Modifier and Type | Method and Description |
---|---|
static ReadableByteChannel |
newChannel(InputStream in)
Constructs a channel that reads bytes from the given stream.
|
static WritableByteChannel |
newChannel(OutputStream out)
Constructs a channel that writes bytes to the given stream.
|
static InputStream |
newInputStream(AsynchronousByteChannel ch)
Constructs a stream that reads bytes from the given channel.
|
static InputStream |
newInputStream(ReadableByteChannel ch)
Constructs a stream that reads bytes from the given channel.
|
static OutputStream |
newOutputStream(AsynchronousByteChannel ch)
Constructs a stream that writes bytes to the given channel.
|
static OutputStream |
newOutputStream(WritableByteChannel ch)
Constructs a stream that writes bytes to the given channel.
|
static Reader |
newReader(ReadableByteChannel ch,
CharsetDecoder dec,
int minBufferCap)
Constructs a reader that decodes bytes from the given channel using the
given decoder.
|
static Reader |
newReader(ReadableByteChannel ch,
String csName)
Constructs a reader that decodes bytes from the given channel according
to the named charset.
|
static Writer |
newWriter(WritableByteChannel ch,
CharsetEncoder enc,
int minBufferCap)
Constructs a writer that encodes characters using the given encoder and
writes the resulting bytes to the given channel.
|
static Writer |
newWriter(WritableByteChannel ch,
String csName)
Constructs a writer that encodes characters according to the named
charset and writes the resulting bytes to the given channel.
|
public static InputStream newInputStream(ReadableByteChannel ch)
The read methods of the resulting stream will throw an
IllegalBlockingModeException
if invoked while the underlying
channel is in non-blocking mode. The stream will not be buffered, and
it will not support the mark
or reset
methods. The stream will be safe for access by
multiple concurrent threads. Closing the stream will in turn cause the
channel to be closed.
ch
- The channel from which bytes will be readpublic static OutputStream newOutputStream(WritableByteChannel ch)
The write methods of the resulting stream will throw an
IllegalBlockingModeException
if invoked while the underlying
channel is in non-blocking mode. The stream will not be buffered. The
stream will be safe for access by multiple concurrent threads. Closing
the stream will in turn cause the channel to be closed.
ch
- The channel to which bytes will be writtenpublic static InputStream newInputStream(AsynchronousByteChannel ch)
The stream will not be buffered, and it will not support the mark
or reset
methods. The
stream will be safe for access by multiple concurrent threads. Closing
the stream will in turn cause the channel to be closed.
ch
- The channel from which bytes will be readpublic static OutputStream newOutputStream(AsynchronousByteChannel ch)
The stream will not be buffered. The stream will be safe for access by multiple concurrent threads. Closing the stream will in turn cause the channel to be closed.
ch
- The channel to which bytes will be writtenpublic static ReadableByteChannel newChannel(InputStream in)
The resulting channel will not be buffered; it will simply redirect its I/O operations to the given stream. Closing the channel will in turn cause the stream to be closed.
in
- The stream from which bytes are to be readpublic static WritableByteChannel newChannel(OutputStream out)
The resulting channel will not be buffered; it will simply redirect its I/O operations to the given stream. Closing the channel will in turn cause the stream to be closed.
out
- The stream to which bytes are to be writtenpublic static Reader newReader(ReadableByteChannel ch, CharsetDecoder dec, int minBufferCap)
The resulting stream will contain an internal input buffer of at
least minBufferCap bytes. The stream's read methods
will, as needed, fill the buffer by reading bytes from the underlying
channel; if the channel is in non-blocking mode when bytes are to be
read then an IllegalBlockingModeException
will be thrown. The
resulting stream will not otherwise be buffered, and it will not support
the mark
or reset
methods.
Closing the stream will in turn cause the channel to be closed.
ch
- The channel from which bytes will be readdec
- The charset decoder to be usedminBufferCap
- The minimum capacity of the internal byte buffer,
or -1 if an implementation-dependent
default capacity is to be usedpublic static Reader newReader(ReadableByteChannel ch, String csName)
An invocation of this method of the form
behaves in exactly the same way as the expressionChannels.newReader(ch, csname)
Channels.newReader(ch, Charset.forName(csName) .newDecoder(), -1);
ch
- The channel from which bytes will be readcsName
- The name of the charset to be usedUnsupportedCharsetException
- If no support for the named charset is available
in this instance of the Java virtual machinepublic static Writer newWriter(WritableByteChannel ch, CharsetEncoder enc, int minBufferCap)
The resulting stream will contain an internal output buffer of at
least minBufferCap bytes. The stream's write methods
will, as needed, flush the buffer by writing bytes to the underlying
channel; if the channel is in non-blocking mode when bytes are to be
written then an IllegalBlockingModeException
will be thrown.
The resulting stream will not otherwise be buffered. Closing the stream
will in turn cause the channel to be closed.
ch
- The channel to which bytes will be writtenenc
- The charset encoder to be usedminBufferCap
- The minimum capacity of the internal byte buffer,
or -1 if an implementation-dependent
default capacity is to be usedpublic static Writer newWriter(WritableByteChannel ch, String csName)
An invocation of this method of the form
behaves in exactly the same way as the expressionChannels.newWriter(ch, csname)
Channels.newWriter(ch, Charset.forName(csName) .newEncoder(), -1);
ch
- The channel to which bytes will be writtencsName
- The name of the charset to be usedUnsupportedCharsetException
- If no support for the named charset is available
in this instance of the Java virtual machine Submit a bug or feature
For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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