- All Implemented Interfaces:
Closeable
,AutoCloseable
- Direct Known Subclasses:
AbstractSelector
SelectableChannel
objects.
A selector may be created by invoking the open
method of
this class, which will use the system's default selector provider
to
create a new selector. A selector may also be created by invoking the
openSelector
method of a custom selector provider. A selector remains open until it is
closed via its close
method.
A selectable channel's registration with a selector is represented by a
SelectionKey
object. A selector maintains three sets of selection
keys:
The key set contains the keys representing the current channel registrations of this selector. This set is returned by the
keys
method.The selected-key set is the set of keys such that each key's channel was detected to be ready for at least one of the operations identified in the key's interest set during a prior selection operation that adds keys or updates keys in the set. This set is returned by the
selectedKeys
method. The selected-key set is always a subset of the key set.The cancelled-key set is the set of keys that have been cancelled but whose channels have not yet been deregistered. This set is not directly accessible. The cancelled-key set is always a subset of the key set.
All three sets are empty in a newly-created selector.
A key is added to a selector's key set as a side effect of registering a
channel via the channel's register
method. Cancelled keys are removed from the key set during
selection operations. The key set itself is not directly modifiable.
A key is added to its selector's cancelled-key set when it is cancelled,
whether by closing its channel or by invoking its cancel
method. Cancelling a key will cause its channel to be deregistered
during the next selection operation, at which time the key will be removed
from all of the selector's key sets.
Keys are added to the selected-key set by selection
operations. A key may be removed directly from the selected-key set by
invoking the set's remove
method or by invoking the remove
method
of an iterator
obtained from the set.
All keys may be removed from the selected-key set by invoking the set's
clear
method. Keys may not be added directly
to the selected-key set.
Selection
A selection operation queries the underlying operating system for an update as to the readiness of each registered channel to perform any of the operations identified by its key's interest set. There are two forms of selection operation:
The
select()
,select(long)
, andselectNow()
methods add the keys of channels ready to perform an operation to the selected-key set, or update the ready-operation set of keys already in the selected-key set.The
select(Consumer)
,select(Consumer, long)
, andselectNow(Consumer)
methods perform an action on the key of each channel that is ready to perform an operation. These methods do not add to the selected-key set.
Selection operations that add to the selected-key set
During each selection operation, keys may be added to and removed from a
selector's selected-key set and may be removed from its key and
cancelled-key sets. Selection is performed by the select()
, select(long)
, and selectNow()
methods, and involves three steps:
Each key in the cancelled-key set is removed from each key set of which it is a member, and its channel is deregistered. This step leaves the cancelled-key set empty.
The underlying operating system is queried for an update as to the readiness of each remaining channel to perform any of the operations identified by its key's interest set as of the moment that the selection operation began. For a channel that is ready for at least one such operation, one of the following two actions is performed:
If the channel's key is not already in the selected-key set then it is added to that set and its ready-operation set is modified to identify exactly those operations for which the channel is now reported to be ready. Any readiness information previously recorded in the ready set is discarded.
Otherwise the channel's key is already in the selected-key set, so its ready-operation set is modified to identify any new operations for which the channel is reported to be ready. Any readiness information previously recorded in the ready set is preserved; in other words, the ready set returned by the underlying system is bitwise-disjoined into the key's current ready set.
If any keys were added to the cancelled-key set while step (2) was in progress then they are processed as in step (1).
Whether or not a selection operation blocks to wait for one or more channels to become ready, and if so for how long, is the only essential difference between the three selection methods.
Selection operations that perform an action on selected keys
During each selection operation, keys may be removed from the selector's
key, selected-key, and cancelled-key sets. Selection is performed by the
select(Consumer)
, select(Consumer,long)
, and selectNow(Consumer)
methods, and involves three steps:
Each key in the cancelled-key set is removed from each key set of which it is a member, and its channel is deregistered. This step leaves the cancelled-key set empty.
The underlying operating system is queried for an update as to the readiness of each remaining channel to perform any of the operations identified by its key's interest set as of the moment that the selection operation began.
For a channel that is ready for at least one such operation, the ready-operation set of the channel's key is set to identify exactly the operations for which the channel is ready and the action specified to the
select
method is invoked to consume the channel's key. Any readiness information previously recorded in the ready set is discarded prior to invoking the action.Alternatively, where a channel is ready for more than one operation, the action may be invoked more than once with the channel's key and ready-operation set modified to a subset of the operations for which the channel is ready. Where the action is invoked more than once for the same key then its ready-operation set never contains operation bits that were contained in the set at previous calls to the action in the same selection operation.
If any keys were added to the cancelled-key set while step (2) was in progress then they are processed as in step (1).
Concurrency
A Selector and its key set are safe for use by multiple concurrent threads. Its selected-key set and cancelled-key set, however, are not.
The selection operations synchronize on the selector itself, on the selected-key set, in that order. They also synchronize on the cancelled-key set during steps (1) and (3) above.
Changes made to the interest sets of a selector's keys while a selection operation is in progress have no effect upon that operation; they will be seen by the next selection operation.
Keys may be cancelled and channels may be closed at any time. Hence the presence of a key in one or more of a selector's key sets does not imply that the key is valid or that its channel is open. Application code should be careful to synchronize and check these conditions as necessary if there is any possibility that another thread will cancel a key or close a channel.
A thread blocked in a selection operation may be interrupted by some other thread in one of three ways:
By invoking the selector's
wakeup
method,By invoking the selector's
close
method, orBy invoking the blocked thread's
interrupt
method, in which case its interrupt status will be set and the selector'swakeup
method will be invoked.
The close
method synchronizes on the selector and its
selected-key set in the same order as in a selection operation.
A Selector's key set is safe for use by multiple concurrent threads.
Retrieval operations from the key set do not generally block and so may
overlap with new registrations that add to the set, or with the cancellation
steps of selection operations that remove keys from the set. Iterators and
spliterators return elements reflecting the state of the set at some point at
or since the creation of the iterator/spliterator. They do not throw
ConcurrentModificationException
.
A selector's selected-key set is not, in general, safe for use by
multiple concurrent threads. If such a thread might modify the set directly
then access should be controlled by synchronizing on the set itself. The
iterators returned by the set's iterator
methods are fail-fast: If the set is modified after the iterator is
created, in any way except by invoking the iterator's own remove
method, then a ConcurrentModificationException
will be thrown.
- Since:
- 1.4
- See Also:
-
Constructor Summary
-
Method Summary
Modifier and TypeMethodDescriptionabstract void
close()
Closes this selector.abstract boolean
isOpen()
Tells whether or not this selector is open.abstract Set<SelectionKey>
keys()
Returns this selector's key set.static Selector
open()
Opens a selector.abstract SelectorProvider
provider()
Returns the provider that created this channel.abstract int
select()
Selects a set of keys whose corresponding channels are ready for I/O operations.abstract int
select
(long timeout) Selects a set of keys whose corresponding channels are ready for I/O operations.int
select
(Consumer<SelectionKey> action) Selects and performs an action on the keys whose corresponding channels are ready for I/O operations.int
select
(Consumer<SelectionKey> action, long timeout) Selects and performs an action on the keys whose corresponding channels are ready for I/O operations.abstract Set<SelectionKey>
Returns this selector's selected-key set.abstract int
Selects a set of keys whose corresponding channels are ready for I/O operations.int
selectNow
(Consumer<SelectionKey> action) Selects and performs an action on the keys whose corresponding channels are ready for I/O operations.abstract Selector
wakeup()
Causes the first selection operation that has not yet returned to return immediately.
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Constructor Details
-
Selector
protected Selector()Initializes a new instance of this class.
-
-
Method Details
-
open
Opens a selector.The new selector is created by invoking the
openSelector
method of the system-wide defaultSelectorProvider
object.- Returns:
- A new selector
- Throws:
IOException
- If an I/O error occurs
-
isOpen
public abstract boolean isOpen()Tells whether or not this selector is open.- Returns:
true
if, and only if, this selector is open
-
provider
Returns the provider that created this channel.- Returns:
- The provider that created this channel
-
keys
Returns this selector's key set.The key set is not directly modifiable. A key is removed only after it has been cancelled and its channel has been deregistered. Any attempt to modify the key set will cause an
UnsupportedOperationException
to be thrown.The set is safe for use by multiple concurrent threads.
- Returns:
- This selector's key set
- Throws:
ClosedSelectorException
- If this selector is closed
-
selectedKeys
Returns this selector's selected-key set.Keys may be removed from, but not directly added to, the selected-key set. Any attempt to add an object to the key set will cause an
UnsupportedOperationException
to be thrown.The selected-key set is not thread-safe.
- Returns:
- This selector's selected-key set
- Throws:
ClosedSelectorException
- If this selector is closed
-
selectNow
Selects a set of keys whose corresponding channels are ready for I/O operations.This method performs a non-blocking selection operation. If no channels have become selectable since the previous selection operation then this method immediately returns zero.
Invoking this method clears the effect of any previous invocations of the
wakeup
method.- Returns:
- The number of keys, possibly zero, whose ready-operation sets now indicate readiness for at least one category of operations for which the channel was not previously detected to be ready
- Throws:
IOException
- If an I/O error occursClosedSelectorException
- If this selector is closed
-
select
Selects a set of keys whose corresponding channels are ready for I/O operations.This method performs a blocking selection operation. It returns only after at least one channel is selected, this selector's
wakeup
method is invoked, the current thread is interrupted, or the given timeout period expires, whichever comes first.This method does not offer real-time guarantees: It schedules the timeout as if by invoking the
Object.wait(long)
method.- Parameters:
timeout
- If positive, block for up totimeout
milliseconds, more or less, while waiting for a channel to become ready; if zero, block indefinitely; must not be negative- Returns:
- The number of keys, possibly zero, whose ready-operation sets now indicate readiness for at least one category of operations for which the channel was not previously detected to be ready
- Throws:
IOException
- If an I/O error occursClosedSelectorException
- If this selector is closedIllegalArgumentException
- If the value of the timeout argument is negative
-
select
Selects a set of keys whose corresponding channels are ready for I/O operations.This method performs a blocking selection operation. It returns only after at least one channel is selected, this selector's
wakeup
method is invoked, or the current thread is interrupted, whichever comes first.- Returns:
- The number of keys, possibly zero, whose ready-operation sets now indicate readiness for at least one category of operations for which the channel was not previously detected to be ready
- Throws:
IOException
- If an I/O error occursClosedSelectorException
- If this selector is closed
-
select
Selects and performs an action on the keys whose corresponding channels are ready for I/O operations.This method performs a blocking selection operation. It wakes up from querying the operating system only when at least one channel is selected, this selector's
wakeup
method is invoked, the current thread is interrupted, or the given timeout period expires, whichever comes first.The specified action's
accept
method is invoked with the key for each channel that is ready to perform an operation identified by its key's interest set. Theaccept
method may be invoked more than once for the same key but with the ready-operation set containing a subset of the operations for which the channel is ready (as described above). Theaccept
method is invoked while synchronized on the selector and its selected-key set. Great care must be taken to avoid deadlocking with other threads that also synchronize on these objects. Selection operations are not reentrant in general and consequently the action should take great care not to attempt a selection operation on the same selector. The behavior when attempting a reentrant selection operation is implementation specific and therefore not specified. If the action closes the selector thenClosedSelectorException
is thrown when the action completes. The action is not prohibited from closing channels registered with the selector, nor prohibited from cancelling keys or changing a key's interest set. If a channel is selected but its key is cancelled or its interest set changed before the action is performed on the key then it is implementation specific as to whether the action is invoked (it may be invoked with aninvalid
key). Exceptions thrown by the action are relayed to the caller.This method does not offer real-time guarantees: It schedules the timeout as if by invoking the
Object.wait(long)
method.- Implementation Requirements:
- The default implementation removes all keys from the
selected-key set, invokes
select(long)
with the given timeout and then performs the action for each key added to the selected-key set. The default implementation does not detect the action performing a reentrant selection operation. The selected-key set may or may not be empty on completion of the default implementation. - Parameters:
action
- The action to performtimeout
- If positive, block for up totimeout
milliseconds, more or less, while waiting for a channel to become ready; if zero, block indefinitely; must not be negative- Returns:
- The number of unique keys consumed, possibly zero
- Throws:
IOException
- If an I/O error occursClosedSelectorException
- If this selector is closed or is closed by the actionIllegalArgumentException
- If the value of the timeout argument is negative- Since:
- 11
-
select
Selects and performs an action on the keys whose corresponding channels are ready for I/O operations.This method performs a blocking selection operation. It wakes up from querying the operating system only when at least one channel is selected, this selector's
wakeup
method is invoked, or the current thread is interrupted, whichever comes first.This method is equivalent to invoking the 2-arg
select
method with a timeout of0
to block indefinitely.- Implementation Requirements:
- The default implementation invokes the 2-arg
select
method with a timeout of0
. - Parameters:
action
- The action to perform- Returns:
- The number of unique keys consumed, possibly zero
- Throws:
IOException
- If an I/O error occursClosedSelectorException
- If this selector is closed or is closed by the action- Since:
- 11
-
selectNow
Selects and performs an action on the keys whose corresponding channels are ready for I/O operations.This method performs a non-blocking selection operation.
Invoking this method clears the effect of any previous invocations of the
wakeup
method.- Implementation Requirements:
- The default implementation removes all keys from the
selected-key set, invokes
selectNow()
and then performs the action for each key added to the selected-key set. The default implementation does not detect the action performing a reentrant selection operation. The selected-key set may or may not be empty on completion of the default implementation. - Parameters:
action
- The action to perform- Returns:
- The number of unique keys consumed, possibly zero
- Throws:
IOException
- If an I/O error occursClosedSelectorException
- If this selector is closed or is closed by the action- Since:
- 11
-
wakeup
Causes the first selection operation that has not yet returned to return immediately.If another thread is currently blocked in a selection operation then that invocation will return immediately. If no selection operation is currently in progress then the next invocation of a selection operation will return immediately unless
selectNow()
orselectNow(Consumer)
is invoked in the meantime. In any case the value returned by that invocation may be non-zero. Subsequent selection operations will block as usual unless this method is invoked again in the meantime.Invoking this method more than once between two successive selection operations has the same effect as invoking it just once.
- Returns:
- This selector
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close
Closes this selector.If a thread is currently blocked in one of this selector's selection methods then it is interrupted as if by invoking the selector's
wakeup
method.Any uncancelled keys still associated with this selector are invalidated, their channels are deregistered, and any other resources associated with this selector are released.
If this selector is already closed then invoking this method has no effect.
After a selector is closed, any further attempt to use it, except by invoking this method or the
wakeup
method, will cause aClosedSelectorException
to be thrown.- Specified by:
close
in interfaceAutoCloseable
- Specified by:
close
in interfaceCloseable
- Throws:
IOException
- If an I/O error occurs
-