/*
* Copyright (c) 2011-2017 Pivotal Software Inc, All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package reactor.core;
import java.util.
Collection;
import java.util.
Iterator;
import java.util.
Queue;
import java.util.concurrent.
Callable;
import org.reactivestreams.
Subscriber;
import org.reactivestreams.
Subscription;
import reactor.util.annotation.
Nullable;
/**
* A micro API for stream fusion, in particular marks producers that support a {@link QueueSubscription}.
*/
public interface
Fuseable {
/** Indicates the QueueSubscription can't support the requested mode. */
int
NONE = 0;
/** Indicates the QueueSubscription can perform sync-fusion. */
int
SYNC = 1;
/** Indicates the QueueSubscription can perform only async-fusion. */
int
ASYNC = 2;
/** Indicates the QueueSubscription should decide what fusion it performs (input only). */
int
ANY = 3;
/**
* Indicates that the queue will be drained from another thread
* thus any queue-exit computation may be invalid at that point.
* <p>
* For example, an {@code asyncSource.map().publishOn().subscribe()} sequence where {@code asyncSource}
* is async-fuseable: publishOn may fuse the whole sequence into a single Queue. That in turn
* could invoke the mapper function from its {@code poll()} method from another thread,
* whereas the unfused sequence would have invoked the mapper on the previous thread.
* If such mapper invocation is costly, it would escape its thread boundary this way.
*/
int
THREAD_BARRIER = 4;
/**
* A subscriber variant that can immediately tell if it consumed
* the value or not, directly allowing a new value to be sent if
* it didn't. This avoids the usual request(1) round-trip for dropped
* values.
*
* @param <T> the value type
*/
interface
ConditionalSubscriber<T> extends
CoreSubscriber<T> {
/**
* Try consuming the value and return true if successful.
* @param t the value to consume, not null
* @return true if consumed, false if dropped and a new value can be immediately sent
*/
boolean
tryOnNext(T
t);
}
/**
* Support contract for queue-fusion based optimizations on subscriptions.
*
* <ul>
* <li>
* Synchronous sources which have fixed size and can
* emit their items in a pull fashion, thus avoiding the request-accounting
* overhead in many cases.
* </li>
* <li>
* Asynchronous sources which can act as a queue and subscription at
* the same time, saving on allocating another queue most of the time.
* </li>
* </ul>
*
* <p>
*
* @param <T> the value type emitted
*/
interface
QueueSubscription<T> extends
Queue<T>,
Subscription {
String NOT_SUPPORTED_MESSAGE = "Although QueueSubscription extends Queue it is purely internal" +
" and only guarantees support for poll/clear/size/isEmpty." +
" Instances shouldn't be used/exposed as Queue outside of Reactor operators.";
/**
* Request a specific fusion mode from this QueueSubscription.
* <p>
* One should request either SYNC, ASYNC or ANY modes (never NONE)
* and the implementor should return NONE, SYNC or ASYNC (never ANY).
* <p>
* For example, if a source supports only ASYNC fusion but
* the intermediate operator supports only SYNC fuseable sources,
* the operator may request SYNC fusion and the source can reject it via
* NONE, thus the operator can return NONE as well to downstream and the
* fusion doesn't happen.
*
* @param requestedMode the mode requested by the intermediate operator
* @return the actual fusion mode activated
*/
int
requestFusion(int
requestedMode);
@
Override
@
Nullable
default T
peek() {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
add(@
Nullable T
t) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
offer(@
Nullable T
t) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default T
remove() {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default T
element() {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
contains(@
Nullable Object o) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default
Iterator<T>
iterator() {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default
Object[]
toArray() {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default <T1> T1[]
toArray(T1[]
a) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
remove(@
Nullable Object o) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
containsAll(
Collection<?>
c) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
addAll(
Collection<? extends T>
c) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
removeAll(
Collection<?>
c) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
@
Override
default boolean
retainAll(
Collection<?>
c) {
throw new
UnsupportedOperationException(
NOT_SUPPORTED_MESSAGE);
}
}
/**
* Base class for synchronous sources which have fixed size and can
* emit their items in a pull fashion, thus avoiding the request-accounting
* overhead in many cases.
*
* @param <T> the content value type
*/
interface
SynchronousSubscription<T> extends
QueueSubscription<T> {
@
Override
default int
requestFusion(int
requestedMode) {
if ((
requestedMode &
Fuseable.
SYNC) != 0) {
return
Fuseable.
SYNC;
}
return
NONE;
}
}
/**
* Marker interface indicating that the target can return a value or null,
* otherwise fail immediately and thus a viable target for assembly-time
* optimizations.
*
* @param <T> the value type returned
*/
interface
ScalarCallable<T> extends
Callable<T> { }
}