public class MessageConsumer<T> extends Object implements ReadStream<Message<T>>
EventBus
address that can
be read from.
The EventBus.consumer(java.lang.String)
or EventBus.localConsumer(java.lang.String)
creates a new consumer, the returned consumer is not yet registered against the event bus. Registration
is effective after the handler(io.vertx.core.Handler<io.vertx.rxjava.core.eventbus.Message<T>>)
method is invoked.
The consumer is unregistered from the event bus using the unregister(io.vertx.core.Handler<io.vertx.core.AsyncResult<java.lang.Void>>)
method or by calling the
handler(io.vertx.core.Handler<io.vertx.rxjava.core.eventbus.Message<T>>)
with a null value..
original
non RX-ified interface using Vert.x codegen.Modifier and Type | Field and Description |
---|---|
static io.vertx.lang.rx.TypeArg<MessageConsumer> |
__TYPE_ARG |
io.vertx.lang.rx.TypeArg<T> |
__typeArg_0 |
Constructor and Description |
---|
MessageConsumer(MessageConsumer delegate) |
MessageConsumer(Object delegate,
io.vertx.lang.rx.TypeArg<T> typeArg_0) |
Modifier and Type | Method and Description |
---|---|
String |
address() |
ReadStream<T> |
bodyStream() |
void |
completionHandler()
Optional method which can be called to indicate when the registration has been propagated across the cluster.
|
void |
completionHandler(Handler<AsyncResult<Void>> completionHandler)
Optional method which can be called to indicate when the registration has been propagated across the cluster.
|
MessageConsumer<T> |
endHandler(Handler<Void> endHandler)
Set an end handler.
|
boolean |
equals(Object o) |
MessageConsumer<T> |
exceptionHandler(Handler<Throwable> handler)
Set an exception handler on the read stream.
|
MessageConsumer<T> |
fetch(long amount)
Fetch the specified
amount of elements. |
MessageConsumer |
getDelegate() |
int |
getMaxBufferedMessages() |
MessageConsumer<T> |
handler(Handler<Message<T>> handler)
Set a data handler.
|
int |
hashCode() |
boolean |
isRegistered() |
static <T> MessageConsumer<T> |
newInstance(MessageConsumer arg) |
static <T> MessageConsumer<T> |
newInstance(MessageConsumer arg,
io.vertx.lang.rx.TypeArg<T> __typeArg_T) |
MessageConsumer<T> |
pause()
Pause the
ReadStream , it sets the buffer in fetch mode and clears the actual demand. |
Pipe<Message<T>> |
pipe()
Pause this stream and return a to transfer the elements of this stream to a destination .
|
void |
pipeTo(WriteStream<Message<T>> dst)
Pipe this
ReadStream to the WriteStream . |
void |
pipeTo(WriteStream<Message<T>> dst,
Handler<AsyncResult<Void>> handler)
Pipe this
ReadStream to the WriteStream . |
MessageConsumer<T> |
resume()
Resume reading, and sets the buffer in
flowing mode. |
Single<Void> |
rxCompletionHandler()
Optional method which can be called to indicate when the registration has been propagated across the cluster.
|
Single<Void> |
rxPipeTo(WriteStream<Message<T>> dst)
Pipe this
ReadStream to the WriteStream . |
Single<Void> |
rxUnregister()
Unregisters the handler which created this registration
|
MessageConsumer<T> |
setMaxBufferedMessages(int maxBufferedMessages)
Set the number of messages this registration will buffer when this stream is paused.
|
Observable<Message<T>> |
toObservable() |
String |
toString() |
void |
unregister()
Unregisters the handler which created this registration
|
void |
unregister(Handler<AsyncResult<Void>> completionHandler)
Unregisters the handler which created this registration
|
clone, finalize, getClass, notify, notifyAll, wait, wait, wait
newInstance, newInstance
newInstance
public static final io.vertx.lang.rx.TypeArg<MessageConsumer> __TYPE_ARG
public final io.vertx.lang.rx.TypeArg<T> __typeArg_0
public MessageConsumer(MessageConsumer delegate)
public MessageConsumer getDelegate()
getDelegate
in interface ReadStream<Message<T>>
getDelegate
in interface StreamBase
public Observable<Message<T>> toObservable()
toObservable
in interface ReadStream<Message<T>>
public Pipe<Message<T>> pipe()
WriteStream
.pipe
in interface ReadStream<Message<T>>
public void pipeTo(WriteStream<Message<T>> dst, Handler<AsyncResult<Void>> handler)
ReadStream
to the WriteStream
.
Elements emitted by this stream will be written to the write stream until this stream ends or fails.
Once this stream has ended or failed, the write stream will be ended and the handler
will be
called with the result.
pipeTo
in interface ReadStream<Message<T>>
dst
- the destination write streamhandler
- public void pipeTo(WriteStream<Message<T>> dst)
ReadStream
to the WriteStream
.
Elements emitted by this stream will be written to the write stream until this stream ends or fails.
Once this stream has ended or failed, the write stream will be ended and the handler
will be
called with the result.
pipeTo
in interface ReadStream<Message<T>>
dst
- the destination write streampublic Single<Void> rxPipeTo(WriteStream<Message<T>> dst)
ReadStream
to the WriteStream
.
Elements emitted by this stream will be written to the write stream until this stream ends or fails.
Once this stream has ended or failed, the write stream will be ended and the handler
will be
called with the result.
rxPipeTo
in interface ReadStream<Message<T>>
dst
- the destination write streampublic MessageConsumer<T> exceptionHandler(Handler<Throwable> handler)
ReadStream
exceptionHandler
in interface ReadStream<Message<T>>
exceptionHandler
in interface StreamBase
handler
- the exception handlerpublic MessageConsumer<T> handler(Handler<Message<T>> handler)
ReadStream
handler
in interface ReadStream<Message<T>>
public MessageConsumer<T> pause()
ReadStream
ReadStream
, it sets the buffer in fetch
mode and clears the actual demand.
While it's paused, no data will be sent to the data handler
.
pause
in interface ReadStream<Message<T>>
public MessageConsumer<T> resume()
ReadStream
flowing
mode.
If the ReadStream
has been paused, reading will recommence on it.resume
in interface ReadStream<Message<T>>
public MessageConsumer<T> fetch(long amount)
ReadStream
amount
of elements. If the ReadStream
has been paused, reading will
recommence with the specified amount
of items, otherwise the specified amount
will
be added to the current stream demand.fetch
in interface ReadStream<Message<T>>
public MessageConsumer<T> endHandler(Handler<Void> endHandler)
ReadStream
endHandler
in interface ReadStream<Message<T>>
public ReadStream<T> bodyStream()
public boolean isRegistered()
public String address()
public MessageConsumer<T> setMaxBufferedMessages(int maxBufferedMessages)
1000
.
When a new value is set, buffered messages may be discarded to reach the new value. The most recent messages will be kept.
maxBufferedMessages
- the maximum number of messages that can be bufferedpublic int getMaxBufferedMessages()
public void completionHandler(Handler<AsyncResult<Void>> completionHandler)
completionHandler
- the completion handlerpublic void completionHandler()
public Single<Void> rxCompletionHandler()
public void unregister(Handler<AsyncResult<Void>> completionHandler)
completionHandler
- the handler called when the unregister is done. For example in a cluster when all nodes of the event bus have been unregistered.public void unregister()
public Single<Void> rxUnregister()
public static <T> MessageConsumer<T> newInstance(MessageConsumer arg)
public static <T> MessageConsumer<T> newInstance(MessageConsumer arg, io.vertx.lang.rx.TypeArg<T> __typeArg_T)
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