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()
or getValue()
.
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> @NonNull BehaviorProcessor<T> |
create()
Creates a
BehaviorProcessor without a default item. |
static <T> @NonNull 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. |
@Nullable 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.
|
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
Subscriber s if all of them
has requested some value, returns false otherwise. |
void |
onComplete() |
void |
onError(@NonNull Throwable t) |
void |
onNext(T t) |
void |
onSubscribe(@NonNull 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(@NonNull 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> @NonNull BehaviorProcessor<T> create()
BehaviorProcessor
without a default item.T
- the type of item the BehaviorProcessor will emitBehaviorProcessor
@CheckReturnValue @NonNull public static <T> @NonNull 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
NullPointerException
- if defaultValue
is null
protected void subscribeActual(@NonNull 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 null
public void onSubscribe(@NonNull 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 onComplete()
@CheckReturnValue public boolean offer(@NonNull T t)
Subscriber
s if all of them
has requested some value, returns false
otherwise.
This method should be called in a sequential manner just like the onXXX
methods
of this BehaviorProcessor
.
History: 2.0.8 - experimental
t
- the item to emit, not null
true
if the item was emitted to all Subscriber
sNullPointerException
- if t
is null
@CheckReturnValue public boolean hasSubscribers()
FlowableProcessor
The method is thread-safe.
hasSubscribers
in class FlowableProcessor<T>
@Nullable @CheckReturnValue public @Nullable Throwable getThrowable()
FlowableProcessor
The method is thread-safe.
getThrowable
in class FlowableProcessor<T>
@Nullable @CheckReturnValue public T getValue()
The method is thread-safe.
@CheckReturnValue public boolean hasComplete()
FlowableProcessor
The method is thread-safe.
hasComplete
in class FlowableProcessor<T>
FlowableProcessor.hasThrowable()
@CheckReturnValue public boolean hasThrowable()
FlowableProcessor
The method is thread-safe.
hasThrowable
in class FlowableProcessor<T>
FlowableProcessor.getThrowable()
,
FlowableProcessor.hasComplete()
@CheckReturnValue public boolean hasValue()
The method is thread-safe.