T
- the type of item expected to be observed and emitted by the Processorpublic final class BehaviorProcessor<T> extends FlowableProcessor<T>
Subscriber
.
This processor does not have a public constructor by design; a new empty instance of this
BehaviorProcessor
can be created via the create()
method and
a new non-empty instance can be created via createDefault(Object)
(named as such to avoid
overload resolution conflict with Flowable.create
that creates a Flowable, not a BehaviorProcessor
).
In accordance with the Reactive Streams specification (Rule 2.13)
null
s are not allowed as default initial values in createDefault(Object)
or as parameters to onNext(Object)
and
onError(Throwable)
.
When this BehaviorProcessor
is terminated via onError(Throwable)
or onComplete()
, the
last observed item (if any) is cleared and late Subscriber
s only receive
the respective terminal event.
The BehaviorProcessor
does not support clearing its cached value (to appear empty again), however, the
effect can be achieved by using a special item and making sure Subscriber
s subscribe through a
filter whose predicate filters out this special item:
BehaviorProcessor<Integer> processor = BehaviorProcessor.create();
final Integer EMPTY = Integer.MIN_VALUE;
Flowable<Integer> flowable = processor.filter(v -> v != EMPTY);
TestSubscriber<Integer> ts1 = flowable.test();
processor.onNext(1);
// this will "clear" the cache
processor.onNext(EMPTY);
TestSubscriber<Integer> ts2 = flowable.test();
processor.onNext(2);
processor.onComplete();
// ts1 received both non-empty items
ts1.assertResult(1, 2);
// ts2 received only 2 even though the current item was EMPTY
// when it got subscribed
ts2.assertResult(2);
// Subscribers coming after the processor was terminated receive
// no items and only the onComplete event in this case.
flowable.test().assertResult();
Even though BehaviorProcessor
implements the Subscriber
interface, calling
onSubscribe
is not required (Rule 2.12)
if the processor is used as a standalone source. However, calling onSubscribe
after the BehaviorProcessor
reached its terminal state will result in the
given Subscription
being cancelled immediately.
Calling onNext(Object)
, offer(Object)
, onError(Throwable)
and onComplete()
is required to be serialized (called from the same thread or called non-overlappingly from different threads
through external means of serialization). The FlowableProcessor.toSerialized()
method available to all FlowableProcessor
s
provides such serialization and also protects against reentrance (i.e., when a downstream Subscriber
consuming this processor also wants to call onNext(Object)
on this processor recursively).
Note that serializing over offer(Object)
is not supported through toSerialized()
because it is a method
available on the PublishProcessor
and BehaviorProcessor
classes only.
This BehaviorProcessor
supports the standard state-peeking methods hasComplete()
, hasThrowable()
,
getThrowable()
and hasSubscribers()
as well as means to read the latest observed value
in a non-blocking and thread-safe manner via hasValue()
, getValue()
,
getValues()
or getValues(Object[])
.
Note that this processor signals MissingBackpressureException
if a particular Subscriber
is not
ready to receive onNext
events. To avoid this exception being signaled, use offer(Object)
to only
try to emit an item when all Subscriber
s have requested item(s).
BehaviorProcessor
does not coordinate requests of its downstream Subscriber
s and
expects each individual Subscriber
is ready to receive onNext
items when onNext(Object)
is called. If a Subscriber
is not ready, a MissingBackpressureException
is signalled to it.
To avoid overflowing the current Subscriber
s, the conditional offer(Object)
method is available
that returns true if any of the Subscriber
s is not ready to receive onNext
events. If
there are no Subscriber
s to the processor, offer()
always succeeds.
If the BehaviorProcessor
is (optionally) subscribed to another Publisher
, this upstream
Publisher
is consumed in an unbounded fashion (requesting Long.MAX_VALUE
).BehaviorProcessor
does not operate by default on a particular Scheduler
and
the Subscriber
s get notified on the thread the respective onXXX
methods were invoked.onError(Throwable)
is called, the BehaviorProcessor
enters into a terminal state
and emits the same Throwable
instance to the last set of Subscriber
s. During this emission,
if one or more Subscriber
s cancel their respective Subscription
s, the
Throwable
is delivered to the global error handler via
RxJavaPlugins.onError(Throwable)
(multiple times if multiple Subscriber
s
cancel at once).
If there were no Subscriber
s subscribed to this BehaviorProcessor
when the onError()
was called, the global error handler is not invoked.
Example usage:
// subscriber will receive all events.
BehaviorProcessor<Object> processor = BehaviorProcessor.create("default");
processor.subscribe(subscriber);
processor.onNext("one");
processor.onNext("two");
processor.onNext("three");
// subscriber will receive the "one", "two" and "three" events, but not "zero"
BehaviorProcessor<Object> processor = BehaviorProcessor.create("default");
processor.onNext("zero");
processor.onNext("one");
processor.subscribe(subscriber);
processor.onNext("two");
processor.onNext("three");
// subscriber will receive only onComplete
BehaviorProcessor<Object> processor = BehaviorProcessor.create("default");
processor.onNext("zero");
processor.onNext("one");
processor.onComplete();
processor.subscribe(subscriber);
// subscriber will receive only onError
BehaviorProcessor<Object> processor = BehaviorProcessor.create("default");
processor.onNext("zero");
processor.onNext("one");
processor.onError(new RuntimeException("error"));
processor.subscribe(subscriber);
Modifier and Type | Method and Description |
---|---|
static <T> BehaviorProcessor<T> |
create()
Creates a
BehaviorProcessor without a default item. |
static <T> BehaviorProcessor<T> |
createDefault(T defaultValue)
Creates a
BehaviorProcessor that emits the last item it observed and all subsequent items to each
Subscriber that subscribes to it. |
Throwable |
getThrowable()
Returns the error that caused the FlowableProcessor to terminate or null if the FlowableProcessor
hasn't terminated yet.
|
T |
getValue()
Returns a single value the BehaviorProcessor currently has or null if no such value exists.
|
Object[] |
getValues()
Deprecated.
in 2.1.14; put the result of
getValue() into an array manually, will be removed in 3.x |
T[] |
getValues(T[] array)
Deprecated.
in 2.1.14; put the result of
getValue() into an array manually, will be removed in 3.x |
boolean |
hasComplete()
Returns true if the FlowableProcessor has reached a terminal state through a complete event.
|
boolean |
hasSubscribers()
Returns true if the FlowableProcessor has subscribers.
|
boolean |
hasThrowable()
Returns true if the FlowableProcessor has reached a terminal state through an error event.
|
boolean |
hasValue()
Returns true if the BehaviorProcessor has any value.
|
boolean |
offer(T t)
Tries to emit the item to all currently subscribed Subscribers if all of them
has requested some value, returns false otherwise.
|
void |
onComplete() |
void |
onError(Throwable t) |
void |
onNext(T t) |
void |
onSubscribe(Subscription s)
Implementors of this method should make sure everything that needs
to be visible in
Subscriber.onNext(Object) is established before
calling Subscription.request(long) . |
protected void |
subscribeActual(Subscriber<? super T> s)
Operator implementations (both source and intermediate) should implement this method that
performs the necessary business logic and handles the incoming
Subscriber s. |
toSerialized
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@CheckReturnValue @NonNull public static <T> BehaviorProcessor<T> create()
BehaviorProcessor
without a default item.T
- the type of item the BehaviorProcessor will emitBehaviorProcessor
@CheckReturnValue @NonNull public static <T> BehaviorProcessor<T> createDefault(T defaultValue)
BehaviorProcessor
that emits the last item it observed and all subsequent items to each
Subscriber
that subscribes to it.T
- the type of item the BehaviorProcessor will emitdefaultValue
- the item that will be emitted first to any Subscriber
as long as the
BehaviorProcessor
has not yet observed any items from its source Observable
BehaviorProcessor
protected void subscribeActual(Subscriber<? super T> s)
Flowable
Subscriber
s.
There is no need to call any of the plugin hooks on the current Flowable
instance or
the Subscriber
; all hooks and basic safeguards have been
applied by Flowable.subscribe(Subscriber)
before this method gets called.
subscribeActual
in class Flowable<T>
s
- the incoming Subscriber, never nullpublic void onSubscribe(Subscription s)
FlowableSubscriber
Subscriber.onNext(Object)
is established before
calling Subscription.request(long)
. In practice this means
no initialization should happen after the request()
call and
additional behavior is thread safe in respect to onNext
.
public void onNext(T t)
public void onError(Throwable t)
public void onComplete()
public boolean offer(T t)
This method should be called in a sequential manner just like the onXXX methods of the PublishProcessor.
Calling with null will terminate the PublishProcessor and a NullPointerException is signalled to the Subscribers.
History: 2.0.8 - experimental
t
- the item to emit, not nullpublic boolean hasSubscribers()
FlowableProcessor
The method is thread-safe.
hasSubscribers
in class FlowableProcessor<T>
@Nullable public Throwable getThrowable()
FlowableProcessor
The method is thread-safe.
getThrowable
in class FlowableProcessor<T>
@Nullable public T getValue()
The method is thread-safe.
@Deprecated public Object[] getValues()
getValue()
into an array manually, will be removed in 3.xThe method is thread-safe.
@Deprecated public T[] getValues(T[] array)
getValue()
into an array manually, will be removed in 3.xThe method follows the conventions of Collection.toArray by setting the array element after the last value to null (if the capacity permits).
The method is thread-safe.
array
- the target array to copy values into if it fitspublic boolean hasComplete()
FlowableProcessor
The method is thread-safe.
hasComplete
in class FlowableProcessor<T>
FlowableProcessor.hasThrowable()
public boolean hasThrowable()
FlowableProcessor
The method is thread-safe.
hasThrowable
in class FlowableProcessor<T>
FlowableProcessor.getThrowable()
,
FlowableProcessor.hasComplete()
public boolean hasValue()
The method is thread-safe.