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/**
* Defines channels, which represent connections to entities that are capable of
* performing I/O operations, such as files and sockets; defines selectors, for
* multiplexed, non-blocking I/O operations.
*
* <a name="channels"></a>
*
* <blockquote><table cellspacing=1 cellpadding=0 summary="Lists channels and their descriptions">
* <tr><th><p align="left">Channels</p></th><th><p align="left">Description</p></th></tr>
* <tr><td valign=top><tt><i>{@link java.nio.channels.Channel}</i></tt></td>
* <td>A nexus for I/O operations</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.ReadableByteChannel}</i></tt></td>
* <td>Can read into a buffer</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.ScatteringByteChannel} </i></tt></td>
* <td>Can read into a sequence of buffers</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.WritableByteChannel}</i></tt></td>
* <td>Can write from a buffer</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.GatheringByteChannel}</i></tt></td>
* <td>Can write from a sequence of buffers</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.ByteChannel}</i></tt></td>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.SeekableByteChannel}</i></tt></td>
* <td>A {@code ByteChannel} connected to an entity that contains a variable-length sequence of bytes</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.AsynchronousChannel}</i></tt></td>
* <td>Supports asynchronous I/O operations.</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.AsynchronousByteChannel}</i></tt></td>
* <td>Can read and write bytes asynchronously</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.NetworkChannel}</i></tt></td>
* <td>A channel to a network socket</td></tr>
* <tr><td valign=top><tt> <i>{@link java.nio.channels.MulticastChannel}</i></tt></td>
* <td>Can join Internet Protocol (IP) multicast groups</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.Channels}</tt></td>
* </table></blockquote>
*
* <p> A <i>channel</i> represents an open connection to an entity such as a
* hardware device, a file, a network socket, or a program component that is
* capable of performing one or more distinct I/O operations, for example reading
* or writing. As specified in the {@link java.nio.channels.Channel} interface,
* channels are either open or closed, and they are both <i>asynchronously
* closeable</i> and <i>interruptible</i>.
*
* <p> The {@link java.nio.channels.Channel} interface is extended by several
* other interfaces.
*
* <p> The {@link java.nio.channels.ReadableByteChannel} interface specifies a
* {@link java.nio.channels.ReadableByteChannel#read read} method that reads bytes
* from the channel into a buffer; similarly, the {@link
* java.nio.channels.WritableByteChannel} interface specifies a {@link
* java.nio.channels.WritableByteChannel#write write} method that writes bytes
* from a buffer to the channel. The {@link java.nio.channels.ByteChannel}
* interface unifies these two interfaces for the common case of channels that can
* both read and write bytes. The {@link java.nio.channels.SeekableByteChannel}
* interface extends the {@code ByteChannel} interface with methods to {@link
* java.nio.channels.SeekableByteChannel#position() query} and {@link
* java.nio.channels.SeekableByteChannel#position(long) modify} the channel's
* current position, and its {@link java.nio.channels.SeekableByteChannel#size
* size}.
*
* <p> The {@link java.nio.channels.ScatteringByteChannel} and {@link
* java.nio.channels.GatheringByteChannel} interfaces extend the {@link
* java.nio.channels.ReadableByteChannel} and {@link
* java.nio.channels.WritableByteChannel} interfaces, respectively, adding {@link
* java.nio.channels.ScatteringByteChannel#read read} and {@link
* java.nio.channels.GatheringByteChannel#write write} methods that take a
* sequence of buffers rather than a single buffer.
*
* <p> The {@link java.nio.channels.NetworkChannel} interface specifies methods
* to {@link java.nio.channels.NetworkChannel#bind bind} the channel's socket,
* obtain the address to which the socket is bound, and methods to {@link
* java.nio.channels.NetworkChannel#getOption get} and {@link
* java.nio.channels.NetworkChannel#setOption set} socket options. The {@link
* java.nio.channels.MulticastChannel} interface specifies methods to join
* Internet Protocol (IP) multicast groups.
*
* <p> The {@link java.nio.channels.Channels} utility class defines static methods
* that support the interoperation of the stream classes of the <tt>{@link
* java.io}</tt> package with the channel classes of this package. An appropriate
* channel can be constructed from an {@link java.io.InputStream} or an {@link
* java.io.OutputStream}, and conversely an {@link java.io.InputStream} or an
* {@link java.io.OutputStream} can be constructed from a channel. A {@link
* java.io.Reader} can be constructed that uses a given charset to decode bytes
* from a given readable byte channel, and conversely a {@link java.io.Writer} can
* be constructed that uses a given charset to encode characters into bytes and
* write them to a given writable byte channel.
*
* <blockquote><table cellspacing=1 cellpadding=0 summary="Lists file channels and their descriptions">
* <tr><th><p align="left">File channels</p></th><th><p align="left">Description</p></th></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.FileChannel}</tt></td>
* <td>Reads, writes, maps, and manipulates files</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.FileLock}</tt></td>
* <td>A lock on a (region of a) file</td></tr>
* <tr><td valign=top><tt>{@link java.nio.MappedByteBuffer} </tt></td>
* <td>A direct byte buffer mapped to a region of a file</td></tr>
* </table></blockquote>
*
* <p> The {@link java.nio.channels.FileChannel} class supports the usual
* operations of reading bytes from, and writing bytes to, a channel connected to
* a file, as well as those of querying and modifying the current file position
* and truncating the file to a specific size. It defines methods for acquiring
* locks on the whole file or on a specific region of a file; these methods return
* instances of the {@link java.nio.channels.FileLock} class. Finally, it defines
* methods for forcing updates to the file to be written to the storage device that
* contains it, for efficiently transferring bytes between the file and other
* channels, and for mapping a region of the file directly into memory.
*
* <p> A {@code FileChannel} is created by invoking one of its static {@link
* java.nio.channels.FileChannel#open open} methods, or by invoking the {@code
* getChannel} method of a {@link java.io.FileInputStream}, {@link
* java.io.FileOutputStream}, or {@link java.io.RandomAccessFile} to return a
* file channel connected to the same underlying file as the <tt>{@link java.io}</tt>
* class.
*
* <a name="multiplex"></a>
* <blockquote><table cellspacing=1 cellpadding=0 summary="Lists multiplexed, non-blocking channels and their descriptions">
* <tr><th><p align="left">Multiplexed, non-blocking I/O</p></th><th><p align="left">Description</p></th></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.SelectableChannel}</tt></td>
* <td>A channel that can be multiplexed</td></tr>
* <tr><td valign=top><tt> {@link java.nio.channels.DatagramChannel}</tt></td>
* <td>A channel to a datagram-oriented socket</td></tr>
* <tr><td valign=top><tt> {@link java.nio.channels.Pipe.SinkChannel}</tt></td>
* <td>The write end of a pipe</td></tr>
* <tr><td valign=top><tt> {@link java.nio.channels.Pipe.SourceChannel}</tt></td>
* <td>The read end of a pipe</td></tr>
* <tr><td valign=top><tt> {@link java.nio.channels.ServerSocketChannel} </tt></td>
* <td>A channel to a stream-oriented listening socket</td></tr>
* <tr><td valign=top><tt> {@link java.nio.channels.SocketChannel}</tt></td>
* <td>A channel for a stream-oriented connecting socket</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.Selector}</tt></td>
* <td>A multiplexor of selectable channels</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.SelectionKey}</tt></td>
* <td>A token representing the registration <br> of a channel
* with a selector</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.Pipe}</tt></td>
* <td>Two channels that form a unidirectional pipe</td></tr>
* </table></blockquote>
*
* <p> Multiplexed, non-blocking I/O, which is much more scalable than
* thread-oriented, blocking I/O, is provided by <i>selectors</i>, <i>selectable
* channels</i>, and <i>selection keys</i>.
*
* <p> A <a href="Selector.html"><i>selector</i></a> is a multiplexor of <a
* href="SelectableChannel.html"><i>selectable channels</i></a>, which in turn are
* a special type of channel that can be put into <a
* href="SelectableChannel.html#bm"><i>non-blocking mode</i></a>. To perform
* multiplexed I/O operations, one or more selectable channels are first created,
* put into non-blocking mode, and {@link
* java.nio.channels.SelectableChannel#register <i>registered</i>}
* with a selector. Registering a channel specifies the set of I/O operations
* that will be tested for readiness by the selector, and returns a <a
* href="SelectionKey.html"><i>selection key</i></a> that represents the
* registration.
*
* <p> Once some channels have been registered with a selector, a <a
* href="Selector.html#selop"><i>selection operation</i></a> can be performed in
* order to discover which channels, if any, have become ready to perform one or
* more of the operations in which interest was previously declared. If a channel
* is ready then the key returned when it was registered will be added to the
* selector's <i>selected-key set</i>. The key set, and the keys within it, can
* be examined in order to determine the operations for which each channel is
* ready. From each key one can retrieve the corresponding channel in order to
* perform whatever I/O operations are required.
*
* <p> That a selection key indicates that its channel is ready for some operation
* is a hint, but not a guarantee, that such an operation can be performed by a
* thread without causing the thread to block. It is imperative that code that
* performs multiplexed I/O be written so as to ignore these hints when they prove
* to be incorrect.
*
* <p> This package defines selectable-channel classes corresponding to the {@link
* java.net.DatagramSocket}, {@link java.net.ServerSocket}, and {@link
* java.net.Socket} classes defined in the <tt>{@link java.net}</tt> package.
* Minor changes to these classes have been made in order to support sockets that
* are associated with channels. This package also defines a simple class that
* implements unidirectional pipes. In all cases, a new selectable channel is
* created by invoking the static <tt>open</tt> method of the corresponding class.
* If a channel needs an associated socket then a socket will be created as a side
* effect of this operation.
*
* <p> The implementation of selectors, selectable channels, and selection keys
* can be replaced by "plugging in" an alternative definition or instance of the
* {@link java.nio.channels.spi.SelectorProvider} class defined in the <tt>{@link
* java.nio.channels.spi}</tt> package. It is not expected that many developers
* will actually make use of this facility; it is provided primarily so that
* sophisticated users can take advantage of operating-system-specific
* I/O-multiplexing mechanisms when very high performance is required.
*
* <p> Much of the bookkeeping and synchronization required to implement the
* multiplexed-I/O abstractions is performed by the {@link
* java.nio.channels.spi.AbstractInterruptibleChannel}, {@link
* java.nio.channels.spi.AbstractSelectableChannel}, {@link
* java.nio.channels.spi.AbstractSelectionKey}, and {@link
* java.nio.channels.spi.AbstractSelector} classes in the <tt>{@link
* java.nio.channels.spi}</tt> package. When defining a custom selector provider,
* only the {@link java.nio.channels.spi.AbstractSelector} and {@link
* java.nio.channels.spi.AbstractSelectionKey} classes should be subclassed
* directly; custom channel classes should extend the appropriate {@link
* java.nio.channels.SelectableChannel} subclasses defined in this package.
*
* <a name="async"></a>
*
* <blockquote><table cellspacing=1 cellpadding=0 summary="Lists asynchronous channels and their descriptions">
* <tr><th><p align="left">Asynchronous I/O</p></th><th><p align="left">Description</p></th></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.AsynchronousFileChannel}</tt></td>
* <td>An asynchronous channel for reading, writing, and manipulating a file</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.AsynchronousSocketChannel}</tt></td>
* <td>An asynchronous channel to a stream-oriented connecting socket</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.AsynchronousServerSocketChannel} </tt></td>
* <td>An asynchronous channel to a stream-oriented listening socket</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.CompletionHandler}</tt></td>
* <td>A handler for consuming the result of an asynchronous operation</td></tr>
* <tr><td valign=top><tt>{@link java.nio.channels.AsynchronousChannelGroup}</tt></td>
* <td>A grouping of asynchronous channels for the purpose of resource sharing</td></tr>
* </table></blockquote>
*
* <p> {@link java.nio.channels.AsynchronousChannel Asynchronous channels} are a
* special type of channel capable of asynchronous I/O operations. Asynchronous
* channels are non-blocking and define methods to initiate asynchronous
* operations, returning a {@link java.util.concurrent.Future} representing the
* pending result of each operation. The {@code Future} can be used to poll or
* wait for the result of the operation. Asynchronous I/O operations can also
* specify a {@link java.nio.channels.CompletionHandler} to invoke when the
* operation completes. A completion handler is user provided code that is executed
* to consume the result of I/O operation.
*
* <p> This package defines asynchronous-channel classes that are connected to
* a stream-oriented connecting or listening socket, or a datagram-oriented socket.
* It also defines the {@link java.nio.channels.AsynchronousFileChannel} class
* for asynchronous reading, writing, and manipulating a file. As with the {@link
* java.nio.channels.FileChannel} it supports operations to truncate the file
* to a specific size, force updates to the file to be written to the storage
* device, or acquire locks on the whole file or on a specific region of the file.
* Unlike the {@code FileChannel} it does not define methods for mapping a
* region of the file directly into memory. Where memory mapped I/O is required,
* then a {@code FileChannel} can be used.
*
* <p> Asynchronous channels are bound to an asynchronous channel group for the
* purpose of resource sharing. A group has an associated {@link
* java.util.concurrent.ExecutorService} to which tasks are submitted to handle
* I/O events and dispatch to completion handlers that consume the result of
* asynchronous operations performed on channels in the group. The group can
* optionally be specified when creating the channel or the channel can be bound
* to a <em>default group</em>. Sophisticated users may wish to create their
* own asynchronous channel groups or configure the {@code ExecutorService}
* that will be used for the default group.
*
* <p> As with selectors, the implementatin of asynchronous channels can be
* replaced by "plugging in" an alternative definition or instance of the {@link
* java.nio.channels.spi.AsynchronousChannelProvider} class defined in the
* <tt>{@link java.nio.channels.spi}</tt> package. It is not expected that many
* developers will actually make use of this facility; it is provided primarily
* so that sophisticated users can take advantage of operating-system-specific
* asynchronous I/O mechanisms when very high performance is required.
*
* <hr width="80%">
* <p> Unless otherwise noted, passing a <tt>null</tt> argument to a constructor
* or method in any class or interface in this package will cause a {@link
* java.lang.NullPointerException NullPointerException} to be thrown.
*
* @since 1.4
* @author Mark Reinhold
* @author JSR-51 Expert Group
*/