https://github.com/reactor/reactor-core: Non-Blocking Reactive Foundation for the JVM (reactor)
  • Stephane Maldini
  • David Karnok
  • Simon Baslé
  • Sergei Egorov
  • Sébastien Deleuze 
/*
 * 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
 *
 *       https://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.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.Objects;
import java.util.concurrent.RejectedExecutionException;
import java.util.concurrent.atomic.AtomicReferenceFieldUpdater;

import reactor.core.publisher.Flux;
import reactor.util.annotation.Nullable;
import reactor.util.retry.Retry;


Global Reactor Core Exception handling and utils to operate on.

Author:Stephane Maldini
See Also:
/**
 * Global Reactor Core Exception handling and utils to operate on.
 *
 * @author Stephane Maldini
 * @see <a href="https://github.com/reactor/reactive-streams-commons">Reactive-Streams-Commons</a>
 */
public abstract class Exceptions {

	
A common error message used when a reactive streams source doesn't seem to respect
backpressure signals, resulting in an operator's internal queue to be full.

/**
	 * A common error message used when a reactive streams source doesn't seem to respect
	 * backpressure signals, resulting in an operator's internal queue to be full.
	 */
	public static final String BACKPRESSURE_ERROR_QUEUE_FULL = "Queue is full: Reactive Streams source doesn't respect backpressure";

	
A singleton instance of a Throwable indicating a terminal state for exceptions,
don't leak this!

/**
	 * A singleton instance of a Throwable indicating a terminal state for exceptions,
	 * don't leak this!
	 */
	@SuppressWarnings("ThrowableInstanceNeverThrown")
	public static final Throwable TERMINATED = new StaticThrowable("Operator has been terminated");

	
Update an empty atomic reference with the given exception, or combine further added exceptions together as suppressed exceptions under a root Throwable with the "Multiple exceptions" message, if the atomic reference already holds one. This is short-circuited if the reference contains TERMINATED. 
 Since composite exceptions and traceback exceptions share the same underlying mechanism of suppressed exceptions, a traceback could be made part of a composite exception. Use unwrapMultipleExcludingTracebacks(Throwable) to filter out such elements in a composite if needed. 
Params:
  • field – the target field updater
  • instance – the parent instance for the field
  • exception – the Throwable to add.
Type parameters:
  • <T> – the parent instance type
See Also:
Returns:true if added, false if the field contained the TERMINATED instance.
/**
	 * Update an empty atomic reference with the given exception, or combine further added
	 * exceptions together as suppressed exceptions under a root Throwable with
	 * the {@code "Multiple exceptions"} message, if the atomic reference already holds
	 * one. This is short-circuited if the reference contains {@link #TERMINATED}.
	 * <p>
	 * Since composite exceptions and traceback exceptions share the same underlying mechanism
	 * of suppressed exceptions, a traceback could be made part of a composite exception.
	 * Use {@link #unwrapMultipleExcludingTracebacks(Throwable)} to filter out such elements in
	 * a composite if needed.
	 *
	 * @param <T> the parent instance type
	 * @param field the target field updater
	 * @param instance the parent instance for the field
	 * @param exception the Throwable to add.
	 *
	 * @return true if added, false if the field contained the {@link #TERMINATED}
	 * instance.
	 * @see #unwrapMultiple(Throwable)
	 */
	public static <T> boolean addThrowable(AtomicReferenceFieldUpdater<T, Throwable> field,
			T instance,
			Throwable exception) {
		for (; ; ) {
			Throwable current = field.get(instance);

			if (current == TERMINATED) {
				return false;
			}

			if (current instanceof CompositeException) {
				//this is ok, composite exceptions are never singletons
				current.addSuppressed(exception);
				return true;
			}

			Throwable update;
			if (current == null) {
				update = exception;
			} else {
				update = multiple(current, exception);
			}

			if (field.compareAndSet(instance, current, update)) {
				return true;
			}
		}
	}

	
Create a composite exception that wraps the given Throwable(s), as suppressed exceptions. Instances create by this method can be detected using the isMultiple(Throwable) check. The unwrapMultiple(Throwable) method will correctly unwrap these to a List of the suppressed exceptions. Note that is will also be consistent in producing a List for other types of exceptions by putting the input inside a single-element List. 
 Since composite exceptions and traceback exceptions share the same underlying mechanism of suppressed exceptions, a traceback could be made part of a composite exception. Use unwrapMultipleExcludingTracebacks(Throwable) to filter out such elements in a composite if needed. 
Params:
  • throwables – the exceptions to wrap into a composite
See Also:
Returns:a composite exception with a standard message, and the given throwables as
suppressed exceptions
/**
	 * Create a composite exception that wraps the given {@link Throwable Throwable(s)},
	 * as suppressed exceptions. Instances create by this method can be detected using the
	 * {@link #isMultiple(Throwable)} check. The {@link #unwrapMultiple(Throwable)} method
	 * will correctly unwrap these to a {@link List} of the suppressed exceptions. Note
	 * that is will also be consistent in producing a List for other types of exceptions
	 * by putting the input inside a single-element List.
	 * <p>
	 * Since composite exceptions and traceback exceptions share the same underlying mechanism
	 * of suppressed exceptions, a traceback could be made part of a composite exception.
	 * Use {@link #unwrapMultipleExcludingTracebacks(Throwable)} to filter out such elements in
	 * a composite if needed.
	 *
	 * @param throwables the exceptions to wrap into a composite
	 * @return a composite exception with a standard message, and the given throwables as
	 * suppressed exceptions
	 * @see #addThrowable(AtomicReferenceFieldUpdater, Object, Throwable)
	 */
	public static RuntimeException multiple(Throwable... throwables) {
		CompositeException multiple = new CompositeException();
		//noinspection ConstantConditions
		if (throwables != null) {
			for (Throwable t : throwables) {
				//this is ok, multiple is always a new non-singleton instance
				multiple.addSuppressed(t);
			}
		}
		return multiple;
	}

	
Create a composite exception that wraps the given Throwable(s), as suppressed exceptions. Instances created by this method can be detected using the isMultiple(Throwable) check. The unwrapMultiple(Throwable) method will correctly unwrap these to a List of the suppressed exceptions. Note that is will also be consistent in producing a List for other types of exceptions by putting the input inside a single-element List. 
 Since composite exceptions and traceback exceptions share the same underlying mechanism of suppressed exceptions, a traceback could be made part of a composite exception. Use unwrapMultipleExcludingTracebacks(Throwable) to filter out such elements in a composite if needed. 
Params:
  • throwables – the exceptions to wrap into a composite
See Also:
Returns:a composite exception with a standard message, and the given throwables as
suppressed exceptions
/**
	 * Create a composite exception that wraps the given {@link Throwable Throwable(s)},
	 * as suppressed exceptions. Instances created by this method can be detected using the
	 * {@link #isMultiple(Throwable)} check. The {@link #unwrapMultiple(Throwable)} method
	 * will correctly unwrap these to a {@link List} of the suppressed exceptions. Note
	 * that is will also be consistent in producing a List for other types of exceptions
	 * by putting the input inside a single-element List.
	 * <p>
	 * Since composite exceptions and traceback exceptions share the same underlying mechanism
	 * of suppressed exceptions, a traceback could be made part of a composite exception.
	 * Use {@link #unwrapMultipleExcludingTracebacks(Throwable)} to filter out such elements in
	 * a composite if needed.
	 *
	 * @param throwables the exceptions to wrap into a composite
	 * @return a composite exception with a standard message, and the given throwables as
	 * suppressed exceptions
	 * @see #addThrowable(AtomicReferenceFieldUpdater, Object, Throwable)
	 */
	public static RuntimeException multiple(Iterable<Throwable> throwables) {
		CompositeException multiple = new CompositeException();
		//noinspection ConstantConditions
		if (throwables != null) {
			for (Throwable t : throwables) {
				//this is ok, multiple is always a new non-singleton instance
				multiple.addSuppressed(t);
			}
		}
		return multiple;
	}

	
Prepare an unchecked RuntimeException that will bubble upstream if thrown by an operator. 
This method invokes throwIfFatal(Throwable). 
Params:
  • t – the root cause
Returns:an unchecked exception that should choose bubbling up over error callback
path
/**
	 * Prepare an unchecked {@link RuntimeException} that will bubble upstream if thrown
	 * by an operator. <p>This method invokes {@link #throwIfFatal(Throwable)}.
	 *
	 * @param t the root cause
	 *
	 * @return an unchecked exception that should choose bubbling up over error callback
	 * path
	 */
	public static RuntimeException bubble(Throwable t) {
		throwIfFatal(t);
		return new BubblingException(t);
	}

	
Returns:a new IllegalStateException with a cause message abiding to reactive stream specification rule 2.12.
/**
	 * @return a new {@link IllegalStateException} with a cause message abiding to
	 * reactive stream specification rule 2.12.
	 */
	public static IllegalStateException duplicateOnSubscribeException() {
		return new IllegalStateException(
				"Spec. Rule 2.12 - Subscriber.onSubscribe MUST NOT be called more than once (based on object equality)");
	}

	
Return an UnsupportedOperationException indicating that the error callback on a subscriber was not implemented, yet an error was propagated. 
Params:
  • cause – original error not processed by a receiver.
See Also:
Returns:an UnsupportedOperationException indicating the error callback was not implemented and holding the original propagated error.
/**
	 * Return an {@link UnsupportedOperationException} indicating that the error callback
	 * on a subscriber was not implemented, yet an error was propagated.
	 *
	 * @param cause original error not processed by a receiver.
	 * @return an {@link UnsupportedOperationException} indicating the error callback was
	 * not implemented and holding the original propagated error.
	 * @see #isErrorCallbackNotImplemented(Throwable)
	 */
	public static UnsupportedOperationException errorCallbackNotImplemented(Throwable cause) {
		Objects.requireNonNull(cause, "cause");
		return new ErrorCallbackNotImplemented(cause);
	}

	
An exception that is propagated upward and considered as "fatal" as per Reactive
Stream limited list of exceptions allowed to bubble. It is not meant to be common
error resolution but might assist implementors in dealing with boundaries (queues,
combinations and async).

See Also:
Returns:a RuntimeException that can be identified via isCancel
/**
	 * An exception that is propagated upward and considered as "fatal" as per Reactive
	 * Stream limited list of exceptions allowed to bubble. It is not meant to be common
	 * error resolution but might assist implementors in dealing with boundaries (queues,
	 * combinations and async).
	 *
	 * @return a {@link RuntimeException} that can be identified via {@link #isCancel}
	 * @see #isCancel(Throwable)
	 */
	public static RuntimeException failWithCancel() {
		return new CancelException();
	}

	
Return an IllegalStateException indicating the receiver is overrun by more signals than expected in case of a bounded queue, or more generally that data couldn't be emitted due to a lack of request 
See Also:
Returns:an IllegalStateException
/**
	 * Return an {@link IllegalStateException} indicating the receiver is overrun by
	 * more signals than expected in case of a bounded queue, or more generally that data
	 * couldn't be emitted due to a lack of request
	 *
	 * @return an {@link IllegalStateException}
	 * @see #isOverflow(Throwable)
	 */
	public static IllegalStateException failWithOverflow() {
		return new OverflowException("The receiver is overrun by more signals than expected (bounded queue...)");
	}

	
Return an IllegalStateException indicating the receiver is overrun by more signals than expected in case of a bounded queue or more generally that data couldn't be emitted due to a lack of request 
Params:
  • message – the exception's message
See Also:
Returns:an IllegalStateException
/**
	 * Return an {@link IllegalStateException} indicating the receiver is overrun by
	 * more signals than expected in case of a bounded queue or more generally that data
	 * couldn't be emitted due to a lack of request
	 *
	 * @param message the exception's message
	 * @return an {@link IllegalStateException}
	 * @see #isOverflow(Throwable)
	 */
	public static IllegalStateException failWithOverflow(String message) {
		return new OverflowException(message);
	}

	
Return a singleton RejectedExecutionException 
Returns:a singleton RejectedExecutionException
/**
	 * Return a singleton {@link RejectedExecutionException}
	 *
	 * @return a singleton {@link RejectedExecutionException}
	 */
	public static RejectedExecutionException failWithRejected() {
		return REJECTED_EXECUTION;
	}

	
Return a singleton RejectedExecutionException with a message indicating the reason is due to the scheduler not being time-capable 
Returns:a singleton RejectedExecutionException
/**
	 * Return a singleton {@link RejectedExecutionException} with a message indicating
	 * the reason is due to the scheduler not being time-capable
	 *
	 * @return a singleton {@link RejectedExecutionException}
	 */
	public static RejectedExecutionException failWithRejectedNotTimeCapable() {
		return NOT_TIME_CAPABLE_REJECTED_EXECUTION;
	}

	
Return a new RejectedExecutionException with standard message and cause, unless the cause is already a RejectedExecutionException created via failWithRejected(Throwable) (not the singleton-producing variants). 
Params:
  • cause – the original exception that caused the rejection
Returns:a new RejectedExecutionException with standard message and cause
/**
	 * Return a new {@link RejectedExecutionException} with standard message and cause,
	 * unless the {@code cause} is already a {@link RejectedExecutionException} created
	 * via {@link #failWithRejected(Throwable)} (not the singleton-producing variants).
	 *
	 * @param cause the original exception that caused the rejection
	 * @return a new {@link RejectedExecutionException} with standard message and cause
	 */
	public static RejectedExecutionException failWithRejected(Throwable cause) {
		if (cause instanceof ReactorRejectedExecutionException) {
			return (RejectedExecutionException) cause;
		}
		return new ReactorRejectedExecutionException("Scheduler unavailable", cause);
	}

	
Return a new RejectedExecutionException with given message. 
Params:
  • message – the rejection message
Returns:a new RejectedExecutionException with custom message
/**
	 * Return a new {@link RejectedExecutionException} with given message.
	 *
	 * @param message the rejection message
	 * @return a new {@link RejectedExecutionException} with custom message
	 */
	public static RejectedExecutionException failWithRejected(String message) {
		return new ReactorRejectedExecutionException(message);
	}

	
Return a new RuntimeException that represents too many failures on retry. This nature can be detected via isRetryExhausted(Throwable). The cause of the last retry attempt is passed and stored as this exception's cause. 
Params:
  • message – the message
  • cause – the cause of the last retry attempt that failed (or null if irrelevant)
Returns:a new RuntimeException representing retry exhaustion due to too many attempts
/**
	 * Return a new {@link RuntimeException} that represents too many failures on retry.
	 * This nature can be detected via {@link #isRetryExhausted(Throwable)}.
	 * The cause of the last retry attempt is passed and stored as this exception's {@link Throwable#getCause() cause}.
	 *
	 * @param message the message
	 * @param cause the cause of the last retry attempt that failed (or null if irrelevant)
	 * @return a new {@link RuntimeException} representing retry exhaustion due to too many attempts
	 */
	public static RuntimeException retryExhausted(String message, @Nullable Throwable cause) {
		return cause == null ? new RetryExhaustedException(message) : new RetryExhaustedException(message, cause);
	}

	
Check if the given exception represents an overflow. 
Params:
Returns:true if the given Throwable represents an overflow.
/**
	 * Check if the given exception represents an {@link #failWithOverflow() overflow}.
	 * @param t the {@link Throwable} error to check
	 * @return true if the given {@link Throwable} represents an overflow.
	 */
	public static boolean isOverflow(@Nullable Throwable t) {
		return t instanceof OverflowException;
	}

	
Check if the given exception is a bubbled wrapped exception. 
Params:
Returns:true if given Throwable is a bubbled wrapped exception.
/**
	 * Check if the given exception is a {@link #bubble(Throwable) bubbled} wrapped exception.
	 * @param t the {@link Throwable} error to check
	 * @return true if given {@link Throwable} is a bubbled wrapped exception.
	 */
	public static boolean isBubbling(@Nullable Throwable t) {
		return t instanceof BubblingException;
	}

	
Check if the given error is a cancel signal. 
Params:
Returns:true if given Throwable is a cancellation token.
/**
	 * Check if the given error is a {@link #failWithCancel() cancel signal}.
	 * @param t the {@link Throwable} error to check
	 * @return true if given {@link Throwable} is a cancellation token.
	 */
	public static boolean isCancel(@Nullable Throwable t) {
		return t instanceof CancelException;
	}

	
Check if the given error is a callback not implemented exception, in which case its cause will be the propagated error that couldn't be processed. 
Params:
Returns:true if given Throwable is a callback not implemented exception.
/**
	 * Check if the given error is a {@link #errorCallbackNotImplemented(Throwable) callback not implemented}
	 * exception, in which case its {@link Throwable#getCause() cause} will be the propagated
	 * error that couldn't be processed.
	 *
	 * @param t the {@link Throwable} error to check
	 * @return true if given {@link Throwable} is a callback not implemented exception.
	 */
	public static boolean isErrorCallbackNotImplemented(@Nullable Throwable t) {
		return t instanceof ErrorCallbackNotImplemented;
	}

	
Check a Throwable to see if it is a composite, as created by multiple(Throwable...). 
Params:
  • t – the Throwable to check, null always yields false
Returns:true if the Throwable is an instance created by multiple(Throwable...), false otherwise
/**
	 * Check a {@link Throwable} to see if it is a composite, as created by {@link #multiple(Throwable...)}.
	 *
	 * @param t the {@link Throwable} to check, {@literal null} always yields {@literal false}
	 * @return true if the Throwable is an instance created by {@link #multiple(Throwable...)}, false otherwise
	 */
	public static boolean isMultiple(@Nullable Throwable t) {
		return t instanceof CompositeException;
	}

	
Check a Throwable to see if it indicates too many retry attempts have failed. Such an exception can be created via retryExhausted(String, Throwable). 
Params:
  • t – the Throwable to check, null always yields false
Returns:true if the Throwable is an instance representing retry exhaustion, false otherwise
/**
	 * Check a {@link Throwable} to see if it indicates too many retry attempts have failed.
	 * Such an exception can be created via {@link #retryExhausted(String, Throwable)}.
	 *
	 * @param t the {@link Throwable} to check, {@literal null} always yields {@literal false}
	 * @return true if the Throwable is an instance representing retry exhaustion, false otherwise
	 */
	public static boolean isRetryExhausted(@Nullable Throwable t) {
		return t instanceof RetryExhaustedException;
	}

	
Check a Throwable to see if it is a traceback, as created by the checkpoint operator or debug utilities. 
Params:
  • t – the Throwable to check, null always yields false
Returns:true if the Throwable is a traceback, false otherwise
/**
	 * Check a {@link Throwable} to see if it is a traceback, as created by the checkpoint operator or debug utilities.
	 *
	 * @param t the {@link Throwable} to check, {@literal null} always yields {@literal false}
	 * @return true if the Throwable is a traceback, false otherwise
	 */
	public static boolean isTraceback(@Nullable Throwable t) {
		if (t == null) {
			return false;
		}
		//FIXME maybe add an interface here for detection purposes
		return "reactor.core.publisher.FluxOnAssembly.OnAssemblyException".equals(t.getClass().getCanonicalName());
	}

	
Params:
  • elements – the invalid requested demand
Returns:a new IllegalArgumentException with a cause message abiding to reactive stream specification rule 3.9.
/**
	 * @param elements the invalid requested demand
	 *
	 * @return a new {@link IllegalArgumentException} with a cause message abiding to
	 * reactive stream specification rule 3.9.
	 */
	public static IllegalArgumentException nullOrNegativeRequestException(long elements) {
		return new IllegalArgumentException(
				"Spec. Rule 3.9 - Cannot request a non strictly positive number: " + elements);
	}

	
Prepare an unchecked RuntimeException that should be propagated downstream through Subscriber.onError(Throwable). 
This method invokes throwIfFatal(Throwable). 
Params:
  • t – the root cause
Returns:an unchecked exception to propagate through onError signals.
/**
	 * Prepare an unchecked {@link RuntimeException} that should be propagated
	 * downstream through {@link org.reactivestreams.Subscriber#onError(Throwable)}.
	 * <p>This method invokes {@link #throwIfFatal(Throwable)}.
	 *
	 * @param t the root cause
	 *
	 * @return an unchecked exception to propagate through onError signals.
	 */
	public static RuntimeException propagate(Throwable t) {
		throwIfFatal(t);
		if (t instanceof RuntimeException) {
			return (RuntimeException) t;
		}
		return new ReactiveException(t);
	}

	
Atomic utility to safely mark a volatile throwable reference with a terminal
marker.

Params:
  • field – the atomic container
  • instance – the reference instance
Type parameters:
  • <T> – the instance type
Returns:the previously masked throwable
/**
	 * Atomic utility to safely mark a volatile throwable reference with a terminal
	 * marker.
	 *
	 * @param field the atomic container
	 * @param instance the reference instance
	 * @param <T> the instance type
	 *
	 * @return the previously masked throwable
	 */
	@Nullable
	public static <T> Throwable terminate(AtomicReferenceFieldUpdater<T, Throwable> field,
			T instance) {
		Throwable current = field.get(instance);
		if (current != TERMINATED) {
			current = field.getAndSet(instance, TERMINATED);
		}
		return current;
	}

	
Throws a particular Throwable only if it belongs to a set of "fatal" error varieties. These varieties are as follows: 

Params:
  • t – the exception to evaluate
/**
	 * Throws a particular {@code Throwable} only if it belongs to a set of "fatal" error
	 * varieties. These varieties are as follows: <ul>
	 *     <li>{@code BubblingException} (as detectable by {@link #isBubbling(Throwable)})</li>
	 *     <li>{@code ErrorCallbackNotImplemented} (as detectable by {@link #isErrorCallbackNotImplemented(Throwable)})</li>
	 *     <li>{@link VirtualMachineError}</li> <li>{@link ThreadDeath}</li> <li>{@link LinkageError}</li> </ul>
	 *
	 * @param t the exception to evaluate
	 */
	public static void throwIfFatal(@Nullable Throwable t) {
		if (t instanceof BubblingException) {
			throw (BubblingException) t;
		}
		if (t instanceof ErrorCallbackNotImplemented) {
			throw (ErrorCallbackNotImplemented) t;
		}
		throwIfJvmFatal(t);
	}

	
Throws a particular Throwable only if it belongs to a set of "fatal" error varieties native to the JVM. These varieties are as follows: 

Params:
  • t – the exception to evaluate
/**
	 * Throws a particular {@code Throwable} only if it belongs to a set of "fatal" error
	 * varieties native to the JVM. These varieties are as follows:
	 * <ul> <li>{@link VirtualMachineError}</li> <li>{@link ThreadDeath}</li>
	 * <li>{@link LinkageError}</li> </ul>
	 *
	 * @param t the exception to evaluate
	 */
	public static void throwIfJvmFatal(@Nullable Throwable t) {
		if (t instanceof VirtualMachineError) {
			throw (VirtualMachineError) t;
		}
		if (t instanceof ThreadDeath) {
			throw (ThreadDeath) t;
		}
		if (t instanceof LinkageError) {
			throw (LinkageError) t;
		}
	}

	
Unwrap a particular Throwable only if it is was wrapped via bubble or propagate. 
Params:
  • t – the exception to unwrap
Returns:the unwrapped exception or current one if null
/**
	 * Unwrap a particular {@code Throwable} only if it is was wrapped via
	 * {@link #bubble(Throwable) bubble} or {@link #propagate(Throwable) propagate}.
	 *
	 * @param t the exception to unwrap
	 *
	 * @return the unwrapped exception or current one if null
	 */
	public static Throwable unwrap(Throwable t) {
		Throwable _t = t;
		while (_t instanceof ReactiveException) {
			_t = _t.getCause();
		}
		return _t == null ? t : _t;
	}

	
Attempt to unwrap a Throwable into a List of Throwables. This is only done on the condition that said Throwable is a composite exception built by multiple(Throwable...), in which case the list contains the exceptions wrapped as suppressed exceptions in the composite. In any other case, the list only contains the input Throwable (or is empty in case of null input). 
 Since composite exceptions and traceback exceptions share the same underlying mechanism of suppressed exceptions, a traceback could be made part of a composite exception. Use unwrapMultipleExcludingTracebacks(Throwable) to filter out such elements in a composite if needed. 
Params:
  • potentialMultiple – the Throwable to unwrap if multiple
See Also:
Returns:a List of the exceptions suppressed by the Throwable if multiple, or a List containing the Throwable otherwise. Null input results in an empty List.
/**
	 * Attempt to unwrap a {@link Throwable} into a {@link List} of Throwables. This is
	 * only done on the condition that said Throwable is a composite exception built by
	 * {@link #multiple(Throwable...)}, in which case the list contains the exceptions
	 * wrapped as suppressed exceptions in the composite. In any other case, the list
	 * only contains the input Throwable (or is empty in case of null input).
	 * <p>
	 * Since composite exceptions and traceback exceptions share the same underlying mechanism
	 * of suppressed exceptions, a traceback could be made part of a composite exception.
	 * Use {@link #unwrapMultipleExcludingTracebacks(Throwable)} to filter out such elements in
	 * a composite if needed.
	 *
	 * @param potentialMultiple the {@link Throwable} to unwrap if multiple
	 * @return a {@link List} of the exceptions suppressed by the {@link Throwable} if
	 * multiple, or a List containing the Throwable otherwise. Null input results in an
	 * empty List.
	 * @see #unwrapMultipleExcludingTracebacks(Throwable)
	 */
	public static List<Throwable> unwrapMultiple(@Nullable Throwable potentialMultiple) {
		if (potentialMultiple == null) {
			return Collections.emptyList();
		}

		if (isMultiple(potentialMultiple)) {
			return Arrays.asList(potentialMultiple.getSuppressed());
		}

		return Collections.singletonList(potentialMultiple);
	}

	
Attempt to unwrap a Throwable into a List of Throwables, excluding instances that are tracebacks. This is only done on the condition that said Throwable is a composite exception built by multiple(Throwable...), in which case the returned list contains its suppressed exceptions minus the tracebacks. In any other case, the list only contains the input Throwable (or is empty in case of null input). 

This is useful because tracebacks are added as suppressed exceptions and thus can appear as components
of a composite.

Params:
  • potentialMultiple – the Throwable to unwrap if multiple
Returns:a List of the exceptions suppressed by the Throwable minus the tracebacks if multiple, or a List containing the Throwable otherwise. Null input results in an empty List.
/**
	 * Attempt to unwrap a {@link Throwable} into a {@link List} of Throwables, excluding instances that
	 * are {@link #isTraceback(Throwable) tracebacks}.
	 * This is only done on the condition that said Throwable is a composite exception built by
	 * {@link #multiple(Throwable...)}, in which case the returned list contains its suppressed exceptions
	 * minus the tracebacks. In any other case, the list only contains the input Throwable (or is empty in
	 * case of null input).
	 * <p>
	 * This is useful because tracebacks are added as suppressed exceptions and thus can appear as components
	 * of a composite.
	 *
	 * @param potentialMultiple the {@link Throwable} to unwrap if multiple
	 * @return a {@link List} of the exceptions suppressed by the {@link Throwable} minus the
	 * tracebacks if multiple, or a List containing the Throwable otherwise. Null input results in an
	 * empty List.
	 */
	public static List<Throwable> unwrapMultipleExcludingTracebacks(@Nullable Throwable potentialMultiple) {
		if (potentialMultiple == null) {
			return Collections.emptyList();
		}

		if (isMultiple(potentialMultiple)) {
			final Throwable[] suppressed = potentialMultiple.getSuppressed();
			List<Throwable> filtered = new ArrayList<>(suppressed.length);
			for (Throwable t : suppressed) {
				if (isTraceback(t)) {
					continue;
				}
				filtered.add(t);
			}
			return filtered;
		}

		return Collections.singletonList(potentialMultiple);
	}

	
Safely suppress a Throwable on a RuntimeException. The returned RuntimeException, bearing the suppressed exception, is most often the same as the original exception unless: 
    
    
  • original and tentatively suppressed exceptions are one and the same: do
    nothing but return the original.
    • 
    
  • original is one of the singleton RejectedExecutionException created by Reactor: make a copy the RejectedExecutionException, add the suppressed exception to it and return that copy.
    • 



Params:
Returns:the (most of the time original) RuntimeException bearing the suppressed Throwable
/**
	 * Safely suppress a {@link Throwable} on a {@link RuntimeException}. The returned
	 * {@link RuntimeException}, bearing the suppressed exception, is most often the same
	 * as the original exception unless:
	 * <ul>
	 *     <li>original and tentatively suppressed exceptions are one and the same: do
	 *     nothing but return the original.</li>
	 *     <li>original is one of the singleton {@link RejectedExecutionException} created
	 *     by Reactor: make a copy the {@link RejectedExecutionException}, add the
	 *     suppressed exception to it and return that copy.</li>
	 *
	 * </ul>
	 * @param original the original {@link RuntimeException} to bear a suppressed exception
	 * @param suppressed the {@link Throwable} to suppress
	 * @return the (most of the time original) {@link RuntimeException} bearing the
	 * suppressed {@link Throwable}
	 */
	public static final RuntimeException addSuppressed(RuntimeException original, Throwable suppressed) {
		if (original == suppressed) {
			return original;
		}
		if (original == REJECTED_EXECUTION || original == NOT_TIME_CAPABLE_REJECTED_EXECUTION) {
			RejectedExecutionException ree = new RejectedExecutionException(original.getMessage());
			ree.addSuppressed(suppressed);
			return ree;
		}
		else {
			original.addSuppressed(suppressed);
			return original;
		}
	}

	
Safely suppress a Throwable on an original Throwable. The returned Throwable, bearing the suppressed exception, is most often the same as the original one unless: 
    
    
  • original and tentatively suppressed exceptions are one and the same: do
    nothing but return the original.
    • 
    
  • original is one of the singleton RejectedExecutionException created by Reactor: make a copy the RejectedExecutionException, add the suppressed exception to it and return that copy.
    • 
    
  • original is a special internal TERMINATED singleton instance: return it
    without suppressing the exception.
    • 



Params:
  • original – the original Throwable to bear a suppressed exception
  • suppressed – the Throwable to suppress
Returns:the (most of the time original) Throwable bearing the suppressed Throwable
/**
	 * Safely suppress a {@link Throwable} on an original {@link Throwable}. The returned
	 * {@link Throwable}, bearing the suppressed exception, is most often the same
	 * as the original one unless:
	 * <ul>
	 *     <li>original and tentatively suppressed exceptions are one and the same: do
	 *     nothing but return the original.</li>
	 *     <li>original is one of the singleton {@link RejectedExecutionException} created
	 *     by Reactor: make a copy the {@link RejectedExecutionException}, add the
	 *     suppressed exception to it and return that copy.</li>
	 *     <li>original is a special internal TERMINATED singleton instance: return it
	 *     without suppressing the exception.</li>
	 *
	 * </ul>
	 * @param original the original {@link Throwable} to bear a suppressed exception
	 * @param suppressed the {@link Throwable} to suppress
	 * @return the (most of the time original) {@link Throwable} bearing the
	 * suppressed {@link Throwable}
	 */
	public static final Throwable addSuppressed(Throwable original, final Throwable suppressed) {
		if (original == suppressed) {
			return original;
		}

		if (original == TERMINATED) {
			return original;
		}

		if (original == REJECTED_EXECUTION || original == NOT_TIME_CAPABLE_REJECTED_EXECUTION) {
			RejectedExecutionException ree = new RejectedExecutionException(original.getMessage());
			ree.addSuppressed(suppressed);
			return ree;
		}
		else {
			original.addSuppressed(suppressed);
			return original;
		}
	}

	Exceptions() {
	}

	static final RejectedExecutionException REJECTED_EXECUTION = new StaticRejectedExecutionException("Scheduler unavailable");

	static final RejectedExecutionException NOT_TIME_CAPABLE_REJECTED_EXECUTION =
			new StaticRejectedExecutionException("Scheduler is not capable of time-based scheduling");

	static class CompositeException extends ReactiveException {

		CompositeException() {
			super("Multiple exceptions");
		}

		private static final long serialVersionUID = 8070744939537687606L;
	}

	static class BubblingException extends ReactiveException {

		BubblingException(String message) {
			super(message);
		}

		BubblingException(Throwable cause) {
			super(cause);
		}

		private static final long serialVersionUID = 2491425277432776142L;
	}

	
An exception that is propagated downward through Subscriber.onError(Throwable) 
/**
	 * An exception that is propagated downward through {@link org.reactivestreams.Subscriber#onError(Throwable)}
	 */
	static class ReactiveException extends RuntimeException {

		ReactiveException(Throwable cause) {
			super(cause);
		}

		ReactiveException(String message) {
			super(message);
		}

		@Override
		public synchronized Throwable fillInStackTrace() {
			return getCause() != null ? getCause().fillInStackTrace() :
					super.fillInStackTrace();
		}

		private static final long serialVersionUID = 2491425227432776143L;
	}

	static final class ErrorCallbackNotImplemented extends UnsupportedOperationException {

		ErrorCallbackNotImplemented(Throwable cause) {
			super(cause);
		}

		@Override
		public synchronized Throwable fillInStackTrace() {
			return this;
		}

		private static final long serialVersionUID = 2491425227432776143L;
	}

	
An error signal from downstream subscribers consuming data when their state is
denying any additional event.

Author:Stephane Maldini
/**
	 * An error signal from downstream subscribers consuming data when their state is
	 * denying any additional event.
	 *
	 * @author Stephane Maldini
	 */
	static final class CancelException extends BubblingException {

		CancelException() {
			super("The subscriber has denied dispatching");
		}

		private static final long serialVersionUID = 2491425227432776144L;

	}

	static final class OverflowException extends IllegalStateException {

		OverflowException(String s) {
			super(s);
		}
	}

	
A specialized IllegalStateException to signify a retry has failed (eg. after N attempts, or a timeout). 
See Also:
/**
	 * A specialized {@link IllegalStateException} to signify a {@link Flux#retryWhen(Retry) retry}
	 * has failed (eg. after N attempts, or a timeout).
	 *
	 * @see #retryExhausted(String, Throwable)
	 * @see #isRetryExhausted(Throwable)
	 */
	static final class RetryExhaustedException extends IllegalStateException {

		RetryExhaustedException(String message) {
			super(message);
		}

		RetryExhaustedException(String message, Throwable cause) {
			super(message, cause);
		}
	}

	static class ReactorRejectedExecutionException extends RejectedExecutionException {

		ReactorRejectedExecutionException(String message, Throwable cause) {
			super(message, cause);
		}

		ReactorRejectedExecutionException(String message) {
			super(message);
		}
	}

	
A RejectedExecutionException that is tailored for usage as a static final field. It avoids ClassLoader-related leaks by bypassing stacktrace filling. 
/**
	 * A {@link RejectedExecutionException} that is tailored for usage as a static final
	 * field. It avoids {@link ClassLoader}-related leaks by bypassing stacktrace filling.
	 */
	static final class StaticRejectedExecutionException extends RejectedExecutionException {

		StaticRejectedExecutionException(String message, Throwable cause) {
			super(message, cause);
		}

		StaticRejectedExecutionException(String message) {
			super(message);
		}

		@Override
		public synchronized Throwable fillInStackTrace() {
			return this;
		}
	}

	
A general-purpose Throwable that is suitable for usage as a static final field. It avoids ClassLoader-related leaks by bypassing stacktrace filling. Exception {Throwable.addSuppressed(Throwable) suppression} is also disabled. 
/**
	 * A general-purpose {@link Throwable} that is suitable for usage as a static final
	 * field. It avoids {@link ClassLoader}-related leaks by bypassing stacktrace filling.
	 * Exception {{@link Exception#addSuppressed(Throwable)} suppression} is also disabled.
	 */
	//see https://github.com/reactor/reactor-core/pull/1872
	static final class StaticThrowable extends Error {

		StaticThrowable(String message) {
			super(message, null, false, false);
		}

		StaticThrowable(String message, Throwable cause) {
			super(message, cause, false, false);
		}

		StaticThrowable(Throwable cause) {
			super(cause.toString(), cause, false, false);
		}
	}

}