EDU.oswego.cs.dl.util.concurrent
Class BoundedLinkedQueue
public
class
BoundedLinkedQueue
extends Object
implements BoundedChannel
A bounded variant of
LinkedQueue
class. This class may be
preferable to
BoundedBuffer
because it allows a bit more
concurency among puts and takes, because it does not
pre-allocate fixed storage for elements, and allows
capacity to be dynamically reset.
On the other hand, since it allocates a node object
on each put, it can be slow on systems with slow
allocation and GC.
Also, it may be
preferable to
LinkedQueue
when you need to limit
the capacity to prevent resource exhaustion. This protection
normally does not hurt much performance-wise: When the
queue is not empty or full, most puts and
takes are still usually able to execute concurrently.
See Also: LinkedQueue
[ Introduction to this package. ]
Method Summary |
protected void | allowTake() Notify a waiting take if needed * |
int | capacity() Return the current capacity of this queue * |
protected Object | extract() Main mechanics for take/poll * |
protected void | insert(Object x)
Create and insert a node.
|
boolean | isEmpty() |
boolean | offer(Object x, long msecs) |
Object | peek() |
Object | poll(long msecs) |
void | put(Object x) |
protected int | reconcilePutPermits()
Move put permits from take side to put side;
return the number of put side permits that are available.
|
void | setCapacity(int newCapacity)
Reset the capacity of this queue.
|
int | size()
Return the number of elements in the queue.
|
Object | take() |
protected int capacity_
Number of elements allowed *
Dummy header node of list. The first actual node, if it exists, is always
at head_.next. After each take, the old first node becomes the head.
The last node of list. Put() appends to list, so modifies last_
protected final Object putGuard_
Helper monitor. Ensures that only one put at a time executes.
protected int putSidePutPermits_
One side of a split permit count.
The counts represent permits to do a put. (The queue is full when zero).
Invariant: putSidePutPermits_ + takeSidePutPermits_ = capacity_ - length.
(The length is never separately recorded, so this cannot be
checked explicitly.)
To minimize contention between puts and takes, the
put side uses up all of its permits before transfering them from
the take side. The take side just increments the count upon each take.
Thus, most puts and take can run independently of each other unless
the queue is empty or full.
Initial value is queue capacity.
protected final Object takeGuard_
Helper monitor. Protects and provides wait queue for takes
protected int takeSidePutPermits_
Number of takes since last reconcile *
public BoundedLinkedQueue(int capacity)
Create a queue with the given capacity
Throws: IllegalArgumentException if capacity less or equal to zero
public BoundedLinkedQueue()
Create a queue with the current default capacity
protected final void allowTake()
Notify a waiting take if needed *
public int capacity()
Return the current capacity of this queue *
protected Object extract()
Main mechanics for take/poll *
protected void insert(Object x)
Create and insert a node.
Call only under synch on putGuard_
public boolean isEmpty()
public boolean offer(Object x, long msecs)
public Object peek()
public Object poll(long msecs)
public void put(Object x)
protected final int reconcilePutPermits()
Move put permits from take side to put side;
return the number of put side permits that are available.
Call only under synch on puGuard_ AND this.
public void setCapacity(int newCapacity)
Reset the capacity of this queue.
If the new capacity is less than the old capacity,
existing elements are NOT removed, but
incoming puts will not proceed until the number of elements
is less than the new capacity.
Throws: IllegalArgumentException if capacity less or equal to zero
public int size()
Return the number of elements in the queue.
This is only a snapshot value, that may be in the midst
of changing. The returned value will be unreliable in the presence of
active puts and takes, and should only be used as a heuristic
estimate, for example for resource monitoring purposes.
public Object take()