T
- the type of the items emitted by the Observablepublic abstract class Observable<T> extends Object implements ObservableSource<T>
Many operators in the class accept ObservableSource
(s), the base reactive interface
for such non-backpressured flows, which Observable
itself implements as well.
The Observable's operators, by default, run with a buffer size of 128 elements (see Flowable.bufferSize()
),
that can be overridden globally via the system parameter rx2.buffer-size
. Most operators, however, have
overloads that allow setting their internal buffer size explicitly.
The documentation for this class makes use of marble diagrams. The following legend explains these diagrams:
The design of this class was derived from the
Reactive Streams design and specification
by removing any backpressure-related infrastructure and implementation detail, replacing the
org.reactivestreams.Subscription
with Disposable
as the primary means to dispose of
a flow.
The Observable
follows the protocol
onSubscribe onNext* (onError | onComplete)?
where
the stream can be disposed through the Disposable
instance provided to consumers through
Observer.onSubscribe
.
Unlike the Observable
of version 1.x, subscribe(Observer)
does not allow external disposal
of a subscription and the Observer
instance is expected to expose such capability.
Example:
Disposable d = Observable.just("Hello world!")
.delay(1, TimeUnit.SECONDS)
.subscribeWith(new DisposableObserver<String>() {
@Override public void onStart() {
System.out.println("Start!");
}
@Override public void onNext(String t) {
System.out.println(t);
}
@Override public void onError(Throwable t) {
t.printStackTrace();
}
@Override public void onComplete() {
System.out.println("Done!");
}
});
Thread.sleep(500);
// the sequence can now be disposed via dispose()
d.dispose();
Flowable
,
DisposableObserver
Constructor and Description |
---|
Observable() |
Modifier and Type | Method and Description |
---|---|
Single<Boolean> |
all(Predicate<? super T> predicate)
Returns a Single that emits a Boolean that indicates whether all of the items emitted by the source
ObservableSource satisfy a condition.
|
static <T> Observable<T> |
amb(Iterable<? extends ObservableSource<? extends T>> sources)
Mirrors the one ObservableSource in an Iterable of several ObservableSources that first either emits an item or sends
a termination notification.
|
static <T> Observable<T> |
ambArray(ObservableSource<? extends T>... sources)
Mirrors the one ObservableSource in an array of several ObservableSources that first either emits an item or sends
a termination notification.
|
Observable<T> |
ambWith(ObservableSource<? extends T> other)
Mirrors the ObservableSource (current or provided) that first either emits an item or sends a termination
notification.
|
Single<Boolean> |
any(Predicate<? super T> predicate)
Returns a Single that emits
true if any item emitted by the source ObservableSource satisfies a
specified condition, otherwise false . |
<R> R |
as(ObservableConverter<T,? extends R> converter)
Calls the specified converter function during assembly time and returns its resulting value.
|
T |
blockingFirst()
Returns the first item emitted by this
Observable , or throws
NoSuchElementException if it emits no items. |
T |
blockingFirst(T defaultItem)
Returns the first item emitted by this
Observable , or a default value if it emits no
items. |
void |
blockingForEach(Consumer<? super T> onNext)
Consumes the upstream
Observable in a blocking fashion and invokes the given
Consumer with each upstream item on the current thread until the
upstream terminates. |
Iterable<T> |
blockingIterable()
Converts this
Observable into an Iterable . |
Iterable<T> |
blockingIterable(int bufferSize)
Converts this
Observable into an Iterable . |
T |
blockingLast()
Returns the last item emitted by this
Observable , or throws
NoSuchElementException if this Observable emits no items. |
T |
blockingLast(T defaultItem)
Returns the last item emitted by this
Observable , or a default value if it emits no
items. |
Iterable<T> |
blockingLatest()
Returns an
Iterable that returns the latest item emitted by this Observable ,
waiting if necessary for one to become available. |
Iterable<T> |
blockingMostRecent(T initialValue)
Returns an
Iterable that always returns the item most recently emitted by this
Observable . |
Iterable<T> |
blockingNext()
Returns an
Iterable that blocks until this Observable emits another item, then
returns that item. |
T |
blockingSingle()
If this
Observable completes after emitting a single item, return that item, otherwise
throw a NoSuchElementException . |
T |
blockingSingle(T defaultItem)
If this
Observable completes after emitting a single item, return that item; if it emits
more than one item, throw an IllegalArgumentException ; if it emits no items, return a default
value. |
void |
blockingSubscribe()
Runs the source observable to a terminal event, ignoring any values and rethrowing any exception.
|
void |
blockingSubscribe(Consumer<? super T> onNext)
Subscribes to the source and calls the given callbacks on the current thread.
|
void |
blockingSubscribe(Consumer<? super T> onNext,
Consumer<? super Throwable> onError)
Subscribes to the source and calls the given callbacks on the current thread.
|
void |
blockingSubscribe(Consumer<? super T> onNext,
Consumer<? super Throwable> onError,
Action onComplete)
Subscribes to the source and calls the given callbacks on the current thread.
|
void |
blockingSubscribe(Observer<? super T> observer)
Subscribes to the source and calls the
Observer methods on the current thread. |
<B> Observable<List<T>> |
buffer(Callable<? extends ObservableSource<B>> boundarySupplier)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<B,U extends Collection<? super T>> |
buffer(Callable<? extends ObservableSource<B>> boundarySupplier,
Callable<U> bufferSupplier)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(int count)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<U extends Collection<? super T>> |
buffer(int count,
Callable<U> bufferSupplier)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(int count,
int skip)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<U extends Collection<? super T>> |
buffer(int count,
int skip,
Callable<U> bufferSupplier)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(long timespan,
long timeskip,
TimeUnit unit)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(long timespan,
long timeskip,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<U extends Collection<? super T>> |
buffer(long timespan,
long timeskip,
TimeUnit unit,
Scheduler scheduler,
Callable<U> bufferSupplier)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(long timespan,
TimeUnit unit)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(long timespan,
TimeUnit unit,
int count)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(long timespan,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
Observable<List<T>> |
buffer(long timespan,
TimeUnit unit,
Scheduler scheduler,
int count)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<U extends Collection<? super T>> |
buffer(long timespan,
TimeUnit unit,
Scheduler scheduler,
int count,
Callable<U> bufferSupplier,
boolean restartTimerOnMaxSize)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<TOpening,TClosing> |
buffer(ObservableSource<? extends TOpening> openingIndicator,
Function<? super TOpening,? extends ObservableSource<? extends TClosing>> closingIndicator)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<TOpening,TClosing,U extends Collection<? super T>> |
buffer(ObservableSource<? extends TOpening> openingIndicator,
Function<? super TOpening,? extends ObservableSource<? extends TClosing>> closingIndicator,
Callable<U> bufferSupplier)
Returns an Observable that emits buffers of items it collects from the source ObservableSource.
|
<B> Observable<List<T>> |
buffer(ObservableSource<B> boundary)
Returns an Observable that emits non-overlapping buffered items from the source ObservableSource each time the
specified boundary ObservableSource emits an item.
|
<B,U extends Collection<? super T>> |
buffer(ObservableSource<B> boundary,
Callable<U> bufferSupplier)
Returns an Observable that emits non-overlapping buffered items from the source ObservableSource each time the
specified boundary ObservableSource emits an item.
|
<B> Observable<List<T>> |
buffer(ObservableSource<B> boundary,
int initialCapacity)
Returns an Observable that emits non-overlapping buffered items from the source ObservableSource each time the
specified boundary ObservableSource emits an item.
|
static int |
bufferSize()
Returns the default 'island' size or capacity-increment hint for unbounded buffers.
|
Observable<T> |
cache()
Returns an Observable that subscribes to this ObservableSource lazily, caches all of its events
and replays them, in the same order as received, to all the downstream subscribers.
|
Observable<T> |
cacheWithInitialCapacity(int initialCapacity)
Returns an Observable that subscribes to this ObservableSource lazily, caches all of its events
and replays them, in the same order as received, to all the downstream subscribers.
|
<U> Observable<U> |
cast(Class<U> clazz)
Returns an Observable that emits the items emitted by the source ObservableSource, converted to the specified
type.
|
<U> Single<U> |
collect(Callable<? extends U> initialValueSupplier,
BiConsumer<? super U,? super T> collector)
Collects items emitted by the finite source ObservableSource into a single mutable data structure and returns
a Single that emits this structure.
|
<U> Single<U> |
collectInto(U initialValue,
BiConsumer<? super U,? super T> collector)
Collects items emitted by the finite source ObservableSource into a single mutable data structure and returns
a Single that emits this structure.
|
static <T,R> Observable<R> |
combineLatest(Function<? super Object[],? extends R> combiner,
int bufferSize,
ObservableSource<? extends T>... sources)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T,R> Observable<R> |
combineLatest(Iterable<? extends ObservableSource<? extends T>> sources,
Function<? super Object[],? extends R> combiner)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T,R> Observable<R> |
combineLatest(Iterable<? extends ObservableSource<? extends T>> sources,
Function<? super Object[],? extends R> combiner,
int bufferSize)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T,R> Observable<R> |
combineLatest(ObservableSource<? extends T>[] sources,
Function<? super Object[],? extends R> combiner)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T,R> Observable<R> |
combineLatest(ObservableSource<? extends T>[] sources,
Function<? super Object[],? extends R> combiner,
int bufferSize)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,R> Observable<R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
BiFunction<? super T1,? super T2,? extends R> combiner)
Combines two source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from either of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,T3,R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
Function3<? super T1,? super T2,? super T3,? extends R> combiner)
Combines three source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,T3,T4,R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
Function4<? super T1,? super T2,? super T3,? super T4,? extends R> combiner)
Combines four source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,T3,T4,T5,R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
Function5<? super T1,? super T2,? super T3,? super T4,? super T5,? extends R> combiner)
Combines five source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,T3,T4,T5,T6,R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
Function6<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? extends R> combiner)
Combines six source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,T3,T4,T5,T6,T7,R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
ObservableSource<? extends T7> source7,
Function7<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? extends R> combiner)
Combines seven source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
ObservableSource<? extends T7> source7,
ObservableSource<? extends T8> source8,
Function8<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? extends R> combiner)
Combines eight source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,R> |
combineLatest(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
ObservableSource<? extends T7> source7,
ObservableSource<? extends T8> source8,
ObservableSource<? extends T9> source9,
Function9<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? super T9,? extends R> combiner)
Combines nine source ObservableSources by emitting an item that aggregates the latest values of each of the
source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T,R> Observable<R> |
combineLatestDelayError(Function<? super Object[],? extends R> combiner,
int bufferSize,
ObservableSource<? extends T>... sources)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function and delays any error from the sources until
all source ObservableSources terminate.
|
static <T,R> Observable<R> |
combineLatestDelayError(Iterable<? extends ObservableSource<? extends T>> sources,
Function<? super Object[],? extends R> combiner)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function and delays any error from the sources until
all source ObservableSources terminate.
|
static <T,R> Observable<R> |
combineLatestDelayError(Iterable<? extends ObservableSource<? extends T>> sources,
Function<? super Object[],? extends R> combiner,
int bufferSize)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function and delays any error from the sources until
all source ObservableSources terminate.
|
static <T,R> Observable<R> |
combineLatestDelayError(ObservableSource<? extends T>[] sources,
Function<? super Object[],? extends R> combiner)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function.
|
static <T,R> Observable<R> |
combineLatestDelayError(ObservableSource<? extends T>[] sources,
Function<? super Object[],? extends R> combiner,
int bufferSize)
Combines a collection of source ObservableSources by emitting an item that aggregates the latest values of each of
the source ObservableSources each time an item is received from any of the source ObservableSources, where this
aggregation is defined by a specified function and delays any error from the sources until
all source ObservableSources terminate.
|
<R> Observable<R> |
compose(ObservableTransformer<? super T,? extends R> composer)
Transform an ObservableSource by applying a particular Transformer function to it.
|
static <T> Observable<T> |
concat(Iterable<? extends ObservableSource<? extends T>> sources)
Concatenates elements of each ObservableSource provided via an Iterable sequence into a single sequence
of elements without interleaving them.
|
static <T> Observable<T> |
concat(ObservableSource<? extends ObservableSource<? extends T>> sources)
Returns an Observable that emits the items emitted by each of the ObservableSources emitted by the source
ObservableSource, one after the other, without interleaving them.
|
static <T> Observable<T> |
concat(ObservableSource<? extends ObservableSource<? extends T>> sources,
int prefetch)
Returns an Observable that emits the items emitted by each of the ObservableSources emitted by the source
ObservableSource, one after the other, without interleaving them.
|
static <T> Observable<T> |
concat(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2)
Returns an Observable that emits the items emitted by two ObservableSources, one after the other, without
interleaving them.
|
static <T> Observable<T> |
concat(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
ObservableSource<? extends T> source3)
Returns an Observable that emits the items emitted by three ObservableSources, one after the other, without
interleaving them.
|
static <T> Observable<T> |
concat(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
ObservableSource<? extends T> source3,
ObservableSource<? extends T> source4)
Returns an Observable that emits the items emitted by four ObservableSources, one after the other, without
interleaving them.
|
static <T> Observable<T> |
concatArray(ObservableSource<? extends T>... sources)
Concatenates a variable number of ObservableSource sources.
|
static <T> Observable<T> |
concatArrayDelayError(ObservableSource<? extends T>... sources)
Concatenates a variable number of ObservableSource sources and delays errors from any of them
till all terminate.
|
static <T> Observable<T> |
concatArrayEager(int maxConcurrency,
int prefetch,
ObservableSource<? extends T>... sources)
Concatenates an array of ObservableSources eagerly into a single stream of values.
|
static <T> Observable<T> |
concatArrayEager(ObservableSource<? extends T>... sources)
Concatenates an array of ObservableSources eagerly into a single stream of values.
|
static <T> Observable<T> |
concatArrayEagerDelayError(int maxConcurrency,
int prefetch,
ObservableSource<? extends T>... sources)
Concatenates an array of
ObservableSource s eagerly into a single stream of values
and delaying any errors until all sources terminate. |
static <T> Observable<T> |
concatArrayEagerDelayError(ObservableSource<? extends T>... sources)
Concatenates an array of
ObservableSource s eagerly into a single stream of values
and delaying any errors until all sources terminate. |
static <T> Observable<T> |
concatDelayError(Iterable<? extends ObservableSource<? extends T>> sources)
Concatenates the Iterable sequence of ObservableSources into a single sequence by subscribing to each ObservableSource,
one after the other, one at a time and delays any errors till the all inner ObservableSources terminate.
|
static <T> Observable<T> |
concatDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources)
Concatenates the ObservableSource sequence of ObservableSources into a single sequence by subscribing to each inner ObservableSource,
one after the other, one at a time and delays any errors till the all inner and the outer ObservableSources terminate.
|
static <T> Observable<T> |
concatDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources,
int prefetch,
boolean tillTheEnd)
Concatenates the ObservableSource sequence of ObservableSources into a single sequence by subscribing to each inner ObservableSource,
one after the other, one at a time and delays any errors till the all inner and the outer ObservableSources terminate.
|
static <T> Observable<T> |
concatEager(Iterable<? extends ObservableSource<? extends T>> sources)
Concatenates a sequence of ObservableSources eagerly into a single stream of values.
|
static <T> Observable<T> |
concatEager(Iterable<? extends ObservableSource<? extends T>> sources,
int maxConcurrency,
int prefetch)
Concatenates a sequence of ObservableSources eagerly into a single stream of values.
|
static <T> Observable<T> |
concatEager(ObservableSource<? extends ObservableSource<? extends T>> sources)
Concatenates an ObservableSource sequence of ObservableSources eagerly into a single stream of values.
|
static <T> Observable<T> |
concatEager(ObservableSource<? extends ObservableSource<? extends T>> sources,
int maxConcurrency,
int prefetch)
Concatenates an ObservableSource sequence of ObservableSources eagerly into a single stream of values.
|
<R> Observable<R> |
concatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper)
Returns a new Observable that emits items resulting from applying a function that you supply to each item
emitted by the source ObservableSource, where that function returns an ObservableSource, and then emitting the items
that result from concatenating those resulting ObservableSources.
|
<R> Observable<R> |
concatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper,
int prefetch)
Returns a new Observable that emits items resulting from applying a function that you supply to each item
emitted by the source ObservableSource, where that function returns an ObservableSource, and then emitting the items
that result from concatenating those resulting ObservableSources.
|
Completable |
concatMapCompletable(Function<? super T,? extends CompletableSource> mapper)
Maps each element of the upstream Observable into CompletableSources, subscribes to them one at a time in
order and waits until the upstream and all CompletableSources complete.
|
Completable |
concatMapCompletable(Function<? super T,? extends CompletableSource> mapper,
int capacityHint)
Maps each element of the upstream Observable into CompletableSources, subscribes to them one at a time in
order and waits until the upstream and all CompletableSources complete.
|
Completable |
concatMapCompletableDelayError(Function<? super T,? extends CompletableSource> mapper)
Maps the upstream items into
CompletableSource s and subscribes to them one after the
other terminates, delaying all errors till both this Observable and all
inner CompletableSource s terminate. |
Completable |
concatMapCompletableDelayError(Function<? super T,? extends CompletableSource> mapper,
boolean tillTheEnd)
Maps the upstream items into
CompletableSource s and subscribes to them one after the
other terminates, optionally delaying all errors till both this Observable and all
inner CompletableSource s terminate. |
Completable |
concatMapCompletableDelayError(Function<? super T,? extends CompletableSource> mapper,
boolean tillTheEnd,
int prefetch)
Maps the upstream items into
CompletableSource s and subscribes to them one after the
other terminates, optionally delaying all errors till both this Observable and all
inner CompletableSource s terminate. |
<R> Observable<R> |
concatMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper)
Maps each of the items into an ObservableSource, subscribes to them one after the other,
one at a time and emits their values in order
while delaying any error from either this or any of the inner ObservableSources
till all of them terminate.
|
<R> Observable<R> |
concatMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper,
int prefetch,
boolean tillTheEnd)
Maps each of the items into an ObservableSource, subscribes to them one after the other,
one at a time and emits their values in order
while delaying any error from either this or any of the inner ObservableSources
till all of them terminate.
|
<R> Observable<R> |
concatMapEager(Function<? super T,? extends ObservableSource<? extends R>> mapper)
Maps a sequence of values into ObservableSources and concatenates these ObservableSources eagerly into a single
ObservableSource.
|
<R> Observable<R> |
concatMapEager(Function<? super T,? extends ObservableSource<? extends R>> mapper,
int maxConcurrency,
int prefetch)
Maps a sequence of values into ObservableSources and concatenates these ObservableSources eagerly into a single
ObservableSource.
|
<R> Observable<R> |
concatMapEagerDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper,
boolean tillTheEnd)
Maps a sequence of values into ObservableSources and concatenates these ObservableSources eagerly into a single
ObservableSource.
|
<R> Observable<R> |
concatMapEagerDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper,
int maxConcurrency,
int prefetch,
boolean tillTheEnd)
Maps a sequence of values into ObservableSources and concatenates these ObservableSources eagerly into a single
ObservableSource.
|
<U> Observable<U> |
concatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper)
Returns an Observable that concatenate each item emitted by the source ObservableSource with the values in an
Iterable corresponding to that item that is generated by a selector.
|
<U> Observable<U> |
concatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper,
int prefetch)
Returns an Observable that concatenate each item emitted by the source ObservableSource with the values in an
Iterable corresponding to that item that is generated by a selector.
|
<R> Observable<R> |
concatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper)
Maps the upstream items into
MaybeSource s and subscribes to them one after the
other succeeds or completes, emits their success value if available or terminates immediately if
either this Observable or the current inner MaybeSource fail. |
<R> Observable<R> |
concatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper,
int prefetch)
Maps the upstream items into
MaybeSource s and subscribes to them one after the
other succeeds or completes, emits their success value if available or terminates immediately if
either this Observable or the current inner MaybeSource fail. |
<R> Observable<R> |
concatMapMaybeDelayError(Function<? super T,? extends MaybeSource<? extends R>> mapper)
Maps the upstream items into
MaybeSource s and subscribes to them one after the
other terminates, emits their success value if available and delaying all errors
till both this Observable and all inner MaybeSource s terminate. |
<R> Observable<R> |
concatMapMaybeDelayError(Function<? super T,? extends MaybeSource<? extends R>> mapper,
boolean tillTheEnd)
Maps the upstream items into
MaybeSource s and subscribes to them one after the
other terminates, emits their success value if available and optionally delaying all errors
till both this Observable and all inner MaybeSource s terminate. |
<R> Observable<R> |
concatMapMaybeDelayError(Function<? super T,? extends MaybeSource<? extends R>> mapper,
boolean tillTheEnd,
int prefetch)
Maps the upstream items into
MaybeSource s and subscribes to them one after the
other terminates, emits their success value if available and optionally delaying all errors
till both this Observable and all inner MaybeSource s terminate. |
<R> Observable<R> |
concatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper)
Maps the upstream items into
SingleSource s and subscribes to them one after the
other succeeds, emits their success values or terminates immediately if
either this Observable or the current inner SingleSource fail. |
<R> Observable<R> |
concatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper,
int prefetch)
Maps the upstream items into
SingleSource s and subscribes to them one after the
other succeeds, emits their success values or terminates immediately if
either this Observable or the current inner SingleSource fail. |
<R> Observable<R> |
concatMapSingleDelayError(Function<? super T,? extends SingleSource<? extends R>> mapper)
Maps the upstream items into
SingleSource s and subscribes to them one after the
other succeeds or fails, emits their success values and delays all errors
till both this Observable and all inner SingleSource s terminate. |
<R> Observable<R> |
concatMapSingleDelayError(Function<? super T,? extends SingleSource<? extends R>> mapper,
boolean tillTheEnd)
Maps the upstream items into
SingleSource s and subscribes to them one after the
other succeeds or fails, emits their success values and optionally delays all errors
till both this Observable and all inner SingleSource s terminate. |
<R> Observable<R> |
concatMapSingleDelayError(Function<? super T,? extends SingleSource<? extends R>> mapper,
boolean tillTheEnd,
int prefetch)
Maps the upstream items into
SingleSource s and subscribes to them one after the
other succeeds or fails, emits their success values and optionally delays errors
till both this Observable and all inner SingleSource s terminate. |
Observable<T> |
concatWith(CompletableSource other)
Returns an
Observable that emits items from this Observable and when it completes normally, the
other CompletableSource is subscribed to and the returned Observable emits its terminal events. |
Observable<T> |
concatWith(MaybeSource<? extends T> other)
Returns an
Observable that emits the items from this Observable followed by the success item or terminal events
of the other MaybeSource . |
Observable<T> |
concatWith(ObservableSource<? extends T> other)
Returns an Observable that emits the items emitted from the current ObservableSource, then the next, one after
the other, without interleaving them.
|
Observable<T> |
concatWith(SingleSource<? extends T> other)
Returns an
Observable that emits the items from this Observable followed by the success item or error event
of the other SingleSource . |
Single<Boolean> |
contains(Object element)
Returns a Single that emits a Boolean that indicates whether the source ObservableSource emitted a
specified item.
|
Single<Long> |
count()
Returns a Single that counts the total number of items emitted by the source ObservableSource and emits
this count as a 64-bit Long.
|
static <T> Observable<T> |
create(ObservableOnSubscribe<T> source)
Provides an API (via a cold Observable) that bridges the reactive world with the callback-style world.
|
<U> Observable<T> |
debounce(Function<? super T,? extends ObservableSource<U>> debounceSelector)
Returns an Observable that mirrors the source ObservableSource, except that it drops items emitted by the
source ObservableSource that are followed by another item within a computed debounce duration.
|
Observable<T> |
debounce(long timeout,
TimeUnit unit)
Returns an Observable that mirrors the source ObservableSource, except that it drops items emitted by the
source ObservableSource that are followed by newer items before a timeout value expires.
|
Observable<T> |
debounce(long timeout,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that mirrors the source ObservableSource, except that it drops items emitted by the
source ObservableSource that are followed by newer items before a timeout value expires on a specified
Scheduler.
|
Observable<T> |
defaultIfEmpty(T defaultItem)
Returns an Observable that emits the items emitted by the source ObservableSource or a specified default item
if the source ObservableSource is empty.
|
static <T> Observable<T> |
defer(Callable<? extends ObservableSource<? extends T>> supplier)
Returns an Observable that calls an ObservableSource factory to create an ObservableSource for each new Observer
that subscribes.
|
<U> Observable<T> |
delay(Function<? super T,? extends ObservableSource<U>> itemDelay)
Returns an Observable that delays the emissions of the source ObservableSource via another ObservableSource on a
per-item basis.
|
Observable<T> |
delay(long delay,
TimeUnit unit)
Returns an Observable that emits the items emitted by the source ObservableSource shifted forward in time by a
specified delay.
|
Observable<T> |
delay(long delay,
TimeUnit unit,
boolean delayError)
Returns an Observable that emits the items emitted by the source ObservableSource shifted forward in time by a
specified delay.
|
Observable<T> |
delay(long delay,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits the items emitted by the source ObservableSource shifted forward in time by a
specified delay.
|
Observable<T> |
delay(long delay,
TimeUnit unit,
Scheduler scheduler,
boolean delayError)
Returns an Observable that emits the items emitted by the source ObservableSource shifted forward in time by a
specified delay.
|
<U,V> Observable<T> |
delay(ObservableSource<U> subscriptionDelay,
Function<? super T,? extends ObservableSource<V>> itemDelay)
Returns an Observable that delays the subscription to and emissions from the source ObservableSource via another
ObservableSource on a per-item basis.
|
Observable<T> |
delaySubscription(long delay,
TimeUnit unit)
Returns an Observable that delays the subscription to the source ObservableSource by a given amount of time.
|
Observable<T> |
delaySubscription(long delay,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that delays the subscription to the source ObservableSource by a given amount of time,
both waiting and subscribing on a given Scheduler.
|
<U> Observable<T> |
delaySubscription(ObservableSource<U> other)
Returns an Observable that delays the subscription to this Observable
until the other Observable emits an element or completes normally.
|
<T2> Observable<T2> |
dematerialize()
Deprecated.
in 2.2.4; inherently type-unsafe as it overrides the output generic type. Use
dematerialize(Function) instead. |
<R> Observable<R> |
dematerialize(Function<? super T,Notification<R>> selector)
Returns an Observable that reverses the effect of
materialize by transforming the
Notification objects extracted from the source items via a selector function
into their respective Observer signal types. |
Observable<T> |
distinct()
Returns an Observable that emits all items emitted by the source ObservableSource that are distinct
based on
Object.equals(Object) comparison. |
<K> Observable<T> |
distinct(Function<? super T,K> keySelector)
Returns an Observable that emits all items emitted by the source ObservableSource that are distinct according
to a key selector function and based on
Object.equals(Object) comparison of the objects
returned by the key selector function. |
<K> Observable<T> |
distinct(Function<? super T,K> keySelector,
Callable<? extends Collection<? super K>> collectionSupplier)
Returns an Observable that emits all items emitted by the source ObservableSource that are distinct according
to a key selector function and based on
Object.equals(Object) comparison of the objects
returned by the key selector function. |
Observable<T> |
distinctUntilChanged()
Returns an Observable that emits all items emitted by the source ObservableSource that are distinct from their
immediate predecessors based on
Object.equals(Object) comparison. |
Observable<T> |
distinctUntilChanged(BiPredicate<? super T,? super T> comparer)
Returns an Observable that emits all items emitted by the source ObservableSource that are distinct from their
immediate predecessors when compared with each other via the provided comparator function.
|
<K> Observable<T> |
distinctUntilChanged(Function<? super T,K> keySelector)
Returns an Observable that emits all items emitted by the source ObservableSource that are distinct from their
immediate predecessors, according to a key selector function and based on
Object.equals(Object) comparison
of those objects returned by the key selector function. |
Observable<T> |
doAfterNext(Consumer<? super T> onAfterNext)
Calls the specified consumer with the current item after this item has been emitted to the downstream.
|
Observable<T> |
doAfterTerminate(Action onFinally)
|
Observable<T> |
doFinally(Action onFinally)
Calls the specified action after this Observable signals onError or onCompleted or gets disposed by
the downstream.
|
Observable<T> |
doOnComplete(Action onComplete)
Modifies the source ObservableSource so that it invokes an action when it calls
onComplete . |
Observable<T> |
doOnDispose(Action onDispose)
Calls the dispose
Action if the downstream disposes the sequence. |
Observable<T> |
doOnEach(Consumer<? super Notification<T>> onNotification)
Modifies the source ObservableSource so that it invokes an action for each item it emits.
|
Observable<T> |
doOnEach(Observer<? super T> observer)
Modifies the source ObservableSource so that it notifies an Observer for each item and terminal event it emits.
|
Observable<T> |
doOnError(Consumer<? super Throwable> onError)
Modifies the source ObservableSource so that it invokes an action if it calls
onError . |
Observable<T> |
doOnLifecycle(Consumer<? super Disposable> onSubscribe,
Action onDispose)
Calls the appropriate onXXX method (shared between all Observer) for the lifecycle events of
the sequence (subscription, disposal).
|
Observable<T> |
doOnNext(Consumer<? super T> onNext)
Modifies the source ObservableSource so that it invokes an action when it calls
onNext . |
Observable<T> |
doOnSubscribe(Consumer<? super Disposable> onSubscribe)
Modifies the source
ObservableSource so that it invokes the given action when it is subscribed from
its subscribers. |
Observable<T> |
doOnTerminate(Action onTerminate)
Modifies the source ObservableSource so that it invokes an action when it calls
onComplete or
onError . |
Maybe<T> |
elementAt(long index)
Returns a Maybe that emits the single item at a specified index in a sequence of emissions from
this Observable or completes if this Observable signals fewer elements than index.
|
Single<T> |
elementAt(long index,
T defaultItem)
Returns a Single that emits the item found at a specified index in a sequence of emissions from
this Observable, or a default item if that index is out of range.
|
Single<T> |
elementAtOrError(long index)
Returns a Single that emits the item found at a specified index in a sequence of emissions from this Observable
or signals a
NoSuchElementException if this Observable signals fewer elements than index. |
static <T> Observable<T> |
empty()
Returns an Observable that emits no items to the
Observer and immediately invokes its
onComplete method. |
static <T> Observable<T> |
error(Callable<? extends Throwable> errorSupplier)
|
static <T> Observable<T> |
error(Throwable exception)
|
Observable<T> |
filter(Predicate<? super T> predicate)
Filters items emitted by an ObservableSource by only emitting those that satisfy a specified predicate.
|
Single<T> |
first(T defaultItem)
Returns a Single that emits only the very first item emitted by the source ObservableSource, or a default item
if the source ObservableSource completes without emitting any items.
|
Maybe<T> |
firstElement()
Returns a Maybe that emits only the very first item emitted by the source ObservableSource, or
completes if the source ObservableSource is empty.
|
Single<T> |
firstOrError()
Returns a Single that emits only the very first item emitted by this Observable or
signals a
NoSuchElementException if this Observable is empty. |
<R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper)
Returns an Observable that emits items based on applying a function that you supply to each item emitted
by the source ObservableSource, where that function returns an ObservableSource, and then merging those resulting
ObservableSources and emitting the results of this merger.
|
<R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper,
boolean delayErrors)
Returns an Observable that emits items based on applying a function that you supply to each item emitted
by the source ObservableSource, where that function returns an ObservableSource, and then merging those resulting
ObservableSources and emitting the results of this merger.
|
<R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper,
boolean delayErrors,
int maxConcurrency)
Returns an Observable that emits items based on applying a function that you supply to each item emitted
by the source ObservableSource, where that function returns an ObservableSource, and then merging those resulting
ObservableSources and emitting the results of this merger, while limiting the maximum number of concurrent
subscriptions to these ObservableSources.
|
<R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper,
boolean delayErrors,
int maxConcurrency,
int bufferSize)
Returns an Observable that emits items based on applying a function that you supply to each item emitted
by the source ObservableSource, where that function returns an ObservableSource, and then merging those resulting
ObservableSources and emitting the results of this merger, while limiting the maximum number of concurrent
subscriptions to these ObservableSources.
|
<R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends R>> onNextMapper,
Function<? super Throwable,? extends ObservableSource<? extends R>> onErrorMapper,
Callable<? extends ObservableSource<? extends R>> onCompleteSupplier)
Returns an Observable that applies a function to each item emitted or notification raised by the source
ObservableSource and then flattens the ObservableSources returned from these functions and emits the resulting items.
|
<R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends R>> onNextMapper,
Function<Throwable,? extends ObservableSource<? extends R>> onErrorMapper,
Callable<? extends ObservableSource<? extends R>> onCompleteSupplier,
int maxConcurrency)
Returns an Observable that applies a function to each item emitted or notification raised by the source
ObservableSource and then flattens the ObservableSources returned from these functions and emits the resulting items,
while limiting the maximum number of concurrent subscriptions to these ObservableSources.
|
<R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper,
int maxConcurrency)
Returns an Observable that emits items based on applying a function that you supply to each item emitted
by the source ObservableSource, where that function returns an ObservableSource, and then merging those resulting
ObservableSources and emitting the results of this merger, while limiting the maximum number of concurrent
subscriptions to these ObservableSources.
|
<U,R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper,
BiFunction<? super T,? super U,? extends R> resultSelector)
Returns an Observable that emits the results of a specified function to the pair of values emitted by the
source ObservableSource and a specified collection ObservableSource.
|
<U,R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper,
BiFunction<? super T,? super U,? extends R> combiner,
boolean delayErrors)
Returns an Observable that emits the results of a specified function to the pair of values emitted by the
source ObservableSource and a specified collection ObservableSource.
|
<U,R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper,
BiFunction<? super T,? super U,? extends R> combiner,
boolean delayErrors,
int maxConcurrency)
Returns an Observable that emits the results of a specified function to the pair of values emitted by the
source ObservableSource and a specified collection ObservableSource, while limiting the maximum number of concurrent
subscriptions to these ObservableSources.
|
<U,R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper,
BiFunction<? super T,? super U,? extends R> combiner,
boolean delayErrors,
int maxConcurrency,
int bufferSize)
Returns an Observable that emits the results of a specified function to the pair of values emitted by the
source ObservableSource and a specified collection ObservableSource, while limiting the maximum number of concurrent
subscriptions to these ObservableSources.
|
<U,R> Observable<R> |
flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper,
BiFunction<? super T,? super U,? extends R> combiner,
int maxConcurrency)
Returns an Observable that emits the results of a specified function to the pair of values emitted by the
source ObservableSource and a specified collection ObservableSource, while limiting the maximum number of concurrent
subscriptions to these ObservableSources.
|
Completable |
flatMapCompletable(Function<? super T,? extends CompletableSource> mapper)
Maps each element of the upstream Observable into CompletableSources, subscribes to them and
waits until the upstream and all CompletableSources complete.
|
Completable |
flatMapCompletable(Function<? super T,? extends CompletableSource> mapper,
boolean delayErrors)
Maps each element of the upstream Observable into CompletableSources, subscribes to them and
waits until the upstream and all CompletableSources complete, optionally delaying all errors.
|
<U> Observable<U> |
flatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper)
Returns an Observable that merges each item emitted by the source ObservableSource with the values in an
Iterable corresponding to that item that is generated by a selector.
|
<U,V> Observable<V> |
flatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper,
BiFunction<? super T,? super U,? extends V> resultSelector)
Returns an Observable that emits the results of applying a function to the pair of values from the source
ObservableSource and an Iterable corresponding to that item that is generated by a selector.
|
<R> Observable<R> |
flatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper)
Maps each element of the upstream Observable into MaybeSources, subscribes to all of them
and merges their onSuccess values, in no particular order, into a single Observable sequence.
|
<R> Observable<R> |
flatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper,
boolean delayErrors)
Maps each element of the upstream Observable into MaybeSources, subscribes to them
and merges their onSuccess values, in no particular order, into a single Observable sequence,
optionally delaying all errors.
|
<R> Observable<R> |
flatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper)
Maps each element of the upstream Observable into SingleSources, subscribes to all of them
and merges their onSuccess values, in no particular order, into a single Observable sequence.
|
<R> Observable<R> |
flatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper,
boolean delayErrors)
Maps each element of the upstream Observable into SingleSources, subscribes to them
and merges their onSuccess values, in no particular order, into a single Observable sequence,
optionally delaying all errors.
|
Disposable |
forEach(Consumer<? super T> onNext)
Subscribes to the
ObservableSource and receives notifications for each element. |
Disposable |
forEachWhile(Predicate<? super T> onNext)
Subscribes to the
ObservableSource and receives notifications for each element until the
onNext Predicate returns false. |
Disposable |
forEachWhile(Predicate<? super T> onNext,
Consumer<? super Throwable> onError)
Subscribes to the
ObservableSource and receives notifications for each element and error events until the
onNext Predicate returns false. |
Disposable |
forEachWhile(Predicate<? super T> onNext,
Consumer<? super Throwable> onError,
Action onComplete)
Subscribes to the
ObservableSource and receives notifications for each element and the terminal events until the
onNext Predicate returns false. |
static <T> Observable<T> |
fromArray(T... items)
Converts an Array into an ObservableSource that emits the items in the Array.
|
static <T> Observable<T> |
fromCallable(Callable<? extends T> supplier)
Returns an Observable that, when an observer subscribes to it, invokes a function you specify and then
emits the value returned from that function.
|
static <T> Observable<T> |
fromFuture(Future<? extends T> future)
Converts a
Future into an ObservableSource. |
static <T> Observable<T> |
fromFuture(Future<? extends T> future,
long timeout,
TimeUnit unit)
Converts a
Future into an ObservableSource, with a timeout on the Future. |
static <T> Observable<T> |
fromFuture(Future<? extends T> future,
long timeout,
TimeUnit unit,
Scheduler scheduler)
Converts a
Future into an ObservableSource, with a timeout on the Future. |
static <T> Observable<T> |
fromFuture(Future<? extends T> future,
Scheduler scheduler)
|
static <T> Observable<T> |
fromIterable(Iterable<? extends T> source)
Converts an
Iterable sequence into an ObservableSource that emits the items in the sequence. |
static <T> Observable<T> |
fromPublisher(Publisher<? extends T> publisher)
Converts an arbitrary Reactive Streams Publisher into an Observable.
|
static <T,S> Observable<T> |
generate(Callable<S> initialState,
BiConsumer<S,Emitter<T>> generator)
Returns a cold, synchronous and stateful generator of values.
|
static <T,S> Observable<T> |
generate(Callable<S> initialState,
BiConsumer<S,Emitter<T>> generator,
Consumer<? super S> disposeState)
Returns a cold, synchronous and stateful generator of values.
|
static <T,S> Observable<T> |
generate(Callable<S> initialState,
BiFunction<S,Emitter<T>,S> generator)
Returns a cold, synchronous and stateful generator of values.
|
static <T,S> Observable<T> |
generate(Callable<S> initialState,
BiFunction<S,Emitter<T>,S> generator,
Consumer<? super S> disposeState)
Returns a cold, synchronous and stateful generator of values.
|
static <T> Observable<T> |
generate(Consumer<Emitter<T>> generator)
Returns a cold, synchronous and stateless generator of values.
|
<K> Observable<GroupedObservable<K,T>> |
groupBy(Function<? super T,? extends K> keySelector)
Groups the items emitted by an
ObservableSource according to a specified criterion, and emits these
grouped items as GroupedObservable s. |
<K> Observable<GroupedObservable<K,T>> |
groupBy(Function<? super T,? extends K> keySelector,
boolean delayError)
Groups the items emitted by an
ObservableSource according to a specified criterion, and emits these
grouped items as GroupedObservable s. |
<K,V> Observable<GroupedObservable<K,V>> |
groupBy(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector)
Groups the items emitted by an
ObservableSource according to a specified criterion, and emits these
grouped items as GroupedObservable s. |
<K,V> Observable<GroupedObservable<K,V>> |
groupBy(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector,
boolean delayError)
Groups the items emitted by an
ObservableSource according to a specified criterion, and emits these
grouped items as GroupedObservable s. |
<K,V> Observable<GroupedObservable<K,V>> |
groupBy(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector,
boolean delayError,
int bufferSize)
Groups the items emitted by an
ObservableSource according to a specified criterion, and emits these
grouped items as GroupedObservable s. |
<TRight,TLeftEnd,TRightEnd,R> |
groupJoin(ObservableSource<? extends TRight> other,
Function<? super T,? extends ObservableSource<TLeftEnd>> leftEnd,
Function<? super TRight,? extends ObservableSource<TRightEnd>> rightEnd,
BiFunction<? super T,? super Observable<TRight>,? extends R> resultSelector)
Returns an Observable that correlates two ObservableSources when they overlap in time and groups the results.
|
Observable<T> |
hide()
Hides the identity of this Observable and its Disposable.
|
Completable |
ignoreElements()
Ignores all items emitted by the source ObservableSource and only calls
onComplete or onError . |
static Observable<Long> |
interval(long initialDelay,
long period,
TimeUnit unit)
Returns an Observable that emits a
0L after the initialDelay and ever increasing numbers
after each period of time thereafter. |
static Observable<Long> |
interval(long initialDelay,
long period,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits a
0L after the initialDelay and ever increasing numbers
after each period of time thereafter, on a specified Scheduler . |
static Observable<Long> |
interval(long period,
TimeUnit unit)
Returns an Observable that emits a sequential number every specified interval of time.
|
static Observable<Long> |
interval(long period,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits a sequential number every specified interval of time, on a
specified Scheduler.
|
static Observable<Long> |
intervalRange(long start,
long count,
long initialDelay,
long period,
TimeUnit unit)
Signals a range of long values, the first after some initial delay and the rest periodically after.
|
static Observable<Long> |
intervalRange(long start,
long count,
long initialDelay,
long period,
TimeUnit unit,
Scheduler scheduler)
Signals a range of long values, the first after some initial delay and the rest periodically after.
|
Single<Boolean> |
isEmpty()
Returns a Single that emits
true if the source ObservableSource is empty, otherwise false . |
<TRight,TLeftEnd,TRightEnd,R> |
join(ObservableSource<? extends TRight> other,
Function<? super T,? extends ObservableSource<TLeftEnd>> leftEnd,
Function<? super TRight,? extends ObservableSource<TRightEnd>> rightEnd,
BiFunction<? super T,? super TRight,? extends R> resultSelector)
Correlates the items emitted by two ObservableSources based on overlapping durations.
|
static <T> Observable<T> |
just(T item)
Returns an Observable that signals the given (constant reference) item and then completes.
|
static <T> Observable<T> |
just(T item1,
T item2)
Converts two items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3)
Converts three items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3,
T item4)
Converts four items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3,
T item4,
T item5)
Converts five items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3,
T item4,
T item5,
T item6)
Converts six items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3,
T item4,
T item5,
T item6,
T item7)
Converts seven items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3,
T item4,
T item5,
T item6,
T item7,
T item8)
Converts eight items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3,
T item4,
T item5,
T item6,
T item7,
T item8,
T item9)
Converts nine items into an ObservableSource that emits those items.
|
static <T> Observable<T> |
just(T item1,
T item2,
T item3,
T item4,
T item5,
T item6,
T item7,
T item8,
T item9,
T item10)
Converts ten items into an ObservableSource that emits those items.
|
Single<T> |
last(T defaultItem)
Returns a Single that emits only the last item emitted by this Observable, or a default item
if this Observable completes without emitting any items.
|
Maybe<T> |
lastElement()
Returns a Maybe that emits the last item emitted by this Observable or
completes if this Observable is empty.
|
Single<T> |
lastOrError()
Returns a Single that emits only the last item emitted by this Observable or
signals a
NoSuchElementException if this Observable is empty. |
<R> Observable<R> |
lift(ObservableOperator<? extends R,? super T> lifter)
This method requires advanced knowledge about building operators, please consider
other standard composition methods first;
Returns an
Observable which, when subscribed to, invokes the apply(Observer) method
of the provided ObservableOperator for each individual downstream Observer and allows the
insertion of a custom operator by accessing the downstream's Observer during this subscription phase
and providing a new Observer , containing the custom operator's intended business logic, that will be
used in the subscription process going further upstream. |
<R> Observable<R> |
map(Function<? super T,? extends R> mapper)
Returns an Observable that applies a specified function to each item emitted by the source ObservableSource and
emits the results of these function applications.
|
Observable<Notification<T>> |
materialize()
Returns an Observable that represents all of the emissions and notifications from the source
ObservableSource into emissions marked with their original types within
Notification objects. |
static <T> Observable<T> |
merge(Iterable<? extends ObservableSource<? extends T>> sources)
Flattens an Iterable of ObservableSources into one ObservableSource, without any transformation.
|
static <T> Observable<T> |
merge(Iterable<? extends ObservableSource<? extends T>> sources,
int maxConcurrency)
Flattens an Iterable of ObservableSources into one ObservableSource, without any transformation, while limiting the
number of concurrent subscriptions to these ObservableSources.
|
static <T> Observable<T> |
merge(Iterable<? extends ObservableSource<? extends T>> sources,
int maxConcurrency,
int bufferSize)
Flattens an Iterable of ObservableSources into one ObservableSource, without any transformation, while limiting the
number of concurrent subscriptions to these ObservableSources.
|
static <T> Observable<T> |
merge(ObservableSource<? extends ObservableSource<? extends T>> sources)
Flattens an ObservableSource that emits ObservableSources into a single ObservableSource that emits the items emitted by
those ObservableSources, without any transformation.
|
static <T> Observable<T> |
merge(ObservableSource<? extends ObservableSource<? extends T>> sources,
int maxConcurrency)
Flattens an ObservableSource that emits ObservableSources into a single ObservableSource that emits the items emitted by
those ObservableSources, without any transformation, while limiting the maximum number of concurrent
subscriptions to these ObservableSources.
|
static <T> Observable<T> |
merge(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2)
Flattens two ObservableSources into a single ObservableSource, without any transformation.
|
static <T> Observable<T> |
merge(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
ObservableSource<? extends T> source3)
Flattens three ObservableSources into a single ObservableSource, without any transformation.
|
static <T> Observable<T> |
merge(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
ObservableSource<? extends T> source3,
ObservableSource<? extends T> source4)
Flattens four ObservableSources into a single ObservableSource, without any transformation.
|
static <T> Observable<T> |
mergeArray(int maxConcurrency,
int bufferSize,
ObservableSource<? extends T>... sources)
Flattens an Iterable of ObservableSources into one ObservableSource, without any transformation, while limiting the
number of concurrent subscriptions to these ObservableSources.
|
static <T> Observable<T> |
mergeArray(ObservableSource<? extends T>... sources)
Flattens an Array of ObservableSources into one ObservableSource, without any transformation.
|
static <T> Observable<T> |
mergeArrayDelayError(int maxConcurrency,
int bufferSize,
ObservableSource<? extends T>... sources)
Flattens an array of ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from each of the source ObservableSources without being interrupted by an error
notification from one of them, while limiting the number of concurrent subscriptions to these ObservableSources.
|
static <T> Observable<T> |
mergeArrayDelayError(ObservableSource<? extends T>... sources)
Flattens an Iterable of ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from each of the source ObservableSources without being interrupted by an error
notification from one of them.
|
static <T> Observable<T> |
mergeDelayError(Iterable<? extends ObservableSource<? extends T>> sources)
Flattens an Iterable of ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from each of the source ObservableSources without being interrupted by an error
notification from one of them.
|
static <T> Observable<T> |
mergeDelayError(Iterable<? extends ObservableSource<? extends T>> sources,
int maxConcurrency)
Flattens an Iterable of ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from each of the source ObservableSources without being interrupted by an error
notification from one of them, while limiting the number of concurrent subscriptions to these ObservableSources.
|
static <T> Observable<T> |
mergeDelayError(Iterable<? extends ObservableSource<? extends T>> sources,
int maxConcurrency,
int bufferSize)
Flattens an Iterable of ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from each of the source ObservableSources without being interrupted by an error
notification from one of them, while limiting the number of concurrent subscriptions to these ObservableSources.
|
static <T> Observable<T> |
mergeDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources)
Flattens an ObservableSource that emits ObservableSources into one ObservableSource, in a way that allows an Observer to
receive all successfully emitted items from all of the source ObservableSources without being interrupted by
an error notification from one of them.
|
static <T> Observable<T> |
mergeDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources,
int maxConcurrency)
Flattens an ObservableSource that emits ObservableSources into one ObservableSource, in a way that allows an Observer to
receive all successfully emitted items from all of the source ObservableSources without being interrupted by
an error notification from one of them, while limiting the
number of concurrent subscriptions to these ObservableSources.
|
static <T> Observable<T> |
mergeDelayError(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2)
Flattens two ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from each of the source ObservableSources without being interrupted by an error
notification from one of them.
|
static <T> Observable<T> |
mergeDelayError(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
ObservableSource<? extends T> source3)
Flattens three ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from all of the source ObservableSources without being interrupted by an error
notification from one of them.
|
static <T> Observable<T> |
mergeDelayError(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
ObservableSource<? extends T> source3,
ObservableSource<? extends T> source4)
Flattens four ObservableSources into one ObservableSource, in a way that allows an Observer to receive all
successfully emitted items from all of the source ObservableSources without being interrupted by an error
notification from one of them.
|
Observable<T> |
mergeWith(CompletableSource other)
Relays the items of this Observable and completes only when the other CompletableSource completes
as well.
|
Observable<T> |
mergeWith(MaybeSource<? extends T> other)
Merges the sequence of items of this Observable with the success value of the other MaybeSource
or waits both to complete normally if the MaybeSource is empty.
|
Observable<T> |
mergeWith(ObservableSource<? extends T> other)
Flattens this and another ObservableSource into a single ObservableSource, without any transformation.
|
Observable<T> |
mergeWith(SingleSource<? extends T> other)
Merges the sequence of items of this Observable with the success value of the other SingleSource.
|
static <T> Observable<T> |
never()
Returns an Observable that never sends any items or notifications to an
Observer . |
Observable<T> |
observeOn(Scheduler scheduler)
Modifies an ObservableSource to perform its emissions and notifications on a specified
Scheduler ,
asynchronously with an unbounded buffer with Flowable.bufferSize() "island size". |
Observable<T> |
observeOn(Scheduler scheduler,
boolean delayError)
Modifies an ObservableSource to perform its emissions and notifications on a specified
Scheduler ,
asynchronously with an unbounded buffer with Flowable.bufferSize() "island size" and optionally delays onError notifications. |
Observable<T> |
observeOn(Scheduler scheduler,
boolean delayError,
int bufferSize)
Modifies an ObservableSource to perform its emissions and notifications on a specified
Scheduler ,
asynchronously with an unbounded buffer of configurable "island size" and optionally delays onError notifications. |
<U> Observable<U> |
ofType(Class<U> clazz)
Filters the items emitted by an ObservableSource, only emitting those of the specified type.
|
Observable<T> |
onErrorResumeNext(Function<? super Throwable,? extends ObservableSource<? extends T>> resumeFunction)
Instructs an ObservableSource to pass control to another ObservableSource rather than invoking
onError if it encounters an error. |
Observable<T> |
onErrorResumeNext(ObservableSource<? extends T> next)
Instructs an ObservableSource to pass control to another ObservableSource rather than invoking
onError if it encounters an error. |
Observable<T> |
onErrorReturn(Function<? super Throwable,? extends T> valueSupplier)
Instructs an ObservableSource to emit an item (returned by a specified function) rather than invoking
onError if it encounters an error. |
Observable<T> |
onErrorReturnItem(T item)
Instructs an ObservableSource to emit an item (returned by a specified function) rather than invoking
onError if it encounters an error. |
Observable<T> |
onExceptionResumeNext(ObservableSource<? extends T> next)
|
Observable<T> |
onTerminateDetach()
Nulls out references to the upstream producer and downstream Observer if
the sequence is terminated or downstream calls dispose().
|
ConnectableObservable<T> |
publish()
Returns a
ConnectableObservable , which is a variety of ObservableSource that waits until its
connect method is called before it begins emitting items to those
Observer s that have subscribed to it. |
<R> Observable<R> |
publish(Function<? super Observable<T>,? extends ObservableSource<R>> selector)
Returns an Observable that emits the results of invoking a specified selector on items emitted by a
ConnectableObservable that shares a single subscription to the underlying sequence. |
static Observable<Integer> |
range(int start,
int count)
Returns an Observable that emits a sequence of Integers within a specified range.
|
static Observable<Long> |
rangeLong(long start,
long count)
Returns an Observable that emits a sequence of Longs within a specified range.
|
Maybe<T> |
reduce(BiFunction<T,T,T> reducer)
Returns a Maybe that applies a specified accumulator function to the first item emitted by a source
ObservableSource, then feeds the result of that function along with the second item emitted by the source
ObservableSource into the same function, and so on until all items have been emitted by the finite source ObservableSource,
and emits the final result from the final call to your function as its sole item.
|
<R> Single<R> |
reduce(R seed,
BiFunction<R,? super T,R> reducer)
Returns a Single that applies a specified accumulator function to the first item emitted by a source
ObservableSource and a specified seed value, then feeds the result of that function along with the second item
emitted by an ObservableSource into the same function, and so on until all items have been emitted by the
finite source ObservableSource, emitting the final result from the final call to your function as its sole item.
|
<R> Single<R> |
reduceWith(Callable<R> seedSupplier,
BiFunction<R,? super T,R> reducer)
Returns a Single that applies a specified accumulator function to the first item emitted by a source
ObservableSource and a seed value derived from calling a specified seedSupplier, then feeds the result
of that function along with the second item emitted by an ObservableSource into the same function,
and so on until all items have been emitted by the finite source ObservableSource, emitting the final result
from the final call to your function as its sole item.
|
Observable<T> |
repeat()
Returns an Observable that repeats the sequence of items emitted by the source ObservableSource indefinitely.
|
Observable<T> |
repeat(long times)
Returns an Observable that repeats the sequence of items emitted by the source ObservableSource at most
count times. |
Observable<T> |
repeatUntil(BooleanSupplier stop)
Returns an Observable that repeats the sequence of items emitted by the source ObservableSource until
the provided stop function returns true.
|
Observable<T> |
repeatWhen(Function<? super Observable<Object>,? extends ObservableSource<?>> handler)
Returns an Observable that emits the same values as the source ObservableSource with the exception of an
onComplete . |
ConnectableObservable<T> |
replay()
Returns a
ConnectableObservable that shares a single subscription to the underlying ObservableSource
that will replay all of its items and notifications to any future Observer . |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector)
Returns an Observable that emits items that are the results of invoking a specified selector on the items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource. |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector,
int bufferSize)
Returns an Observable that emits items that are the results of invoking a specified selector on items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource,
replaying bufferSize notifications. |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector,
int bufferSize,
long time,
TimeUnit unit)
Returns an Observable that emits items that are the results of invoking a specified selector on items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource,
replaying no more than bufferSize items that were emitted within a specified time window. |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector,
int bufferSize,
long time,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits items that are the results of invoking a specified selector on items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource,
replaying no more than bufferSize items that were emitted within a specified time window. |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector,
int bufferSize,
Scheduler scheduler)
Returns an Observable that emits items that are the results of invoking a specified selector on items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource,
replaying a maximum of bufferSize items. |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector,
long time,
TimeUnit unit)
Returns an Observable that emits items that are the results of invoking a specified selector on items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource,
replaying all items that were emitted within a specified time window. |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector,
long time,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits items that are the results of invoking a specified selector on items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource,
replaying all items that were emitted within a specified time window. |
<R> Observable<R> |
replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector,
Scheduler scheduler)
Returns an Observable that emits items that are the results of invoking a specified selector on items
emitted by a
ConnectableObservable that shares a single subscription to the source ObservableSource. |
ConnectableObservable<T> |
replay(int bufferSize)
Returns a
ConnectableObservable that shares a single subscription to the source ObservableSource that
replays at most bufferSize items emitted by that ObservableSource. |
ConnectableObservable<T> |
replay(int bufferSize,
long time,
TimeUnit unit)
Returns a
ConnectableObservable that shares a single subscription to the source ObservableSource and
replays at most bufferSize items that were emitted during a specified time window. |
ConnectableObservable<T> |
replay(int bufferSize,
long time,
TimeUnit unit,
Scheduler scheduler)
Returns a
ConnectableObservable that shares a single subscription to the source ObservableSource and
that replays a maximum of bufferSize items that are emitted within a specified time window. |
ConnectableObservable<T> |
replay(int bufferSize,
Scheduler scheduler)
Returns a
ConnectableObservable that shares a single subscription to the source ObservableSource and
replays at most bufferSize items emitted by that ObservableSource. |
ConnectableObservable<T> |
replay(long time,
TimeUnit unit)
Returns a
ConnectableObservable that shares a single subscription to the source ObservableSource and
replays all items emitted by that ObservableSource within a specified time window. |
ConnectableObservable<T> |
replay(long time,
TimeUnit unit,
Scheduler scheduler)
Returns a
ConnectableObservable that shares a single subscription to the source ObservableSource and
replays all items emitted by that ObservableSource within a specified time window. |
ConnectableObservable<T> |
replay(Scheduler scheduler)
Returns a
ConnectableObservable that shares a single subscription to the source ObservableSource that
will replay all of its items and notifications to any future Observer on the given
Scheduler . |
Observable<T> |
retry()
Returns an Observable that mirrors the source ObservableSource, resubscribing to it if it calls
onError
(infinite retry count). |
Observable<T> |
retry(BiPredicate<? super Integer,? super Throwable> predicate)
Returns an Observable that mirrors the source ObservableSource, resubscribing to it if it calls
onError
and the predicate returns true for that specific exception and retry count. |
Observable<T> |
retry(long times)
Returns an Observable that mirrors the source ObservableSource, resubscribing to it if it calls
onError
up to a specified number of retries. |
Observable<T> |
retry(long times,
Predicate<? super Throwable> predicate)
Retries at most times or until the predicate returns false, whichever happens first.
|
Observable<T> |
retry(Predicate<? super Throwable> predicate)
Retries the current Observable if the predicate returns true.
|
Observable<T> |
retryUntil(BooleanSupplier stop)
Retries until the given stop function returns true.
|
Observable<T> |
retryWhen(Function<? super Observable<Throwable>,? extends ObservableSource<?>> handler)
Returns an Observable that emits the same values as the source ObservableSource with the exception of an
onError . |
void |
safeSubscribe(Observer<? super T> observer)
Subscribes to the current Observable and wraps the given Observer into a SafeObserver
(if not already a SafeObserver) that
deals with exceptions thrown by a misbehaving Observer (that doesn't follow the
Reactive Streams specification).
|
Observable<T> |
sample(long period,
TimeUnit unit)
Returns an Observable that emits the most recently emitted item (if any) emitted by the source ObservableSource
within periodic time intervals.
|
Observable<T> |
sample(long period,
TimeUnit unit,
boolean emitLast)
Returns an Observable that emits the most recently emitted item (if any) emitted by the source ObservableSource
within periodic time intervals and optionally emit the very last upstream item when the upstream completes.
|
Observable<T> |
sample(long period,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits the most recently emitted item (if any) emitted by the source ObservableSource
within periodic time intervals, where the intervals are defined on a particular Scheduler.
|
Observable<T> |
sample(long period,
TimeUnit unit,
Scheduler scheduler,
boolean emitLast)
Returns an Observable that emits the most recently emitted item (if any) emitted by the source ObservableSource
within periodic time intervals, where the intervals are defined on a particular Scheduler
and optionally emit the very last upstream item when the upstream completes.
|
<U> Observable<T> |
sample(ObservableSource<U> sampler)
Returns an Observable that, when the specified
sampler ObservableSource emits an item or completes,
emits the most recently emitted item (if any) emitted by the source ObservableSource since the previous
emission from the sampler ObservableSource. |
<U> Observable<T> |
sample(ObservableSource<U> sampler,
boolean emitLast)
Returns an Observable that, when the specified
sampler ObservableSource emits an item or completes,
emits the most recently emitted item (if any) emitted by the source ObservableSource since the previous
emission from the sampler ObservableSource
and optionally emit the very last upstream item when the upstream or other ObservableSource complete. |
Observable<T> |
scan(BiFunction<T,T,T> accumulator)
Returns an Observable that applies a specified accumulator function to the first item emitted by a source
ObservableSource, then feeds the result of that function along with the second item emitted by the source
ObservableSource into the same function, and so on until all items have been emitted by the source ObservableSource,
emitting the result of each of these iterations.
|
<R> Observable<R> |
scan(R initialValue,
BiFunction<R,? super T,R> accumulator)
Returns an Observable that applies a specified accumulator function to the first item emitted by a source
ObservableSource and a seed value, then feeds the result of that function along with the second item emitted by
the source ObservableSource into the same function, and so on until all items have been emitted by the source
ObservableSource, emitting the result of each of these iterations.
|
<R> Observable<R> |
scanWith(Callable<R> seedSupplier,
BiFunction<R,? super T,R> accumulator)
Returns an Observable that applies a specified accumulator function to the first item emitted by a source
ObservableSource and a seed value, then feeds the result of that function along with the second item emitted by
the source ObservableSource into the same function, and so on until all items have been emitted by the source
ObservableSource, emitting the result of each of these iterations.
|
static <T> Single<Boolean> |
sequenceEqual(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2)
Returns a Single that emits a Boolean value that indicates whether two ObservableSource sequences are the
same by comparing the items emitted by each ObservableSource pairwise.
|
static <T> Single<Boolean> |
sequenceEqual(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
BiPredicate<? super T,? super T> isEqual)
Returns a Single that emits a Boolean value that indicates whether two ObservableSource sequences are the
same by comparing the items emitted by each ObservableSource pairwise based on the results of a specified
equality function.
|
static <T> Single<Boolean> |
sequenceEqual(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
BiPredicate<? super T,? super T> isEqual,
int bufferSize)
Returns a Single that emits a Boolean value that indicates whether two ObservableSource sequences are the
same by comparing the items emitted by each ObservableSource pairwise based on the results of a specified
equality function.
|
static <T> Single<Boolean> |
sequenceEqual(ObservableSource<? extends T> source1,
ObservableSource<? extends T> source2,
int bufferSize)
Returns a Single that emits a Boolean value that indicates whether two ObservableSource sequences are the
same by comparing the items emitted by each ObservableSource pairwise.
|
Observable<T> |
serialize()
Forces an ObservableSource's emissions and notifications to be serialized and for it to obey
the ObservableSource contract in other ways.
|
Observable<T> |
share()
Returns a new
ObservableSource that multicasts (and shares a single subscription to) the original ObservableSource . |
Single<T> |
single(T defaultItem)
Returns a Single that emits the single item emitted by this Observable, if this Observable
emits only a single item, or a default item if the source ObservableSource emits no items.
|
Maybe<T> |
singleElement()
Returns a Maybe that completes if this Observable is empty or emits the single item emitted by this Observable,
or signals an
IllegalArgumentException if this Observable emits more than one item. |
Single<T> |
singleOrError()
Returns a Single that emits the single item emitted by this Observable if this Observable
emits only a single item, otherwise
if this Observable completes without emitting any items or emits more than one item a
NoSuchElementException or IllegalArgumentException will be signalled respectively. |
Observable<T> |
skip(long count)
Returns an Observable that skips the first
count items emitted by the source ObservableSource and emits
the remainder. |
Observable<T> |
skip(long time,
TimeUnit unit)
Returns an Observable that skips values emitted by the source ObservableSource before a specified time window
elapses.
|
Observable<T> |
skip(long time,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that skips values emitted by the source ObservableSource before a specified time window
on a specified
Scheduler elapses. |
Observable<T> |
skipLast(int count)
Returns an Observable that drops a specified number of items from the end of the sequence emitted by the
source ObservableSource.
|
Observable<T> |
skipLast(long time,
TimeUnit unit)
Returns an Observable that drops items emitted by the source ObservableSource during a specified time window
before the source completes.
|
Observable<T> |
skipLast(long time,
TimeUnit unit,
boolean delayError)
Returns an Observable that drops items emitted by the source ObservableSource during a specified time window
before the source completes.
|
Observable<T> |
skipLast(long time,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that drops items emitted by the source ObservableSource during a specified time window
(defined on a specified scheduler) before the source completes.
|
Observable<T> |
skipLast(long time,
TimeUnit unit,
Scheduler scheduler,
boolean delayError)
Returns an Observable that drops items emitted by the source ObservableSource during a specified time window
(defined on a specified scheduler) before the source completes.
|
Observable<T> |
skipLast(long time,
TimeUnit unit,
Scheduler scheduler,
boolean delayError,
int bufferSize)
Returns an Observable that drops items emitted by the source ObservableSource during a specified time window
(defined on a specified scheduler) before the source completes.
|
<U> Observable<T> |
skipUntil(ObservableSource<U> other)
Returns an Observable that skips items emitted by the source ObservableSource until a second ObservableSource emits
an item.
|
Observable<T> |
skipWhile(Predicate<? super T> predicate)
Returns an Observable that skips all items emitted by the source ObservableSource as long as a specified
condition holds true, but emits all further source items as soon as the condition becomes false.
|
Observable<T> |
sorted()
Returns an Observable that emits the events emitted by source ObservableSource, in a
sorted order.
|
Observable<T> |
sorted(Comparator<? super T> sortFunction)
Returns an Observable that emits the events emitted by source ObservableSource, in a
sorted order based on a specified comparison function.
|
Observable<T> |
startWith(Iterable<? extends T> items)
Returns an Observable that emits the items in a specified
Iterable before it begins to emit items
emitted by the source ObservableSource. |
Observable<T> |
startWith(ObservableSource<? extends T> other)
Returns an Observable that emits the items in a specified
ObservableSource before it begins to emit
items emitted by the source ObservableSource. |
Observable<T> |
startWith(T item)
Returns an Observable that emits a specified item before it begins to emit items emitted by the source
ObservableSource.
|
Observable<T> |
startWithArray(T... items)
Returns an Observable that emits the specified items before it begins to emit items emitted by the source
ObservableSource.
|
Disposable |
subscribe()
Subscribes to an ObservableSource and ignores
onNext and onComplete emissions. |
Disposable |
subscribe(Consumer<? super T> onNext)
Subscribes to an ObservableSource and provides a callback to handle the items it emits.
|
Disposable |
subscribe(Consumer<? super T> onNext,
Consumer<? super Throwable> onError)
Subscribes to an ObservableSource and provides callbacks to handle the items it emits and any error
notification it issues.
|
Disposable |
subscribe(Consumer<? super T> onNext,
Consumer<? super Throwable> onError,
Action onComplete)
Subscribes to an ObservableSource and provides callbacks to handle the items it emits and any error or
completion notification it issues.
|
Disposable |
subscribe(Consumer<? super T> onNext,
Consumer<? super Throwable> onError,
Action onComplete,
Consumer<? super Disposable> onSubscribe)
Subscribes to an ObservableSource and provides callbacks to handle the items it emits and any error or
completion notification it issues.
|
void |
subscribe(Observer<? super T> observer)
Subscribes the given Observer to this ObservableSource instance.
|
protected abstract void |
subscribeActual(Observer<? super T> observer)
Operator implementations (both source and intermediate) should implement this method that
performs the necessary business logic and handles the incoming
Observer s. |
Observable<T> |
subscribeOn(Scheduler scheduler)
Asynchronously subscribes Observers to this ObservableSource on the specified
Scheduler . |
<E extends Observer<? super T>> |
subscribeWith(E observer)
Subscribes a given Observer (subclass) to this Observable and returns the given
Observer as is.
|
Observable<T> |
switchIfEmpty(ObservableSource<? extends T> other)
Returns an Observable that emits the items emitted by the source ObservableSource or the items of an alternate
ObservableSource if the source ObservableSource is empty.
|
<R> Observable<R> |
switchMap(Function<? super T,? extends ObservableSource<? extends R>> mapper)
Returns a new ObservableSource by applying a function that you supply to each item emitted by the source
ObservableSource that returns an ObservableSource, and then emitting the items emitted by the most recently emitted
of these ObservableSources.
|
<R> Observable<R> |
switchMap(Function<? super T,? extends ObservableSource<? extends R>> mapper,
int bufferSize)
Returns a new ObservableSource by applying a function that you supply to each item emitted by the source
ObservableSource that returns an ObservableSource, and then emitting the items emitted by the most recently emitted
of these ObservableSources.
|
Completable |
switchMapCompletable(Function<? super T,? extends CompletableSource> mapper)
Maps the upstream values into
CompletableSource s, subscribes to the newer one while
disposing the subscription to the previous CompletableSource , thus keeping at most one
active CompletableSource running. |
Completable |
switchMapCompletableDelayError(Function<? super T,? extends CompletableSource> mapper)
Maps the upstream values into
CompletableSource s, subscribes to the newer one while
disposing the subscription to the previous CompletableSource , thus keeping at most one
active CompletableSource running and delaying any main or inner errors until all
of them terminate. |
<R> Observable<R> |
switchMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper)
Returns a new ObservableSource by applying a function that you supply to each item emitted by the source
ObservableSource that returns an ObservableSource, and then emitting the items emitted by the most recently emitted
of these ObservableSources and delays any error until all ObservableSources terminate.
|
<R> Observable<R> |
switchMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper,
int bufferSize)
Returns a new ObservableSource by applying a function that you supply to each item emitted by the source
ObservableSource that returns an ObservableSource, and then emitting the items emitted by the most recently emitted
of these ObservableSources and delays any error until all ObservableSources terminate.
|
<R> Observable<R> |
switchMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper)
Maps the upstream items into
MaybeSource s and switches (subscribes) to the newer ones
while disposing the older ones (and ignoring their signals) and emits the latest success value of the current one if
available while failing immediately if this Observable or any of the
active inner MaybeSource s fail. |
<R> Observable<R> |
switchMapMaybeDelayError(Function<? super T,? extends MaybeSource<? extends R>> mapper)
Maps the upstream items into
MaybeSource s and switches (subscribes) to the newer ones
while disposing the older ones (and ignoring their signals) and emits the latest success value of the current one if
available, delaying errors from this Observable or the inner MaybeSource s until all terminate. |
<R> Observable<R> |
switchMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper)
Returns a new ObservableSource by applying a function that you supply to each item emitted by the source
ObservableSource that returns a SingleSource, and then emitting the item emitted by the most recently emitted
of these SingleSources.
|
<R> Observable<R> |
switchMapSingleDelayError(Function<? super T,? extends SingleSource<? extends R>> mapper)
Returns a new ObservableSource by applying a function that you supply to each item emitted by the source
ObservableSource that returns a SingleSource, and then emitting the item emitted by the most recently emitted
of these SingleSources and delays any error until all SingleSources terminate.
|
static <T> Observable<T> |
switchOnNext(ObservableSource<? extends ObservableSource<? extends T>> sources)
Converts an ObservableSource that emits ObservableSources into an ObservableSource that emits the items emitted by the
most recently emitted of those ObservableSources.
|
static <T> Observable<T> |
switchOnNext(ObservableSource<? extends ObservableSource<? extends T>> sources,
int bufferSize)
Converts an ObservableSource that emits ObservableSources into an ObservableSource that emits the items emitted by the
most recently emitted of those ObservableSources.
|
static <T> Observable<T> |
switchOnNextDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources)
Converts an ObservableSource that emits ObservableSources into an ObservableSource that emits the items emitted by the
most recently emitted of those ObservableSources and delays any exception until all ObservableSources terminate.
|
static <T> Observable<T> |
switchOnNextDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources,
int prefetch)
Converts an ObservableSource that emits ObservableSources into an ObservableSource that emits the items emitted by the
most recently emitted of those ObservableSources and delays any exception until all ObservableSources terminate.
|
Observable<T> |
take(long count)
Returns an Observable that emits only the first
count items emitted by the source ObservableSource. |
Observable<T> |
take(long time,
TimeUnit unit)
Returns an Observable that emits those items emitted by source ObservableSource before a specified time runs
out.
|
Observable<T> |
take(long time,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits those items emitted by source ObservableSource before a specified time (on a
specified Scheduler) runs out.
|
Observable<T> |
takeLast(int count)
Returns an Observable that emits at most the last
count items emitted by the source ObservableSource. |
Observable<T> |
takeLast(long count,
long time,
TimeUnit unit)
Returns an Observable that emits at most a specified number of items from the source ObservableSource that were
emitted in a specified window of time before the ObservableSource completed.
|
Observable<T> |
takeLast(long count,
long time,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits at most a specified number of items from the source ObservableSource that were
emitted in a specified window of time before the ObservableSource completed, where the timing information is
provided by a given Scheduler.
|
Observable<T> |
takeLast(long count,
long time,
TimeUnit unit,
Scheduler scheduler,
boolean delayError,
int bufferSize)
Returns an Observable that emits at most a specified number of items from the source ObservableSource that were
emitted in a specified window of time before the ObservableSource completed, where the timing information is
provided by a given Scheduler.
|
Observable<T> |
takeLast(long time,
TimeUnit unit)
Returns an Observable that emits the items from the source ObservableSource that were emitted in a specified
window of time before the ObservableSource completed.
|
Observable<T> |
takeLast(long time,
TimeUnit unit,
boolean delayError)
Returns an Observable that emits the items from the source ObservableSource that were emitted in a specified
window of time before the ObservableSource completed.
|
Observable<T> |
takeLast(long time,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits the items from the source ObservableSource that were emitted in a specified
window of time before the ObservableSource completed, where the timing information is provided by a specified
Scheduler.
|
Observable<T> |
takeLast(long time,
TimeUnit unit,
Scheduler scheduler,
boolean delayError)
Returns an Observable that emits the items from the source ObservableSource that were emitted in a specified
window of time before the ObservableSource completed, where the timing information is provided by a specified
Scheduler.
|
Observable<T> |
takeLast(long time,
TimeUnit unit,
Scheduler scheduler,
boolean delayError,
int bufferSize)
Returns an Observable that emits the items from the source ObservableSource that were emitted in a specified
window of time before the ObservableSource completed, where the timing information is provided by a specified
Scheduler.
|
<U> Observable<T> |
takeUntil(ObservableSource<U> other)
Returns an Observable that emits the items emitted by the source Observable until a second ObservableSource
emits an item.
|
Observable<T> |
takeUntil(Predicate<? super T> stopPredicate)
Returns an Observable that emits items emitted by the source Observable, checks the specified predicate
for each item, and then completes when the condition is satisfied.
|
Observable<T> |
takeWhile(Predicate<? super T> predicate)
Returns an Observable that emits items emitted by the source ObservableSource so long as each item satisfied a
specified condition, and then completes as soon as this condition is not satisfied.
|
TestObserver<T> |
test()
Creates a TestObserver and subscribes
it to this Observable.
|
TestObserver<T> |
test(boolean dispose)
Creates a TestObserver, optionally disposes it and then subscribes
it to this Observable.
|
Observable<T> |
throttleFirst(long windowDuration,
TimeUnit unit)
Returns an Observable that emits only the first item emitted by the source ObservableSource during sequential
time windows of a specified duration.
|
Observable<T> |
throttleFirst(long skipDuration,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits only the first item emitted by the source ObservableSource during sequential
time windows of a specified duration, where the windows are managed by a specified Scheduler.
|
Observable<T> |
throttleLast(long intervalDuration,
TimeUnit unit)
Returns an Observable that emits only the last item emitted by the source ObservableSource during sequential
time windows of a specified duration.
|
Observable<T> |
throttleLast(long intervalDuration,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits only the last item emitted by the source ObservableSource during sequential
time windows of a specified duration, where the duration is governed by a specified Scheduler.
|
Observable<T> |
throttleLatest(long timeout,
TimeUnit unit)
Throttles items from the upstream
Observable by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them. |
Observable<T> |
throttleLatest(long timeout,
TimeUnit unit,
boolean emitLast)
Throttles items from the upstream
Observable by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them. |
Observable<T> |
throttleLatest(long timeout,
TimeUnit unit,
Scheduler scheduler)
Throttles items from the upstream
Observable by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them. |
Observable<T> |
throttleLatest(long timeout,
TimeUnit unit,
Scheduler scheduler,
boolean emitLast)
Throttles items from the upstream
Observable by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them. |
Observable<T> |
throttleWithTimeout(long timeout,
TimeUnit unit)
Returns an Observable that mirrors the source ObservableSource, except that it drops items emitted by the
source ObservableSource that are followed by newer items before a timeout value expires.
|
Observable<T> |
throttleWithTimeout(long timeout,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that mirrors the source ObservableSource, except that it drops items emitted by the
source ObservableSource that are followed by newer items before a timeout value expires on a specified
Scheduler.
|
Observable<Timed<T>> |
timeInterval()
Returns an Observable that emits records of the time interval between consecutive items emitted by the
source ObservableSource.
|
Observable<Timed<T>> |
timeInterval(Scheduler scheduler)
Returns an Observable that emits records of the time interval between consecutive items emitted by the
source ObservableSource, where this interval is computed on a specified Scheduler.
|
Observable<Timed<T>> |
timeInterval(TimeUnit unit)
Returns an Observable that emits records of the time interval between consecutive items emitted by the
source ObservableSource.
|
Observable<Timed<T>> |
timeInterval(TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits records of the time interval between consecutive items emitted by the
source ObservableSource, where this interval is computed on a specified Scheduler.
|
<V> Observable<T> |
timeout(Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator)
Returns an Observable that mirrors the source ObservableSource, but notifies observers of a
TimeoutException if an item emitted by the source ObservableSource doesn't arrive within a window of
time after the emission of the previous item, where that period of time is measured by an ObservableSource that
is a function of the previous item. |
<V> Observable<T> |
timeout(Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator,
ObservableSource<? extends T> other)
Returns an Observable that mirrors the source ObservableSource, but that switches to a fallback ObservableSource if
an item emitted by the source ObservableSource doesn't arrive within a window of time after the emission of the
previous item, where that period of time is measured by an ObservableSource that is a function of the previous
item.
|
Observable<T> |
timeout(long timeout,
TimeUnit timeUnit)
Returns an Observable that mirrors the source ObservableSource but applies a timeout policy for each emitted
item.
|
Observable<T> |
timeout(long timeout,
TimeUnit timeUnit,
ObservableSource<? extends T> other)
Returns an Observable that mirrors the source ObservableSource but applies a timeout policy for each emitted
item.
|
Observable<T> |
timeout(long timeout,
TimeUnit timeUnit,
Scheduler scheduler)
Returns an Observable that mirrors the source ObservableSource but applies a timeout policy for each emitted
item, where this policy is governed on a specified Scheduler.
|
Observable<T> |
timeout(long timeout,
TimeUnit timeUnit,
Scheduler scheduler,
ObservableSource<? extends T> other)
Returns an Observable that mirrors the source ObservableSource but applies a timeout policy for each emitted
item using a specified Scheduler.
|
<U,V> Observable<T> |
timeout(ObservableSource<U> firstTimeoutIndicator,
Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator)
Returns an Observable that mirrors the source ObservableSource, but notifies observers of a
TimeoutException if either the first item emitted by the source ObservableSource or any subsequent item
doesn't arrive within time windows defined by other ObservableSources. |
<U,V> Observable<T> |
timeout(ObservableSource<U> firstTimeoutIndicator,
Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator,
ObservableSource<? extends T> other)
Returns an Observable that mirrors the source ObservableSource, but switches to a fallback ObservableSource if either
the first item emitted by the source ObservableSource or any subsequent item doesn't arrive within time windows
defined by other ObservableSources.
|
static Observable<Long> |
timer(long delay,
TimeUnit unit)
Returns an Observable that emits
0L after a specified delay, and then completes. |
static Observable<Long> |
timer(long delay,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits
0L after a specified delay, on a specified Scheduler, and then
completes. |
Observable<Timed<T>> |
timestamp()
Returns an Observable that emits each item emitted by the source ObservableSource, wrapped in a
Timed object. |
Observable<Timed<T>> |
timestamp(Scheduler scheduler)
Returns an Observable that emits each item emitted by the source ObservableSource, wrapped in a
Timed object whose timestamps are provided by a specified Scheduler. |
Observable<Timed<T>> |
timestamp(TimeUnit unit)
Returns an Observable that emits each item emitted by the source ObservableSource, wrapped in a
Timed object. |
Observable<Timed<T>> |
timestamp(TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits each item emitted by the source ObservableSource, wrapped in a
Timed object whose timestamps are provided by a specified Scheduler. |
<R> R |
to(Function<? super Observable<T>,R> converter)
Calls the specified converter function during assembly time and returns its resulting value.
|
Flowable<T> |
toFlowable(BackpressureStrategy strategy)
Converts the current Observable into a Flowable by applying the specified backpressure strategy.
|
Future<T> |
toFuture()
Returns a
Future representing the only value emitted by this Observable . |
Single<List<T>> |
toList()
Returns a Single that emits a single item, a list composed of all the items emitted by the
finite source ObservableSource.
|
<U extends Collection<? super T>> |
toList(Callable<U> collectionSupplier)
Returns a Single that emits a single item, a list composed of all the items emitted by the
finite source ObservableSource.
|
Single<List<T>> |
toList(int capacityHint)
Returns a Single that emits a single item, a list composed of all the items emitted by the
finite source ObservableSource.
|
<K> Single<Map<K,T>> |
toMap(Function<? super T,? extends K> keySelector)
Returns a Single that emits a single HashMap containing all items emitted by the
finite source ObservableSource, mapped by the keys returned by a specified
keySelector function. |
<K,V> Single<Map<K,V>> |
toMap(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector)
Returns a Single that emits a single HashMap containing values corresponding to items emitted by the
finite source ObservableSource, mapped by the keys returned by a specified
keySelector function. |
<K,V> Single<Map<K,V>> |
toMap(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector,
Callable<? extends Map<K,V>> mapSupplier)
Returns a Single that emits a single Map, returned by a specified
mapFactory function, that
contains keys and values extracted from the items emitted by the finite source ObservableSource. |
<K> Single<Map<K,Collection<T>>> |
toMultimap(Function<? super T,? extends K> keySelector)
Returns a Single that emits a single HashMap that contains an ArrayList of items emitted by the
finite source ObservableSource keyed by a specified
keySelector function. |
<K,V> Single<Map<K,Collection<V>>> |
toMultimap(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector)
Returns a Single that emits a single HashMap that contains an ArrayList of values extracted by a
specified
valueSelector function from items emitted by the finite source ObservableSource,
keyed by a specified keySelector function. |
<K,V> Single<Map<K,Collection<V>>> |
toMultimap(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector,
Callable<? extends Map<K,Collection<V>>> mapSupplier,
Function<? super K,? extends Collection<? super V>> collectionFactory)
Returns a Single that emits a single Map, returned by a specified
mapFactory function, that
contains a custom collection of values, extracted by a specified valueSelector function from
items emitted by the source ObservableSource, and keyed by the keySelector function. |
<K,V> Single<Map<K,Collection<V>>> |
toMultimap(Function<? super T,? extends K> keySelector,
Function<? super T,? extends V> valueSelector,
Callable<Map<K,Collection<V>>> mapSupplier)
Returns a Single that emits a single Map, returned by a specified
mapFactory function, that
contains an ArrayList of values, extracted by a specified valueSelector function from items
emitted by the finite source ObservableSource and keyed by the keySelector function. |
Single<List<T>> |
toSortedList()
Returns a Single that emits a list that contains the items emitted by the finite source ObservableSource, in a
sorted order.
|
Single<List<T>> |
toSortedList(Comparator<? super T> comparator)
Returns a Single that emits a list that contains the items emitted by the finite source ObservableSource, in a
sorted order based on a specified comparison function.
|
Single<List<T>> |
toSortedList(Comparator<? super T> comparator,
int capacityHint)
Returns a Single that emits a list that contains the items emitted by the finite source ObservableSource, in a
sorted order based on a specified comparison function.
|
Single<List<T>> |
toSortedList(int capacityHint)
Returns a Single that emits a list that contains the items emitted by the finite source ObservableSource, in a
sorted order.
|
static <T> Observable<T> |
unsafeCreate(ObservableSource<T> onSubscribe)
Create an Observable by wrapping an ObservableSource which has to be implemented according
to the Reactive Streams based Observable specification by handling
disposal correctly; no safeguards are provided by the Observable itself.
|
Observable<T> |
unsubscribeOn(Scheduler scheduler)
Modifies the source ObservableSource so that subscribers will dispose it on a specified
Scheduler . |
static <T,D> Observable<T> |
using(Callable<? extends D> resourceSupplier,
Function<? super D,? extends ObservableSource<? extends T>> sourceSupplier,
Consumer<? super D> disposer)
Constructs an ObservableSource that creates a dependent resource object which is disposed of when the downstream
calls dispose().
|
static <T,D> Observable<T> |
using(Callable<? extends D> resourceSupplier,
Function<? super D,? extends ObservableSource<? extends T>> sourceSupplier,
Consumer<? super D> disposer,
boolean eager)
Constructs an ObservableSource that creates a dependent resource object which is disposed of just before
termination if you have set
disposeEagerly to true and a dispose() call does not occur
before termination. |
<B> Observable<Observable<T>> |
window(Callable<? extends ObservableSource<B>> boundary)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
<B> Observable<Observable<T>> |
window(Callable<? extends ObservableSource<B>> boundary,
int bufferSize)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long count)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long count,
long skip)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long count,
long skip,
int bufferSize)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
long timeskip,
TimeUnit unit)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
long timeskip,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
long timeskip,
TimeUnit unit,
Scheduler scheduler,
int bufferSize)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
TimeUnit unit)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
TimeUnit unit,
long count)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
TimeUnit unit,
long count,
boolean restart)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
TimeUnit unit,
Scheduler scheduler)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
TimeUnit unit,
Scheduler scheduler,
long count)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
TimeUnit unit,
Scheduler scheduler,
long count,
boolean restart)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
Observable<Observable<T>> |
window(long timespan,
TimeUnit unit,
Scheduler scheduler,
long count,
boolean restart,
int bufferSize)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
<B> Observable<Observable<T>> |
window(ObservableSource<B> boundary)
Returns an Observable that emits non-overlapping windows of items it collects from the source ObservableSource
where the boundary of each window is determined by the items emitted from a specified boundary-governing
ObservableSource.
|
<B> Observable<Observable<T>> |
window(ObservableSource<B> boundary,
int bufferSize)
Returns an Observable that emits non-overlapping windows of items it collects from the source ObservableSource
where the boundary of each window is determined by the items emitted from a specified boundary-governing
ObservableSource.
|
<U,V> Observable<Observable<T>> |
window(ObservableSource<U> openingIndicator,
Function<? super U,? extends ObservableSource<V>> closingIndicator)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
<U,V> Observable<Observable<T>> |
window(ObservableSource<U> openingIndicator,
Function<? super U,? extends ObservableSource<V>> closingIndicator,
int bufferSize)
Returns an Observable that emits windows of items it collects from the source ObservableSource.
|
<R> Observable<R> |
withLatestFrom(Iterable<? extends ObservableSource<?>> others,
Function<? super Object[],R> combiner)
Combines the value emission from this ObservableSource with the latest emissions from the
other ObservableSources via a function to produce the output item.
|
<R> Observable<R> |
withLatestFrom(ObservableSource<?>[] others,
Function<? super Object[],R> combiner)
Combines the value emission from this ObservableSource with the latest emissions from the
other ObservableSources via a function to produce the output item.
|
<U,R> Observable<R> |
withLatestFrom(ObservableSource<? extends U> other,
BiFunction<? super T,? super U,? extends R> combiner)
Merges the specified ObservableSource into this ObservableSource sequence by using the
resultSelector
function only when the source ObservableSource (this instance) emits an item. |
<T1,T2,R> Observable<R> |
withLatestFrom(ObservableSource<T1> o1,
ObservableSource<T2> o2,
Function3<? super T,? super T1,? super T2,R> combiner)
Combines the value emission from this ObservableSource with the latest emissions from the
other ObservableSources via a function to produce the output item.
|
<T1,T2,T3,R> |
withLatestFrom(ObservableSource<T1> o1,
ObservableSource<T2> o2,
ObservableSource<T3> o3,
Function4<? super T,? super T1,? super T2,? super T3,R> combiner)
Combines the value emission from this ObservableSource with the latest emissions from the
other ObservableSources via a function to produce the output item.
|
<T1,T2,T3,T4,R> |
withLatestFrom(ObservableSource<T1> o1,
ObservableSource<T2> o2,
ObservableSource<T3> o3,
ObservableSource<T4> o4,
Function5<? super T,? super T1,? super T2,? super T3,? super T4,R> combiner)
Combines the value emission from this ObservableSource with the latest emissions from the
other ObservableSources via a function to produce the output item.
|
static <T> Observable<T> |
wrap(ObservableSource<T> source)
Wraps an ObservableSource into an Observable if not already an Observable.
|
static <T,R> Observable<R> |
zip(Iterable<? extends ObservableSource<? extends T>> sources,
Function<? super Object[],? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
items emitted, in sequence, by an Iterable of other ObservableSources.
|
static <T,R> Observable<R> |
zip(ObservableSource<? extends ObservableSource<? extends T>> sources,
Function<? super Object[],? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
n items emitted, in sequence, by the n ObservableSources emitted by a specified ObservableSource.
|
static <T1,T2,R> Observable<R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
BiFunction<? super T1,? super T2,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
two items emitted, in sequence, by two other ObservableSources.
|
static <T1,T2,R> Observable<R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
BiFunction<? super T1,? super T2,? extends R> zipper,
boolean delayError)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
two items emitted, in sequence, by two other ObservableSources.
|
static <T1,T2,R> Observable<R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
BiFunction<? super T1,? super T2,? extends R> zipper,
boolean delayError,
int bufferSize)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
two items emitted, in sequence, by two other ObservableSources.
|
static <T1,T2,T3,R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
Function3<? super T1,? super T2,? super T3,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
three items emitted, in sequence, by three other ObservableSources.
|
static <T1,T2,T3,T4,R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
Function4<? super T1,? super T2,? super T3,? super T4,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
four items emitted, in sequence, by four other ObservableSources.
|
static <T1,T2,T3,T4,T5,R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
Function5<? super T1,? super T2,? super T3,? super T4,? super T5,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
five items emitted, in sequence, by five other ObservableSources.
|
static <T1,T2,T3,T4,T5,T6,R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
Function6<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
six items emitted, in sequence, by six other ObservableSources.
|
static <T1,T2,T3,T4,T5,T6,T7,R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
ObservableSource<? extends T7> source7,
Function7<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
seven items emitted, in sequence, by seven other ObservableSources.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
ObservableSource<? extends T7> source7,
ObservableSource<? extends T8> source8,
Function8<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
eight items emitted, in sequence, by eight other ObservableSources.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,R> |
zip(ObservableSource<? extends T1> source1,
ObservableSource<? extends T2> source2,
ObservableSource<? extends T3> source3,
ObservableSource<? extends T4> source4,
ObservableSource<? extends T5> source5,
ObservableSource<? extends T6> source6,
ObservableSource<? extends T7> source7,
ObservableSource<? extends T8> source8,
ObservableSource<? extends T9> source9,
Function9<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? super T9,? extends R> zipper)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
nine items emitted, in sequence, by nine other ObservableSources.
|
static <T,R> Observable<R> |
zipArray(Function<? super Object[],? extends R> zipper,
boolean delayError,
int bufferSize,
ObservableSource<? extends T>... sources)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
items emitted, in sequence, by an array of other ObservableSources.
|
static <T,R> Observable<R> |
zipIterable(Iterable<? extends ObservableSource<? extends T>> sources,
Function<? super Object[],? extends R> zipper,
boolean delayError,
int bufferSize)
Returns an Observable that emits the results of a specified combiner function applied to combinations of
items emitted, in sequence, by an Iterable of other ObservableSources.
|
<U,R> Observable<R> |
zipWith(Iterable<U> other,
BiFunction<? super T,? super U,? extends R> zipper)
Returns an Observable that emits items that are the result of applying a specified function to pairs of
values, one each from the source ObservableSource and a specified Iterable sequence.
|
<U,R> Observable<R> |
zipWith(ObservableSource<? extends U> other,
BiFunction<? super T,? super U,? extends R> zipper)
Returns an Observable that emits items that are the result of applying a specified function to pairs of
values, one each from the source ObservableSource and another specified ObservableSource.
|
<U,R> Observable<R> |
zipWith(ObservableSource<? extends U> other,
BiFunction<? super T,? super U,? extends R> zipper,
boolean delayError)
Returns an Observable that emits items that are the result of applying a specified function to pairs of
values, one each from the source ObservableSource and another specified ObservableSource.
|
<U,R> Observable<R> |
zipWith(ObservableSource<? extends U> other,
BiFunction<? super T,? super U,? extends R> zipper,
boolean delayError,
int bufferSize)
Returns an Observable that emits items that are the result of applying a specified function to pairs of
values, one each from the source ObservableSource and another specified ObservableSource.
|
@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> amb(Iterable<? extends ObservableSource<? extends T>> sources)
amb
does not operate by default on a particular Scheduler
.T
- the common element typesources
- an Iterable of ObservableSource sources competing to react first. A subscription to each source will
occur in the same order as in the Iterable.@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> ambArray(ObservableSource<? extends T>... sources)
ambArray
does not operate by default on a particular Scheduler
.T
- the common element typesources
- an array of ObservableSource sources competing to react first. A subscription to each source will
occur in the same order as in the array.public static int bufferSize()
Delegates to Flowable.bufferSize()
but is public for convenience.
The value can be overridden via system parameter rx2.buffer-size
before the Flowable
class is loaded.
@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatest(Function<? super Object[],? extends R> combiner, int bufferSize, ObservableSource<? extends T>... sources)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If there are no ObservableSources provided, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatest
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSourcesbufferSize
- the internal buffer size and prefetch amount applied to every source Observable@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatest(Iterable<? extends ObservableSource<? extends T>> sources, Function<? super Object[],? extends R> combiner)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided iterable of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatest
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatest(Iterable<? extends ObservableSource<? extends T>> sources, Function<? super Object[],? extends R> combiner, int bufferSize)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided iterable of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatest
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSourcesbufferSize
- the internal buffer size and prefetch amount applied to every source Observable@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatest(ObservableSource<? extends T>[] sources, Function<? super Object[],? extends R> combiner)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided array of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatest
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatest(ObservableSource<? extends T>[] sources, Function<? super Object[],? extends R> combiner, int bufferSize)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided array of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatest
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSourcesbufferSize
- the internal buffer size and prefetch amount applied to every source Observable@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, BiFunction<? super T1,? super T2,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,T3,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, Function3<? super T1,? super T2,? super T3,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceT3
- the element type of the third sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcesource3
- the third source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,T3,T4,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, Function4<? super T1,? super T2,? super T3,? super T4,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceT3
- the element type of the third sourceT4
- the element type of the fourth sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcesource3
- the third source ObservableSourcesource4
- the fourth source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, Function5<? super T1,? super T2,? super T3,? super T4,? super T5,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceT3
- the element type of the third sourceT4
- the element type of the fourth sourceT5
- the element type of the fifth sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcesource3
- the third source ObservableSourcesource4
- the fourth source ObservableSourcesource5
- the fifth source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, Function6<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceT3
- the element type of the third sourceT4
- the element type of the fourth sourceT5
- the element type of the fifth sourceT6
- the element type of the sixth sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcesource3
- the third source ObservableSourcesource4
- the fourth source ObservableSourcesource5
- the fifth source ObservableSourcesource6
- the sixth source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,T7,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, ObservableSource<? extends T7> source7, Function7<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceT3
- the element type of the third sourceT4
- the element type of the fourth sourceT5
- the element type of the fifth sourceT6
- the element type of the sixth sourceT7
- the element type of the seventh sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcesource3
- the third source ObservableSourcesource4
- the fourth source ObservableSourcesource5
- the fifth source ObservableSourcesource6
- the sixth source ObservableSourcesource7
- the seventh source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,T7,T8,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, ObservableSource<? extends T7> source7, ObservableSource<? extends T8> source8, Function8<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceT3
- the element type of the third sourceT4
- the element type of the fourth sourceT5
- the element type of the fifth sourceT6
- the element type of the sixth sourceT7
- the element type of the seventh sourceT8
- the element type of the eighth sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcesource3
- the third source ObservableSourcesource4
- the fourth source ObservableSourcesource5
- the fifth source ObservableSourcesource6
- the sixth source ObservableSourcesource7
- the seventh source ObservableSourcesource8
- the eighth source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,R> Observable<R> combineLatest(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, ObservableSource<? extends T7> source7, ObservableSource<? extends T8> source8, ObservableSource<? extends T9> source9, Function9<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? super T9,? extends R> combiner)
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
combineLatest
does not operate by default on a particular Scheduler
.T1
- the element type of the first sourceT2
- the element type of the second sourceT3
- the element type of the third sourceT4
- the element type of the fourth sourceT5
- the element type of the fifth sourceT6
- the element type of the sixth sourceT7
- the element type of the seventh sourceT8
- the element type of the eighth sourceT9
- the element type of the ninth sourceR
- the combined output typesource1
- the first source ObservableSourcesource2
- the second source ObservableSourcesource3
- the third source ObservableSourcesource4
- the fourth source ObservableSourcesource5
- the fifth source ObservableSourcesource6
- the sixth source ObservableSourcesource7
- the seventh source ObservableSourcesource8
- the eighth source ObservableSourcesource9
- the ninth source ObservableSourcecombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatestDelayError(ObservableSource<? extends T>[] sources, Function<? super Object[],? extends R> combiner)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided array of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatestDelayError
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatestDelayError(Function<? super Object[],? extends R> combiner, int bufferSize, ObservableSource<? extends T>... sources)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If there are no ObservableSources provided, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatestDelayError
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSourcesbufferSize
- the internal buffer size and prefetch amount applied to every source Observable@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatestDelayError(ObservableSource<? extends T>[] sources, Function<? super Object[],? extends R> combiner, int bufferSize)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided array of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatestDelayError
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSourcesbufferSize
- the internal buffer size and prefetch amount applied to every source Observable@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatestDelayError(Iterable<? extends ObservableSource<? extends T>> sources, Function<? super Object[],? extends R> combiner)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided iterable of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatestDelayError
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T,R> Observable<R> combineLatestDelayError(Iterable<? extends ObservableSource<? extends T>> sources, Function<? super Object[],? extends R> combiner, int bufferSize)
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
If any of the sources never produces an item but only terminates (normally or with an error), the resulting sequence terminates immediately (normally or with all the errors accumulated till that point). If that input source is also synchronous, other sources after it will not be subscribed to.
If the provided iterable of ObservableSources is empty, the resulting sequence completes immediately without emitting any items and without any calls to the combiner function.
combineLatestDelayError
does not operate by default on a particular Scheduler
.T
- the common base type of source valuesR
- the result typesources
- the collection of source ObservableSourcescombiner
- the aggregation function used to combine the items emitted by the source ObservableSourcesbufferSize
- the internal buffer size and prefetch amount applied to every source Observable@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> concat(Iterable<? extends ObservableSource<? extends T>> sources)
concat
does not operate by default on a particular Scheduler
.T
- the common value type of the sourcessources
- the Iterable sequence of ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concat(ObservableSource<? extends ObservableSource<? extends T>> sources)
concat
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- an ObservableSource that emits ObservableSourcesObservableSources
, one after the other, without interleaving them@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> concat(ObservableSource<? extends ObservableSource<? extends T>> sources, int prefetch)
concat
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- an ObservableSource that emits ObservableSourcesprefetch
- the number of ObservableSources to prefetch from the sources sequence.ObservableSources
, one after the other, without interleaving them@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> concat(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2)
concat
does not operate by default on a particular Scheduler
.T
- the common element base typesource1
- an ObservableSource to be concatenatedsource2
- an ObservableSource to be concatenated@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> concat(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, ObservableSource<? extends T> source3)
concat
does not operate by default on a particular Scheduler
.T
- the common element base typesource1
- an ObservableSource to be concatenatedsource2
- an ObservableSource to be concatenatedsource3
- an ObservableSource to be concatenated@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> concat(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, ObservableSource<? extends T> source3, ObservableSource<? extends T> source4)
concat
does not operate by default on a particular Scheduler
.T
- the common element base typesource1
- an ObservableSource to be concatenatedsource2
- an ObservableSource to be concatenatedsource3
- an ObservableSource to be concatenatedsource4
- an ObservableSource to be concatenated@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatArray(ObservableSource<? extends T>... sources)
Note: named this way because of overload conflict with concat(ObservableSource<ObservableSource>)
concatArray
does not operate by default on a particular Scheduler
.T
- the common base value typesources
- the array of sourcesNullPointerException
- if sources is null@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatArrayDelayError(ObservableSource<? extends T>... sources)
concatArrayDelayError
does not operate by default on a particular Scheduler
.T
- the common base value typesources
- the array of sourcesNullPointerException
- if sources is null@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatArrayEager(ObservableSource<? extends T>... sources)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- an array of ObservableSources that need to be eagerly concatenated@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatArrayEager(int maxConcurrency, int prefetch, ObservableSource<? extends T>... sources)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- an array of ObservableSources that need to be eagerly concatenatedmaxConcurrency
- the maximum number of concurrent subscriptions at a time, Integer.MAX_VALUE
is interpreted as indication to subscribe to all sources at onceprefetch
- the number of elements to prefetch from each ObservableSource source@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatArrayEagerDelayError(ObservableSource<? extends T>... sources)
ObservableSource
s eagerly into a single stream of values
and delaying any errors until all sources terminate.
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the
source ObservableSource
s. The operator buffers the values emitted by these ObservableSource
s
and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- an array of ObservableSource
s that need to be eagerly concatenated@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatArrayEagerDelayError(int maxConcurrency, int prefetch, ObservableSource<? extends T>... sources)
ObservableSource
s eagerly into a single stream of values
and delaying any errors until all sources terminate.
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the
source ObservableSource
s. The operator buffers the values emitted by these ObservableSource
s
and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- an array of ObservableSource
s that need to be eagerly concatenatedmaxConcurrency
- the maximum number of concurrent subscriptions at a time, Integer.MAX_VALUE
is interpreted as indication to subscribe to all sources at onceprefetch
- the number of elements to prefetch from each ObservableSource
source@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> concatDelayError(Iterable<? extends ObservableSource<? extends T>> sources)
concatDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the Iterable sequence of ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources)
concatDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the ObservableSource sequence of ObservableSources@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> concatDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources, int prefetch, boolean tillTheEnd)
concatDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the ObservableSource sequence of ObservableSourcesprefetch
- the number of elements to prefetch from the outer ObservableSourcetillTheEnd
- if true exceptions from the outer and all inner ObservableSources are delayed to the end
if false, exception from the outer ObservableSource is delayed till the current ObservableSource terminates@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatEager(ObservableSource<? extends ObservableSource<? extends T>> sources)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the emitted source ObservableSources as they are observed. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- a sequence of ObservableSources that need to be eagerly concatenated@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatEager(ObservableSource<? extends ObservableSource<? extends T>> sources, int maxConcurrency, int prefetch)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the emitted source ObservableSources as they are observed. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- a sequence of ObservableSources that need to be eagerly concatenatedmaxConcurrency
- the maximum number of concurrently running inner ObservableSources; Integer.MAX_VALUE
is interpreted as all inner ObservableSources can be active at the same timeprefetch
- the number of elements to prefetch from each inner ObservableSource source@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatEager(Iterable<? extends ObservableSource<? extends T>> sources)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- a sequence of ObservableSources that need to be eagerly concatenated@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> concatEager(Iterable<? extends ObservableSource<? extends T>> sources, int maxConcurrency, int prefetch)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.T
- the value typesources
- a sequence of ObservableSources that need to be eagerly concatenatedmaxConcurrency
- the maximum number of concurrently running inner ObservableSources; Integer.MAX_VALUE
is interpreted as all inner ObservableSources can be active at the same timeprefetch
- the number of elements to prefetch from each inner ObservableSource source@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> create(ObservableOnSubscribe<T> source)
Example:
Observable.<Event>create(emitter -> {
Callback listener = new Callback() {
@Override
public void onEvent(Event e) {
emitter.onNext(e);
if (e.isLast()) {
emitter.onComplete();
}
}
@Override
public void onFailure(Exception e) {
emitter.onError(e);
}
};
AutoCloseable c = api.someMethod(listener);
emitter.setCancellable(c::close);
});
You should call the ObservableEmitter's onNext, onError and onComplete methods in a serialized fashion. The rest of its methods are thread-safe.
create
does not operate by default on a particular Scheduler
.T
- the element typesource
- the emitter that is called when an Observer subscribes to the returned Observable
ObservableOnSubscribe
,
ObservableEmitter
,
Cancellable
@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> defer(Callable<? extends ObservableSource<? extends T>> supplier)
The defer Observer allows you to defer or delay emitting items from an ObservableSource until such time as an
Observer subscribes to the ObservableSource. This allows an Observer
to easily obtain updates or a
refreshed version of the sequence.
defer
does not operate by default on a particular Scheduler
.T
- the type of the items emitted by the ObservableSourcesupplier
- the ObservableSource factory function to invoke for each Observer
that subscribes to the
resulting ObservableSourceObserver
s' subscriptions trigger an invocation of the given
ObservableSource factory function@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> empty()
Observer
and immediately invokes its
onComplete
method.
empty
does not operate by default on a particular Scheduler
.T
- the type of the items (ostensibly) emitted by the ObservableSourceObserver
but immediately invokes the
Observer
's onComplete
method@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> error(Callable<? extends Throwable> errorSupplier)
Observer
's onError
method when the
Observer subscribes to it.
error
does not operate by default on a particular Scheduler
.T
- the type of the items (ostensibly) emitted by the ObservableSourceerrorSupplier
- a Callable factory to return a Throwable for each individual ObserverObserver
's onError
method when
the Observer subscribes to it@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> error(Throwable exception)
Observer
's onError
method when the
Observer subscribes to it.
error
does not operate by default on a particular Scheduler
.T
- the type of the items (ostensibly) emitted by the ObservableSourceexception
- the particular Throwable to pass to onError
Observer
's onError
method when
the Observer subscribes to it@CheckReturnValue @SchedulerSupport(value="none") @NonNull public static <T> Observable<T> fromArray(T... items)
fromArray
does not operate by default on a particular Scheduler
.T
- the type of items in the Array and the type of items to be emitted by the resulting ObservableSourceitems
- the array of elements@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> fromCallable(Callable<? extends T> supplier)
This allows you to defer the execution of the function you specify until an observer subscribes to the ObservableSource. That is to say, it makes the function "lazy."
fromCallable
does not operate by default on a particular Scheduler
.Callable
throws an exception, the respective Throwable
is
delivered to the downstream via Observer.onError(Throwable)
,
except when the downstream has disposed this Observable
source.
In this latter case, the Throwable
is delivered to the global error handler via
RxJavaPlugins.onError(Throwable)
as an UndeliverableException
.
T
- the type of the item emitted by the ObservableSourcesupplier
- a function, the execution of which should be deferred; fromCallable
will invoke this
function only when an observer subscribes to the ObservableSource that fromCallable
returnsObserver
s' subscriptions trigger an invocation of the given functiondefer(Callable)
@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> fromFuture(Future<? extends T> future)
Future
into an ObservableSource.
You can convert any object that supports the Future
interface into an ObservableSource that emits the
return value of the Future.get()
method of that object, by passing the object into the from
method.
Important note: This ObservableSource is blocking; you cannot dispose it.
Unlike 1.x, disposing the Observable won't cancel the future. If necessary, one can use composition to achieve the
cancellation effect: futureObservableSource.doOnDispose(() -> future.cancel(true));
.
fromFuture
does not operate by default on a particular Scheduler
.T
- the type of object that the Future
returns, and also the type of item to be emitted by
the resulting ObservableSourcefuture
- the source Future
Future
@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> fromFuture(Future<? extends T> future, long timeout, TimeUnit unit)
Future
into an ObservableSource, with a timeout on the Future.
You can convert any object that supports the Future
interface into an ObservableSource that emits the
return value of the Future.get()
method of that object, by passing the object into the from
method.
Unlike 1.x, disposing the Observable won't cancel the future. If necessary, one can use composition to achieve the
cancellation effect: futureObservableSource.doOnDispose(() -> future.cancel(true));
.
Important note: This ObservableSource is blocking; you cannot dispose it.
fromFuture
does not operate by default on a particular Scheduler
.T
- the type of object that the Future
returns, and also the type of item to be emitted by
the resulting ObservableSourcefuture
- the source Future
timeout
- the maximum time to wait before calling get
unit
- the TimeUnit
of the timeout
argumentFuture
@CheckReturnValue @NonNull @SchedulerSupport(value="custom") public static <T> Observable<T> fromFuture(Future<? extends T> future, long timeout, TimeUnit unit, Scheduler scheduler)
Future
into an ObservableSource, with a timeout on the Future.
You can convert any object that supports the Future
interface into an ObservableSource that emits the
return value of the Future.get()
method of that object, by passing the object into the from
method.
Unlike 1.x, disposing the Observable won't cancel the future. If necessary, one can use composition to achieve the
cancellation effect: futureObservableSource.doOnDispose(() -> future.cancel(true));
.
Important note: This ObservableSource is blocking; you cannot dispose it.
fromFuture
does not operate by default on a particular Scheduler
.T
- the type of object that the Future
returns, and also the type of item to be emitted by
the resulting ObservableSourcefuture
- the source Future
timeout
- the maximum time to wait before calling get
unit
- the TimeUnit
of the timeout
argumentscheduler
- the Scheduler
to wait for the Future on. Use a Scheduler such as
Schedulers.io()
that can block and wait on the FutureFuture
@CheckReturnValue @NonNull @SchedulerSupport(value="custom") public static <T> Observable<T> fromFuture(Future<? extends T> future, Scheduler scheduler)
Future
, operating on a specified Scheduler
, into an ObservableSource.
You can convert any object that supports the Future
interface into an ObservableSource that emits the
return value of the Future.get()
method of that object, by passing the object into the from
method.
Unlike 1.x, disposing the Observable won't cancel the future. If necessary, one can use composition to achieve the
cancellation effect: futureObservableSource.doOnDispose(() -> future.cancel(true));
.
Scheduler
this operator will use.T
- the type of object that the Future
returns, and also the type of item to be emitted by
the resulting ObservableSourcefuture
- the source Future
scheduler
- the Scheduler
to wait for the Future on. Use a Scheduler such as
Schedulers.io()
that can block and wait on the FutureFuture
@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> fromIterable(Iterable<? extends T> source)
Iterable
sequence into an ObservableSource that emits the items in the sequence.
fromIterable
does not operate by default on a particular Scheduler
.T
- the type of items in the Iterable
sequence and the type of items to be emitted by the
resulting ObservableSourcesource
- the source Iterable
sequenceIterable
sequence@BackpressureSupport(value=UNBOUNDED_IN) @CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> fromPublisher(Publisher<? extends T> publisher)
The Publisher
must follow the
Reactive Streams specification.
Violating the specification may result in undefined behavior.
If possible, use create(ObservableOnSubscribe)
to create a
source-like Observable
instead.
Note that even though Publisher
appears to be a functional interface, it
is not recommended to implement it through a lambda as the specification requires
state management that is not achievable with a stateless lambda.
publisher
is consumed in an unbounded fashion without applying any
backpressure to it.fromPublisher
does not operate by default on a particular Scheduler
.T
- the value type of the flowpublisher
- the Publisher to convertNullPointerException
- if publisher is nullcreate(ObservableOnSubscribe)
@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> generate(Consumer<Emitter<T>> generator)
Note that the Emitter.onNext(T)
, Emitter.onError(java.lang.Throwable)
and
Emitter.onComplete()
methods provided to the function via the Emitter
instance should be called synchronously,
never concurrently and only while the function body is executing. Calling them from multiple threads
or outside the function call is not supported and leads to an undefined behavior.
generate
does not operate by default on a particular Scheduler
.T
- the generated value typegenerator
- the Consumer called whenever a particular downstream Observer has
requested a value. The callback then should call onNext
, onError
or
onComplete
to signal a value or a terminal event. Signalling multiple onNext
in a call will make the operator signal IllegalStateException
.@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T,S> Observable<T> generate(Callable<S> initialState, BiConsumer<S,Emitter<T>> generator)
Note that the Emitter.onNext(T)
, Emitter.onError(java.lang.Throwable)
and
Emitter.onComplete()
methods provided to the function via the Emitter
instance should be called synchronously,
never concurrently and only while the function body is executing. Calling them from multiple threads
or outside the function call is not supported and leads to an undefined behavior.
generate
does not operate by default on a particular Scheduler
.S
- the type of the per-Observer stateT
- the generated value typeinitialState
- the Callable to generate the initial state for each Observergenerator
- the Consumer called with the current state whenever a particular downstream Observer has
requested a value. The callback then should call onNext
, onError
or
onComplete
to signal a value or a terminal event. Signalling multiple onNext
in a call will make the operator signal IllegalStateException
.@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T,S> Observable<T> generate(Callable<S> initialState, BiConsumer<S,Emitter<T>> generator, Consumer<? super S> disposeState)
Note that the Emitter.onNext(T)
, Emitter.onError(java.lang.Throwable)
and
Emitter.onComplete()
methods provided to the function via the Emitter
instance should be called synchronously,
never concurrently and only while the function body is executing. Calling them from multiple threads
or outside the function call is not supported and leads to an undefined behavior.
generate
does not operate by default on a particular Scheduler
.S
- the type of the per-Observer stateT
- the generated value typeinitialState
- the Callable to generate the initial state for each Observergenerator
- the Consumer called with the current state whenever a particular downstream Observer has
requested a value. The callback then should call onNext
, onError
or
onComplete
to signal a value or a terminal event. Signalling multiple onNext
in a call will make the operator signal IllegalStateException
.disposeState
- the Consumer that is called with the current state when the generator
terminates the sequence or it gets disposed@CheckReturnValue @SchedulerSupport(value="none") public static <T,S> Observable<T> generate(Callable<S> initialState, BiFunction<S,Emitter<T>,S> generator)
Note that the Emitter.onNext(T)
, Emitter.onError(java.lang.Throwable)
and
Emitter.onComplete()
methods provided to the function via the Emitter
instance should be called synchronously,
never concurrently and only while the function body is executing. Calling them from multiple threads
or outside the function call is not supported and leads to an undefined behavior.
generate
does not operate by default on a particular Scheduler
.S
- the type of the per-Observer stateT
- the generated value typeinitialState
- the Callable to generate the initial state for each Observergenerator
- the Function called with the current state whenever a particular downstream Observer has
requested a value. The callback then should call onNext
, onError
or
onComplete
to signal a value or a terminal event and should return a (new) state for
the next invocation. Signalling multiple onNext
in a call will make the operator signal IllegalStateException
.@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T,S> Observable<T> generate(Callable<S> initialState, BiFunction<S,Emitter<T>,S> generator, Consumer<? super S> disposeState)
Note that the Emitter.onNext(T)
, Emitter.onError(java.lang.Throwable)
and
Emitter.onComplete()
methods provided to the function via the Emitter
instance should be called synchronously,
never concurrently and only while the function body is executing. Calling them from multiple threads
or outside the function call is not supported and leads to an undefined behavior.
generate
does not operate by default on a particular Scheduler
.S
- the type of the per-Observer stateT
- the generated value typeinitialState
- the Callable to generate the initial state for each Observergenerator
- the Function called with the current state whenever a particular downstream Observer has
requested a value. The callback then should call onNext
, onError
or
onComplete
to signal a value or a terminal event and should return a (new) state for
the next invocation. Signalling multiple onNext
in a call will make the operator signal IllegalStateException
.disposeState
- the Consumer that is called with the current state when the generator
terminates the sequence or it gets disposed@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public static Observable<Long> interval(long initialDelay, long period, TimeUnit unit)
0L
after the initialDelay
and ever increasing numbers
after each period
of time thereafter.
interval
operates by default on the computation
Scheduler
.initialDelay
- the initial delay time to wait before emitting the first value of 0Lperiod
- the period of time between emissions of the subsequent numbersunit
- the time unit for both initialDelay
and period
initialDelay
and ever increasing numbers after
each period
of time thereafter@CheckReturnValue @NonNull @SchedulerSupport(value="custom") public static Observable<Long> interval(long initialDelay, long period, TimeUnit unit, Scheduler scheduler)
0L
after the initialDelay
and ever increasing numbers
after each period
of time thereafter, on a specified Scheduler
.
Scheduler
this operator will use.initialDelay
- the initial delay time to wait before emitting the first value of 0Lperiod
- the period of time between emissions of the subsequent numbersunit
- the time unit for both initialDelay
and period
scheduler
- the Scheduler on which the waiting happens and items are emittedinitialDelay
and ever increasing numbers after
each period
of time thereafter, while running on the given Scheduler@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public static Observable<Long> interval(long period, TimeUnit unit)
interval
operates by default on the computation
Scheduler
.period
- the period size in time units (see below)unit
- time units to use for the interval size@CheckReturnValue @SchedulerSupport(value="custom") public static Observable<Long> interval(long period, TimeUnit unit, Scheduler scheduler)
Scheduler
this operator will use.period
- the period size in time units (see below)unit
- time units to use for the interval sizescheduler
- the Scheduler to use for scheduling the items@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public static Observable<Long> intervalRange(long start, long count, long initialDelay, long period, TimeUnit unit)
The sequence completes immediately after the last value (start + count - 1) has been reached.
intervalRange
by default operates on the computation
Scheduler
.start
- that start value of the rangecount
- the number of values to emit in total, if zero, the operator emits an onComplete after the initial delay.initialDelay
- the initial delay before signalling the first value (the start)period
- the period between subsequent valuesunit
- the unit of measure of the initialDelay and period amounts@CheckReturnValue @NonNull @SchedulerSupport(value="custom") public static Observable<Long> intervalRange(long start, long count, long initialDelay, long period, TimeUnit unit, Scheduler scheduler)
The sequence completes immediately after the last value (start + count - 1) has been reached.
*
Scheduler
.start
- that start value of the rangecount
- the number of values to emit in total, if zero, the operator emits an onComplete after the initial delay.initialDelay
- the initial delay before signalling the first value (the start)period
- the period between subsequent valuesunit
- the unit of measure of the initialDelay and period amountsscheduler
- the target scheduler where the values and terminal signals will be emitted@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item)
Note that the item is taken and re-emitted as is and not computed by any means by just
. Use fromCallable(Callable)
to generate a single item on demand (when Observer
s subscribe to it).
See the multi-parameter overloads of just
to emit more than one (constant reference) items one after the other.
Use fromArray(Object...)
to emit an arbitrary number of items that are known upfront.
To emit the items of an Iterable
sequence (such as a List
), use fromIterable(Iterable)
.
just
does not operate by default on a particular Scheduler
.T
- the type of that itemitem
- the item to emitvalue
as a single item and then completesjust(Object, Object)
,
fromCallable(Callable)
,
fromArray(Object...)
,
fromIterable(Iterable)
@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3, T item4)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third itemitem4
- fourth item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3, T item4, T item5)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third itemitem4
- fourth itemitem5
- fifth item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3, T item4, T item5, T item6)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third itemitem4
- fourth itemitem5
- fifth itemitem6
- sixth item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3, T item4, T item5, T item6, T item7)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third itemitem4
- fourth itemitem5
- fifth itemitem6
- sixth itemitem7
- seventh item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3, T item4, T item5, T item6, T item7, T item8)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third itemitem4
- fourth itemitem5
- fifth itemitem6
- sixth itemitem7
- seventh itemitem8
- eighth item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3, T item4, T item5, T item6, T item7, T item8, T item9)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third itemitem4
- fourth itemitem5
- fifth itemitem6
- sixth itemitem7
- seventh itemitem8
- eighth itemitem9
- ninth item@CheckReturnValue @NonNull @SchedulerSupport(value="none") public static <T> Observable<T> just(T item1, T item2, T item3, T item4, T item5, T item6, T item7, T item8, T item9, T item10)
just
does not operate by default on a particular Scheduler
.T
- the type of these itemsitem1
- first itemitem2
- second itemitem3
- third itemitem4
- fourth itemitem5
- fifth itemitem6
- sixth itemitem7
- seventh itemitem8
- eighth itemitem9
- ninth itemitem10
- tenth item@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(Iterable<? extends ObservableSource<? extends T>> sources, int maxConcurrency, int bufferSize)
You can combine the items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(Iterable, int, int)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesources
- the Iterable of ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlybufferSize
- the number of items to prefetch from each inner ObservableSourceIllegalArgumentException
- if maxConcurrent
is less than or equal to 0mergeDelayError(Iterable, int, int)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeArray(int maxConcurrency, int bufferSize, ObservableSource<? extends T>... sources)
You can combine the items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
mergeArray
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeArrayDelayError(int, int, ObservableSource...)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesources
- the array of ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlybufferSize
- the number of items to prefetch from each inner ObservableSourceIllegalArgumentException
- if maxConcurrent
is less than or equal to 0mergeArrayDelayError(int, int, ObservableSource...)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(Iterable<? extends ObservableSource<? extends T>> sources)
You can combine the items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(Iterable)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesources
- the Iterable of ObservableSourcesmergeDelayError(Iterable)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(Iterable<? extends ObservableSource<? extends T>> sources, int maxConcurrency)
You can combine the items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(Iterable, int)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesources
- the Iterable of ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlyIllegalArgumentException
- if maxConcurrent
is less than or equal to 0mergeDelayError(Iterable, int)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(ObservableSource<? extends ObservableSource<? extends T>> sources)
You can combine the items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(ObservableSource)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesources
- an ObservableSource that emits ObservableSourcessource
ObservableSourcemergeDelayError(ObservableSource)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(ObservableSource<? extends ObservableSource<? extends T>> sources, int maxConcurrency)
You can combine the items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(ObservableSource, int)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesources
- an ObservableSource that emits ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlysource
ObservableSourceIllegalArgumentException
- if maxConcurrent
is less than or equal to 0mergeDelayError(ObservableSource, int)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2)
You can combine items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(ObservableSource, ObservableSource)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesource1
- an ObservableSource to be mergedsource2
- an ObservableSource to be mergedmergeDelayError(ObservableSource, ObservableSource)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, ObservableSource<? extends T> source3)
You can combine items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(ObservableSource, ObservableSource, ObservableSource)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesource1
- an ObservableSource to be mergedsource2
- an ObservableSource to be mergedsource3
- an ObservableSource to be mergedmergeDelayError(ObservableSource, ObservableSource, ObservableSource)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> merge(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, ObservableSource<? extends T> source3, ObservableSource<? extends T> source4)
You can combine items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
merge
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeDelayError(ObservableSource, ObservableSource, ObservableSource, ObservableSource)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesource1
- an ObservableSource to be mergedsource2
- an ObservableSource to be mergedsource3
- an ObservableSource to be mergedsource4
- an ObservableSource to be mergedmergeDelayError(ObservableSource, ObservableSource, ObservableSource, ObservableSource)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeArray(ObservableSource<? extends T>... sources)
You can combine items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the merge
method.
mergeArray
does not operate by default on a particular Scheduler
.ObservableSource
s signal a Throwable
via onError
, the resulting
Observable
terminates with that Throwable
and all other source ObservableSource
s are disposed.
If more than one ObservableSource
signals an error, the resulting Observable
may terminate with the
first one's error or, depending on the concurrency of the sources, may terminate with a
CompositeException
containing two or more of the various error signals.
Throwable
s that didn't make into the composite will be sent (individually) to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors. Similarly, Throwable
s
signaled by source(s) after the returned Observable
has been disposed or terminated with a
(composite) error will be sent to the same global error handler.
Use mergeArrayDelayError(ObservableSource...)
to merge sources and terminate only when all source ObservableSource
s
have completed or failed with an error.
T
- the common element base typesources
- the array of ObservableSourcesmergeArrayDelayError(ObservableSource...)
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(Iterable<? extends ObservableSource<? extends T>> sources)
This behaves like merge(ObservableSource)
except that if any of the merged ObservableSources notify of an
error via onError
, mergeDelayError
will refrain from propagating that
error notification until all of the merged ObservableSources have finished emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the Iterable of ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(Iterable<? extends ObservableSource<? extends T>> sources, int maxConcurrency, int bufferSize)
This behaves like merge(ObservableSource)
except that if any of the merged ObservableSources notify of an
error via onError
, mergeDelayError
will refrain from propagating that
error notification until all of the merged ObservableSources have finished emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the Iterable of ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlybufferSize
- the number of items to prefetch from each inner ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeArrayDelayError(int maxConcurrency, int bufferSize, ObservableSource<? extends T>... sources)
This behaves like merge(ObservableSource)
except that if any of the merged ObservableSources notify of an
error via onError
, mergeDelayError
will refrain from propagating that
error notification until all of the merged ObservableSources have finished emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeArrayDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the array of ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlybufferSize
- the number of items to prefetch from each inner ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(Iterable<? extends ObservableSource<? extends T>> sources, int maxConcurrency)
This behaves like merge(ObservableSource)
except that if any of the merged ObservableSources notify of an
error via onError
, mergeDelayError
will refrain from propagating that
error notification until all of the merged ObservableSources have finished emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the Iterable of ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrently@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources)
This behaves like merge(ObservableSource)
except that if any of the merged ObservableSources notify of an
error via onError
, mergeDelayError
will refrain from propagating that
error notification until all of the merged ObservableSources have finished emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- an ObservableSource that emits ObservableSourcessource
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources, int maxConcurrency)
This behaves like merge(ObservableSource)
except that if any of the merged ObservableSources notify of an
error via onError
, mergeDelayError
will refrain from propagating that
error notification until all of the merged ObservableSources have finished emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- an ObservableSource that emits ObservableSourcesmaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlysource
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2)
This behaves like merge(ObservableSource, ObservableSource)
except that if any of the merged ObservableSources
notify of an error via onError
, mergeDelayError
will refrain from
propagating that error notification until all of the merged ObservableSources have finished emitting items.
Even if both merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesource1
- an ObservableSource to be mergedsource2
- an ObservableSource to be merged@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, ObservableSource<? extends T> source3)
This behaves like merge(ObservableSource, ObservableSource, ObservableSource)
except that if any of the merged
ObservableSources notify of an error via onError
, mergeDelayError
will refrain
from propagating that error notification until all of the merged ObservableSources have finished emitting
items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesource1
- an ObservableSource to be mergedsource2
- an ObservableSource to be mergedsource3
- an ObservableSource to be merged@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeDelayError(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, ObservableSource<? extends T> source3, ObservableSource<? extends T> source4)
This behaves like merge(ObservableSource, ObservableSource, ObservableSource, ObservableSource)
except that if any of
the merged ObservableSources notify of an error via onError
, mergeDelayError
will refrain from propagating that error notification until all of the merged ObservableSources have finished
emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesource1
- an ObservableSource to be mergedsource2
- an ObservableSource to be mergedsource3
- an ObservableSource to be mergedsource4
- an ObservableSource to be merged@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> mergeArrayDelayError(ObservableSource<? extends T>... sources)
This behaves like merge(ObservableSource)
except that if any of the merged ObservableSources notify of an
error via onError
, mergeDelayError
will refrain from propagating that
error notification until all of the merged ObservableSources have finished emitting items.
Even if multiple merged ObservableSources send onError
notifications, mergeDelayError
will only
invoke the onError
method of its Observers once.
mergeArrayDelayError
does not operate by default on a particular Scheduler
.T
- the common element base typesources
- the Iterable of ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> never()
Observer
.
This ObservableSource is useful primarily for testing purposes.
never
does not operate by default on a particular Scheduler
.T
- the type of items (not) emitted by the ObservableSourceObserver
@CheckReturnValue @SchedulerSupport(value="none") public static Observable<Integer> range(int start, int count)
range
does not operate by default on a particular Scheduler
.start
- the value of the first Integer in the sequencecount
- the number of sequential Integers to generateIllegalArgumentException
- if count
is less than zero, or if start
+ count
− 1 exceeds
Integer.MAX_VALUE
@CheckReturnValue @SchedulerSupport(value="none") public static Observable<Long> rangeLong(long start, long count)
rangeLong
does not operate by default on a particular Scheduler
.start
- the value of the first Long in the sequencecount
- the number of sequential Longs to generateIllegalArgumentException
- if count
is less than zero, or if start
+ count
− 1 exceeds
Long.MAX_VALUE
@CheckReturnValue @SchedulerSupport(value="none") public static <T> Single<Boolean> sequenceEqual(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2)
sequenceEqual
does not operate by default on a particular Scheduler
.T
- the type of items emitted by each ObservableSourcesource1
- the first ObservableSource to comparesource2
- the second ObservableSource to compare@CheckReturnValue @SchedulerSupport(value="none") public static <T> Single<Boolean> sequenceEqual(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, BiPredicate<? super T,? super T> isEqual)
sequenceEqual
does not operate by default on a particular Scheduler
.T
- the type of items emitted by each ObservableSourcesource1
- the first ObservableSource to comparesource2
- the second ObservableSource to compareisEqual
- a function used to compare items emitted by each ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T> Single<Boolean> sequenceEqual(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, BiPredicate<? super T,? super T> isEqual, int bufferSize)
sequenceEqual
does not operate by default on a particular Scheduler
.T
- the type of items emitted by each ObservableSourcesource1
- the first ObservableSource to comparesource2
- the second ObservableSource to compareisEqual
- a function used to compare items emitted by each ObservableSourcebufferSize
- the number of items to prefetch from the first and second source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T> Single<Boolean> sequenceEqual(ObservableSource<? extends T> source1, ObservableSource<? extends T> source2, int bufferSize)
sequenceEqual
does not operate by default on a particular Scheduler
.T
- the type of items emitted by each ObservableSourcesource1
- the first ObservableSource to comparesource2
- the second ObservableSource to comparebufferSize
- the number of items to prefetch from the first and second source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> switchOnNext(ObservableSource<? extends ObservableSource<? extends T>> sources, int bufferSize)
switchOnNext
subscribes to an ObservableSource that emits ObservableSources. Each time it observes one of
these emitted ObservableSources, the ObservableSource returned by switchOnNext
begins emitting the items
emitted by that ObservableSource. When a new ObservableSource is emitted, switchOnNext
stops emitting items
from the earlier-emitted ObservableSource and begins emitting items from the new one.
The resulting ObservableSource completes if both the outer ObservableSource and the last inner ObservableSource, if any, complete. If the outer ObservableSource signals an onError, the inner ObservableSource is disposed and the error delivered in-sequence.
switchOnNext
does not operate by default on a particular Scheduler
.T
- the item typesources
- the source ObservableSource that emits ObservableSourcesbufferSize
- the number of items to prefetch from the inner ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> switchOnNext(ObservableSource<? extends ObservableSource<? extends T>> sources)
switchOnNext
subscribes to an ObservableSource that emits ObservableSources. Each time it observes one of
these emitted ObservableSources, the ObservableSource returned by switchOnNext
begins emitting the items
emitted by that ObservableSource. When a new ObservableSource is emitted, switchOnNext
stops emitting items
from the earlier-emitted ObservableSource and begins emitting items from the new one.
The resulting ObservableSource completes if both the outer ObservableSource and the last inner ObservableSource, if any, complete. If the outer ObservableSource signals an onError, the inner ObservableSource is disposed and the error delivered in-sequence.
switchOnNext
does not operate by default on a particular Scheduler
.T
- the item typesources
- the source ObservableSource that emits ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> switchOnNextDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources)
switchOnNext
subscribes to an ObservableSource that emits ObservableSources. Each time it observes one of
these emitted ObservableSources, the ObservableSource returned by switchOnNext
begins emitting the items
emitted by that ObservableSource. When a new ObservableSource is emitted, switchOnNext
stops emitting items
from the earlier-emitted ObservableSource and begins emitting items from the new one.
The resulting ObservableSource completes if both the main ObservableSource and the last inner ObservableSource, if any, complete. If the main ObservableSource signals an onError, the termination of the last inner ObservableSource will emit that error as is or wrapped into a CompositeException along with the other possible errors the former inner ObservableSources signalled.
switchOnNextDelayError
does not operate by default on a particular Scheduler
.T
- the item typesources
- the source ObservableSource that emits ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> switchOnNextDelayError(ObservableSource<? extends ObservableSource<? extends T>> sources, int prefetch)
switchOnNext
subscribes to an ObservableSource that emits ObservableSources. Each time it observes one of
these emitted ObservableSources, the ObservableSource returned by switchOnNext
begins emitting the items
emitted by that ObservableSource. When a new ObservableSource is emitted, switchOnNext
stops emitting items
from the earlier-emitted ObservableSource and begins emitting items from the new one.
The resulting ObservableSource completes if both the main ObservableSource and the last inner ObservableSource, if any, complete. If the main ObservableSource signals an onError, the termination of the last inner ObservableSource will emit that error as is or wrapped into a CompositeException along with the other possible errors the former inner ObservableSources signalled.
switchOnNextDelayError
does not operate by default on a particular Scheduler
.T
- the item typesources
- the source ObservableSource that emits ObservableSourcesprefetch
- the number of items to prefetch from the inner ObservableSources@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public static Observable<Long> timer(long delay, TimeUnit unit)
0L
after a specified delay, and then completes.
timer
operates by default on the computation
Scheduler
.delay
- the initial delay before emitting a single 0L
unit
- time units to use for delay
0L
after a specified delay, and then completes@CheckReturnValue @SchedulerSupport(value="custom") public static Observable<Long> timer(long delay, TimeUnit unit, Scheduler scheduler)
0L
after a specified delay, on a specified Scheduler, and then
completes.
Scheduler
this operator will use.delay
- the initial delay before emitting a single 0Lunit
- time units to use for delay
scheduler
- the Scheduler
to use for scheduling the item0L
after a specified delay, on a specified Scheduler, and then
completesNullPointerException
- if unit
is null, or
if scheduler
is null@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> unsafeCreate(ObservableSource<T> onSubscribe)
unsafeCreate
by default doesn't operate on any particular Scheduler
.T
- the value type emittedonSubscribe
- the ObservableSource instance to wrap@CheckReturnValue @SchedulerSupport(value="none") public static <T,D> Observable<T> using(Callable<? extends D> resourceSupplier, Function<? super D,? extends ObservableSource<? extends T>> sourceSupplier, Consumer<? super D> disposer)
using
does not operate by default on a particular Scheduler
.T
- the element type of the generated ObservableSourceD
- the type of the resource associated with the output sequenceresourceSupplier
- the factory function to create a resource object that depends on the ObservableSourcesourceSupplier
- the factory function to create an ObservableSourcedisposer
- the function that will dispose of the resource@CheckReturnValue @SchedulerSupport(value="none") public static <T,D> Observable<T> using(Callable<? extends D> resourceSupplier, Function<? super D,? extends ObservableSource<? extends T>> sourceSupplier, Consumer<? super D> disposer, boolean eager)
disposeEagerly
to true
and a dispose() call does not occur
before termination. Otherwise resource disposal will occur on a dispose() call. Eager disposal is
particularly appropriate for a synchronous ObservableSource that reuses resources. disposeAction
will
only be called once per subscription.
using
does not operate by default on a particular Scheduler
.T
- the element type of the generated ObservableSourceD
- the type of the resource associated with the output sequenceresourceSupplier
- the factory function to create a resource object that depends on the ObservableSourcesourceSupplier
- the factory function to create an ObservableSourcedisposer
- the function that will dispose of the resourceeager
- if true
then disposal will happen either on a dispose() call or just before emission of
a terminal event (onComplete
or onError
).@CheckReturnValue @SchedulerSupport(value="none") public static <T> Observable<T> wrap(ObservableSource<T> source)
wrap
does not operate by default on a particular Scheduler
.T
- the value typesource
- the source ObservableSource instanceNullPointerException
- if source is null@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> zip(Iterable<? extends ObservableSource<? extends T>> sources, Function<? super Object[],? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each of the source ObservableSources;
the second item emitted by the new ObservableSource will be the result of the function applied to the second
item emitted by each of those ObservableSources; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as
the number of onNext
invocations of the source ObservableSource that emits the fewest items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(Arrays.asList(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2)), (a) -> a)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
zip
does not operate by default on a particular Scheduler
.T
- the common value typeR
- the zipped result typesources
- an Iterable of source ObservableSourceszipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> zip(ObservableSource<? extends ObservableSource<? extends T>> sources, Function<? super Object[],? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each of the ObservableSources emitted
by the source ObservableSource; the second item emitted by the new ObservableSource will be the result of the
function applied to the second item emitted by each of those ObservableSources; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as
the number of onNext
invocations of the source ObservableSource that emits the fewest items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(just(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2)), (a) -> a)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
zip
does not operate by default on a particular Scheduler
.T
- the value type of the inner ObservableSourcesR
- the zipped result typesources
- an ObservableSource of source ObservableSourceszipper
- a function that, when applied to an item emitted by each of the ObservableSources emitted by
ws
, results in an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, BiFunction<? super T1,? super T2,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by o1
and the first item
emitted by o2
; the second item emitted by the new ObservableSource will be the result of the function
applied to the second item emitted by o1
and the second item emitted by o2
; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), (a, b) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results
in an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, BiFunction<? super T1,? super T2,? extends R> zipper, boolean delayError)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by o1
and the first item
emitted by o2
; the second item emitted by the new ObservableSource will be the result of the function
applied to the second item emitted by o1
and the second item emitted by o2
; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), (a, b) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results
in an item that will be emitted by the resulting ObservableSourcedelayError
- delay errors from any of the source ObservableSources till the other terminates@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, BiFunction<? super T1,? super T2,? extends R> zipper, boolean delayError, int bufferSize)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by o1
and the first item
emitted by o2
; the second item emitted by the new ObservableSource will be the result of the function
applied to the second item emitted by o1
and the second item emitted by o2
; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), (a, b) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results
in an item that will be emitted by the resulting ObservableSourcedelayError
- delay errors from any of the source ObservableSources till the other terminatesbufferSize
- the number of elements to prefetch from each source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,T3,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, Function3<? super T1,? super T2,? super T3,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by o1
, the first item
emitted by o2
, and the first item emitted by o3
; the second item emitted by the new
ObservableSource will be the result of the function applied to the second item emitted by o1
, the
second item emitted by o2
, and the second item emitted by o3
; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), ..., (a, b, c) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceT3
- the value type of the third sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcesource3
- a third source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,T3,T4,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, Function4<? super T1,? super T2,? super T3,? super T4,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by o1
, the first item
emitted by o2
, the first item emitted by o3
, and the first item emitted by 04
;
the second item emitted by the new ObservableSource will be the result of the function applied to the second
item emitted by each of those ObservableSources; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), ..., (a, b, c, d) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceT3
- the value type of the third sourceT4
- the value type of the fourth sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcesource3
- a third source ObservableSourcesource4
- a fourth source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, Function5<? super T1,? super T2,? super T3,? super T4,? super T5,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by o1
, the first item
emitted by o2
, the first item emitted by o3
, the first item emitted by o4
, and
the first item emitted by o5
; the second item emitted by the new ObservableSource will be the result of
the function applied to the second item emitted by each of those ObservableSources; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), ..., (a, b, c, d, e) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceT3
- the value type of the third sourceT4
- the value type of the fourth sourceT5
- the value type of the fifth sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcesource3
- a third source ObservableSourcesource4
- a fourth source ObservableSourcesource5
- a fifth source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, Function6<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each source ObservableSource, the
second item emitted by the new ObservableSource will be the result of the function applied to the second item
emitted by each of those ObservableSources, and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), ..., (a, b, c, d, e, f) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceT3
- the value type of the third sourceT4
- the value type of the fourth sourceT5
- the value type of the fifth sourceT6
- the value type of the sixth sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcesource3
- a third source ObservableSourcesource4
- a fourth source ObservableSourcesource5
- a fifth source ObservableSourcesource6
- a sixth source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,T7,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, ObservableSource<? extends T7> source7, Function7<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each source ObservableSource, the
second item emitted by the new ObservableSource will be the result of the function applied to the second item
emitted by each of those ObservableSources, and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), ..., (a, b, c, d, e, f, g) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceT3
- the value type of the third sourceT4
- the value type of the fourth sourceT5
- the value type of the fifth sourceT6
- the value type of the sixth sourceT7
- the value type of the seventh sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcesource3
- a third source ObservableSourcesource4
- a fourth source ObservableSourcesource5
- a fifth source ObservableSourcesource6
- a sixth source ObservableSourcesource7
- a seventh source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,T7,T8,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, ObservableSource<? extends T7> source7, ObservableSource<? extends T8> source8, Function8<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each source ObservableSource, the
second item emitted by the new ObservableSource will be the result of the function applied to the second item
emitted by each of those ObservableSources, and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), ..., (a, b, c, d, e, f, g, h) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceT3
- the value type of the third sourceT4
- the value type of the fourth sourceT5
- the value type of the fifth sourceT6
- the value type of the sixth sourceT7
- the value type of the seventh sourceT8
- the value type of the eighth sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcesource3
- a third source ObservableSourcesource4
- a fourth source ObservableSourcesource5
- a fifth source ObservableSourcesource6
- a sixth source ObservableSourcesource7
- a seventh source ObservableSourcesource8
- an eighth source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,R> Observable<R> zip(ObservableSource<? extends T1> source1, ObservableSource<? extends T2> source2, ObservableSource<? extends T3> source3, ObservableSource<? extends T4> source4, ObservableSource<? extends T5> source5, ObservableSource<? extends T6> source6, ObservableSource<? extends T7> source7, ObservableSource<? extends T8> source8, ObservableSource<? extends T9> source9, Function9<? super T1,? super T2,? super T3,? super T4,? super T5,? super T6,? super T7,? super T8,? super T9,? extends R> zipper)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each source ObservableSource, the
second item emitted by the new ObservableSource will be the result of the function applied to the second item
emitted by each of those ObservableSources, and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as the number of onNext
invocations of the source ObservableSource that emits the fewest
items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2), ..., (a, b, c, d, e, f, g, h, i) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zip
does not operate by default on a particular Scheduler
.T1
- the value type of the first sourceT2
- the value type of the second sourceT3
- the value type of the third sourceT4
- the value type of the fourth sourceT5
- the value type of the fifth sourceT6
- the value type of the sixth sourceT7
- the value type of the seventh sourceT8
- the value type of the eighth sourceT9
- the value type of the ninth sourceR
- the zipped result typesource1
- the first source ObservableSourcesource2
- a second source ObservableSourcesource3
- a third source ObservableSourcesource4
- a fourth source ObservableSourcesource5
- a fifth source ObservableSourcesource6
- a sixth source ObservableSourcesource7
- a seventh source ObservableSourcesource8
- an eighth source ObservableSourcesource9
- a ninth source ObservableSourcezipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> zipArray(Function<? super Object[],? extends R> zipper, boolean delayError, int bufferSize, ObservableSource<? extends T>... sources)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each of the source ObservableSources;
the second item emitted by the new ObservableSource will be the result of the function applied to the second
item emitted by each of those ObservableSources; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as
the number of onNext
invocations of the source ObservableSource that emits the fewest items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(new ObservableSource[]{range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2)}, (a) ->
a)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
zipArray
does not operate by default on a particular Scheduler
.T
- the common element typeR
- the result typesources
- an array of source ObservableSourceszipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSourcedelayError
- delay errors signalled by any of the source ObservableSource until all ObservableSources terminatebufferSize
- the number of elements to prefetch from each source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public static <T,R> Observable<R> zipIterable(Iterable<? extends ObservableSource<? extends T>> sources, Function<? super Object[],? extends R> zipper, boolean delayError, int bufferSize)
zip
applies this function in strict sequence, so the first item emitted by the new ObservableSource
will be the result of the function applied to the first item emitted by each of the source ObservableSources;
the second item emitted by the new ObservableSource will be the result of the function applied to the second
item emitted by each of those ObservableSources; and so forth.
The resulting ObservableSource<R>
returned from zip
will invoke onNext
as many times as
the number of onNext
invocations of the source ObservableSource that emits the fewest items.
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
zip(Arrays.asList(range(1, 5).doOnComplete(action1), range(6, 5).doOnComplete(action2)), (a) -> a)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
Note on method signature: since Java doesn't allow creating a generic array with new T[]
, the
implementation of this operator has to create an Object[]
instead. Unfortunately, a
Function<Integer[], R>
passed to the method would trigger a ClassCastException
.
zipIterable
does not operate by default on a particular Scheduler
.T
- the common source value typeR
- the zipped result typesources
- an Iterable of source ObservableSourceszipper
- a function that, when applied to an item emitted by each of the source ObservableSources, results in
an item that will be emitted by the resulting ObservableSourcedelayError
- delay errors signalled by any of the source ObservableSource until all ObservableSources terminatebufferSize
- the number of elements to prefetch from each source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Single<Boolean> all(Predicate<? super T> predicate)
all
does not operate by default on a particular Scheduler
.predicate
- a function that evaluates an item and returns a Booleantrue
if all items emitted by the source ObservableSource satisfy the
predicate; otherwise, false
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> ambWith(ObservableSource<? extends T> other)
ambWith
does not operate by default on a particular Scheduler
.other
- an ObservableSource competing to react first. A subscription to this provided source will occur after
subscribing to the current source.@CheckReturnValue @SchedulerSupport(value="none") public final Single<Boolean> any(Predicate<? super T> predicate)
true
if any item emitted by the source ObservableSource satisfies a
specified condition, otherwise false
. Note: this always emits false
if the
source ObservableSource is empty.
In Rx.Net this is the any
Observer but we renamed it in RxJava to better match Java naming
idioms.
any
does not operate by default on a particular Scheduler
.predicate
- the condition to test items emitted by the source ObservableSourcepredicate
@CheckReturnValue @SchedulerSupport(value="none") public final <R> R as(@NonNull ObservableConverter<T,? extends R> converter)
This allows fluent conversion to any other type.
as
does not operate by default on a particular Scheduler
.History: 2.1.7 - experimental
R
- the resulting object typeconverter
- the function that receives the current Observable instance and returns a valueNullPointerException
- if converter is null@CheckReturnValue @SchedulerSupport(value="none") public final T blockingFirst()
Observable
, or throws
NoSuchElementException
if it emits no items.
blockingFirst
does not operate by default on a particular Scheduler
.Observable
NoSuchElementException
- if this Observable
emits no items@CheckReturnValue @SchedulerSupport(value="none") public final T blockingFirst(T defaultItem)
Observable
, or a default value if it emits no
items.
blockingFirst
does not operate by default on a particular Scheduler
.defaultItem
- a default value to return if this Observable
emits no itemsObservable
, or the default value if it emits no
items@SchedulerSupport(value="none") public final void blockingForEach(Consumer<? super T> onNext)
Observable
in a blocking fashion and invokes the given
Consumer
with each upstream item on the current thread until the
upstream terminates.
Note: the method will only return if the upstream terminates or the current thread is interrupted.
This method executes the Consumer
on the current thread while
subscribe(Consumer)
executes the consumer on the original caller thread of the
sequence.
blockingForEach
does not operate by default on a particular Scheduler
.Exception
into RuntimeException
and throws that. Otherwise, RuntimeException
s and
Error
s are rethrown as they are.onNext
- the Consumer
to invoke for each item emitted by the Observable
RuntimeException
- if an error occurssubscribe(Consumer)
@CheckReturnValue @SchedulerSupport(value="none") public final Iterable<T> blockingIterable()
Observable
into an Iterable
.
blockingIterable
does not operate by default on a particular Scheduler
.Iterable
version of this Observable
@CheckReturnValue @SchedulerSupport(value="none") public final Iterable<T> blockingIterable(int bufferSize)
Observable
into an Iterable
.
blockingIterable
does not operate by default on a particular Scheduler
.bufferSize
- the number of items to prefetch from the current ObservableIterable
version of this Observable
@CheckReturnValue @SchedulerSupport(value="none") public final T blockingLast()
Observable
, or throws
NoSuchElementException
if this Observable
emits no items.
blockingLast
does not operate by default on a particular Scheduler
.Exception
into RuntimeException
and throws that. Otherwise, RuntimeException
s and
Error
s are rethrown as they are.Observable
NoSuchElementException
- if this Observable
emits no items@CheckReturnValue @SchedulerSupport(value="none") public final T blockingLast(T defaultItem)
Observable
, or a default value if it emits no
items.
blockingLast
does not operate by default on a particular Scheduler
.Exception
into RuntimeException
and throws that. Otherwise, RuntimeException
s and
Error
s are rethrown as they are.defaultItem
- a default value to return if this Observable
emits no itemsObservable
, or the default value if it emits no
items@CheckReturnValue @SchedulerSupport(value="none") public final Iterable<T> blockingLatest()
Iterable
that returns the latest item emitted by this Observable
,
waiting if necessary for one to become available.
If this Observable
produces items faster than Iterator.next
takes them,
onNext
events might be skipped, but onError
or onComplete
events are not.
Note also that an onNext
directly followed by onComplete
might hide the onNext
event.
blockingLatest
does not operate by default on a particular Scheduler
.Observable
@CheckReturnValue @SchedulerSupport(value="none") public final Iterable<T> blockingMostRecent(T initialValue)
Iterable
that always returns the item most recently emitted by this
Observable
.
blockingMostRecent
does not operate by default on a particular Scheduler
.initialValue
- the initial value that the Iterable
sequence will yield if this
Observable
has not yet emitted an itemIterable
that on each iteration returns the item that this Observable
has most recently emitted@CheckReturnValue @SchedulerSupport(value="none") public final Iterable<T> blockingNext()
Iterable
that blocks until this Observable
emits another item, then
returns that item.
blockingNext
does not operate by default on a particular Scheduler
.Iterable
that blocks upon each iteration until this Observable
emits
a new item, whereupon the Iterable returns that item@CheckReturnValue @SchedulerSupport(value="none") public final T blockingSingle()
Observable
completes after emitting a single item, return that item, otherwise
throw a NoSuchElementException
.
blockingSingle
does not operate by default on a particular Scheduler
.Exception
into RuntimeException
and throws that. Otherwise, RuntimeException
s and
Error
s are rethrown as they are.Observable
@CheckReturnValue @SchedulerSupport(value="none") public final T blockingSingle(T defaultItem)
Observable
completes after emitting a single item, return that item; if it emits
more than one item, throw an IllegalArgumentException
; if it emits no items, return a default
value.
blockingSingle
does not operate by default on a particular Scheduler
.Exception
into RuntimeException
and throws that. Otherwise, RuntimeException
s and
Error
s are rethrown as they are.defaultItem
- a default value to return if this Observable
emits no itemsObservable
, or the default value if it emits no
items@CheckReturnValue @SchedulerSupport(value="none") public final Future<T> toFuture()
Future
representing the only value emitted by this Observable
.
If the Observable
emits more than one item, Future
will receive an
IndexOutOfBoundsException
. If the Observable
is empty, Future
will receive an NoSuchElementException
. The Observable
source has to terminate in order
for the returned Future
to terminate as well.
If the Observable
may emit more than one item, use Observable.toList().toFuture()
.
toFuture
does not operate by default on a particular Scheduler
.Future
that expects a single item to be emitted by this Observable
@SchedulerSupport(value="none") public final void blockingSubscribe()
Note that calling this method will block the caller thread until the upstream terminates normally or with an error. Therefore, calling this method from special threads such as the Android Main Thread or the Swing Event Dispatch Thread is not recommended.
blockingSubscribe
does not operate by default on a particular Scheduler
.@SchedulerSupport(value="none") public final void blockingSubscribe(Consumer<? super T> onNext)
If the Observable
emits an error, it is wrapped into an
OnErrorNotImplementedException
and routed to the RxJavaPlugins.onError handler.
Using the overloads blockingSubscribe(Consumer, Consumer)
or blockingSubscribe(Consumer, Consumer, Action)
instead is recommended.
Note that calling this method will block the caller thread until the upstream terminates normally or with an error. Therefore, calling this method from special threads such as the Android Main Thread or the Swing Event Dispatch Thread is not recommended.
blockingSubscribe
does not operate by default on a particular Scheduler
.onNext
- the callback action for each source valueblockingSubscribe(Consumer, Consumer)
,
blockingSubscribe(Consumer, Consumer, Action)
@SchedulerSupport(value="none") public final void blockingSubscribe(Consumer<? super T> onNext, Consumer<? super Throwable> onError)
Note that calling this method will block the caller thread until the upstream terminates normally or with an error. Therefore, calling this method from special threads such as the Android Main Thread or the Swing Event Dispatch Thread is not recommended.
blockingSubscribe
does not operate by default on a particular Scheduler
.onNext
- the callback action for each source valueonError
- the callback action for an error eventblockingSubscribe(Consumer, Consumer, Action)
@SchedulerSupport(value="none") public final void blockingSubscribe(Consumer<? super T> onNext, Consumer<? super Throwable> onError, Action onComplete)
Note that calling this method will block the caller thread until the upstream terminates normally or with an error. Therefore, calling this method from special threads such as the Android Main Thread or the Swing Event Dispatch Thread is not recommended.
blockingSubscribe
does not operate by default on a particular Scheduler
.onNext
- the callback action for each source valueonError
- the callback action for an error eventonComplete
- the callback action for the completion event.@SchedulerSupport(value="none") public final void blockingSubscribe(Observer<? super T> observer)
Observer
methods on the current thread.
Note that calling this method will block the caller thread until the upstream terminates
normally, with an error or the Observer
disposes the Disposable
it receives via
Observer.onSubscribe(Disposable)
.
Therefore, calling this method from special threads such as the
Android Main Thread or the Swing Event Dispatch Thread is not recommended.
blockingSubscribe
does not operate by default on a particular Scheduler
.observer
- the Observer
instance to forward events and calls to in the current thread@CheckReturnValue @SchedulerSupport(value="none") public final Observable<List<T>> buffer(int count)
count
items. When the source
ObservableSource completes, the resulting ObservableSource emits the current buffer and propagates the notification
from the source ObservableSource. Note that if the source ObservableSource issues an onError notification
the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.count
- the maximum number of items in each buffer before it should be emittedcount
items from the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<List<T>> buffer(int count, int skip)
skip
items, each containing count
items. When the source
ObservableSource completes, the resulting ObservableSource emits the current buffer and propagates the notification
from the source ObservableSource. Note that if the source ObservableSource issues an onError notification
the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.count
- the maximum size of each buffer before it should be emittedskip
- how many items emitted by the source ObservableSource should be skipped before starting a new
buffer. Note that when skip
and count
are equal, this is the same operation as
buffer(int)
.skip
item from the source ObservableSource and
containing at most count
items@CheckReturnValue @SchedulerSupport(value="none") public final <U extends Collection<? super T>> Observable<U> buffer(int count, int skip, Callable<U> bufferSupplier)
skip
items, each containing count
items. When the source
ObservableSource completes, the resulting ObservableSource emits the current buffer and propagates the notification
from the source ObservableSource. Note that if the source ObservableSource issues an onError notification
the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.U
- the collection subclass type to buffer intocount
- the maximum size of each buffer before it should be emittedskip
- how many items emitted by the source ObservableSource should be skipped before starting a new
buffer. Note that when skip
and count
are equal, this is the same operation as
buffer(int)
.bufferSupplier
- a factory function that returns an instance of the collection subclass to be used and returned
as the bufferskip
item from the source ObservableSource and
containing at most count
items@CheckReturnValue @SchedulerSupport(value="none") public final <U extends Collection<? super T>> Observable<U> buffer(int count, Callable<U> bufferSupplier)
count
items. When the source
ObservableSource completes, the resulting ObservableSource emits the current buffer and propagates the notification
from the source ObservableSource. Note that if the source ObservableSource issues an onError notification
the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.U
- the collection subclass type to buffer intocount
- the maximum number of items in each buffer before it should be emittedbufferSupplier
- a factory function that returns an instance of the collection subclass to be used and returned
as the buffercount
items from the source ObservableSource@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<List<T>> buffer(long timespan, long timeskip, TimeUnit unit)
timeskip
argument. It emits
each buffer after a fixed timespan, specified by the timespan
argument. When the source
ObservableSource completes, the resulting ObservableSource emits the current buffer and propagates the notification
from the source ObservableSource. Note that if the source ObservableSource issues an onError notification
the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
operates by default on the computation
Scheduler
.timespan
- the period of time each buffer collects items before it is emittedtimeskip
- the period of time after which a new buffer will be createdunit
- the unit of time that applies to the timespan
and timeskip
arguments@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<List<T>> buffer(long timespan, long timeskip, TimeUnit unit, Scheduler scheduler)
timeskip
argument, and on the
specified scheduler
. It emits each buffer after a fixed timespan, specified by the
timespan
argument. When the source ObservableSource completes, the resulting ObservableSource emits the
current buffer and propagates the notification from the source ObservableSource. Note that if the source
ObservableSource issues an onError notification the event is passed on immediately without first emitting the
buffer it is in the process of assembling.
Scheduler
this operator will use.timespan
- the period of time each buffer collects items before it is emittedtimeskip
- the period of time after which a new buffer will be createdunit
- the unit of time that applies to the timespan
and timeskip
argumentsscheduler
- the Scheduler
to use when determining the end and start of a buffer@CheckReturnValue @SchedulerSupport(value="custom") public final <U extends Collection<? super T>> Observable<U> buffer(long timespan, long timeskip, TimeUnit unit, Scheduler scheduler, Callable<U> bufferSupplier)
timeskip
argument, and on the
specified scheduler
. It emits each buffer after a fixed timespan, specified by the
timespan
argument. When the source ObservableSource completes, the resulting ObservableSource emits the
current buffer and propagates the notification from the source ObservableSource. Note that if the source
ObservableSource issues an onError notification the event is passed on immediately without first emitting the
buffer it is in the process of assembling.
Scheduler
this operator will use.U
- the collection subclass type to buffer intotimespan
- the period of time each buffer collects items before it is emittedtimeskip
- the period of time after which a new buffer will be createdunit
- the unit of time that applies to the timespan
and timeskip
argumentsscheduler
- the Scheduler
to use when determining the end and start of a bufferbufferSupplier
- a factory function that returns an instance of the collection subclass to be used and returned
as the buffer@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<List<T>> buffer(long timespan, TimeUnit unit)
timespan
argument. When the source ObservableSource completes, the resulting ObservableSource emits the
current buffer and propagates the notification from the source ObservableSource. Note that if the source
ObservableSource issues an onError notification the event is passed on immediately without first emitting the
buffer it is in the process of assembling.
buffer
operates by default on the computation
Scheduler
.timespan
- the period of time each buffer collects items before it is emitted and replaced with a new
bufferunit
- the unit of time that applies to the timespan
argument@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<List<T>> buffer(long timespan, TimeUnit unit, int count)
timespan
argument or a maximum size specified by the count
argument (whichever is reached
first). When the source ObservableSource completes, the resulting ObservableSource emits the current buffer and
propagates the notification from the source ObservableSource. Note that if the source ObservableSource issues an
onError notification the event is passed on immediately without first emitting the buffer it is in the process of
assembling.
buffer
operates by default on the computation
Scheduler
.timespan
- the period of time each buffer collects items before it is emitted and replaced with a new
bufferunit
- the unit of time which applies to the timespan
argumentcount
- the maximum size of each buffer before it is emitted@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<List<T>> buffer(long timespan, TimeUnit unit, Scheduler scheduler, int count)
timespan
argument as measured on the specified scheduler
, or a maximum size specified by
the count
argument (whichever is reached first). When the source ObservableSource completes, the resulting
ObservableSource emits the current buffer and propagates the notification from the source ObservableSource. Note
that if the source ObservableSource issues an onError notification the event is passed on immediately without
first emitting the buffer it is in the process of assembling.
Scheduler
this operator will use.timespan
- the period of time each buffer collects items before it is emitted and replaced with a new
bufferunit
- the unit of time which applies to the timespan
argumentscheduler
- the Scheduler
to use when determining the end and start of a buffercount
- the maximum size of each buffer before it is emitted@CheckReturnValue @SchedulerSupport(value="custom") public final <U extends Collection<? super T>> Observable<U> buffer(long timespan, TimeUnit unit, Scheduler scheduler, int count, Callable<U> bufferSupplier, boolean restartTimerOnMaxSize)
timespan
argument as measured on the specified scheduler
, or a maximum size specified by
the count
argument (whichever is reached first). When the source ObservableSource completes, the resulting
ObservableSource emits the current buffer and propagates the notification from the source ObservableSource. Note
that if the source ObservableSource issues an onError notification the event is passed on immediately without
first emitting the buffer it is in the process of assembling.
Scheduler
this operator will use.U
- the collection subclass type to buffer intotimespan
- the period of time each buffer collects items before it is emitted and replaced with a new
bufferunit
- the unit of time which applies to the timespan
argumentscheduler
- the Scheduler
to use when determining the end and start of a buffercount
- the maximum size of each buffer before it is emittedbufferSupplier
- a factory function that returns an instance of the collection subclass to be used and returned
as the bufferrestartTimerOnMaxSize
- if true the time window is restarted when the max capacity of the current buffer
is reached@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<List<T>> buffer(long timespan, TimeUnit unit, Scheduler scheduler)
timespan
argument and on the specified scheduler
. When the source ObservableSource completes,
the resulting ObservableSource emits the current buffer and propagates the notification from the source
ObservableSource. Note that if the source ObservableSource issues an onError notification the event is passed on
immediately without first emitting the buffer it is in the process of assembling.
Scheduler
this operator will use.timespan
- the period of time each buffer collects items before it is emitted and replaced with a new
bufferunit
- the unit of time which applies to the timespan
argumentscheduler
- the Scheduler
to use when determining the end and start of a buffer@CheckReturnValue @SchedulerSupport(value="none") public final <TOpening,TClosing> Observable<List<T>> buffer(ObservableSource<? extends TOpening> openingIndicator, Function<? super TOpening,? extends ObservableSource<? extends TClosing>> closingIndicator)
openingIndicator
ObservableSource emits an
item, and closes when the ObservableSource returned from closingIndicator
emits an item. If any of the
source ObservableSource, openingIndicator
or closingIndicator
issues an onError notification the
event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.TOpening
- the element type of the buffer-opening ObservableSourceTClosing
- the element type of the individual buffer-closing ObservableSourcesopeningIndicator
- the ObservableSource that, when it emits an item, causes a new buffer to be createdclosingIndicator
- the Function
that is used to produce an ObservableSource for every buffer created. When this
ObservableSource emits an item, the associated buffer is emitted.@CheckReturnValue @SchedulerSupport(value="none") public final <TOpening,TClosing,U extends Collection<? super T>> Observable<U> buffer(ObservableSource<? extends TOpening> openingIndicator, Function<? super TOpening,? extends ObservableSource<? extends TClosing>> closingIndicator, Callable<U> bufferSupplier)
openingIndicator
ObservableSource emits an
item, and closes when the ObservableSource returned from closingIndicator
emits an item. If any of the
source ObservableSource, openingIndicator
or closingIndicator
issues an onError notification the
event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.U
- the collection subclass type to buffer intoTOpening
- the element type of the buffer-opening ObservableSourceTClosing
- the element type of the individual buffer-closing ObservableSourcesopeningIndicator
- the ObservableSource that, when it emits an item, causes a new buffer to be createdclosingIndicator
- the Function
that is used to produce an ObservableSource for every buffer created. When this
ObservableSource emits an item, the associated buffer is emitted.bufferSupplier
- a factory function that returns an instance of the collection subclass to be used and returned
as the buffer@CheckReturnValue @SchedulerSupport(value="none") public final <B> Observable<List<T>> buffer(ObservableSource<B> boundary)
Completion of either the source or the boundary ObservableSource causes the returned ObservableSource to emit the latest buffer and complete. If either the source ObservableSource or the boundary ObservableSource issues an onError notification the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.B
- the boundary value type (ignored)boundary
- the boundary ObservableSourcebuffer(ObservableSource, int)
,
ReactiveX operators documentation: Buffer@CheckReturnValue @SchedulerSupport(value="none") public final <B> Observable<List<T>> buffer(ObservableSource<B> boundary, int initialCapacity)
Completion of either the source or the boundary ObservableSource causes the returned ObservableSource to emit the latest buffer and complete. If either the source ObservableSource or the boundary ObservableSource issues an onError notification the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.B
- the boundary value type (ignored)boundary
- the boundary ObservableSourceinitialCapacity
- the initial capacity of each buffer chunkbuffer(ObservableSource)
@CheckReturnValue @SchedulerSupport(value="none") public final <B,U extends Collection<? super T>> Observable<U> buffer(ObservableSource<B> boundary, Callable<U> bufferSupplier)
Completion of either the source or the boundary ObservableSource causes the returned ObservableSource to emit the latest buffer and complete. If either the source ObservableSource or the boundary ObservableSource issues an onError notification the event is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.U
- the collection subclass type to buffer intoB
- the boundary value type (ignored)boundary
- the boundary ObservableSourcebufferSupplier
- a factory function that returns an instance of the collection subclass to be used and returned
as the bufferbuffer(ObservableSource, int)
,
ReactiveX operators documentation: Buffer@CheckReturnValue @SchedulerSupport(value="none") public final <B> Observable<List<T>> buffer(Callable<? extends ObservableSource<B>> boundarySupplier)
boundarySupplier
emits an item.
If either the source ObservableSource
or the boundary ObservableSource
issues an onError
notification the event
is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.B
- the value type of the boundary-providing ObservableSourceboundarySupplier
- a Callable
that produces an ObservableSource that governs the boundary between buffers.
Whenever the supplied ObservableSource
emits an item, buffer
emits the current buffer and
begins to fill a new oneclosingIndicator
argument emits an item@CheckReturnValue @SchedulerSupport(value="none") public final <B,U extends Collection<? super T>> Observable<U> buffer(Callable<? extends ObservableSource<B>> boundarySupplier, Callable<U> bufferSupplier)
boundarySupplier
emits an item.
If either the source ObservableSource
or the boundary ObservableSource
issues an onError
notification the event
is passed on immediately without first emitting the buffer it is in the process of assembling.
buffer
does not operate by default on a particular Scheduler
.U
- the collection subclass type to buffer intoB
- the value type of the boundary-providing ObservableSourceboundarySupplier
- a Callable
that produces an ObservableSource that governs the boundary between buffers.
Whenever the supplied ObservableSource
emits an item, buffer
emits the current buffer and
begins to fill a new onebufferSupplier
- a factory function that returns an instance of the collection subclass to be used and returned
as the bufferclosingIndicator
argument emits an item@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> cache()
This is useful when you want an ObservableSource to cache responses and you can't control the
subscribe/dispose behavior of all the Observer
s.
The operator subscribes only when the first downstream subscriber subscribes and maintains
a single subscription towards this ObservableSource. In contrast, the operator family of replay()
that return a ConnectableObservable
require an explicit call to ConnectableObservable.connect()
.
Note: You sacrifice the ability to dispose the origin when you use the cache
Observer so be careful not to use this Observer on ObservableSources that emit an infinite or very large number
of items that will use up memory.
A possible workaround is to apply `takeUntil` with a predicate or
another source before (and perhaps after) the application of cache().
AtomicBoolean shouldStop = new AtomicBoolean();
source.takeUntil(v -> shouldStop.get())
.cache()
.takeUntil(v -> shouldStop.get())
.subscribe(...);
Since the operator doesn't allow clearing the cached values either, the possible workaround is
to forget all references to it via onTerminateDetach()
applied along with the previous
workaround:
AtomicBoolean shouldStop = new AtomicBoolean();
source.takeUntil(v -> shouldStop.get())
.onTerminateDetach()
.cache()
.takeUntil(v -> shouldStop.get())
.onTerminateDetach()
.subscribe(...);
cache
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> cacheWithInitialCapacity(int initialCapacity)
This is useful when you want an ObservableSource to cache responses and you can't control the
subscribe/dispose behavior of all the Observer
s.
The operator subscribes only when the first downstream subscriber subscribes and maintains
a single subscription towards this ObservableSource. In contrast, the operator family of replay()
that return a ConnectableObservable
require an explicit call to ConnectableObservable.connect()
.
Note: You sacrifice the ability to dispose the origin when you use the cache
Observer so be careful not to use this Observer on ObservableSources that emit an infinite or very large number
of items that will use up memory.
A possible workaround is to apply `takeUntil` with a predicate or
another source before (and perhaps after) the application of cache().
AtomicBoolean shouldStop = new AtomicBoolean();
source.takeUntil(v -> shouldStop.get())
.cache()
.takeUntil(v -> shouldStop.get())
.subscribe(...);
Since the operator doesn't allow clearing the cached values either, the possible workaround is
to forget all references to it via onTerminateDetach()
applied along with the previous
workaround:
AtomicBoolean shouldStop = new AtomicBoolean();
source.takeUntil(v -> shouldStop.get())
.onTerminateDetach()
.cache()
.takeUntil(v -> shouldStop.get())
.onTerminateDetach()
.subscribe(...);
cacheWithInitialCapacity
does not operate by default on a particular Scheduler
.
Note: The capacity hint is not an upper bound on cache size. For that, consider
replay(int)
in combination with ConnectableObservable.autoConnect()
or similar.
initialCapacity
- hint for number of items to cache (for optimizing underlying data structure)@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<U> cast(Class<U> clazz)
cast
does not operate by default on a particular Scheduler
.U
- the output value type cast toclazz
- the target class type that cast
will cast the items emitted by the source ObservableSource
into before emitting them from the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <U> Single<U> collect(Callable<? extends U> initialValueSupplier, BiConsumer<? super U,? super T> collector)
This is a simplified version of reduce
that does not need to return the state on each pass.
Note that this operator requires the upstream to signal onComplete
for the accumulator object to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
collect
does not operate by default on a particular Scheduler
.U
- the accumulator and output typeinitialValueSupplier
- the mutable data structure that will collect the itemscollector
- a function that accepts the state
and an emitted item, and modifies state
accordingly@CheckReturnValue @SchedulerSupport(value="none") public final <U> Single<U> collectInto(U initialValue, BiConsumer<? super U,? super T> collector)
This is a simplified version of reduce
that does not need to return the state on each pass.
Note that this operator requires the upstream to signal onComplete
for the accumulator object to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
collectInto
does not operate by default on a particular Scheduler
.U
- the accumulator and output typeinitialValue
- the mutable data structure that will collect the itemscollector
- a function that accepts the state
and an emitted item, and modifies state
accordingly@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> compose(ObservableTransformer<? super T,? extends R> composer)
This method operates on the ObservableSource itself whereas lift(io.reactivex.ObservableOperator<? extends R, ? super T>)
operates on the ObservableSource's
Observers.
If the operator you are creating is designed to act on the individual items emitted by a source
ObservableSource, use lift(io.reactivex.ObservableOperator<? extends R, ? super T>)
. If your operator is designed to transform the source ObservableSource as a whole
(for instance, by applying a particular set of existing RxJava operators to it) use compose
.
compose
does not operate by default on a particular Scheduler
.R
- the value type of the output ObservableSourcecomposer
- implements the function that transforms the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper)
concatMap
does not operate by default on a particular Scheduler
.R
- the type of the inner ObservableSource sources and thus the output typemapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper, int prefetch)
concatMap
does not operate by default on a particular Scheduler
.R
- the type of the inner ObservableSource sources and thus the output typemapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourceprefetch
- the number of elements to prefetch from the current Observable@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper)
concatMapDelayError
does not operate by default on a particular Scheduler
.R
- the result value typemapper
- the function that maps the items of this ObservableSource into the inner ObservableSources.@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper, int prefetch, boolean tillTheEnd)
concatMapDelayError
does not operate by default on a particular Scheduler
.R
- the result value typemapper
- the function that maps the items of this ObservableSource into the inner ObservableSources.prefetch
- the number of elements to prefetch from the current ObservabletillTheEnd
- if true, all errors from the outer and inner ObservableSource sources are delayed until the end,
if false, an error from the main source is signalled when the current ObservableSource source terminates@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapEager(Function<? super T,? extends ObservableSource<? extends R>> mapper)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.R
- the value typemapper
- the function that maps a sequence of values into a sequence of ObservableSources that will be
eagerly concatenated@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapEager(Function<? super T,? extends ObservableSource<? extends R>> mapper, int maxConcurrency, int prefetch)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.R
- the value typemapper
- the function that maps a sequence of values into a sequence of ObservableSources that will be
eagerly concatenatedmaxConcurrency
- the maximum number of concurrent subscribed ObservableSourcesprefetch
- hints about the number of expected values from each inner ObservableSource, must be positive@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapEagerDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper, boolean tillTheEnd)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.R
- the value typemapper
- the function that maps a sequence of values into a sequence of ObservableSources that will be
eagerly concatenatedtillTheEnd
- if true, all errors from the outer and inner ObservableSource sources are delayed until the end,
if false, an error from the main source is signalled when the current ObservableSource source terminates@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapEagerDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper, int maxConcurrency, int prefetch, boolean tillTheEnd)
Eager concatenation means that once a subscriber subscribes, this operator subscribes to all of the source ObservableSources. The operator buffers the values emitted by these ObservableSources and then drains them in order, each one after the previous one completes.
Scheduler
.R
- the value typemapper
- the function that maps a sequence of values into a sequence of ObservableSources that will be
eagerly concatenatedmaxConcurrency
- the maximum number of concurrent subscribed ObservableSourcesprefetch
- the number of elements to prefetch from each source ObservableSourcetillTheEnd
- if true, exceptions from the current Observable and all the inner ObservableSources are delayed until
all of them terminate, if false, exception from the current Observable is delayed until the
currently running ObservableSource terminates@CheckReturnValue @SchedulerSupport(value="none") public final Completable concatMapCompletable(Function<? super T,? extends CompletableSource> mapper)
concatMapCompletable
does not operate by default on a particular Scheduler
.History: 2.1.6 - experimental
mapper
- a function that, when applied to an item emitted by the source ObservableSource, returns a CompletableSourceonComplete
when the upstream and all CompletableSources complete@CheckReturnValue @SchedulerSupport(value="none") public final Completable concatMapCompletable(Function<? super T,? extends CompletableSource> mapper, int capacityHint)
concatMapCompletable
does not operate by default on a particular Scheduler
.History: 2.1.6 - experimental
mapper
- a function that, when applied to an item emitted by the source ObservableSource, returns a CompletableSourcecapacityHint
- the number of upstream items expected to be buffered until the current CompletableSource, mapped from
the current item, completes.onComplete
when the upstream and all CompletableSources complete@CheckReturnValue @SchedulerSupport(value="none") public final Completable concatMapCompletableDelayError(Function<? super T,? extends CompletableSource> mapper)
CompletableSource
s and subscribes to them one after the
other terminates, delaying all errors till both this Observable
and all
inner CompletableSource
s terminate.
concatMapCompletableDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
mapper
- the function called with the upstream item and should return
a CompletableSource
to become the next source to
be subscribed toconcatMapCompletable(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final Completable concatMapCompletableDelayError(Function<? super T,? extends CompletableSource> mapper, boolean tillTheEnd)
CompletableSource
s and subscribes to them one after the
other terminates, optionally delaying all errors till both this Observable
and all
inner CompletableSource
s terminate.
concatMapCompletableDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
mapper
- the function called with the upstream item and should return
a CompletableSource
to become the next source to
be subscribed totillTheEnd
- If true
, errors from this Observable
or any of the
inner CompletableSource
s are delayed until all
of them terminate. If false
, an error from this
Observable
is delayed until the current inner
CompletableSource
terminates and only then is
it emitted to the downstream.concatMapCompletable(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final Completable concatMapCompletableDelayError(Function<? super T,? extends CompletableSource> mapper, boolean tillTheEnd, int prefetch)
CompletableSource
s and subscribes to them one after the
other terminates, optionally delaying all errors till both this Observable
and all
inner CompletableSource
s terminate.
concatMapCompletableDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
mapper
- the function called with the upstream item and should return
a CompletableSource
to become the next source to
be subscribed totillTheEnd
- If true
, errors from this Observable
or any of the
inner CompletableSource
s are delayed until all
of them terminate. If false
, an error from this
Observable
is delayed until the current inner
CompletableSource
terminates and only then is
it emitted to the downstream.prefetch
- The number of upstream items to prefetch so that fresh items are
ready to be mapped when a previous CompletableSource
terminates.
The operator replenishes after half of the prefetch amount has been consumed
and turned into CompletableSource
s.concatMapCompletable(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<U> concatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper)
concatMapIterable
does not operate by default on a particular Scheduler
.U
- the type of item emitted by the resulting ObservableSourcemapper
- a function that returns an Iterable sequence of values for when given an item emitted by the
source ObservableSourcecollectionSelector
@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<U> concatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper, int prefetch)
concatMapIterable
does not operate by default on a particular Scheduler
.U
- the type of item emitted by the resulting ObservableSourcemapper
- a function that returns an Iterable sequence of values for when given an item emitted by the
source ObservableSourceprefetch
- the number of elements to prefetch from the current ObservablecollectionSelector
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper)
MaybeSource
s and subscribes to them one after the
other succeeds or completes, emits their success value if available or terminates immediately if
either this Observable
or the current inner MaybeSource
fail.
concatMapMaybe
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner MaybeSource
smapper
- the function called with the upstream item and should return
a MaybeSource
to become the next source to
be subscribed toconcatMapMaybeDelayError(Function)
,
concatMapMaybe(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper, int prefetch)
MaybeSource
s and subscribes to them one after the
other succeeds or completes, emits their success value if available or terminates immediately if
either this Observable
or the current inner MaybeSource
fail.
concatMapMaybe
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner MaybeSource
smapper
- the function called with the upstream item and should return
a MaybeSource
to become the next source to
be subscribed toprefetch
- The number of upstream items to prefetch so that fresh items are
ready to be mapped when a previous MaybeSource
terminates.
The operator replenishes after half of the prefetch amount has been consumed
and turned into MaybeSource
s.concatMapMaybe(Function)
,
concatMapMaybeDelayError(Function, boolean, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapMaybeDelayError(Function<? super T,? extends MaybeSource<? extends R>> mapper)
MaybeSource
s and subscribes to them one after the
other terminates, emits their success value if available and delaying all errors
till both this Observable
and all inner MaybeSource
s terminate.
concatMapMaybeDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner MaybeSource
smapper
- the function called with the upstream item and should return
a MaybeSource
to become the next source to
be subscribed toconcatMapMaybe(Function)
,
concatMapMaybeDelayError(Function, boolean)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapMaybeDelayError(Function<? super T,? extends MaybeSource<? extends R>> mapper, boolean tillTheEnd)
MaybeSource
s and subscribes to them one after the
other terminates, emits their success value if available and optionally delaying all errors
till both this Observable
and all inner MaybeSource
s terminate.
concatMapMaybeDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner MaybeSource
smapper
- the function called with the upstream item and should return
a MaybeSource
to become the next source to
be subscribed totillTheEnd
- If true
, errors from this Observable
or any of the
inner MaybeSource
s are delayed until all
of them terminate. If false
, an error from this
Observable
is delayed until the current inner
MaybeSource
terminates and only then is
it emitted to the downstream.concatMapMaybe(Function, int)
,
concatMapMaybeDelayError(Function, boolean, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapMaybeDelayError(Function<? super T,? extends MaybeSource<? extends R>> mapper, boolean tillTheEnd, int prefetch)
MaybeSource
s and subscribes to them one after the
other terminates, emits their success value if available and optionally delaying all errors
till both this Observable
and all inner MaybeSource
s terminate.
concatMapMaybeDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner MaybeSource
smapper
- the function called with the upstream item and should return
a MaybeSource
to become the next source to
be subscribed totillTheEnd
- If true
, errors from this Observable
or any of the
inner MaybeSource
s are delayed until all
of them terminate. If false
, an error from this
Observable
is delayed until the current inner
MaybeSource
terminates and only then is
it emitted to the downstream.prefetch
- The number of upstream items to prefetch so that fresh items are
ready to be mapped when a previous MaybeSource
terminates.
The operator replenishes after half of the prefetch amount has been consumed
and turned into MaybeSource
s.concatMapMaybe(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper)
SingleSource
s and subscribes to them one after the
other succeeds, emits their success values or terminates immediately if
either this Observable
or the current inner SingleSource
fail.
concatMapSingle
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner SingleSource
smapper
- the function called with the upstream item and should return
a SingleSource
to become the next source to
be subscribed toconcatMapSingleDelayError(Function)
,
concatMapSingle(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper, int prefetch)
SingleSource
s and subscribes to them one after the
other succeeds, emits their success values or terminates immediately if
either this Observable
or the current inner SingleSource
fail.
concatMapSingle
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner SingleSource
smapper
- the function called with the upstream item and should return
a SingleSource
to become the next source to
be subscribed toprefetch
- The number of upstream items to prefetch so that fresh items are
ready to be mapped when a previous SingleSource
terminates.
The operator replenishes after half of the prefetch amount has been consumed
and turned into SingleSource
s.concatMapSingle(Function)
,
concatMapSingleDelayError(Function, boolean, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapSingleDelayError(Function<? super T,? extends SingleSource<? extends R>> mapper)
SingleSource
s and subscribes to them one after the
other succeeds or fails, emits their success values and delays all errors
till both this Observable
and all inner SingleSource
s terminate.
concatMapSingleDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner SingleSource
smapper
- the function called with the upstream item and should return
a SingleSource
to become the next source to
be subscribed toconcatMapSingle(Function)
,
concatMapSingleDelayError(Function, boolean)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapSingleDelayError(Function<? super T,? extends SingleSource<? extends R>> mapper, boolean tillTheEnd)
SingleSource
s and subscribes to them one after the
other succeeds or fails, emits their success values and optionally delays all errors
till both this Observable
and all inner SingleSource
s terminate.
concatMapSingleDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner SingleSource
smapper
- the function called with the upstream item and should return
a SingleSource
to become the next source to
be subscribed totillTheEnd
- If true
, errors from this Observable
or any of the
inner SingleSource
s are delayed until all
of them terminate. If false
, an error from this
Observable
is delayed until the current inner
SingleSource
terminates and only then is
it emitted to the downstream.concatMapSingle(Function, int)
,
concatMapSingleDelayError(Function, boolean, int)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> concatMapSingleDelayError(Function<? super T,? extends SingleSource<? extends R>> mapper, boolean tillTheEnd, int prefetch)
SingleSource
s and subscribes to them one after the
other succeeds or fails, emits their success values and optionally delays errors
till both this Observable
and all inner SingleSource
s terminate.
concatMapSingleDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the result type of the inner SingleSource
smapper
- the function called with the upstream item and should return
a SingleSource
to become the next source to
be subscribed totillTheEnd
- If true
, errors from this Observable
or any of the
inner SingleSource
s are delayed until all
of them terminate. If false
, an error from this
Observable
is delayed until the current inner
SingleSource
terminates and only then is
it emitted to the downstream.prefetch
- The number of upstream items to prefetch so that fresh items are
ready to be mapped when a previous SingleSource
terminates.
The operator replenishes after half of the prefetch amount has been consumed
and turned into SingleSource
s.concatMapSingle(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> concatWith(ObservableSource<? extends T> other)
concatWith
does not operate by default on a particular Scheduler
.other
- an ObservableSource to be concatenated after the current@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> concatWith(@NonNull SingleSource<? extends T> other)
Observable
that emits the items from this Observable
followed by the success item or error event
of the other SingleSource
.
concatWith
does not operate by default on a particular Scheduler
.History: 2.1.10 - experimental
other
- the SingleSource whose signal should be emitted after this Observable
completes normally.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> concatWith(@NonNull MaybeSource<? extends T> other)
Observable
that emits the items from this Observable
followed by the success item or terminal events
of the other MaybeSource
.
concatWith
does not operate by default on a particular Scheduler
.History: 2.1.10 - experimental
other
- the MaybeSource whose signal should be emitted after this Observable completes normally.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> concatWith(@NonNull CompletableSource other)
Observable
that emits items from this Observable
and when it completes normally, the
other CompletableSource
is subscribed to and the returned Observable
emits its terminal events.
concatWith
does not operate by default on a particular Scheduler
.History: 2.1.10 - experimental
other
- the CompletableSource
to subscribe to once the current Observable
completes normally@CheckReturnValue @SchedulerSupport(value="none") public final Single<Boolean> contains(Object element)
contains
does not operate by default on a particular Scheduler
.element
- the item to search for in the emissions from the source ObservableSourcetrue
if the specified item is emitted by the source ObservableSource,
or false
if the source ObservableSource completes without emitting that item@CheckReturnValue @SchedulerSupport(value="none") public final Single<Long> count()
count
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<T> debounce(Function<? super T,? extends ObservableSource<U>> debounceSelector)
The delivery of the item happens on the thread of the first onNext
or onComplete
signal of the generated ObservableSource
sequence,
which if takes too long, a newer item may arrive from the upstream, causing the
generated sequence to get disposed, which may also interrupt any downstream blocking operation
(yielding an InterruptedException
). It is recommended processing items
that may take long time to be moved to another thread via observeOn(io.reactivex.Scheduler)
applied after
debounce
itself.
debounce
does not operate by default on a particular Scheduler
.U
- the debounce value type (ignored)debounceSelector
- function to retrieve a sequence that indicates the throttle duration for each item@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> debounce(long timeout, TimeUnit unit)
Note: If items keep being emitted by the source ObservableSource faster than the timeout then no items will be emitted by the resulting ObservableSource.
Delivery of the item after the grace period happens on the computation
Scheduler
's
Worker
which if takes too long, a newer item may arrive from the upstream, causing the
Worker
's task to get disposed, which may also interrupt any downstream blocking operation
(yielding an InterruptedException
). It is recommended processing items
that may take long time to be moved to another thread via observeOn(io.reactivex.Scheduler)
applied after
debounce
itself.
debounce
operates by default on the computation
Scheduler
.timeout
- the length of the window of time that must pass after the emission of an item from the source
ObservableSource in which that ObservableSource emits no items in order for the item to be emitted by the
resulting ObservableSourceunit
- the unit of time for the specified timeout
throttleWithTimeout(long, TimeUnit)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> debounce(long timeout, TimeUnit unit, Scheduler scheduler)
Note: If items keep being emitted by the source ObservableSource faster than the timeout then no items will be emitted by the resulting ObservableSource.
Delivery of the item after the grace period happens on the given Scheduler
's
Worker
which if takes too long, a newer item may arrive from the upstream, causing the
Worker
's task to get disposed, which may also interrupt any downstream blocking operation
(yielding an InterruptedException
). It is recommended processing items
that may take long time to be moved to another thread via observeOn(io.reactivex.Scheduler)
applied after
debounce
itself.
Scheduler
this operator will use.timeout
- the time each item has to be "the most recent" of those emitted by the source ObservableSource to
ensure that it's not droppedunit
- the unit of time for the specified timeout
scheduler
- the Scheduler
to use internally to manage the timers that handle the timeout for each
itemthrottleWithTimeout(long, TimeUnit, Scheduler)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> defaultIfEmpty(T defaultItem)
defaultIfEmpty
does not operate by default on a particular Scheduler
.defaultItem
- the item to emit if the source ObservableSource emits no items@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<T> delay(Function<? super T,? extends ObservableSource<U>> itemDelay)
Note: the resulting ObservableSource will immediately propagate any onError
notification
from the source ObservableSource.
delay
does not operate by default on a particular Scheduler
.U
- the item delay value type (ignored)itemDelay
- a function that returns an ObservableSource for each item emitted by the source ObservableSource, which is
then used to delay the emission of that item by the resulting ObservableSource until the ObservableSource
returned from itemDelay
emits an item@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> delay(long delay, TimeUnit unit)
delay
operates by default on the computation
Scheduler
.delay
- the delay to shift the source byunit
- the TimeUnit
in which period
is defined@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> delay(long delay, TimeUnit unit, boolean delayError)
delayError
is true, error notifications will also be delayed.
delay
operates by default on the computation
Scheduler
.delay
- the delay to shift the source byunit
- the TimeUnit
in which period
is defineddelayError
- if true, the upstream exception is signalled with the given delay, after all preceding normal elements,
if false, the upstream exception is signalled immediately@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> delay(long delay, TimeUnit unit, Scheduler scheduler)
Scheduler
this operator will use.delay
- the delay to shift the source byunit
- the time unit of delay
scheduler
- the Scheduler
to use for delaying@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> delay(long delay, TimeUnit unit, Scheduler scheduler, boolean delayError)
delayError
is true, error notifications will also be delayed.
Scheduler
this operator will use.delay
- the delay to shift the source byunit
- the time unit of delay
scheduler
- the Scheduler
to use for delayingdelayError
- if true, the upstream exception is signalled with the given delay, after all preceding normal elements,
if false, the upstream exception is signalled immediately@CheckReturnValue @SchedulerSupport(value="none") public final <U,V> Observable<T> delay(ObservableSource<U> subscriptionDelay, Function<? super T,? extends ObservableSource<V>> itemDelay)
Note: the resulting ObservableSource will immediately propagate any onError
notification
from the source ObservableSource.
delay
does not operate by default on a particular Scheduler
.U
- the subscription delay value type (ignored)V
- the item delay value type (ignored)subscriptionDelay
- a function that returns an ObservableSource that triggers the subscription to the source ObservableSource
once it emits any itemitemDelay
- a function that returns an ObservableSource for each item emitted by the source ObservableSource, which is
then used to delay the emission of that item by the resulting ObservableSource until the ObservableSource
returned from itemDelay
emits an item@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<T> delaySubscription(ObservableSource<U> other)
Scheduler
.U
- the value type of the other Observable, irrelevantother
- the other Observable that should trigger the subscription
to this Observable.@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> delaySubscription(long delay, TimeUnit unit)
delaySubscription
operates by default on the computation
Scheduler
.delay
- the time to delay the subscriptionunit
- the time unit of delay
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> delaySubscription(long delay, TimeUnit unit, Scheduler scheduler)
Scheduler
this operator will use.delay
- the time to delay the subscriptionunit
- the time unit of delay
scheduler
- the Scheduler on which the waiting and subscription will happen@CheckReturnValue @SchedulerSupport(value="none") @Deprecated public final <T2> Observable<T2> dematerialize()
dematerialize(Function)
instead.materialize
by transforming the
Notification
objects emitted by the source ObservableSource into the items or notifications they
represent.
When the upstream signals an onError
or
onComplete
item, the
returned Observable disposes of the flow and terminates with that type of terminal event:
Observable.just(createOnNext(1), createOnComplete(), createOnNext(2))
.doOnDispose(() -> System.out.println("Disposed!"));
.dematerialize()
.test()
.assertResult(1);
If the upstream signals onError
or onComplete
directly, the flow is terminated
with the same event.
Observable.just(createOnNext(1), createOnNext(2))
.dematerialize()
.test()
.assertResult(1, 2);
If this behavior is not desired, the completion can be suppressed by applying concatWith(ObservableSource)
with a never()
source.
dematerialize
does not operate by default on a particular Scheduler
.T2
- the output value typeNotification
objects
emitted by the source ObservableSourcedematerialize(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> dematerialize(Function<? super T,Notification<R>> selector)
materialize
by transforming the
Notification
objects extracted from the source items via a selector function
into their respective Observer
signal types.
The intended use of the selector
function is to perform a
type-safe identity mapping (see example) on a source that is already of type
Notification<T>
. The Java language doesn't allow
limiting instance methods to a certain generic argument shape, therefore,
a function is used to ensure the conversion remains type safe.
When the upstream signals an onError
or
onComplete
item, the
returned Observable disposes of the flow and terminates with that type of terminal event:
Observable.just(createOnNext(1), createOnComplete(), createOnNext(2))
.doOnDispose(() -> System.out.println("Disposed!"));
.dematerialize(notification -> notification)
.test()
.assertResult(1);
If the upstream signals onError
or onComplete
directly, the flow is terminated
with the same event.
Observable.just(createOnNext(1), createOnNext(2))
.dematerialize(notification -> notification)
.test()
.assertResult(1, 2);
If this behavior is not desired, the completion can be suppressed by applying concatWith(ObservableSource)
with a never()
source.
dematerialize
does not operate by default on a particular Scheduler
.R
- the output value typeselector
- function that returns the upstream item and should return a Notification to signal
the corresponding Observer
event to the downstream.Notification
objects
selected from the items emitted by the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> distinct()
Object.equals(Object)
comparison.
It is recommended the elements' class T
in the flow overrides the default Object.equals()
and Object.hashCode()
to provide meaningful comparison between items as the default Java
implementation only considers reference equivalence.
By default, distinct()
uses an internal HashSet
per Observer to remember
previously seen items and uses Set.add(Object)
returning false
as the
indicator for duplicates.
Note that this internal HashSet
may grow unbounded as items won't be removed from it by
the operator. Therefore, using very long or infinite upstream (with very distinct elements) may lead
to OutOfMemoryError
.
Customizing the retention policy can happen only by providing a custom Collection
implementation
to the distinct(Function, Callable)
overload.
distinct
does not operate by default on a particular Scheduler
.distinct(Function)
,
distinct(Function, Callable)
@CheckReturnValue @SchedulerSupport(value="none") public final <K> Observable<T> distinct(Function<? super T,K> keySelector)
Object.equals(Object)
comparison of the objects
returned by the key selector function.
It is recommended the keys' class K
overrides the default Object.equals()
and Object.hashCode()
to provide meaningful comparison between the key objects as the default
Java implementation only considers reference equivalence.
By default, distinct()
uses an internal HashSet
per Observer to remember
previously seen keys and uses Set.add(Object)
returning false
as the
indicator for duplicates.
Note that this internal HashSet
may grow unbounded as keys won't be removed from it by
the operator. Therefore, using very long or infinite upstream (with very distinct keys) may lead
to OutOfMemoryError
.
Customizing the retention policy can happen only by providing a custom Collection
implementation
to the distinct(Function, Callable)
overload.
distinct
does not operate by default on a particular Scheduler
.K
- the key typekeySelector
- a function that projects an emitted item to a key value that is used to decide whether an item
is distinct from another one or notdistinct(Function, Callable)
@CheckReturnValue @SchedulerSupport(value="none") public final <K> Observable<T> distinct(Function<? super T,K> keySelector, Callable<? extends Collection<? super K>> collectionSupplier)
Object.equals(Object)
comparison of the objects
returned by the key selector function.
It is recommended the keys' class K
overrides the default Object.equals()
and Object.hashCode()
to provide meaningful comparison between the key objects as
the default Java implementation only considers reference equivalence.
distinct
does not operate by default on a particular Scheduler
.K
- the key typekeySelector
- a function that projects an emitted item to a key value that is used to decide whether an item
is distinct from another one or notcollectionSupplier
- function called for each individual Observer to return a Collection subtype for holding the extracted
keys and whose add() method's return indicates uniqueness.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> distinctUntilChanged()
Object.equals(Object)
comparison.
It is recommended the elements' class T
in the flow overrides the default Object.equals()
to provide
meaningful comparison between items as the default Java implementation only considers reference equivalence.
Alternatively, use the distinctUntilChanged(BiPredicate)
overload and provide a comparison function
in case the class T
can't be overridden with custom equals()
or the comparison itself
should happen on different terms or properties of the class T
.
Note that the operator always retains the latest item from upstream regardless of the comparison result and uses it in the next comparison with the next upstream item.
Note that if element type T
in the flow is mutable, the comparison of the previous and current
item may yield unexpected results if the items are mutated externally. Common cases are mutable
CharSequence
s or List
s where the objects will actually have the same
references when they are modified and distinctUntilChanged
will evaluate subsequent items as same.
To avoid such situation, it is recommended that mutable data is converted to an immutable one,
for example using map(CharSequence::toString)
or map(list -> Collections.unmodifiableList(new ArrayList<>(list)))
.
distinctUntilChanged
does not operate by default on a particular Scheduler
.distinctUntilChanged(BiPredicate)
@CheckReturnValue @SchedulerSupport(value="none") public final <K> Observable<T> distinctUntilChanged(Function<? super T,K> keySelector)
Object.equals(Object)
comparison
of those objects returned by the key selector function.
It is recommended the keys' class K
overrides the default Object.equals()
to provide
meaningful comparison between the key objects as the default Java implementation only considers reference equivalence.
Alternatively, use the distinctUntilChanged(BiPredicate)
overload and provide a comparison function
in case the class K
can't be overridden with custom equals()
or the comparison itself
should happen on different terms or properties of the item class T
(for which the keys can be
derived via a similar selector).
Note that the operator always retains the latest key from upstream regardless of the comparison result and uses it in the next comparison with the next key derived from the next upstream item.
Note that if element type T
in the flow is mutable, the comparison of the previous and current
item may yield unexpected results if the items are mutated externally. Common cases are mutable
CharSequence
s or List
s where the objects will actually have the same
references when they are modified and distinctUntilChanged
will evaluate subsequent items as same.
To avoid such situation, it is recommended that mutable data is converted to an immutable one,
for example using map(CharSequence::toString)
or map(list -> Collections.unmodifiableList(new ArrayList<>(list)))
.
distinctUntilChanged
does not operate by default on a particular Scheduler
.K
- the key typekeySelector
- a function that projects an emitted item to a key value that is used to decide whether an item
is distinct from another one or not@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> distinctUntilChanged(BiPredicate<? super T,? super T> comparer)
Note that the operator always retains the latest item from upstream regardless of the comparison result and uses it in the next comparison with the next upstream item.
Note that if element type T
in the flow is mutable, the comparison of the previous and current
item may yield unexpected results if the items are mutated externally. Common cases are mutable
CharSequence
s or List
s where the objects will actually have the same
references when they are modified and distinctUntilChanged
will evaluate subsequent items as same.
To avoid such situation, it is recommended that mutable data is converted to an immutable one,
for example using map(CharSequence::toString)
or map(list -> Collections.unmodifiableList(new ArrayList<>(list)))
.
distinctUntilChanged
does not operate by default on a particular Scheduler
.comparer
- the function that receives the previous item and the current item and is
expected to return true if the two are equal, thus skipping the current value.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doAfterNext(Consumer<? super T> onAfterNext)
Note that the onAfterNext
action is shared between subscriptions and as such
should be thread-safe.
doAfterNext
does not operate by default on a particular Scheduler
.History: 2.0.1 - experimental
onAfterNext
- the Consumer that will be called after emitting an item from upstream to the downstream@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doAfterTerminate(Action onFinally)
Action
to be called when this ObservableSource invokes either
onComplete
or onError
.
doAfterTerminate
does not operate by default on a particular Scheduler
.onFinally
- an Action
to be invoked when the source ObservableSource finishesAction
doOnTerminate(Action)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doFinally(Action onFinally)
In case of a race between a terminal event and a dispose call, the provided onFinally
action
is executed once per subscription.
Note that the onFinally
action is shared between subscriptions and as such
should be thread-safe.
doFinally
does not operate by default on a particular Scheduler
.History: 2.0.1 - experimental
onFinally
- the action called when this Observable terminates or gets disposed@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnDispose(Action onDispose)
Action
if the downstream disposes the sequence.
The action is shared between subscriptions and thus may be called concurrently from multiple threads; the action must be thread safe.
If the action throws a runtime exception, that exception is rethrown by the dispose()
call,
sometimes as a CompositeException
if there were multiple exceptions along the way.
doOnDispose
does not operate by default on a particular Scheduler
.onDispose
- the action that gets called when the source ObservableSource
's Disposable is disposedObservableSource
modified so as to call this Action when appropriateNullPointerException
- if onDispose is null@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnComplete(Action onComplete)
onComplete
.
doOnComplete
does not operate by default on a particular Scheduler
.onComplete
- the action to invoke when the source ObservableSource calls onComplete
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnEach(Consumer<? super Notification<T>> onNotification)
doOnEach
does not operate by default on a particular Scheduler
.onNotification
- the action to invoke for each item emitted by the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnEach(Observer<? super T> observer)
In case the onError
of the supplied observer throws, the downstream will receive a composite
exception containing the original exception and the exception thrown by onError
. If either the
onNext
or the onComplete
method of the supplied observer throws, the downstream will be
terminated and will receive this thrown exception.
doOnEach
does not operate by default on a particular Scheduler
.observer
- the observer to be notified about onNext, onError and onComplete events on its
respective methods before the actual downstream Observer gets notified.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnError(Consumer<? super Throwable> onError)
onError
.
In case the onError
action throws, the downstream will receive a composite exception containing
the original exception and the exception thrown by onError
.
doOnError
does not operate by default on a particular Scheduler
.onError
- the action to invoke if the source ObservableSource calls onError
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnLifecycle(Consumer<? super Disposable> onSubscribe, Action onDispose)
doOnLifecycle
does not operate by default on a particular Scheduler
.onSubscribe
- a Consumer called with the Disposable sent via Observer.onSubscribe()onDispose
- called when the downstream disposes the Disposable via dispose()@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnNext(Consumer<? super T> onNext)
onNext
.
doOnNext
does not operate by default on a particular Scheduler
.onNext
- the action to invoke when the source ObservableSource calls onNext
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnSubscribe(Consumer<? super Disposable> onSubscribe)
ObservableSource
so that it invokes the given action when it is subscribed from
its subscribers. Each subscription will result in an invocation of the given action except when the
source ObservableSource
is reference counted, in which case the source ObservableSource
will invoke
the given action for the first subscription.
doOnSubscribe
does not operate by default on a particular Scheduler
.onSubscribe
- the Consumer that gets called when an Observer subscribes to the current Observable
ObservableSource
modified so as to call this Consumer when appropriate@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> doOnTerminate(Action onTerminate)
onComplete
or
onError
.
This differs from doAfterTerminate
in that this happens before the onComplete
or
onError
notification.
doOnTerminate
does not operate by default on a particular Scheduler
.onTerminate
- the action to invoke when the source ObservableSource calls onComplete
or onError
doAfterTerminate(Action)
@CheckReturnValue @SchedulerSupport(value="none") public final Maybe<T> elementAt(long index)
elementAt
does not operate by default on a particular Scheduler
.index
- the zero-based index of the item to retrieveIndexOutOfBoundsException
- if index
is less than 0@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> elementAt(long index, T defaultItem)
elementAt
does not operate by default on a particular Scheduler
.index
- the zero-based index of the item to retrievedefaultItem
- the default itemIndexOutOfBoundsException
- if index
is less than 0@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> elementAtOrError(long index)
NoSuchElementException
if this Observable signals fewer elements than index.
elementAtOrError
does not operate by default on a particular Scheduler
.index
- the zero-based index of the item to retrieveIndexOutOfBoundsException
- if index
is less than 0@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> filter(Predicate<? super T> predicate)
filter
does not operate by default on a particular Scheduler
.predicate
- a function that evaluates each item emitted by the source ObservableSource, returning true
if it passes the filtertrue
@CheckReturnValue @SchedulerSupport(value="none") public final Maybe<T> firstElement()
firstElement
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> first(T defaultItem)
first
does not operate by default on a particular Scheduler
.defaultItem
- the default item to emit if the source ObservableSource doesn't emit anything@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> firstOrError()
NoSuchElementException
if this Observable is empty.
firstOrError
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper)
flatMap
does not operate by default on a particular Scheduler
.R
- the value type of the inner ObservableSources and the output typemapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper, boolean delayErrors)
flatMap
does not operate by default on a particular Scheduler
.R
- the value type of the inner ObservableSources and the output typemapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcedelayErrors
- if true, exceptions from the current Observable and all inner ObservableSources are delayed until all of them terminate
if false, the first one signalling an exception will terminate the whole sequence immediately@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper, boolean delayErrors, int maxConcurrency)
flatMap
does not operate by default on a particular Scheduler
.R
- the value type of the inner ObservableSources and the output typemapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcemaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlydelayErrors
- if true, exceptions from the current Observable and all inner ObservableSources are delayed until all of them terminate
if false, the first one signalling an exception will terminate the whole sequence immediately@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper, boolean delayErrors, int maxConcurrency, int bufferSize)
flatMap
does not operate by default on a particular Scheduler
.R
- the value type of the inner ObservableSources and the output typemapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcemaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlydelayErrors
- if true, exceptions from the current Observable and all inner ObservableSources are delayed until all of them terminate
if false, the first one signalling an exception will terminate the whole sequence immediatelybufferSize
- the number of elements to prefetch from each inner ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends R>> onNextMapper, Function<? super Throwable,? extends ObservableSource<? extends R>> onErrorMapper, Callable<? extends ObservableSource<? extends R>> onCompleteSupplier)
flatMap
does not operate by default on a particular Scheduler
.R
- the result typeonNextMapper
- a function that returns an ObservableSource to merge for each item emitted by the source ObservableSourceonErrorMapper
- a function that returns an ObservableSource to merge for an onError notification from the source
ObservableSourceonCompleteSupplier
- a function that returns an ObservableSource to merge for an onComplete notification from the source
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends R>> onNextMapper, Function<Throwable,? extends ObservableSource<? extends R>> onErrorMapper, Callable<? extends ObservableSource<? extends R>> onCompleteSupplier, int maxConcurrency)
flatMap
does not operate by default on a particular Scheduler
.R
- the result typeonNextMapper
- a function that returns an ObservableSource to merge for each item emitted by the source ObservableSourceonErrorMapper
- a function that returns an ObservableSource to merge for an onError notification from the source
ObservableSourceonCompleteSupplier
- a function that returns an ObservableSource to merge for an onComplete notification from the source
ObservableSourcemaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrently@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends R>> mapper, int maxConcurrency)
flatMap
does not operate by default on a particular Scheduler
.R
- the value type of the inner ObservableSources and the output typemapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcemaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrently@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper, BiFunction<? super T,? super U,? extends R> resultSelector)
flatMap
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the collection ObservableSourceR
- the type of items emitted by the resulting ObservableSourcemapper
- a function that returns an ObservableSource for each item emitted by the source ObservableSourceresultSelector
- a function that combines one item emitted by each of the source and collection ObservableSources and
returns an item to be emitted by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper, BiFunction<? super T,? super U,? extends R> combiner, boolean delayErrors)
flatMap
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the collection ObservableSourceR
- the type of items emitted by the resulting ObservableSourcemapper
- a function that returns an ObservableSource for each item emitted by the source ObservableSourcecombiner
- a function that combines one item emitted by each of the source and collection ObservableSources and
returns an item to be emitted by the resulting ObservableSourcedelayErrors
- if true, exceptions from the current Observable and all inner ObservableSources are delayed until all of them terminate
if false, the first one signalling an exception will terminate the whole sequence immediately@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper, BiFunction<? super T,? super U,? extends R> combiner, boolean delayErrors, int maxConcurrency)
flatMap
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the collection ObservableSourceR
- the type of items emitted by the resulting ObservableSourcemapper
- a function that returns an ObservableSource for each item emitted by the source ObservableSourcecombiner
- a function that combines one item emitted by each of the source and collection ObservableSources and
returns an item to be emitted by the resulting ObservableSourcemaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlydelayErrors
- if true, exceptions from the current Observable and all inner ObservableSources are delayed until all of them terminate
if false, the first one signalling an exception will terminate the whole sequence immediately@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper, BiFunction<? super T,? super U,? extends R> combiner, boolean delayErrors, int maxConcurrency, int bufferSize)
flatMap
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the collection ObservableSourceR
- the type of items emitted by the resulting ObservableSourcemapper
- a function that returns an ObservableSource for each item emitted by the source ObservableSourcecombiner
- a function that combines one item emitted by each of the source and collection ObservableSources and
returns an item to be emitted by the resulting ObservableSourcemaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrentlydelayErrors
- if true, exceptions from the current Observable and all inner ObservableSources are delayed until all of them terminate
if false, the first one signalling an exception will terminate the whole sequence immediatelybufferSize
- the number of elements to prefetch from the inner ObservableSources.@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> flatMap(Function<? super T,? extends ObservableSource<? extends U>> mapper, BiFunction<? super T,? super U,? extends R> combiner, int maxConcurrency)
flatMap
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the collection ObservableSourceR
- the type of items emitted by the resulting ObservableSourcemapper
- a function that returns an ObservableSource for each item emitted by the source ObservableSourcecombiner
- a function that combines one item emitted by each of the source and collection ObservableSources and
returns an item to be emitted by the resulting ObservableSourcemaxConcurrency
- the maximum number of ObservableSources that may be subscribed to concurrently@CheckReturnValue @SchedulerSupport(value="none") public final Completable flatMapCompletable(Function<? super T,? extends CompletableSource> mapper)
flatMapCompletable
does not operate by default on a particular Scheduler
.mapper
- the function that received each source value and transforms them into CompletableSources.@CheckReturnValue @SchedulerSupport(value="none") public final Completable flatMapCompletable(Function<? super T,? extends CompletableSource> mapper, boolean delayErrors)
flatMapCompletable
does not operate by default on a particular Scheduler
.mapper
- the function that received each source value and transforms them into CompletableSources.delayErrors
- if true errors from the upstream and inner CompletableSources are delayed until each of them
terminates.@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<U> flatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper)
flatMapIterable
does not operate by default on a particular Scheduler
.U
- the type of item emitted by the resulting Iterablemapper
- a function that returns an Iterable sequence of values for when given an item emitted by the
source ObservableSourcecollectionSelector
@CheckReturnValue @SchedulerSupport(value="none") public final <U,V> Observable<V> flatMapIterable(Function<? super T,? extends Iterable<? extends U>> mapper, BiFunction<? super T,? super U,? extends V> resultSelector)
flatMapIterable
does not operate by default on a particular Scheduler
.U
- the collection element typeV
- the type of item emitted by the resulting Iterablemapper
- a function that returns an Iterable sequence of values for each item emitted by the source
ObservableSourceresultSelector
- a function that returns an item based on the item emitted by the source ObservableSource and the
Iterable returned for that item by the collectionSelector
resultSelector
for each item in the source
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper)
flatMapMaybe
does not operate by default on a particular Scheduler
.R
- the result value typemapper
- the function that received each source value and transforms them into MaybeSources.@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMapMaybe(Function<? super T,? extends MaybeSource<? extends R>> mapper, boolean delayErrors)
flatMapMaybe
does not operate by default on a particular Scheduler
.R
- the result value typemapper
- the function that received each source value and transforms them into MaybeSources.delayErrors
- if true errors from the upstream and inner MaybeSources are delayed until each of them
terminates.@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper)
flatMapSingle
does not operate by default on a particular Scheduler
.R
- the result value typemapper
- the function that received each source value and transforms them into SingleSources.@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> flatMapSingle(Function<? super T,? extends SingleSource<? extends R>> mapper, boolean delayErrors)
flatMapSingle
does not operate by default on a particular Scheduler
.R
- the result value typemapper
- the function that received each source value and transforms them into SingleSources.delayErrors
- if true errors from the upstream and inner SingleSources are delayed until each of them
terminates.@CheckReturnValue @SchedulerSupport(value="none") public final Disposable forEach(Consumer<? super T> onNext)
ObservableSource
and receives notifications for each element.
Alias to subscribe(Consumer)
forEach
does not operate by default on a particular Scheduler
.onNext
- Consumer
to execute for each item.NullPointerException
- if onNext
is null@CheckReturnValue @SchedulerSupport(value="none") public final Disposable forEachWhile(Predicate<? super T> onNext)
ObservableSource
and receives notifications for each element until the
onNext Predicate returns false.
If the Observable emits an error, it is wrapped into an
OnErrorNotImplementedException
and routed to the RxJavaPlugins.onError handler.
forEachWhile
does not operate by default on a particular Scheduler
.onNext
- Predicate
to execute for each item.NullPointerException
- if onNext
is null@CheckReturnValue @SchedulerSupport(value="none") public final Disposable forEachWhile(Predicate<? super T> onNext, Consumer<? super Throwable> onError)
ObservableSource
and receives notifications for each element and error events until the
onNext Predicate returns false.
forEachWhile
does not operate by default on a particular Scheduler
.onNext
- Predicate
to execute for each item.onError
- Consumer
to execute when an error is emitted.NullPointerException
- if onNext
is null, or
if onError
is null@CheckReturnValue @SchedulerSupport(value="none") public final Disposable forEachWhile(Predicate<? super T> onNext, Consumer<? super Throwable> onError, Action onComplete)
ObservableSource
and receives notifications for each element and the terminal events until the
onNext Predicate returns false.
forEachWhile
does not operate by default on a particular Scheduler
.onNext
- Predicate
to execute for each item.onError
- Consumer
to execute when an error is emitted.onComplete
- Action
to execute when completion is signalled.NullPointerException
- if onNext
is null, or
if onError
is null, or
if onComplete
is null@CheckReturnValue @SchedulerSupport(value="none") public final <K> Observable<GroupedObservable<K,T>> groupBy(Function<? super T,? extends K> keySelector)
ObservableSource
according to a specified criterion, and emits these
grouped items as GroupedObservable
s. The emitted GroupedObservableSource
allows only a single
Observer
during its lifetime and if this Observer
calls dispose() before the
source terminates, the next emission by the source having the same key will trigger a new
GroupedObservableSource
emission.
Note: A GroupedObservable
will cache the items it is to emit until such time as it
is subscribed to. For this reason, in order to avoid memory leaks, you should not simply ignore those
GroupedObservableSource
s that do not concern you. Instead, you can signal to them that they may
discard their buffers by applying an operator like ignoreElements()
to them.
groupBy
does not operate by default on a particular Scheduler
.K
- the key typekeySelector
- a function that extracts the key for each itemObservableSource
that emits GroupedObservable
s, each of which corresponds to a
unique key value and each of which emits those items from the source ObservableSource that share that
key value@CheckReturnValue @SchedulerSupport(value="none") public final <K> Observable<GroupedObservable<K,T>> groupBy(Function<? super T,? extends K> keySelector, boolean delayError)
ObservableSource
according to a specified criterion, and emits these
grouped items as GroupedObservable
s. The emitted GroupedObservableSource
allows only a single
Observer
during its lifetime and if this Observer
calls dispose() before the
source terminates, the next emission by the source having the same key will trigger a new
GroupedObservableSource
emission.
Note: A GroupedObservable
will cache the items it is to emit until such time as it
is subscribed to. For this reason, in order to avoid memory leaks, you should not simply ignore those
GroupedObservableSource
s that do not concern you. Instead, you can signal to them that they may
discard their buffers by applying an operator like ignoreElements()
to them.
groupBy
does not operate by default on a particular Scheduler
.K
- the key typekeySelector
- a function that extracts the key for each itemdelayError
- if true, the exception from the current Observable is delayed in each group until that specific group emitted
the normal values; if false, the exception bypasses values in the groups and is reported immediately.ObservableSource
that emits GroupedObservable
s, each of which corresponds to a
unique key value and each of which emits those items from the source ObservableSource that share that
key value@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Observable<GroupedObservable<K,V>> groupBy(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector)
ObservableSource
according to a specified criterion, and emits these
grouped items as GroupedObservable
s. The emitted GroupedObservableSource
allows only a single
Observer
during its lifetime and if this Observer
calls dispose() before the
source terminates, the next emission by the source having the same key will trigger a new
GroupedObservableSource
emission.
Note: A GroupedObservable
will cache the items it is to emit until such time as it
is subscribed to. For this reason, in order to avoid memory leaks, you should not simply ignore those
GroupedObservableSource
s that do not concern you. Instead, you can signal to them that they may
discard their buffers by applying an operator like ignoreElements()
to them.
groupBy
does not operate by default on a particular Scheduler
.K
- the key typeV
- the element typekeySelector
- a function that extracts the key for each itemvalueSelector
- a function that extracts the return element for each itemObservableSource
that emits GroupedObservable
s, each of which corresponds to a
unique key value and each of which emits those items from the source ObservableSource that share that
key value@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Observable<GroupedObservable<K,V>> groupBy(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector, boolean delayError)
ObservableSource
according to a specified criterion, and emits these
grouped items as GroupedObservable
s. The emitted GroupedObservableSource
allows only a single
Observer
during its lifetime and if this Observer
calls dispose() before the
source terminates, the next emission by the source having the same key will trigger a new
GroupedObservableSource
emission.
Note: A GroupedObservable
will cache the items it is to emit until such time as it
is subscribed to. For this reason, in order to avoid memory leaks, you should not simply ignore those
GroupedObservableSource
s that do not concern you. Instead, you can signal to them that they may
discard their buffers by applying an operator like ignoreElements()
to them.
groupBy
does not operate by default on a particular Scheduler
.K
- the key typeV
- the element typekeySelector
- a function that extracts the key for each itemvalueSelector
- a function that extracts the return element for each itemdelayError
- if true, the exception from the current Observable is delayed in each group until that specific group emitted
the normal values; if false, the exception bypasses values in the groups and is reported immediately.ObservableSource
that emits GroupedObservable
s, each of which corresponds to a
unique key value and each of which emits those items from the source ObservableSource that share that
key value@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Observable<GroupedObservable<K,V>> groupBy(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector, boolean delayError, int bufferSize)
ObservableSource
according to a specified criterion, and emits these
grouped items as GroupedObservable
s. The emitted GroupedObservableSource
allows only a single
Observer
during its lifetime and if this Observer
calls dispose() before the
source terminates, the next emission by the source having the same key will trigger a new
GroupedObservableSource
emission.
Note: A GroupedObservable
will cache the items it is to emit until such time as it
is subscribed to. For this reason, in order to avoid memory leaks, you should not simply ignore those
GroupedObservableSource
s that do not concern you. Instead, you can signal to them that they may
discard their buffers by applying an operator like ignoreElements()
to them.
groupBy
does not operate by default on a particular Scheduler
.K
- the key typeV
- the element typekeySelector
- a function that extracts the key for each itemvalueSelector
- a function that extracts the return element for each itemdelayError
- if true, the exception from the current Observable is delayed in each group until that specific group emitted
the normal values; if false, the exception bypasses values in the groups and is reported immediately.bufferSize
- the hint for how many GroupedObservable
s and element in each GroupedObservable
should be bufferedObservableSource
that emits GroupedObservable
s, each of which corresponds to a
unique key value and each of which emits those items from the source ObservableSource that share that
key value@CheckReturnValue @SchedulerSupport(value="none") public final <TRight,TLeftEnd,TRightEnd,R> Observable<R> groupJoin(ObservableSource<? extends TRight> other, Function<? super T,? extends ObservableSource<TLeftEnd>> leftEnd, Function<? super TRight,? extends ObservableSource<TRightEnd>> rightEnd, BiFunction<? super T,? super Observable<TRight>,? extends R> resultSelector)
There are no guarantees in what order the items get combined when multiple items from one or both source ObservableSources overlap.
groupJoin
does not operate by default on a particular Scheduler
.TRight
- the value type of the right ObservableSource sourceTLeftEnd
- the element type of the left duration ObservableSourcesTRightEnd
- the element type of the right duration ObservableSourcesR
- the result typeother
- the other ObservableSource to correlate items from the source ObservableSource withleftEnd
- a function that returns an ObservableSource whose emissions indicate the duration of the values of
the source ObservableSourcerightEnd
- a function that returns an ObservableSource whose emissions indicate the duration of the values of
the right
ObservableSourceresultSelector
- a function that takes an item emitted by each ObservableSource and returns the value to be emitted
by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> hide()
Allows hiding extra features such as Subject
's
Observer
methods or preventing certain identity-based
optimizations (fusion).
hide
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Completable ignoreElements()
onComplete
or onError
.
ignoreElements
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Single<Boolean> isEmpty()
true
if the source ObservableSource is empty, otherwise false
.
In Rx.Net this is negated as the any
Observer but we renamed this in RxJava to better match Java
naming idioms.
isEmpty
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final <TRight,TLeftEnd,TRightEnd,R> Observable<R> join(ObservableSource<? extends TRight> other, Function<? super T,? extends ObservableSource<TLeftEnd>> leftEnd, Function<? super TRight,? extends ObservableSource<TRightEnd>> rightEnd, BiFunction<? super T,? super TRight,? extends R> resultSelector)
There are no guarantees in what order the items get combined when multiple items from one or both source ObservableSources overlap.
join
does not operate by default on a particular Scheduler
.TRight
- the value type of the right ObservableSource sourceTLeftEnd
- the element type of the left duration ObservableSourcesTRightEnd
- the element type of the right duration ObservableSourcesR
- the result typeother
- the second ObservableSource to join items fromleftEnd
- a function to select a duration for each item emitted by the source ObservableSource, used to
determine overlaprightEnd
- a function to select a duration for each item emitted by the right
ObservableSource, used to
determine overlapresultSelector
- a function that computes an item to be emitted by the resulting ObservableSource for any two
overlapping items emitted by the two ObservableSources@CheckReturnValue @SchedulerSupport(value="none") public final Maybe<T> lastElement()
lastElement
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> last(T defaultItem)
last
does not operate by default on a particular Scheduler
.defaultItem
- the default item to emit if the source ObservableSource is empty@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> lastOrError()
NoSuchElementException
if this Observable is empty.
lastOrError
does not operate by default on a particular Scheduler
.NoSuchElementException
will be thrown.@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> lift(ObservableOperator<? extends R,? super T> lifter)
Observable
which, when subscribed to, invokes the apply(Observer)
method
of the provided ObservableOperator
for each individual downstream Observer
and allows the
insertion of a custom operator by accessing the downstream's Observer
during this subscription phase
and providing a new Observer
, containing the custom operator's intended business logic, that will be
used in the subscription process going further upstream.
Generally, such a new Observer
will wrap the downstream's Observer
and forwards the
onNext
, onError
and onComplete
events from the upstream directly or according to the
emission pattern the custom operator's business logic requires. In addition, such operator can intercept the
flow control calls of dispose
and isDisposed
that would have traveled upstream and perform
additional actions depending on the same business logic requirements.
Example:
// Step 1: Create the consumer type that will be returned by the ObservableOperator.apply():
public final class CustomObserver<T> implements Observer<T>, Disposable {
// The downstream's Observer that will receive the onXXX events
final Observer<? super String> downstream;
// The connection to the upstream source that will call this class' onXXX methods
Disposable upstream;
// The constructor takes the downstream subscriber and usually any other parameters
public CustomObserver(Observer<? super String> downstream) {
this.downstream = downstream;
}
// In the subscription phase, the upstream sends a Disposable to this class
// and subsequently this class has to send a Disposable to the downstream.
// Note that relaying the upstream's Disposable directly is not allowed in RxJava
@Override
public void onSubscribe(Disposable d) {
if (upstream != null) {
d.dispose();
} else {
upstream = d;
downstream.onSubscribe(this);
}
}
// The upstream calls this with the next item and the implementation's
// responsibility is to emit an item to the downstream based on the intended
// business logic, or if it can't do so for the particular item,
// request more from the upstream
@Override
public void onNext(T item) {
String str = item.toString();
if (str.length() < 2) {
downstream.onNext(str);
}
// Observable doesn't support backpressure, therefore, there is no
// need or opportunity to call upstream.request(1) if an item
// is not produced to the downstream
}
// Some operators may handle the upstream's error while others
// could just forward it to the downstream.
@Override
public void onError(Throwable throwable) {
downstream.onError(throwable);
}
// When the upstream completes, usually the downstream should complete as well.
@Override
public void onComplete() {
downstream.onComplete();
}
// Some operators may use their own resources which should be cleaned up if
// the downstream disposes the flow before it completed. Operators without
// resources can simply forward the dispose to the upstream.
// In some cases, a disposed flag may be set by this method so that other parts
// of this class may detect the dispose and stop sending events
// to the downstream.
@Override
public void dispose() {
upstream.dispose();
}
// Some operators may simply forward the call to the upstream while others
// can return the disposed flag set in dispose().
@Override
public boolean isDisposed() {
return upstream.isDisposed();
}
}
// Step 2: Create a class that implements the ObservableOperator interface and
// returns the custom consumer type from above in its apply() method.
// Such class may define additional parameters to be submitted to
// the custom consumer type.
final class CustomOperator<T> implements ObservableOperator<String, T> {
@Override
public Observer<T> apply(Observer<? super String> downstream) {
return new CustomObserver<T>(downstream);
}
}
// Step 3: Apply the custom operator via lift() in a flow by creating an instance of it
// or reusing an existing one.
Observable.range(5, 10)
.lift(new CustomOperator<Integer>())
.test()
.assertResult("5", "6", "7", "8", "9");
Creating custom operators can be complicated and it is recommended one consults the RxJava wiki: Writing operators page about the tools, requirements, rules, considerations and pitfalls of implementing them.
Note that implementing custom operators via this lift()
method adds slightly more overhead by requiring
an additional allocation and indirection per assembled flows. Instead, extending the abstract Observable
class and creating an ObservableTransformer
with it is recommended.
Note also that it is not possible to stop the subscription phase in lift()
as the apply()
method
requires a non-null Observer
instance to be returned, which is then unconditionally subscribed to
the upstream Observable
. For example, if the operator decided there is no reason to subscribe to the
upstream source because of some optimization possibility or a failure to prepare the operator, it still has to
return an Observer
that should immediately dispose the upstream's Disposable
in its
onSubscribe
method. Again, using an ObservableTransformer
and extending the Observable
is
a better option as subscribeActual(io.reactivex.Observer<? super T>)
can decide to not subscribe to its upstream after all.
lift
does not operate by default on a particular Scheduler
, however, the
ObservableOperator
may use a Scheduler
to support its own asynchronous behavior.R
- the output value typelifter
- the ObservableOperator
that receives the downstream's Observer
and should return
an Observer
with custom behavior to be used as the consumer for the current
Observable
.compose(ObservableTransformer)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> map(Function<? super T,? extends R> mapper)
map
does not operate by default on a particular Scheduler
.R
- the output typemapper
- a function to apply to each item emitted by the ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Notification<T>> materialize()
Notification
objects.
materialize
does not operate by default on a particular Scheduler
.dematerialize(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> mergeWith(ObservableSource<? extends T> other)
You can combine items emitted by multiple ObservableSources so that they appear as a single ObservableSource, by
using the mergeWith
method.
mergeWith
does not operate by default on a particular Scheduler
.other
- an ObservableSource to be merged@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> mergeWith(@NonNull SingleSource<? extends T> other)
The success value of the other SingleSource
can get interleaved at any point of this
Observable
sequence.
mergeWith
does not operate by default on a particular Scheduler
.History: 2.1.10 - experimental
other
- the SingleSource
whose success value to merge with@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> mergeWith(@NonNull MaybeSource<? extends T> other)
The success value of the other MaybeSource
can get interleaved at any point of this
Observable
sequence.
mergeWith
does not operate by default on a particular Scheduler
.History: 2.1.10 - experimental
other
- the MaybeSource
which provides a success value to merge with or completes@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> mergeWith(@NonNull CompletableSource other)
mergeWith
does not operate by default on a particular Scheduler
.History: 2.1.10 - experimental
other
- the CompletableSource
to await for completion@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> observeOn(Scheduler scheduler)
Scheduler
,
asynchronously with an unbounded buffer with Flowable.bufferSize()
"island size".
Note that onError notifications will cut ahead of onNext notifications on the emission thread if Scheduler is truly
asynchronous. If strict event ordering is required, consider using the observeOn(Scheduler, boolean)
overload.
This operator keeps emitting as many signals as it can on the given Scheduler's Worker thread, which may result in a longer than expected occupation of this thread. In other terms, it does not allow per-signal fairness in case the worker runs on a shared underlying thread. If such fairness and signal/work interleaving is preferred, use the delay operator with zero time instead.
Scheduler
this operator will use."Island size" indicates how large chunks the unbounded buffer allocates to store the excess elements waiting to be consumed on the other side of the asynchronous boundary.
scheduler
- the Scheduler
to notify Observer
s onObserver
s are notified on the specified
Scheduler
subscribeOn(io.reactivex.Scheduler)
,
observeOn(Scheduler, boolean)
,
observeOn(Scheduler, boolean, int)
,
delay(long, TimeUnit, Scheduler)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> observeOn(Scheduler scheduler, boolean delayError)
Scheduler
,
asynchronously with an unbounded buffer with Flowable.bufferSize()
"island size" and optionally delays onError notifications.
This operator keeps emitting as many signals as it can on the given Scheduler's Worker thread, which may result in a longer than expected occupation of this thread. In other terms, it does not allow per-signal fairness in case the worker runs on a shared underlying thread. If such fairness and signal/work interleaving is preferred, use the delay operator with zero time instead.
Scheduler
this operator will use."Island size" indicates how large chunks the unbounded buffer allocates to store the excess elements waiting to be consumed on the other side of the asynchronous boundary.
scheduler
- the Scheduler
to notify Observer
s ondelayError
- indicates if the onError notification may not cut ahead of onNext notification on the other side of the
scheduling boundary. If true a sequence ending in onError will be replayed in the same order as was received
from upstreamObserver
s are notified on the specified
Scheduler
subscribeOn(io.reactivex.Scheduler)
,
observeOn(Scheduler)
,
observeOn(Scheduler, boolean, int)
,
delay(long, TimeUnit, Scheduler, boolean)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> observeOn(Scheduler scheduler, boolean delayError, int bufferSize)
Scheduler
,
asynchronously with an unbounded buffer of configurable "island size" and optionally delays onError notifications.
This operator keeps emitting as many signals as it can on the given Scheduler's Worker thread, which may result in a longer than expected occupation of this thread. In other terms, it does not allow per-signal fairness in case the worker runs on a shared underlying thread. If such fairness and signal/work interleaving is preferred, use the delay operator with zero time instead.
Scheduler
this operator will use."Island size" indicates how large chunks the unbounded buffer allocates to store the excess elements waiting to be consumed on the other side of the asynchronous boundary. Values below 16 are not recommended in performance sensitive scenarios.
scheduler
- the Scheduler
to notify Observer
s ondelayError
- indicates if the onError notification may not cut ahead of onNext notification on the other side of the
scheduling boundary. If true a sequence ending in onError will be replayed in the same order as was received
from upstreambufferSize
- the size of the buffer.Observer
s are notified on the specified
Scheduler
subscribeOn(io.reactivex.Scheduler)
,
observeOn(Scheduler)
,
observeOn(Scheduler, boolean)
,
delay(long, TimeUnit, Scheduler, boolean)
@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<U> ofType(Class<U> clazz)
ofType
does not operate by default on a particular Scheduler
.U
- the output typeclazz
- the class type to filter the items emitted by the source ObservableSourceclazz
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> onErrorResumeNext(Function<? super Throwable,? extends ObservableSource<? extends T>> resumeFunction)
onError
if it encounters an error.
By default, when an ObservableSource encounters an error that prevents it from emitting the expected item to
its Observer
, the ObservableSource invokes its Observer's onError
method, and then quits
without invoking any more of its Observer's methods. The onErrorResumeNext
method changes this
behavior. If you pass a function that returns an ObservableSource (resumeFunction
) to
onErrorResumeNext
, if the original ObservableSource encounters an error, instead of invoking its
Observer's onError
method, it will instead relinquish control to the ObservableSource returned from
resumeFunction
, which will invoke the Observer's onNext
method if it is
able to do so. In such a case, because no ObservableSource necessarily invokes onError
, the Observer
may never know that an error happened.
You can use this to prevent errors from propagating or to supply fallback data should errors be encountered.
onErrorResumeNext
does not operate by default on a particular Scheduler
.resumeFunction
- a function that returns an ObservableSource that will take over if the source ObservableSource encounters
an error@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> onErrorResumeNext(ObservableSource<? extends T> next)
onError
if it encounters an error.
By default, when an ObservableSource encounters an error that prevents it from emitting the expected item to
its Observer
, the ObservableSource invokes its Observer's onError
method, and then quits
without invoking any more of its Observer's methods. The onErrorResumeNext
method changes this
behavior. If you pass another ObservableSource (resumeSequence
) to an ObservableSource's
onErrorResumeNext
method, if the original ObservableSource encounters an error, instead of invoking its
Observer's onError
method, it will instead relinquish control to resumeSequence
which
will invoke the Observer's onNext
method if it is able to do so. In such a case,
because no ObservableSource necessarily invokes onError
, the Observer may never know that an error
happened.
You can use this to prevent errors from propagating or to supply fallback data should errors be encountered.
onErrorResumeNext
does not operate by default on a particular Scheduler
.next
- the next ObservableSource source that will take over if the source ObservableSource encounters
an error@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> onErrorReturn(Function<? super Throwable,? extends T> valueSupplier)
onError
if it encounters an error.
By default, when an ObservableSource encounters an error that prevents it from emitting the expected item to
its Observer
, the ObservableSource invokes its Observer's onError
method, and then quits
without invoking any more of its Observer's methods. The onErrorReturn
method changes this
behavior. If you pass a function (resumeFunction
) to an ObservableSource's onErrorReturn
method, if the original ObservableSource encounters an error, instead of invoking its Observer's
onError
method, it will instead emit the return value of resumeFunction
.
You can use this to prevent errors from propagating or to supply fallback data should errors be encountered.
onErrorReturn
does not operate by default on a particular Scheduler
.valueSupplier
- a function that returns a single value that will be emitted along with a regular onComplete in case
the current Observable signals an onError event@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> onErrorReturnItem(T item)
onError
if it encounters an error.
By default, when an ObservableSource encounters an error that prevents it from emitting the expected item to
its Observer
, the ObservableSource invokes its Observer's onError
method, and then quits
without invoking any more of its Observer's methods. The onErrorReturn
method changes this
behavior. If you pass a function (resumeFunction
) to an ObservableSource's onErrorReturn
method, if the original ObservableSource encounters an error, instead of invoking its Observer's
onError
method, it will instead emit the return value of resumeFunction
.
You can use this to prevent errors from propagating or to supply fallback data should errors be encountered.
onErrorReturnItem
does not operate by default on a particular Scheduler
.item
- the value that is emitted along with a regular onComplete in case the current
Observable signals an exception@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> onExceptionResumeNext(ObservableSource<? extends T> next)
onError
if it encounters an Exception
.
This differs from onErrorResumeNext(io.reactivex.functions.Function<? super java.lang.Throwable, ? extends io.reactivex.ObservableSource<? extends T>>)
in that this one does not handle Throwable
or Error
but lets those continue through.
By default, when an ObservableSource encounters an exception that prevents it from emitting the expected item
to its Observer
, the ObservableSource invokes its Observer's onError
method, and then quits
without invoking any more of its Observer's methods. The onExceptionResumeNext
method changes
this behavior. If you pass another ObservableSource (resumeSequence
) to an ObservableSource's
onExceptionResumeNext
method, if the original ObservableSource encounters an exception, instead of
invoking its Observer's onError
method, it will instead relinquish control to
resumeSequence
which will invoke the Observer's onNext
method if it is
able to do so. In such a case, because no ObservableSource necessarily invokes onError
, the Observer
may never know that an exception happened.
You can use this to prevent exceptions from propagating or to supply fallback data should exceptions be encountered.
onExceptionResumeNext
does not operate by default on a particular Scheduler
.next
- the next ObservableSource that will take over if the source ObservableSource encounters
an exception@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> onTerminateDetach()
onTerminateDetach
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final ConnectableObservable<T> publish()
ConnectableObservable
, which is a variety of ObservableSource that waits until its
connect
method is called before it begins emitting items to those
Observer
s that have subscribed to it.
publish
does not operate by default on a particular Scheduler
.ConnectableObservable
that upon connection causes the source ObservableSource to emit items
to its Observer
s@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> publish(Function<? super Observable<T>,? extends ObservableSource<R>> selector)
ConnectableObservable
that shares a single subscription to the underlying sequence.
publish
does not operate by default on a particular Scheduler
.R
- the type of items emitted by the resulting ObservableSourceselector
- a function that can use the multicasted source sequence as many times as needed, without
causing multiple subscriptions to the source sequence. Observers to the given source will
receive all notifications of the source from the time of the subscription forward.ConnectableObservable
that shares a single subscription to the underlying sequence@CheckReturnValue @SchedulerSupport(value="none") public final Maybe<T> reduce(BiFunction<T,T,T> reducer)
This technique, which is called "reduce" here, is sometimes called "aggregate," "fold," "accumulate,"
"compress," or "inject" in other programming contexts. Groovy, for instance, has an inject
method
that does a similar operation on lists.
Note that this operator requires the upstream to signal onComplete
for the accumulator object to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
reduce
does not operate by default on a particular Scheduler
.reducer
- an accumulator function to be invoked on each item emitted by the source ObservableSource, whose
result will be used in the next accumulator call@CheckReturnValue @SchedulerSupport(value="none") public final <R> Single<R> reduce(R seed, BiFunction<R,? super T,R> reducer)
This technique, which is called "reduce" here, is sometimes called "aggregate," "fold," "accumulate,"
"compress," or "inject" in other programming contexts. Groovy, for instance, has an inject
method
that does a similar operation on lists.
Note that the seed
is shared among all subscribers to the resulting ObservableSource
and may cause problems if it is mutable. To make sure each subscriber gets its own value, defer
the application of this operator via defer(Callable)
:
ObservableSource<T> source = ...
Single.defer(() -> source.reduce(new ArrayList<>(), (list, item) -> list.add(item)));
// alternatively, by using compose to stay fluent
source.compose(o ->
Observable.defer(() -> o.reduce(new ArrayList<>(), (list, item) -> list.add(item)).toObservable())
).firstOrError();
// or, by using reduceWith instead of reduce
source.reduceWith(() -> new ArrayList<>(), (list, item) -> list.add(item)));
Note that this operator requires the upstream to signal onComplete
for the accumulator object to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
reduce
does not operate by default on a particular Scheduler
.R
- the accumulator and output value typeseed
- the initial (seed) accumulator valuereducer
- an accumulator function to be invoked on each item emitted by the source ObservableSource, the
result of which will be used in the next accumulator callreduceWith(Callable, BiFunction)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Single<R> reduceWith(Callable<R> seedSupplier, BiFunction<R,? super T,R> reducer)
This technique, which is called "reduce" here, is sometimes called "aggregate," "fold," "accumulate,"
"compress," or "inject" in other programming contexts. Groovy, for instance, has an inject
method
that does a similar operation on lists.
Note that this operator requires the upstream to signal onComplete
for the accumulator object to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
reduceWith
does not operate by default on a particular Scheduler
.R
- the accumulator and output value typeseedSupplier
- the Callable that provides the initial (seed) accumulator value for each individual Observerreducer
- an accumulator function to be invoked on each item emitted by the source ObservableSource, the
result of which will be used in the next accumulator call@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> repeat()
repeat
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> repeat(long times)
count
times.
repeat
does not operate by default on a particular Scheduler
.times
- the number of times the source ObservableSource items are repeated, a count of 0 will yield an empty
sequencecount
timesIllegalArgumentException
- if count
is less than zero@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> repeatUntil(BooleanSupplier stop)
repeatUntil
does not operate by default on a particular Scheduler
.stop
- a boolean supplier that is called when the current Observable completes;
if it returns true, the returned Observable completes; if it returns false,
the upstream Observable is resubscribed.NullPointerException
- if stop
is null@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> repeatWhen(Function<? super Observable<Object>,? extends ObservableSource<?>> handler)
onComplete
. An onComplete
notification from the source will result in the emission of
a void
item to the ObservableSource provided as an argument to the notificationHandler
function. If that ObservableSource calls onComplete
or onError
then repeatWhen
will
call onComplete
or onError
on the child subscription. Otherwise, this ObservableSource will
resubscribe to the source ObservableSource.
repeatWhen
does not operate by default on a particular Scheduler
.handler
- receives an ObservableSource of notifications with which a user can complete or error, aborting the repeat.@CheckReturnValue @SchedulerSupport(value="none") public final ConnectableObservable<T> replay()
ConnectableObservable
that shares a single subscription to the underlying ObservableSource
that will replay all of its items and notifications to any future Observer
. A Connectable
ObservableSource resembles an ordinary ObservableSource, except that it does not begin emitting items when it is
subscribed to, but only when its connect
method is called.
replay
does not operate by default on a particular Scheduler
.ConnectableObservable
that upon connection causes the source ObservableSource to emit its
items to its Observer
s@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector)
ConnectableObservable
that shares a single subscription to the source ObservableSource.
replay
does not operate by default on a particular Scheduler
.R
- the type of items emitted by the resulting ObservableSourceselector
- the selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourceConnectableObservable
that shares a single subscription to the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector, int bufferSize)
ConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying bufferSize
notifications.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
replay
does not operate by default on a particular Scheduler
.R
- the type of items emitted by the resulting ObservableSourceselector
- the selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourcebufferSize
- the buffer size that limits the number of items the connectable ObservableSource can replayConnectableObservable
that shares a single subscription to the source ObservableSource
replaying no more than bufferSize
items@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector, int bufferSize, long time, TimeUnit unit)
ConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying no more than bufferSize
items that were emitted within a specified time window.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
replay
operates by default on the computation
Scheduler
.R
- the type of items emitted by the resulting ObservableSourceselector
- a selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourcebufferSize
- the buffer size that limits the number of items the connectable ObservableSource can replaytime
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
ConnectableObservable
that shares a single subscription to the source ObservableSource, and
replays no more than bufferSize
items that were emitted within the window defined by
time
@CheckReturnValue @SchedulerSupport(value="custom") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector, int bufferSize, long time, TimeUnit unit, Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying no more than bufferSize
items that were emitted within a specified time window.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
Scheduler
this operator will use.R
- the type of items emitted by the resulting ObservableSourceselector
- a selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourcebufferSize
- the buffer size that limits the number of items the connectable ObservableSource can replaytime
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
scheduler
- the Scheduler that is the time source for the windowConnectableObservable
that shares a single subscription to the source ObservableSource, and
replays no more than bufferSize
items that were emitted within the window defined by
time
IllegalArgumentException
- if bufferSize
is less than zero@CheckReturnValue @SchedulerSupport(value="custom") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector, int bufferSize, Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying a maximum of bufferSize
items.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
Scheduler
this operator will use.R
- the type of items emitted by the resulting ObservableSourceselector
- a selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourcebufferSize
- the buffer size that limits the number of items the connectable ObservableSource can replayscheduler
- the Scheduler on which the replay is observedConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying no more than bufferSize
notifications@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector, long time, TimeUnit unit)
ConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying all items that were emitted within a specified time window.
replay
operates by default on the computation
Scheduler
.R
- the type of items emitted by the resulting ObservableSourceselector
- a selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourcetime
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
ConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying all items that were emitted within the window defined by time
@CheckReturnValue @SchedulerSupport(value="custom") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector, long time, TimeUnit unit, Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying all items that were emitted within a specified time window.
Scheduler
this operator will use.R
- the type of items emitted by the resulting ObservableSourceselector
- a selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourcetime
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
scheduler
- the scheduler that is the time source for the windowConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying all items that were emitted within the window defined by time
@CheckReturnValue @SchedulerSupport(value="custom") public final <R> Observable<R> replay(Function<? super Observable<T>,? extends ObservableSource<R>> selector, Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource.
Scheduler
this operator will use.R
- the type of items emitted by the resulting ObservableSourceselector
- a selector function, which can use the multicasted sequence as many times as needed, without
causing multiple subscriptions to the ObservableSourcescheduler
- the Scheduler where the replay is observedConnectableObservable
that shares a single subscription to the source ObservableSource,
replaying all items@CheckReturnValue @SchedulerSupport(value="none") public final ConnectableObservable<T> replay(int bufferSize)
ConnectableObservable
that shares a single subscription to the source ObservableSource that
replays at most bufferSize
items emitted by that ObservableSource. A Connectable ObservableSource resembles
an ordinary ObservableSource, except that it does not begin emitting items when it is subscribed to, but only
when its connect
method is called.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
replay
does not operate by default on a particular Scheduler
.bufferSize
- the buffer size that limits the number of items that can be replayedConnectableObservable
that shares a single subscription to the source ObservableSource and
replays at most bufferSize
items emitted by that ObservableSource@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final ConnectableObservable<T> replay(int bufferSize, long time, TimeUnit unit)
ConnectableObservable
that shares a single subscription to the source ObservableSource and
replays at most bufferSize
items that were emitted during a specified time window. A Connectable
ObservableSource resembles an ordinary ObservableSource, except that it does not begin emitting items when it is
subscribed to, but only when its connect
method is called.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
replay
operates by default on the computation
Scheduler
.bufferSize
- the buffer size that limits the number of items that can be replayedtime
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
ConnectableObservable
that shares a single subscription to the source ObservableSource and
replays at most bufferSize
items that were emitted during the window defined by
time
@CheckReturnValue @SchedulerSupport(value="custom") public final ConnectableObservable<T> replay(int bufferSize, long time, TimeUnit unit, Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource and
that replays a maximum of bufferSize
items that are emitted within a specified time window. A
Connectable ObservableSource resembles an ordinary ObservableSource, except that it does not begin emitting items
when it is subscribed to, but only when its connect
method is called.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
Scheduler
this operator will use.bufferSize
- the buffer size that limits the number of items that can be replayedtime
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
scheduler
- the scheduler that is used as a time source for the windowConnectableObservable
that shares a single subscription to the source ObservableSource and
replays at most bufferSize
items that were emitted during the window defined by
time
IllegalArgumentException
- if bufferSize
is less than zero@CheckReturnValue @SchedulerSupport(value="custom") public final ConnectableObservable<T> replay(int bufferSize, Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource and
replays at most bufferSize
items emitted by that ObservableSource. A Connectable ObservableSource resembles
an ordinary ObservableSource, except that it does not begin emitting items when it is subscribed to, but only
when its connect
method is called.
Note that due to concurrency requirements, replay(bufferSize)
may hold strong references to more than
bufferSize
source emissions.
Scheduler
this operator will use.bufferSize
- the buffer size that limits the number of items that can be replayedscheduler
- the scheduler on which the Observers will observe the emitted itemsConnectableObservable
that shares a single subscription to the source ObservableSource and
replays at most bufferSize
items that were emitted by the ObservableSource@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final ConnectableObservable<T> replay(long time, TimeUnit unit)
ConnectableObservable
that shares a single subscription to the source ObservableSource and
replays all items emitted by that ObservableSource within a specified time window. A Connectable ObservableSource
resembles an ordinary ObservableSource, except that it does not begin emitting items when it is subscribed to,
but only when its connect
method is called.
replay
operates by default on the computation
Scheduler
.time
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
ConnectableObservable
that shares a single subscription to the source ObservableSource and
replays the items that were emitted during the window defined by time
@CheckReturnValue @SchedulerSupport(value="custom") public final ConnectableObservable<T> replay(long time, TimeUnit unit, Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource and
replays all items emitted by that ObservableSource within a specified time window. A Connectable ObservableSource
resembles an ordinary ObservableSource, except that it does not begin emitting items when it is subscribed to,
but only when its connect
method is called.
Scheduler
this operator will use.time
- the duration of the window in which the replayed items must have been emittedunit
- the time unit of time
scheduler
- the Scheduler that is the time source for the windowConnectableObservable
that shares a single subscription to the source ObservableSource and
replays the items that were emitted during the window defined by time
@CheckReturnValue @SchedulerSupport(value="custom") public final ConnectableObservable<T> replay(Scheduler scheduler)
ConnectableObservable
that shares a single subscription to the source ObservableSource that
will replay all of its items and notifications to any future Observer
on the given
Scheduler
. A Connectable ObservableSource resembles an ordinary ObservableSource, except that it does not
begin emitting items when it is subscribed to, but only when its connect
method is called.
Scheduler
this operator will use.scheduler
- the Scheduler on which the Observers will observe the emitted itemsConnectableObservable
that shares a single subscription to the source ObservableSource that
will replay all of its items and notifications to any future Observer
on the given
Scheduler
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> retry()
onError
(infinite retry count).
If the source ObservableSource calls Observer.onError(java.lang.Throwable)
, this method will resubscribe to the source
ObservableSource rather than propagating the onError
call.
Any and all items emitted by the source ObservableSource will be emitted by the resulting ObservableSource, even
those emitted during failed subscriptions. For example, if an ObservableSource fails at first but emits
[1, 2]
then succeeds the second time and emits [1, 2, 3, 4, 5]
then the complete sequence
of emissions and notifications would be [1, 2, 1, 2, 3, 4, 5, onComplete]
.
retry
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> retry(BiPredicate<? super Integer,? super Throwable> predicate)
onError
and the predicate returns true for that specific exception and retry count.
retry
does not operate by default on a particular Scheduler
.predicate
- the predicate that determines if a resubscription may happen in case of a specific exception
and retry countretry()
,
ReactiveX operators documentation: Retry@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> retry(long times)
onError
up to a specified number of retries.
If the source ObservableSource calls Observer.onError(java.lang.Throwable)
, this method will resubscribe to the source
ObservableSource for a maximum of count
resubscriptions rather than propagating the
onError
call.
Any and all items emitted by the source ObservableSource will be emitted by the resulting ObservableSource, even
those emitted during failed subscriptions. For example, if an ObservableSource fails at first but emits
[1, 2]
then succeeds the second time and emits [1, 2, 3, 4, 5]
then the complete sequence
of emissions and notifications would be [1, 2, 1, 2, 3, 4, 5, onComplete]
.
retry
does not operate by default on a particular Scheduler
.times
- the number of times to resubscribe if the current Observable fails@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> retry(long times, Predicate<? super Throwable> predicate)
retry
does not operate by default on a particular Scheduler
.times
- the number of times to resubscribe if the current Observable failspredicate
- the predicate called with the failure Throwable and should return true to trigger a retry.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> retry(Predicate<? super Throwable> predicate)
retry
does not operate by default on a particular Scheduler
.predicate
- the predicate that receives the failure Throwable and should return true to trigger a retry.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> retryUntil(BooleanSupplier stop)
retryUntil
does not operate by default on a particular Scheduler
.stop
- the function that should return true to stop retrying@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> retryWhen(Function<? super Observable<Throwable>,? extends ObservableSource<?>> handler)
onError
. An onError
notification from the source will result in the emission of a
Throwable
item to the ObservableSource provided as an argument to the notificationHandler
function. If that ObservableSource calls onComplete
or onError
then retry
will call
onComplete
or onError
on the child subscription. Otherwise, this ObservableSource will
resubscribe to the source ObservableSource.
Example: This retries 3 times, each time incrementing the number of seconds it waits.
Observable.create((ObservableEmitter<? super String> s) -> {
System.out.println("subscribing");
s.onError(new RuntimeException("always fails"));
}).retryWhen(attempts -> {
return attempts.zipWith(Observable.range(1, 3), (n, i) -> i).flatMap(i -> {
System.out.println("delay retry by " + i + " second(s)");
return Observable.timer(i, TimeUnit.SECONDS);
});
}).blockingForEach(System.out::println);
Output is:
subscribing
delay retry by 1 second(s)
subscribing
delay retry by 2 second(s)
subscribing
delay retry by 3 second(s)
subscribing
Note that the inner ObservableSource
returned by the handler function should signal
either onNext
, onError
or onComplete
in response to the received
Throwable
to indicate the operator should retry or terminate. If the upstream to
the operator is asynchronous, signalling onNext followed by onComplete immediately may
result in the sequence to be completed immediately. Similarly, if this inner
ObservableSource
signals onError
or onComplete
while the upstream is
active, the sequence is terminated with the same signal immediately.
The following example demonstrates how to retry an asynchronous source with a delay:
Observable.timer(1, TimeUnit.SECONDS)
.doOnSubscribe(s -> System.out.println("subscribing"))
.map(v -> { throw new RuntimeException(); })
.retryWhen(errors -> {
AtomicInteger counter = new AtomicInteger();
return errors
.takeWhile(e -> counter.getAndIncrement() != 3)
.flatMap(e -> {
System.out.println("delay retry by " + counter.get() + " second(s)");
return Observable.timer(counter.get(), TimeUnit.SECONDS);
});
})
.blockingSubscribe(System.out::println, System.out::println);
retryWhen
does not operate by default on a particular Scheduler
.handler
- receives an ObservableSource of notifications with which a user can complete or error, aborting the
retry@SchedulerSupport(value="none") public final void safeSubscribe(Observer<? super T> observer)
safeSubscribe
does not operate by default on a particular Scheduler
.observer
- the incoming Observer instanceNullPointerException
- if s is null@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> sample(long period, TimeUnit unit)
sample
operates by default on the computation
Scheduler
.period
- the sampling rateunit
- the TimeUnit
in which period
is definedthrottleLast(long, TimeUnit)
@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> sample(long period, TimeUnit unit, boolean emitLast)
sample
operates by default on the computation
Scheduler
.History: 2.0.5 - experimental
period
- the sampling rateunit
- the TimeUnit
in which period
is definedemitLast
- if true and the upstream completes while there is still an unsampled item available,
that item is emitted to downstream before completion
if false, an unsampled last item is ignored.throttleLast(long, TimeUnit)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> sample(long period, TimeUnit unit, Scheduler scheduler)
Scheduler
this operator will use.period
- the sampling rateunit
- the TimeUnit
in which period
is definedscheduler
- the Scheduler
to use when samplingthrottleLast(long, TimeUnit, Scheduler)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> sample(long period, TimeUnit unit, Scheduler scheduler, boolean emitLast)
Scheduler
this operator will use.History: 2.0.5 - experimental
period
- the sampling rateunit
- the TimeUnit
in which period
is definedscheduler
- the Scheduler
to use when samplingemitLast
- if true and the upstream completes while there is still an unsampled item available,
that item is emitted to downstream before completion
if false, an unsampled last item is ignored.throttleLast(long, TimeUnit, Scheduler)
@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<T> sample(ObservableSource<U> sampler)
sampler
ObservableSource emits an item or completes,
emits the most recently emitted item (if any) emitted by the source ObservableSource since the previous
emission from the sampler
ObservableSource.
sample
does not operate by default on a particular Scheduler
.U
- the element type of the sampler ObservableSourcesampler
- the ObservableSource to use for sampling the source ObservableSourcesampler
ObservableSource emits an item or completes@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<T> sample(ObservableSource<U> sampler, boolean emitLast)
sampler
ObservableSource emits an item or completes,
emits the most recently emitted item (if any) emitted by the source ObservableSource since the previous
emission from the sampler
ObservableSource
and optionally emit the very last upstream item when the upstream or other ObservableSource complete.
sample
does not operate by default on a particular Scheduler
.History: 2.0.5 - experimental
U
- the element type of the sampler ObservableSourcesampler
- the ObservableSource to use for sampling the source ObservableSourceemitLast
- if true and the upstream completes while there is still an unsampled item available,
that item is emitted to downstream before completion
if false, an unsampled last item is ignored.sampler
ObservableSource emits an item or completes@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> scan(BiFunction<T,T,T> accumulator)
This sort of function is sometimes called an accumulator.
scan
does not operate by default on a particular Scheduler
.accumulator
- an accumulator function to be invoked on each item emitted by the source ObservableSource, whose
result will be emitted to Observer
s via onNext
and used in the
next accumulator call@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> scan(R initialValue, BiFunction<R,? super T,R> accumulator)
This sort of function is sometimes called an accumulator.
Note that the ObservableSource that results from this method will emit initialValue
as its first
emitted item.
Note that the initialValue
is shared among all subscribers to the resulting ObservableSource
and may cause problems if it is mutable. To make sure each subscriber gets its own value, defer
the application of this operator via defer(Callable)
:
ObservableSource<T> source = ...
Observable.defer(() -> source.scan(new ArrayList<>(), (list, item) -> list.add(item)));
// alternatively, by using compose to stay fluent
source.compose(o ->
Observable.defer(() -> o.scan(new ArrayList<>(), (list, item) -> list.add(item)))
);
scan
does not operate by default on a particular Scheduler
.R
- the initial, accumulator and result typeinitialValue
- the initial (seed) accumulator itemaccumulator
- an accumulator function to be invoked on each item emitted by the source ObservableSource, whose
result will be emitted to Observer
s via onNext
and used in the
next accumulator callinitialValue
followed by the results of each call to the
accumulator function@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> scanWith(Callable<R> seedSupplier, BiFunction<R,? super T,R> accumulator)
This sort of function is sometimes called an accumulator.
Note that the ObservableSource that results from this method will emit the value returned
by the seedSupplier
as its first item.
scanWith
does not operate by default on a particular Scheduler
.R
- the initial, accumulator and result typeseedSupplier
- a Callable that returns the initial (seed) accumulator item for each individual Observeraccumulator
- an accumulator function to be invoked on each item emitted by the source ObservableSource, whose
result will be emitted to Observer
s via onNext
and used in the
next accumulator callinitialValue
followed by the results of each call to the
accumulator function@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> serialize()
It is possible for an ObservableSource to invoke its Observers' methods asynchronously, perhaps from
different threads. This could make such an ObservableSource poorly-behaved, in that it might try to invoke
onComplete
or onError
before one of its onNext
invocations, or it might call
onNext
from two different threads concurrently. You can force such an ObservableSource to be
well-behaved and sequential by applying the serialize
method to it.
serialize
does not operate by default on a particular Scheduler
.ObservableSource
that is guaranteed to be well-behaved and to make only serialized calls to
its observers@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> share()
ObservableSource
that multicasts (and shares a single subscription to) the original ObservableSource
. As long as
there is at least one Observer
this ObservableSource
will be subscribed and emitting data.
When all subscribers have disposed it will dispose the source ObservableSource
.
This is an alias for publish()
.refCount()
.
share
does not operate by default on a particular Scheduler
.ObservableSource
that upon connection causes the source ObservableSource
to emit items
to its Observer
s@CheckReturnValue @SchedulerSupport(value="none") public final Maybe<T> singleElement()
IllegalArgumentException
if this Observable emits more than one item.
singleElement
does not operate by default on a particular Scheduler
.Maybe
that emits the single item emitted by the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> single(T defaultItem)
IllegalArgumentException
is signalled instead.
single
does not operate by default on a particular Scheduler
.defaultItem
- a default value to emit if the source ObservableSource emits no item@CheckReturnValue @SchedulerSupport(value="none") public final Single<T> singleOrError()
NoSuchElementException
or IllegalArgumentException
will be signalled respectively.
singleOrError
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> skip(long count)
count
items emitted by the source ObservableSource and emits
the remainder.
skip
does not operate by default on a particular Scheduler
.count
- the number of items to skipcount
items that the source ObservableSource emits@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> skip(long time, TimeUnit unit)
skip
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.time
- the length of the time window to skipunit
- the time unit of time
time
elapses and the emits the remainder@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> skip(long time, TimeUnit unit, Scheduler scheduler)
Scheduler
elapses.
Scheduler
this operator will use for the timed skippingtime
- the length of the time window to skipunit
- the time unit of time
scheduler
- the Scheduler
on which the timed wait happenstime
and scheduler
elapses, and then emits the remainder@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> skipLast(int count)
This Observer accumulates a queue long enough to store the first count
items. As more items are
received, items are taken from the front of the queue and emitted by the returned ObservableSource. This causes
such items to be delayed.
skipLast
does not operate by default on a particular Scheduler
.count
- number of items to drop from the end of the source sequenceIndexOutOfBoundsException
- if count
is less than zero@CheckReturnValue @SchedulerSupport(value="io.reactivex:trampoline") public final Observable<T> skipLast(long time, TimeUnit unit)
Note: this action will cache the latest items arriving in the specified time window.
skipLast
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.time
- the length of the time windowunit
- the time unit of time
time
@CheckReturnValue @SchedulerSupport(value="io.reactivex:trampoline") public final Observable<T> skipLast(long time, TimeUnit unit, boolean delayError)
Note: this action will cache the latest items arriving in the specified time window.
skipLast
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.time
- the length of the time windowunit
- the time unit of time
delayError
- if true, an exception signalled by the current Observable is delayed until the regular elements are consumed
by the downstream; if false, an exception is immediately signalled and all regular elements droppedtime
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> skipLast(long time, TimeUnit unit, Scheduler scheduler)
Note: this action will cache the latest items arriving in the specified time window.
Scheduler
this operator will use for tracking the current timetime
- the length of the time windowunit
- the time unit of time
scheduler
- the scheduler used as the time sourcetime
and scheduler
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> skipLast(long time, TimeUnit unit, Scheduler scheduler, boolean delayError)
Note: this action will cache the latest items arriving in the specified time window.
Scheduler
this operator will use to track the current timetime
- the length of the time windowunit
- the time unit of time
scheduler
- the scheduler used as the time sourcedelayError
- if true, an exception signalled by the current Observable is delayed until the regular elements are consumed
by the downstream; if false, an exception is immediately signalled and all regular elements droppedtime
and scheduler
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> skipLast(long time, TimeUnit unit, Scheduler scheduler, boolean delayError, int bufferSize)
Note: this action will cache the latest items arriving in the specified time window.
Scheduler
this operator will use.time
- the length of the time windowunit
- the time unit of time
scheduler
- the scheduler used as the time sourcedelayError
- if true, an exception signalled by the current Observable is delayed until the regular elements are consumed
by the downstream; if false, an exception is immediately signalled and all regular elements droppedbufferSize
- the hint about how many elements to expect to be skippedtime
and scheduler
@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<T> skipUntil(ObservableSource<U> other)
skipUntil
does not operate by default on a particular Scheduler
.U
- the element type of the other ObservableSourceother
- the second ObservableSource that has to emit an item before the source ObservableSource's elements begin
to be mirrored by the resulting ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> skipWhile(Predicate<? super T> predicate)
skipWhile
does not operate by default on a particular Scheduler
.predicate
- a function to test each item emitted from the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> sorted()
Comparable
with respect to all
other items in the sequence.
If any item emitted by this Observable does not implement Comparable
with respect to
all other items emitted by this Observable, no items will be emitted and the
sequence is terminated with a ClassCastException
.
Note that calling sorted
with long, non-terminating or infinite sources
might cause OutOfMemoryError
sorted
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> sorted(Comparator<? super T> sortFunction)
Note that calling sorted
with long, non-terminating or infinite sources
might cause OutOfMemoryError
sorted
does not operate by default on a particular Scheduler
.sortFunction
- a function that compares two items emitted by the source ObservableSource and returns an Integer
that indicates their sort order@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> startWith(Iterable<? extends T> items)
Iterable
before it begins to emit items
emitted by the source ObservableSource.
startWith
does not operate by default on a particular Scheduler
.items
- an Iterable that contains the items you want the modified ObservableSource to emit firstIterable
and then emits the items
emitted by the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> startWith(ObservableSource<? extends T> other)
ObservableSource
before it begins to emit
items emitted by the source ObservableSource.
startWith
does not operate by default on a particular Scheduler
.other
- an ObservableSource that contains the items you want the modified ObservableSource to emit firstObservableSource
and then emits the items
emitted by the source ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> startWith(T item)
startWith
does not operate by default on a particular Scheduler
.item
- the item to emit first@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> startWithArray(T... items)
startWithArray
does not operate by default on a particular Scheduler
.items
- the array of values to emit first@SchedulerSupport(value="none") public final Disposable subscribe()
onNext
and onComplete
emissions.
If the Observable emits an error, it is wrapped into an
OnErrorNotImplementedException
and routed to the RxJavaPlugins.onError handler.
subscribe
does not operate by default on a particular Scheduler
.Disposable
reference with which the caller can stop receiving items before
the ObservableSource has finished sending them@CheckReturnValue @SchedulerSupport(value="none") public final Disposable subscribe(Consumer<? super T> onNext)
If the Observable emits an error, it is wrapped into an
OnErrorNotImplementedException
and routed to the RxJavaPlugins.onError handler.
subscribe
does not operate by default on a particular Scheduler
.onNext
- the Consumer<T>
you have designed to accept emissions from the ObservableSourceDisposable
reference with which the caller can stop receiving items before
the ObservableSource has finished sending themNullPointerException
- if onNext
is null@CheckReturnValue @SchedulerSupport(value="none") public final Disposable subscribe(Consumer<? super T> onNext, Consumer<? super Throwable> onError)
subscribe
does not operate by default on a particular Scheduler
.onNext
- the Consumer<T>
you have designed to accept emissions from the ObservableSourceonError
- the Consumer<Throwable>
you have designed to accept any error notification from the
ObservableSourceDisposable
reference with which the caller can stop receiving items before
the ObservableSource has finished sending themNullPointerException
- if onNext
is null, or
if onError
is null@CheckReturnValue @SchedulerSupport(value="none") public final Disposable subscribe(Consumer<? super T> onNext, Consumer<? super Throwable> onError, Action onComplete)
subscribe
does not operate by default on a particular Scheduler
.onNext
- the Consumer<T>
you have designed to accept emissions from the ObservableSourceonError
- the Consumer<Throwable>
you have designed to accept any error notification from the
ObservableSourceonComplete
- the Action
you have designed to accept a completion notification from the
ObservableSourceDisposable
reference with which the caller can stop receiving items before
the ObservableSource has finished sending themNullPointerException
- if onNext
is null, or
if onError
is null, or
if onComplete
is null@CheckReturnValue @SchedulerSupport(value="none") public final Disposable subscribe(Consumer<? super T> onNext, Consumer<? super Throwable> onError, Action onComplete, Consumer<? super Disposable> onSubscribe)
subscribe
does not operate by default on a particular Scheduler
.onNext
- the Consumer<T>
you have designed to accept emissions from the ObservableSourceonError
- the Consumer<Throwable>
you have designed to accept any error notification from the
ObservableSourceonComplete
- the Action
you have designed to accept a completion notification from the
ObservableSourceonSubscribe
- the Consumer
that receives the upstream's DisposableDisposable
reference with which the caller can stop receiving items before
the ObservableSource has finished sending themNullPointerException
- if onNext
is null, or
if onError
is null, or
if onComplete
is null, or
if onSubscribe
is null@SchedulerSupport(value="none") public final void subscribe(Observer<? super T> observer)
ObservableSource
subscribe
in interface ObservableSource<T>
observer
- the Observer, not nullprotected abstract void subscribeActual(Observer<? super T> observer)
Observer
s.
There is no need to call any of the plugin hooks on the current Observable
instance or
the Observer
; all hooks and basic safeguards have been
applied by subscribe(Observer)
before this method gets called.
observer
- the incoming Observer, never null@CheckReturnValue @SchedulerSupport(value="none") public final <E extends Observer<? super T>> E subscribeWith(E observer)
Usage example:
Observable<Integer> source = Observable.range(1, 10);
CompositeDisposable composite = new CompositeDisposable();
DisposableObserver<Integer> ds = new DisposableObserver<>() {
// ...
};
composite.add(source.subscribeWith(ds));
subscribeWith
does not operate by default on a particular Scheduler
.E
- the type of the Observer to use and returnobserver
- the Observer (subclass) to use and return, not nullobserver
NullPointerException
- if observer
is null@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> subscribeOn(Scheduler scheduler)
Scheduler
.
Scheduler
this operator will use.scheduler
- the Scheduler
to perform subscription actions onScheduler
observeOn(io.reactivex.Scheduler)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> switchIfEmpty(ObservableSource<? extends T> other)
switchIfEmpty
does not operate by default on a particular Scheduler
.other
- the alternate ObservableSource to subscribe to if the source does not emit any items@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> switchMap(Function<? super T,? extends ObservableSource<? extends R>> mapper)
The resulting ObservableSource completes if both the upstream ObservableSource and the last inner ObservableSource, if any, complete. If the upstream ObservableSource signals an onError, the inner ObservableSource is disposed and the error delivered in-sequence.
switchMap
does not operate by default on a particular Scheduler
.R
- the element type of the inner ObservableSources and the outputmapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcefunc
to the most recently emitted item emitted by the source ObservableSourceswitchMapDelayError(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> switchMap(Function<? super T,? extends ObservableSource<? extends R>> mapper, int bufferSize)
The resulting ObservableSource completes if both the upstream ObservableSource and the last inner ObservableSource, if any, complete. If the upstream ObservableSource signals an onError, the inner ObservableSource is disposed and the error delivered in-sequence.
switchMap
does not operate by default on a particular Scheduler
.R
- the element type of the inner ObservableSources and the outputmapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcebufferSize
- the number of elements to prefetch from the current active inner ObservableSourcefunc
to the most recently emitted item emitted by the source ObservableSourceswitchMapDelayError(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final Completable switchMapCompletable(@NonNull Function<? super T,? extends CompletableSource> mapper)
CompletableSource
s, subscribes to the newer one while
disposing the subscription to the previous CompletableSource
, thus keeping at most one
active CompletableSource
running.
Since a CompletableSource
doesn't produce any items, the resulting reactive type of
this operator is a Completable
that can only indicate successful completion or
a failure in any of the inner CompletableSource
s or the failure of the current
Observable
.
switchMapCompletable
does not operate by default on a particular Scheduler
.Observable
or the active CompletableSource
signals an onError
,
the resulting Completable
is terminated immediately with that Throwable
.
Use the switchMapCompletableDelayError(Function)
to delay such inner failures until
every inner CompletableSource
s and the main Observable
terminates in some fashion.
If they fail concurrently, the operator may combine the Throwable
s into a
CompositeException
and signal it to the downstream instead. If any inactivated (switched out) CompletableSource
signals an onError
late, the Throwable
s will be signalled to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors.
History: 2.1.11 - experimental
mapper
- the function called with each upstream item and should return a
CompletableSource
to be subscribed to and awaited for
(non blockingly) for its terminal eventswitchMapCompletableDelayError(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final Completable switchMapCompletableDelayError(@NonNull Function<? super T,? extends CompletableSource> mapper)
CompletableSource
s, subscribes to the newer one while
disposing the subscription to the previous CompletableSource
, thus keeping at most one
active CompletableSource
running and delaying any main or inner errors until all
of them terminate.
Since a CompletableSource
doesn't produce any items, the resulting reactive type of
this operator is a Completable
that can only indicate successful completion or
a failure in any of the inner CompletableSource
s or the failure of the current
Observable
.
switchMapCompletableDelayError
does not operate by default on a particular Scheduler
.Observable
and all the CompletableSource
s, who had the chance
to run to their completion, are delayed until
all of them terminate in some fashion. At this point, if there was only one failure, the respective
Throwable
is emitted to the downstream. It there were more than one failures, the
operator combines all Throwable
s into a CompositeException
and signals that to the downstream.
If any inactivated (switched out) CompletableSource
signals an onError
late, the Throwable
s will be signalled to the global error handler via
RxJavaPlugins.onError(Throwable)
method as UndeliverableException
errors.
History: 2.1.11 - experimental
mapper
- the function called with each upstream item and should return a
CompletableSource
to be subscribed to and awaited for
(non blockingly) for its terminal eventswitchMapCompletable(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> switchMapMaybe(@NonNull Function<? super T,? extends MaybeSource<? extends R>> mapper)
MaybeSource
s and switches (subscribes) to the newer ones
while disposing the older ones (and ignoring their signals) and emits the latest success value of the current one if
available while failing immediately if this Observable
or any of the
active inner MaybeSource
s fail.
switchMapMaybe
does not operate by default on a particular Scheduler
.onError
if this Observable
or any of
the inner MaybeSource
s fail while they are active. When this happens concurrently, their
individual Throwable
errors may get combined and emitted as a single
CompositeException
. Otherwise, a late
(i.e., inactive or switched out) onError
from this Observable
or from any of
the inner MaybeSource
s will be forwarded to the global error handler via
RxJavaPlugins.onError(Throwable)
as
UndeliverableException
History: 2.1.11 - experimental
R
- the output value typemapper
- the function called with the current upstream event and should
return a MaybeSource
to replace the current active inner source
and get subscribed to.switchMapMaybeDelayError(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> switchMapMaybeDelayError(@NonNull Function<? super T,? extends MaybeSource<? extends R>> mapper)
MaybeSource
s and switches (subscribes) to the newer ones
while disposing the older ones (and ignoring their signals) and emits the latest success value of the current one if
available, delaying errors from this Observable
or the inner MaybeSource
s until all terminate.
switchMapMaybeDelayError
does not operate by default on a particular Scheduler
.History: 2.1.11 - experimental
R
- the output value typemapper
- the function called with the current upstream event and should
return a MaybeSource
to replace the current active inner source
and get subscribed to.switchMapMaybe(Function)
@CheckReturnValue @SchedulerSupport(value="none") @NonNull public final <R> Observable<R> switchMapSingle(@NonNull Function<? super T,? extends SingleSource<? extends R>> mapper)
The resulting ObservableSource completes if both the upstream ObservableSource and the last inner SingleSource, if any, complete. If the upstream ObservableSource signals an onError, the inner SingleSource is disposed and the error delivered in-sequence.
switchMapSingle
does not operate by default on a particular Scheduler
.History: 2.0.8 - experimental
R
- the element type of the inner SingleSources and the outputmapper
- a function that, when applied to an item emitted by the source ObservableSource, returns a
SingleSourcefunc
to the most recently emitted item emitted by the source ObservableSourceswitchMapSingleDelayError(Function)
@CheckReturnValue @SchedulerSupport(value="none") @NonNull public final <R> Observable<R> switchMapSingleDelayError(@NonNull Function<? super T,? extends SingleSource<? extends R>> mapper)
The resulting ObservableSource completes if both the upstream ObservableSource and the last inner SingleSource, if any, complete. If the upstream ObservableSource signals an onError, the termination of the last inner SingleSource will emit that error as is or wrapped into a CompositeException along with the other possible errors the former inner SingleSources signalled.
switchMapSingleDelayError
does not operate by default on a particular Scheduler
.History: 2.0.8 - experimental
R
- the element type of the inner SingleSources and the outputmapper
- a function that, when applied to an item emitted by the source ObservableSource, returns a
SingleSourcefunc
to the most recently emitted item emitted by the source ObservableSourceswitchMapSingle(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> switchMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper)
The resulting ObservableSource completes if both the upstream ObservableSource and the last inner ObservableSource, if any, complete. If the upstream ObservableSource signals an onError, the termination of the last inner ObservableSource will emit that error as is or wrapped into a CompositeException along with the other possible errors the former inner ObservableSources signalled.
switchMapDelayError
does not operate by default on a particular Scheduler
.R
- the element type of the inner ObservableSources and the outputmapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcefunc
to the most recently emitted item emitted by the source ObservableSourceswitchMap(Function)
@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> switchMapDelayError(Function<? super T,? extends ObservableSource<? extends R>> mapper, int bufferSize)
The resulting ObservableSource completes if both the upstream ObservableSource and the last inner ObservableSource, if any, complete. If the upstream ObservableSource signals an onError, the termination of the last inner ObservableSource will emit that error as is or wrapped into a CompositeException along with the other possible errors the former inner ObservableSources signalled.
switchMapDelayError
does not operate by default on a particular Scheduler
.R
- the element type of the inner ObservableSources and the outputmapper
- a function that, when applied to an item emitted by the source ObservableSource, returns an
ObservableSourcebufferSize
- the number of elements to prefetch from the current active inner ObservableSourcefunc
to the most recently emitted item emitted by the source ObservableSourceswitchMap(Function, int)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> take(long count)
count
items emitted by the source ObservableSource. If the source emits fewer than
count
items then all of its items are emitted.
This method returns an ObservableSource that will invoke a subscribing Observer
's
onNext
function a maximum of count
times before invoking
onComplete
.
take
does not operate by default on a particular Scheduler
.count
- the maximum number of items to emitcount
items emitted by the source ObservableSource, or
all of the items from the source ObservableSource if that ObservableSource emits fewer than count
items@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> take(long time, TimeUnit unit)
If time runs out before the Observable
completes normally, the onComplete
event will be
signaled on the default computation
Scheduler
.
take
operates by default on the computation
Scheduler
.time
- the length of the time windowunit
- the time unit of time
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> take(long time, TimeUnit unit, Scheduler scheduler)
If time runs out before the Observable
completes normally, the onComplete
event will be
signaled on the provided Scheduler
.
Scheduler
this operator will use.time
- the length of the time windowunit
- the time unit of time
scheduler
- the Scheduler used for time source@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> takeLast(int count)
count
items emitted by the source ObservableSource. If the source emits fewer than
count
items then all of its items are emitted.
takeLast
does not operate by default on a particular Scheduler
.count
- the maximum number of items to emit from the end of the sequence of items emitted by the source
ObservableSourcecount
items emitted by the source ObservableSourceIndexOutOfBoundsException
- if count
is less than zero@CheckReturnValue @SchedulerSupport(value="io.reactivex:trampoline") public final Observable<T> takeLast(long count, long time, TimeUnit unit)
takeLast
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.count
- the maximum number of items to emittime
- the length of the time windowunit
- the time unit of time
count
items from the source ObservableSource that were emitted
in a specified window of time before the ObservableSource completed@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> takeLast(long count, long time, TimeUnit unit, Scheduler scheduler)
Scheduler
this operator will use for tracking the current timecount
- the maximum number of items to emittime
- the length of the time windowunit
- the time unit of time
scheduler
- the Scheduler
that provides the timestamps for the observed itemscount
items from the source ObservableSource that were emitted
in a specified window of time before the ObservableSource completed, where the timing information is
provided by the given scheduler
IndexOutOfBoundsException
- if count
is less than zero@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> takeLast(long count, long time, TimeUnit unit, Scheduler scheduler, boolean delayError, int bufferSize)
Scheduler
this operator will use for tracking the current timecount
- the maximum number of items to emittime
- the length of the time windowunit
- the time unit of time
scheduler
- the Scheduler
that provides the timestamps for the observed itemsdelayError
- if true, an exception signalled by the current Observable is delayed until the regular elements are consumed
by the downstream; if false, an exception is immediately signalled and all regular elements droppedbufferSize
- the hint about how many elements to expect to be lastcount
items from the source ObservableSource that were emitted
in a specified window of time before the ObservableSource completed, where the timing information is
provided by the given scheduler
IndexOutOfBoundsException
- if count
is less than zero@CheckReturnValue @SchedulerSupport(value="io.reactivex:trampoline") public final Observable<T> takeLast(long time, TimeUnit unit)
takeLast
operates by default on the computation
Scheduler
.time
- the length of the time windowunit
- the time unit of time
time
@CheckReturnValue @SchedulerSupport(value="io.reactivex:trampoline") public final Observable<T> takeLast(long time, TimeUnit unit, boolean delayError)
takeLast
operates by default on the computation
Scheduler
.time
- the length of the time windowunit
- the time unit of time
delayError
- if true, an exception signalled by the current Observable is delayed until the regular elements are consumed
by the downstream; if false, an exception is immediately signalled and all regular elements droppedtime
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> takeLast(long time, TimeUnit unit, Scheduler scheduler)
Scheduler
this operator will use.time
- the length of the time windowunit
- the time unit of time
scheduler
- the Scheduler that provides the timestamps for the Observed itemstime
, where the timing information is
provided by scheduler
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> takeLast(long time, TimeUnit unit, Scheduler scheduler, boolean delayError)
Scheduler
this operator will use.time
- the length of the time windowunit
- the time unit of time
scheduler
- the Scheduler that provides the timestamps for the Observed itemsdelayError
- if true, an exception signalled by the current Observable is delayed until the regular elements are consumed
by the downstream; if false, an exception is immediately signalled and all regular elements droppedtime
, where the timing information is
provided by scheduler
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> takeLast(long time, TimeUnit unit, Scheduler scheduler, boolean delayError, int bufferSize)
Scheduler
this operator will use.time
- the length of the time windowunit
- the time unit of time
scheduler
- the Scheduler that provides the timestamps for the Observed itemsdelayError
- if true, an exception signalled by the current Observable is delayed until the regular elements are consumed
by the downstream; if false, an exception is immediately signalled and all regular elements droppedbufferSize
- the hint about how many elements to expect to be lasttime
, where the timing information is
provided by scheduler
@CheckReturnValue @SchedulerSupport(value="none") public final <U> Observable<T> takeUntil(ObservableSource<U> other)
takeUntil
does not operate by default on a particular Scheduler
.U
- the type of items emitted by other
other
- the ObservableSource whose first emitted item will cause takeUntil
to stop emitting items
from the source Observableother
emits its first item@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> takeUntil(Predicate<? super T> stopPredicate)
The difference between this operator and takeWhile(Predicate)
is that here, the condition is
evaluated after the item is emitted.
takeUntil
does not operate by default on a particular Scheduler
.stopPredicate
- a function that evaluates an item emitted by the source Observable and returns a BooleantakeWhile(Predicate)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<T> takeWhile(Predicate<? super T> predicate)
takeWhile
does not operate by default on a particular Scheduler
.predicate
- a function that evaluates an item emitted by the source ObservableSource and returns a Booleanpredicate
, then completestakeUntil(Predicate)
@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> throttleFirst(long windowDuration, TimeUnit unit)
This differs from throttleLast(long, java.util.concurrent.TimeUnit)
in that this only tracks passage of time whereas
throttleLast(long, java.util.concurrent.TimeUnit)
ticks at scheduled intervals.
throttleFirst
operates by default on the computation
Scheduler
.windowDuration
- time to wait before emitting another item after emitting the last itemunit
- the unit of time of windowDuration
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> throttleFirst(long skipDuration, TimeUnit unit, Scheduler scheduler)
This differs from throttleLast(long, java.util.concurrent.TimeUnit)
in that this only tracks passage of time whereas
throttleLast(long, java.util.concurrent.TimeUnit)
ticks at scheduled intervals.
Scheduler
this operator will use.skipDuration
- time to wait before emitting another item after emitting the last itemunit
- the unit of time of skipDuration
scheduler
- the Scheduler
to use internally to manage the timers that handle timeout for each
event@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> throttleLast(long intervalDuration, TimeUnit unit)
This differs from throttleFirst(long, java.util.concurrent.TimeUnit)
in that this ticks along at a scheduled interval whereas
throttleFirst(long, java.util.concurrent.TimeUnit)
does not tick, it just tracks passage of time.
throttleLast
operates by default on the computation
Scheduler
.intervalDuration
- duration of windows within which the last item emitted by the source ObservableSource will be
emittedunit
- the unit of time of intervalDuration
sample(long, TimeUnit)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> throttleLast(long intervalDuration, TimeUnit unit, Scheduler scheduler)
This differs from throttleFirst(long, java.util.concurrent.TimeUnit)
in that this ticks along at a scheduled interval whereas
throttleFirst(long, java.util.concurrent.TimeUnit)
does not tick, it just tracks passage of time.
Scheduler
this operator will use.intervalDuration
- duration of windows within which the last item emitted by the source ObservableSource will be
emittedunit
- the unit of time of intervalDuration
scheduler
- the Scheduler
to use internally to manage the timers that handle timeout for each
eventsample(long, TimeUnit, Scheduler)
@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> throttleLatest(long timeout, TimeUnit unit)
Observable
by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them.
Unlike the option with throttleLatest(long, TimeUnit, boolean)
, the very last item being held back
(if any) is not emitted when the upstream completes.
If no items were emitted from the upstream during this timeout phase, the next upstream item is emitted immediately and the timeout window starts from then.
throttleLatest
operates by default on the computation
Scheduler
.History: 2.1.14 - experimental
timeout
- the time to wait after an item emission towards the downstream
before trying to emit the latest item from upstream againunit
- the time unitthrottleLatest(long, TimeUnit, boolean)
,
throttleLatest(long, TimeUnit, Scheduler)
@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> throttleLatest(long timeout, TimeUnit unit, boolean emitLast)
Observable
by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them.
If no items were emitted from the upstream during this timeout phase, the next upstream item is emitted immediately and the timeout window starts from then.
throttleLatest
operates by default on the computation
Scheduler
.History: 2.1.14 - experimental
timeout
- the time to wait after an item emission towards the downstream
before trying to emit the latest item from upstream againunit
- the time unitemitLast
- If true
, the very last item from the upstream will be emitted
immediately when the upstream completes, regardless if there is
a timeout window active or not. If false
, the very last
upstream item is ignored and the flow terminates.throttleLatest(long, TimeUnit, Scheduler, boolean)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> throttleLatest(long timeout, TimeUnit unit, Scheduler scheduler)
Observable
by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them.
Unlike the option with throttleLatest(long, TimeUnit, Scheduler, boolean)
, the very last item being held back
(if any) is not emitted when the upstream completes.
If no items were emitted from the upstream during this timeout phase, the next upstream item is emitted immediately and the timeout window starts from then.
Scheduler
this operator will use.History: 2.1.14 - experimental
timeout
- the time to wait after an item emission towards the downstream
before trying to emit the latest item from upstream againunit
- the time unitscheduler
- the Scheduler
where the timed wait and latest item
emission will be performedthrottleLatest(long, TimeUnit, Scheduler, boolean)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> throttleLatest(long timeout, TimeUnit unit, Scheduler scheduler, boolean emitLast)
Observable
by first emitting the next
item from upstream, then periodically emitting the latest item (if any) when
the specified timeout elapses between them.
If no items were emitted from the upstream during this timeout phase, the next upstream item is emitted immediately and the timeout window starts from then.
Scheduler
this operator will use.History: 2.1.14 - experimental
timeout
- the time to wait after an item emission towards the downstream
before trying to emit the latest item from upstream againunit
- the time unitscheduler
- the Scheduler
where the timed wait and latest item
emission will be performedemitLast
- If true
, the very last item from the upstream will be emitted
immediately when the upstream completes, regardless if there is
a timeout window active or not. If false
, the very last
upstream item is ignored and the flow terminates.@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> throttleWithTimeout(long timeout, TimeUnit unit)
debounce(long, TimeUnit, Scheduler)
).
Note: If items keep being emitted by the source ObservableSource faster than the timeout then no items will be emitted by the resulting ObservableSource.
throttleWithTimeout
operates by default on the computation
Scheduler
.timeout
- the length of the window of time that must pass after the emission of an item from the source
ObservableSource in which that ObservableSource emits no items in order for the item to be emitted by the
resulting ObservableSourceunit
- the unit of time for the specified timeout
debounce(long, TimeUnit)
@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> throttleWithTimeout(long timeout, TimeUnit unit, Scheduler scheduler)
debounce(long, TimeUnit, Scheduler)
).
Note: If items keep being emitted by the source ObservableSource faster than the timeout then no items will be emitted by the resulting ObservableSource.
Scheduler
this operator will use.timeout
- the length of the window of time that must pass after the emission of an item from the source
ObservableSource in which that ObservableSource emits no items in order for the item to be emitted by the
resulting ObservableSourceunit
- the unit of time for the specified timeout
scheduler
- the Scheduler
to use internally to manage the timers that handle the timeout for each
itemdebounce(long, TimeUnit, Scheduler)
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timeInterval()
timeInterval
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timeInterval(Scheduler scheduler)
Scheduler
.scheduler
- the Scheduler
used to compute time intervals@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timeInterval(TimeUnit unit)
timeInterval
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.unit
- the time unit for the current time@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timeInterval(TimeUnit unit, Scheduler scheduler)
Scheduler
.unit
- the time unit for the current timescheduler
- the Scheduler
used to compute time intervals@CheckReturnValue @SchedulerSupport(value="none") public final <V> Observable<T> timeout(Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator)
TimeoutException
if an item emitted by the source ObservableSource doesn't arrive within a window of
time after the emission of the previous item, where that period of time is measured by an ObservableSource that
is a function of the previous item.
Note: The arrival of the first source item is never timed out.
timeout
operates by default on the immediate
Scheduler
.V
- the timeout value type (ignored)itemTimeoutIndicator
- a function that returns an ObservableSource for each item emitted by the source
ObservableSource and that determines the timeout window for the subsequent itemTimeoutException
if an item emitted by the source ObservableSource takes longer to arrive than
the time window defined by the selector for the previously emitted item@CheckReturnValue @SchedulerSupport(value="none") public final <V> Observable<T> timeout(Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator, ObservableSource<? extends T> other)
Note: The arrival of the first source item is never timed out.
timeout
operates by default on the immediate
Scheduler
.V
- the timeout value type (ignored)itemTimeoutIndicator
- a function that returns an ObservableSource, for each item emitted by the source ObservableSource, that
determines the timeout window for the subsequent itemother
- the fallback ObservableSource to switch to if the source ObservableSource times out@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> timeout(long timeout, TimeUnit timeUnit)
TimeoutException
.
timeout
operates by default on the computation
Scheduler
.timeout
- maximum duration between emitted items before a timeout occurstimeUnit
- the unit of time that applies to the timeout
argument.TimeoutException
in case of a
timeout@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<T> timeout(long timeout, TimeUnit timeUnit, ObservableSource<? extends T> other)
timeout
operates by default on the computation
Scheduler
.timeout
- maximum duration between items before a timeout occurstimeUnit
- the unit of time that applies to the timeout
argumentother
- the fallback ObservableSource to use in case of a timeout@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> timeout(long timeout, TimeUnit timeUnit, Scheduler scheduler, ObservableSource<? extends T> other)
Scheduler
this operator will use.timeout
- maximum duration between items before a timeout occurstimeUnit
- the unit of time that applies to the timeout
argumentscheduler
- the Scheduler
to run the timeout timers onother
- the ObservableSource to use as the fallback in case of a timeout@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> timeout(long timeout, TimeUnit timeUnit, Scheduler scheduler)
TimeoutException
.
Scheduler
this operator will use.timeout
- maximum duration between items before a timeout occurstimeUnit
- the unit of time that applies to the timeout
argumentscheduler
- the Scheduler to run the timeout timers onTimeoutException
in case of a
timeout@CheckReturnValue @SchedulerSupport(value="none") public final <U,V> Observable<T> timeout(ObservableSource<U> firstTimeoutIndicator, Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator)
TimeoutException
if either the first item emitted by the source ObservableSource or any subsequent item
doesn't arrive within time windows defined by other ObservableSources.
timeout
operates by default on the immediate
Scheduler
.U
- the first timeout value type (ignored)V
- the subsequent timeout value type (ignored)firstTimeoutIndicator
- a function that returns an ObservableSource that determines the timeout window for the first source
itemitemTimeoutIndicator
- a function that returns an ObservableSource for each item emitted by the source ObservableSource and that
determines the timeout window in which the subsequent source item must arrive in order to
continue the sequenceTimeoutException
if either the first item or any subsequent item doesn't arrive within
the time windows specified by the timeout selectors@CheckReturnValue @SchedulerSupport(value="none") public final <U,V> Observable<T> timeout(ObservableSource<U> firstTimeoutIndicator, Function<? super T,? extends ObservableSource<V>> itemTimeoutIndicator, ObservableSource<? extends T> other)
timeout
operates by default on the immediate
Scheduler
.U
- the first timeout value type (ignored)V
- the subsequent timeout value type (ignored)firstTimeoutIndicator
- a function that returns an ObservableSource which determines the timeout window for the first source
itemitemTimeoutIndicator
- a function that returns an ObservableSource for each item emitted by the source ObservableSource and that
determines the timeout window in which the subsequent source item must arrive in order to
continue the sequenceother
- the fallback ObservableSource to switch to if the source ObservableSource times outother
ObservableSource if
either the first item emitted by the source ObservableSource or any subsequent item doesn't arrive
within time windows defined by the timeout selectorsNullPointerException
- if itemTimeoutIndicator
is null, or
if other
is null@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timestamp()
Timed
object.
timestamp
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timestamp(Scheduler scheduler)
Timed
object whose timestamps are provided by a specified Scheduler.
Scheduler
.scheduler
- the Scheduler
to use as a time sourcescheduler
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timestamp(TimeUnit unit)
Timed
object.
timestamp
does not operate on any particular scheduler but uses the current time
from the computation
Scheduler
.unit
- the time unit for the current time@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Timed<T>> timestamp(TimeUnit unit, Scheduler scheduler)
Timed
object whose timestamps are provided by a specified Scheduler.
Scheduler
.unit
- the time unit for the current timescheduler
- the Scheduler
to use as a time sourcescheduler
@CheckReturnValue @SchedulerSupport(value="none") public final <R> R to(Function<? super Observable<T>,R> converter)
This allows fluent conversion to any other type.
to
does not operate by default on a particular Scheduler
.R
- the resulting object typeconverter
- the function that receives the current Observable instance and returns a value@CheckReturnValue @SchedulerSupport(value="none") public final Single<List<T>> toList()
Normally, an ObservableSource that returns multiple items will do so by invoking its Observer
's
onNext
method for each such item. You can change this behavior, instructing the
ObservableSource to compose a list of all of these items and then to invoke the Observer's onNext
function once, passing it the entire list, by calling the ObservableSource's toList
method prior to
calling its subscribe()
method.
Note that this operator requires the upstream to signal onComplete
for the accumulated list to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toList
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Single<List<T>> toList(int capacityHint)
Normally, an ObservableSource that returns multiple items will do so by invoking its Observer
's
onNext
method for each such item. You can change this behavior, instructing the
ObservableSource to compose a list of all of these items and then to invoke the Observer's onNext
function once, passing it the entire list, by calling the ObservableSource's toList
method prior to
calling its subscribe()
method.
Note that this operator requires the upstream to signal onComplete
for the accumulated list to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toList
does not operate by default on a particular Scheduler
.capacityHint
- the number of elements expected from the current Observable@CheckReturnValue @SchedulerSupport(value="none") public final <U extends Collection<? super T>> Single<U> toList(Callable<U> collectionSupplier)
Normally, an ObservableSource that returns multiple items will do so by invoking its Observer
's
onNext
method for each such item. You can change this behavior, instructing the
ObservableSource to compose a list of all of these items and then to invoke the Observer's onNext
function once, passing it the entire list, by calling the ObservableSource's toList
method prior to
calling its subscribe()
method.
Note that this operator requires the upstream to signal onComplete
for the accumulated collection to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toList
does not operate by default on a particular Scheduler
.U
- the subclass of a collection of TscollectionSupplier
- the Callable returning the collection (for each individual Observer) to be filled in@CheckReturnValue @SchedulerSupport(value="none") public final <K> Single<Map<K,T>> toMap(Function<? super T,? extends K> keySelector)
keySelector
function.
If more than one source item maps to the same key, the HashMap will contain the latest of those items.
Note that this operator requires the upstream to signal onComplete
for the accumulated map to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toMap
does not operate by default on a particular Scheduler
.K
- the key type of the MapkeySelector
- the function that extracts the key from a source item to be used in the HashMap@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Single<Map<K,V>> toMap(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector)
keySelector
function.
If more than one source item maps to the same key, the HashMap will contain a single entry that corresponds to the latest of those items.
Note that this operator requires the upstream to signal onComplete
for the accumulated map to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toMap
does not operate by default on a particular Scheduler
.K
- the key type of the MapV
- the value type of the MapkeySelector
- the function that extracts the key from a source item to be used in the HashMapvalueSelector
- the function that extracts the value from a source item to be used in the HashMap@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Single<Map<K,V>> toMap(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector, Callable<? extends Map<K,V>> mapSupplier)
mapFactory
function, that
contains keys and values extracted from the items emitted by the finite source ObservableSource.
Note that this operator requires the upstream to signal onComplete
for the accumulated map to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toMap
does not operate by default on a particular Scheduler
.K
- the key type of the MapV
- the value type of the MapkeySelector
- the function that extracts the key from a source item to be used in the MapvalueSelector
- the function that extracts the value from the source items to be used as value in the MapmapSupplier
- the function that returns a Map instance to be used@CheckReturnValue @SchedulerSupport(value="none") public final <K> Single<Map<K,Collection<T>>> toMultimap(Function<? super T,? extends K> keySelector)
keySelector
function.
Note that this operator requires the upstream to signal onComplete
for the accumulated map to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toMultimap
does not operate by default on a particular Scheduler
.K
- the key type of the MapkeySelector
- the function that extracts the key from the source items to be used as key in the HashMap@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Single<Map<K,Collection<V>>> toMultimap(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector)
valueSelector
function from items emitted by the finite source ObservableSource,
keyed by a specified keySelector
function.
Note that this operator requires the upstream to signal onComplete
for the accumulated map to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toMultimap
does not operate by default on a particular Scheduler
.K
- the key type of the MapV
- the value type of the MapkeySelector
- the function that extracts a key from the source items to be used as key in the HashMapvalueSelector
- the function that extracts a value from the source items to be used as value in the HashMap@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Single<Map<K,Collection<V>>> toMultimap(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector, Callable<? extends Map<K,Collection<V>>> mapSupplier, Function<? super K,? extends Collection<? super V>> collectionFactory)
mapFactory
function, that
contains a custom collection of values, extracted by a specified valueSelector
function from
items emitted by the source ObservableSource, and keyed by the keySelector
function.
toMultimap
does not operate by default on a particular Scheduler
.K
- the key type of the MapV
- the value type of the MapkeySelector
- the function that extracts a key from the source items to be used as the key in the MapvalueSelector
- the function that extracts a value from the source items to be used as the value in the MapmapSupplier
- the function that returns a Map instance to be usedcollectionFactory
- the function that returns a Collection instance for a particular key to be used in the Map@CheckReturnValue @SchedulerSupport(value="none") public final <K,V> Single<Map<K,Collection<V>>> toMultimap(Function<? super T,? extends K> keySelector, Function<? super T,? extends V> valueSelector, Callable<Map<K,Collection<V>>> mapSupplier)
mapFactory
function, that
contains an ArrayList of values, extracted by a specified valueSelector
function from items
emitted by the finite source ObservableSource and keyed by the keySelector
function.
Note that this operator requires the upstream to signal onComplete
for the accumulated map to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toMultimap
does not operate by default on a particular Scheduler
.K
- the key type of the MapV
- the value type of the MapkeySelector
- the function that extracts a key from the source items to be used as the key in the MapvalueSelector
- the function that extracts a value from the source items to be used as the value in the MapmapSupplier
- the function that returns a Map instance to be used@BackpressureSupport(value=SPECIAL) @CheckReturnValue @SchedulerSupport(value="none") public final Flowable<T> toFlowable(BackpressureStrategy strategy)
Marble diagrams for the various backpressure strategies are as follows:
BackpressureStrategy.BUFFER
BackpressureStrategy.DROP
BackpressureStrategy.LATEST
BackpressureStrategy.ERROR
BackpressureStrategy.MISSING
BackpressureStrategy
enum.toFlowable
does not operate by default on a particular Scheduler
.strategy
- the backpressure strategy to apply@CheckReturnValue @SchedulerSupport(value="none") public final Single<List<T>> toSortedList()
Comparable
with respect to all
other items in the sequence.
If any item emitted by this Observable does not implement Comparable
with respect to
all other items emitted by this Observable, no items will be emitted and the
sequence is terminated with a ClassCastException
.
Note that this operator requires the upstream to signal onComplete
for the accumulated list to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toSortedList
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final Single<List<T>> toSortedList(Comparator<? super T> comparator)
Note that this operator requires the upstream to signal onComplete
for the accumulated list to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toSortedList
does not operate by default on a particular Scheduler
.comparator
- a function that compares two items emitted by the source ObservableSource and returns an Integer
that indicates their sort order@CheckReturnValue @SchedulerSupport(value="none") public final Single<List<T>> toSortedList(Comparator<? super T> comparator, int capacityHint)
Note that this operator requires the upstream to signal onComplete
for the accumulated list to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toSortedList
does not operate by default on a particular Scheduler
.comparator
- a function that compares two items emitted by the source ObservableSource and returns an Integer
that indicates their sort ordercapacityHint
- the initial capacity of the ArrayList used to accumulate items before sorting@CheckReturnValue @SchedulerSupport(value="none") public final Single<List<T>> toSortedList(int capacityHint)
Comparable
with respect to all
other items in the sequence.
If any item emitted by this Observable does not implement Comparable
with respect to
all other items emitted by this Observable, no items will be emitted and the
sequence is terminated with a ClassCastException
.
Note that this operator requires the upstream to signal onComplete
for the accumulated list to
be emitted. Sources that are infinite and never complete will never emit anything through this
operator and an infinite source may lead to a fatal OutOfMemoryError
.
toSortedList
does not operate by default on a particular Scheduler
.capacityHint
- the initial capacity of the ArrayList used to accumulate items before sorting@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<T> unsubscribeOn(Scheduler scheduler)
Scheduler
.
Scheduler
this operator will use.scheduler
- the Scheduler
to perform the call to dispose() of the upstream DisposableScheduler
@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Observable<T>> window(long count)
count
items. When the source
ObservableSource completes or encounters an error, the resulting ObservableSource emits the current window and
propagates the notification from the source ObservableSource.
window
does not operate by default on a particular Scheduler
.count
- the maximum size of each window before it should be emittedcount
items from the source ObservableSourceIllegalArgumentException
- if either count is non-positive@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Observable<T>> window(long count, long skip)
skip
items, each containing no more than count
items. When
the source ObservableSource completes or encounters an error, the resulting ObservableSource emits the current window
and propagates the notification from the source ObservableSource.
window
does not operate by default on a particular Scheduler
.count
- the maximum size of each window before it should be emittedskip
- how many items need to be skipped before starting a new window. Note that if skip
and
count
are equal this is the same operation as window(long)
.skip
items containing at most count
items
from the source ObservableSourceIllegalArgumentException
- if either count or skip is non-positive@CheckReturnValue @SchedulerSupport(value="none") public final Observable<Observable<T>> window(long count, long skip, int bufferSize)
skip
items, each containing no more than count
items. When
the source ObservableSource completes or encounters an error, the resulting ObservableSource emits the current window
and propagates the notification from the source ObservableSource.
window
does not operate by default on a particular Scheduler
.count
- the maximum size of each window before it should be emittedskip
- how many items need to be skipped before starting a new window. Note that if skip
and
count
are equal this is the same operation as window(long)
.bufferSize
- the capacity hint for the buffer in the inner windowsskip
items containing at most count
items
from the source ObservableSourceIllegalArgumentException
- if either count or skip is non-positive@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<Observable<T>> window(long timespan, long timeskip, TimeUnit unit)
timeskip
argument. It emits
each window after a fixed timespan, specified by the timespan
argument. When the source
ObservableSource completes or ObservableSource completes or encounters an error, the resulting ObservableSource emits the
current window and propagates the notification from the source ObservableSource.
window
operates by default on the computation
Scheduler
.timespan
- the period of time each window collects items before it should be emittedtimeskip
- the period of time after which a new window will be createdunit
- the unit of time that applies to the timespan
and timeskip
arguments@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<Observable<T>> window(long timespan, long timeskip, TimeUnit unit, Scheduler scheduler)
timeskip
argument. It emits
each window after a fixed timespan, specified by the timespan
argument. When the source
ObservableSource completes or ObservableSource completes or encounters an error, the resulting ObservableSource emits the
current window and propagates the notification from the source ObservableSource.
Scheduler
this operator will use.timespan
- the period of time each window collects items before it should be emittedtimeskip
- the period of time after which a new window will be createdunit
- the unit of time that applies to the timespan
and timeskip
argumentsscheduler
- the Scheduler
to use when determining the end and start of a window@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<Observable<T>> window(long timespan, long timeskip, TimeUnit unit, Scheduler scheduler, int bufferSize)
timeskip
argument. It emits
each window after a fixed timespan, specified by the timespan
argument. When the source
ObservableSource completes or ObservableSource completes or encounters an error, the resulting ObservableSource emits the
current window and propagates the notification from the source ObservableSource.
Scheduler
this operator will use.timespan
- the period of time each window collects items before it should be emittedtimeskip
- the period of time after which a new window will be createdunit
- the unit of time that applies to the timespan
and timeskip
argumentsscheduler
- the Scheduler
to use when determining the end and start of a windowbufferSize
- the capacity hint for the buffer in the inner windows@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<Observable<T>> window(long timespan, TimeUnit unit)
timespan
argument. When the source ObservableSource completes or encounters an error, the resulting
ObservableSource emits the current window and propagates the notification from the source ObservableSource.
window
operates by default on the computation
Scheduler
.timespan
- the period of time each window collects items before it should be emitted and replaced with a
new windowunit
- the unit of time that applies to the timespan
argument@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<Observable<T>> window(long timespan, TimeUnit unit, long count)
timespan
argument or a maximum size as specified by the count
argument (whichever is
reached first). When the source ObservableSource completes or encounters an error, the resulting ObservableSource
emits the current window and propagates the notification from the source ObservableSource.
window
operates by default on the computation
Scheduler
.timespan
- the period of time each window collects items before it should be emitted and replaced with a
new windowunit
- the unit of time that applies to the timespan
argumentcount
- the maximum size of each window before it should be emitted@CheckReturnValue @SchedulerSupport(value="io.reactivex:computation") public final Observable<Observable<T>> window(long timespan, TimeUnit unit, long count, boolean restart)
timespan
argument or a maximum size as specified by the count
argument (whichever is
reached first). When the source ObservableSource completes or encounters an error, the resulting ObservableSource
emits the current window and propagates the notification from the source ObservableSource.
window
operates by default on the computation
Scheduler
.timespan
- the period of time each window collects items before it should be emitted and replaced with a
new windowunit
- the unit of time that applies to the timespan
argumentcount
- the maximum size of each window before it should be emittedrestart
- if true, when a window reaches the capacity limit, the timer is restarted as well@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<Observable<T>> window(long timespan, TimeUnit unit, Scheduler scheduler)
timespan
argument. When the source ObservableSource completes or encounters an error, the resulting
ObservableSource emits the current window and propagates the notification from the source ObservableSource.
Scheduler
this operator will use.timespan
- the period of time each window collects items before it should be emitted and replaced with a
new windowunit
- the unit of time which applies to the timespan
argumentscheduler
- the Scheduler
to use when determining the end and start of a window@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<Observable<T>> window(long timespan, TimeUnit unit, Scheduler scheduler, long count)
timespan
argument or a maximum size specified by the count
argument (whichever is reached
first). When the source ObservableSource completes or encounters an error, the resulting ObservableSource emits the
current window and propagates the notification from the source ObservableSource.
Scheduler
this operator will use.timespan
- the period of time each window collects items before it should be emitted and replaced with a
new windowunit
- the unit of time which applies to the timespan
argumentcount
- the maximum size of each window before it should be emittedscheduler
- the Scheduler
to use when determining the end and start of a window@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<Observable<T>> window(long timespan, TimeUnit unit, Scheduler scheduler, long count, boolean restart)
timespan
argument or a maximum size specified by the count
argument (whichever is reached
first). When the source ObservableSource completes or encounters an error, the resulting ObservableSource emits the
current window and propagates the notification from the source ObservableSource.
Scheduler
this operator will use.timespan
- the period of time each window collects items before it should be emitted and replaced with a
new windowunit
- the unit of time which applies to the timespan
argumentcount
- the maximum size of each window before it should be emittedscheduler
- the Scheduler
to use when determining the end and start of a windowrestart
- if true, when a window reaches the capacity limit, the timer is restarted as well@CheckReturnValue @SchedulerSupport(value="custom") public final Observable<Observable<T>> window(long timespan, TimeUnit unit, Scheduler scheduler, long count, boolean restart, int bufferSize)
timespan
argument or a maximum size specified by the count
argument (whichever is reached
first). When the source ObservableSource completes or encounters an error, the resulting ObservableSource emits the
current window and propagates the notification from the source ObservableSource.
Scheduler
this operator will use.timespan
- the period of time each window collects items before it should be emitted and replaced with a
new windowunit
- the unit of time which applies to the timespan
argumentcount
- the maximum size of each window before it should be emittedscheduler
- the Scheduler
to use when determining the end and start of a windowrestart
- if true, when a window reaches the capacity limit, the timer is restarted as wellbufferSize
- the capacity hint for the buffer in the inner windows@CheckReturnValue @SchedulerSupport(value="none") public final <B> Observable<Observable<T>> window(ObservableSource<B> boundary)
window
does not operate by default on a particular Scheduler
.B
- the window element type (ignored)boundary
- an ObservableSource whose emitted items close and open windowsboundary
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <B> Observable<Observable<T>> window(ObservableSource<B> boundary, int bufferSize)
window
does not operate by default on a particular Scheduler
.B
- the window element type (ignored)boundary
- an ObservableSource whose emitted items close and open windowsbufferSize
- the capacity hint for the buffer in the inner windowsboundary
ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <U,V> Observable<Observable<T>> window(ObservableSource<U> openingIndicator, Function<? super U,? extends ObservableSource<V>> closingIndicator)
openingIndicator
ObservableSource emits an item and when the ObservableSource returned by
closingIndicator
emits an item.
window
does not operate by default on a particular Scheduler
.U
- the element type of the window-opening ObservableSourceV
- the element type of the window-closing ObservableSourcesopeningIndicator
- an ObservableSource that, when it emits an item, causes another window to be createdclosingIndicator
- a Function
that produces an ObservableSource for every window created. When this ObservableSource
emits an item, the associated window is closed and emitted@CheckReturnValue @SchedulerSupport(value="none") public final <U,V> Observable<Observable<T>> window(ObservableSource<U> openingIndicator, Function<? super U,? extends ObservableSource<V>> closingIndicator, int bufferSize)
openingIndicator
ObservableSource emits an item and when the ObservableSource returned by
closingIndicator
emits an item.
window
does not operate by default on a particular Scheduler
.U
- the element type of the window-opening ObservableSourceV
- the element type of the window-closing ObservableSourcesopeningIndicator
- an ObservableSource that, when it emits an item, causes another window to be createdclosingIndicator
- a Function
that produces an ObservableSource for every window created. When this ObservableSource
emits an item, the associated window is closed and emittedbufferSize
- the capacity hint for the buffer in the inner windows@CheckReturnValue @SchedulerSupport(value="none") public final <B> Observable<Observable<T>> window(Callable<? extends ObservableSource<B>> boundary)
closingIndicator
emits an item.
window
does not operate by default on a particular Scheduler
.B
- the element type of the boundary ObservableSourceboundary
- a Callable
that returns an ObservableSource
that governs the boundary between windows.
When the source ObservableSource
emits an item, window
emits the current window and begins
a new one.closingIndicator
emits an item@CheckReturnValue @SchedulerSupport(value="none") public final <B> Observable<Observable<T>> window(Callable<? extends ObservableSource<B>> boundary, int bufferSize)
closingIndicator
emits an item.
window
does not operate by default on a particular Scheduler
.B
- the element type of the boundary ObservableSourceboundary
- a Callable
that returns an ObservableSource
that governs the boundary between windows.
When the source ObservableSource
emits an item, window
emits the current window and begins
a new one.bufferSize
- the capacity hint for the buffer in the inner windowsclosingIndicator
emits an item@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> withLatestFrom(ObservableSource<? extends U> other, BiFunction<? super T,? super U,? extends R> combiner)
resultSelector
function only when the source ObservableSource (this instance) emits an item.
Scheduler
.U
- the element type of the other ObservableSourceR
- the result type of the combinationother
- the other ObservableSourcecombiner
- the function to call when this ObservableSource emits an item and the other ObservableSource has already
emitted an item, to generate the item to be emitted by the resulting ObservableSourceresultSelector
function only when the source ObservableSource sequence (this instance) emits an
item@CheckReturnValue @SchedulerSupport(value="none") public final <T1,T2,R> Observable<R> withLatestFrom(ObservableSource<T1> o1, ObservableSource<T2> o2, Function3<? super T,? super T1,? super T2,R> combiner)
Note that this operator doesn't emit anything until all other sources have produced at least one value. The resulting emission only happens when this ObservableSource emits (and not when any of the other sources emit, unlike combineLatest). If a source doesn't produce any value and just completes, the sequence is completed immediately.
Scheduler
.T1
- the first other source's value typeT2
- the second other source's value typeR
- the result value typeo1
- the first other ObservableSourceo2
- the second other ObservableSourcecombiner
- the function called with an array of values from each participating ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <T1,T2,T3,R> Observable<R> withLatestFrom(ObservableSource<T1> o1, ObservableSource<T2> o2, ObservableSource<T3> o3, Function4<? super T,? super T1,? super T2,? super T3,R> combiner)
Note that this operator doesn't emit anything until all other sources have produced at least one value. The resulting emission only happens when this ObservableSource emits (and not when any of the other sources emit, unlike combineLatest). If a source doesn't produce any value and just completes, the sequence is completed immediately.
Scheduler
.T1
- the first other source's value typeT2
- the second other source's value typeT3
- the third other source's value typeR
- the result value typeo1
- the first other ObservableSourceo2
- the second other ObservableSourceo3
- the third other ObservableSourcecombiner
- the function called with an array of values from each participating ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <T1,T2,T3,T4,R> Observable<R> withLatestFrom(ObservableSource<T1> o1, ObservableSource<T2> o2, ObservableSource<T3> o3, ObservableSource<T4> o4, Function5<? super T,? super T1,? super T2,? super T3,? super T4,R> combiner)
Note that this operator doesn't emit anything until all other sources have produced at least one value. The resulting emission only happens when this ObservableSource emits (and not when any of the other sources emit, unlike combineLatest). If a source doesn't produce any value and just completes, the sequence is completed immediately.
Scheduler
.T1
- the first other source's value typeT2
- the second other source's value typeT3
- the third other source's value typeT4
- the fourth other source's value typeR
- the result value typeo1
- the first other ObservableSourceo2
- the second other ObservableSourceo3
- the third other ObservableSourceo4
- the fourth other ObservableSourcecombiner
- the function called with an array of values from each participating ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> withLatestFrom(ObservableSource<?>[] others, Function<? super Object[],R> combiner)
Note that this operator doesn't emit anything until all other sources have produced at least one value. The resulting emission only happens when this ObservableSource emits (and not when any of the other sources emit, unlike combineLatest). If a source doesn't produce any value and just completes, the sequence is completed immediately.
Scheduler
.R
- the result value typeothers
- the array of other sourcescombiner
- the function called with an array of values from each participating ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <R> Observable<R> withLatestFrom(Iterable<? extends ObservableSource<?>> others, Function<? super Object[],R> combiner)
Note that this operator doesn't emit anything until all other sources have produced at least one value. The resulting emission only happens when this ObservableSource emits (and not when any of the other sources emit, unlike combineLatest). If a source doesn't produce any value and just completes, the sequence is completed immediately.
Scheduler
.R
- the result value typeothers
- the iterable of other sourcescombiner
- the function called with an array of values from each participating ObservableSource@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> zipWith(Iterable<U> other, BiFunction<? super T,? super U,? extends R> zipper)
Note that the other
Iterable is evaluated as items are observed from the source ObservableSource; it is
not pre-consumed. This allows you to zip infinite streams on either side.
zipWith
does not operate by default on a particular Scheduler
.U
- the type of items in the other
IterableR
- the type of items emitted by the resulting ObservableSourceother
- the Iterable sequencezipper
- a function that combines the pairs of items from the ObservableSource and the Iterable to generate
the items to be emitted by the resulting ObservableSourceother
Iterable
sequence and emits the results of zipFunction
applied to these pairs@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> zipWith(ObservableSource<? extends U> other, BiFunction<? super T,? super U,? extends R> zipper)
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
range(1, 5).doOnComplete(action1).zipWith(range(6, 5).doOnComplete(action2), (a, b) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zipWith
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the other
ObservableSourceR
- the type of items emitted by the resulting ObservableSourceother
- the other ObservableSourcezipper
- a function that combines the pairs of items from the two ObservableSources to generate the items to
be emitted by the resulting ObservableSourceother
ObservableSource
and emits the results of zipFunction
applied to these pairs@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> zipWith(ObservableSource<? extends U> other, BiFunction<? super T,? super U,? extends R> zipper, boolean delayError)
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
range(1, 5).doOnComplete(action1).zipWith(range(6, 5).doOnComplete(action2), (a, b) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zipWith
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the other
ObservableSourceR
- the type of items emitted by the resulting ObservableSourceother
- the other ObservableSourcezipper
- a function that combines the pairs of items from the two ObservableSources to generate the items to
be emitted by the resulting ObservableSourcedelayError
- if true, errors from the current Observable or the other ObservableSource is delayed until both terminateother
ObservableSource
and emits the results of zipFunction
applied to these pairs@CheckReturnValue @SchedulerSupport(value="none") public final <U,R> Observable<R> zipWith(ObservableSource<? extends U> other, BiFunction<? super T,? super U,? extends R> zipper, boolean delayError, int bufferSize)
The operator subscribes to its sources in order they are specified and completes eagerly if
one of the sources is shorter than the rest while disposing the other sources. Therefore, it
is possible those other sources will never be able to run to completion (and thus not calling
doOnComplete()
). This can also happen if the sources are exactly the same length; if
source A completes and B has been consumed and is about to complete, the operator detects A won't
be sending further values and it will dispose B immediately. For example:
range(1, 5).doOnComplete(action1).zipWith(range(6, 5).doOnComplete(action2), (a, b) -> a + b)
action1
will be called but action2
won't.
doOnDispose(Action)
as well or use using()
to do cleanup in case of completion
or a dispose() call.
zipWith
does not operate by default on a particular Scheduler
.U
- the type of items emitted by the other
ObservableSourceR
- the type of items emitted by the resulting ObservableSourceother
- the other ObservableSourcezipper
- a function that combines the pairs of items from the two ObservableSources to generate the items to
be emitted by the resulting ObservableSourcebufferSize
- the capacity hint for the buffer in the inner windowsdelayError
- if true, errors from the current Observable or the other ObservableSource is delayed until both terminateother
ObservableSource
and emits the results of zipFunction
applied to these pairs@CheckReturnValue @SchedulerSupport(value="none") public final TestObserver<T> test()
test
does not operate by default on a particular Scheduler
.@CheckReturnValue @SchedulerSupport(value="none") public final TestObserver<T> test(boolean dispose)
test
does not operate by default on a particular Scheduler
.dispose
- dispose the TestObserver before it is subscribed to this Observable?