can move the loading ofvalues from the object's fields to occur earlier. The object itself is then no longer needed and becomes unreachable, and the method can continue running using the obtained values. This may have surprising and undesirable effects when using a Cleaner or finalizer for cleanup: there is a race between the program thread running the method, and the cleanup thread running the Cleaner or finalizer. The cleanup thread could free a resource, followed by the program thread (still running the method) attempting to access the now-already-freed resource. Use ofreachabilityFence can prevent this race by ensuring that the object remains strongly reachable.

  The following is an example in which the bookkeeping associated with a class is managed through array indices. Here, methodaction uses areachabilityFence to ensure that theResource object is not reclaimed before bookkeeping on an associatedExternalResource has been performed; specifically, to ensure that the array slot holding theExternalResource is not nulled out in methodObject.finalize(), which may otherwise run concurrently.

  Copy

  class Resource {  private static ExternalResource[] externalResourceArray = ...  int myIndex;  Resource(...) {    this.myIndex = ...    externalResourceArray[myIndex] = ...;    ...  }  protected void finalize() {    externalResourceArray[this.myIndex] = null;    ...  }  public void action() {    try {      // ...      int i = this.myIndex; // last use of 'this' Resource in action()      Resource.update(externalResourceArray[i]);    } finally {      Reference.reachabilityFence(this);    }  }  private static void update(ExternalResource ext) {    ext.status = ...;  }}

  The invocation ofreachabilityFence is placedafter the call toupdate, to ensure that the array slot is not nulled out byObject.finalize() before the update, even if the call toaction was the last use of this object. This might be the case if, for example, a usage in a user program had the formnew Resource().action(); which retains no other reference to thisResource. ThereachabilityFence call is placed in afinally block to ensure that it is invoked across all paths in the method. A more complex method might need further precautions to ensure thatreachabilityFence is encountered along all code paths.

  MethodreachabilityFence is not required in constructions that themselves ensure reachability. For example, because objects that are locked cannot, in general, be reclaimed, it would suffice if all accesses of the object, in all methods of classResource (includingfinalize) were enclosed insynchronized (this) blocks. (Further, such blocks must not include infinite loops, or themselves be unreachable, which fall into the corner case exceptions to the "in general" disclaimer.) However, methodreachabilityFence remains a better option in cases where synchronization is not as efficient, desirable, or possible; for example because it would encounter deadlock.

  Parameters:

  ref - the reference to the object to keep strongly reachable. Ifnull, this method has no effect.

  Since:

  9