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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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 org.apache.commons.lang3.function;
import java.io.IOException;
import java.io.UncheckedIOException;
import java.lang.reflect.UndeclaredThrowableException;
import java.util.Collection;
import java.util.Objects;
import java.util.concurrent.Callable;
import java.util.function.BiConsumer;
import java.util.function.BiFunction;
import java.util.function.BiPredicate;
import java.util.function.Consumer;
import java.util.function.Function;
import java.util.function.Predicate;
import java.util.function.Supplier;
import java.util.stream.Stream;
import org.apache.commons.lang3.stream.Streams.FailableStream;
/**
* This class provides utility functions, and classes for working with the {@code java.util.function} package, or more
* generally, with Java 8 lambdas. More specifically, it attempts to address the fact that lambdas are supposed not to
* throw Exceptions, at least not checked Exceptions, AKA instances of {@link Exception}. This enforces the use of
* constructs like:
*
*
* Consumer<java.lang.reflect.Method-> consumer = (m) -> {
* try {
* m.invoke(o, args);
* } catch (Throwable t) {
* throw Failable.rethrow(t);
* }
* };
*
*
*
* By replacing a {@link java.util.function.Consumer Consumer<O>} with a {@link FailableConsumer
* FailableConsumer<O,? extends Throwable>}, this can be written like follows:
*
*
*
* Functions.accept((m) -> m.invoke(o, args));
*
*
*
* Obviously, the second version is much more concise and the spirit of Lambda expressions is met better than the second
* version.
*
*
* @since 3.11
*/
public class Failable {
/**
* Consumes a consumer and rethrows any exception as a {@link RuntimeException}.
*
* @param consumer the consumer to consume
* @param object1 the first object to consume by {@code consumer}
* @param object2 the second object to consume by {@code consumer}
* @param the type of the first argument the consumer accepts
* @param the type of the second argument the consumer accepts
* @param the type of checked exception the consumer may throw
*/
public static void accept(final FailableBiConsumer consumer, final T object1,
final U object2) {
run(() -> consumer.accept(object1, object2));
}
/**
* Consumes a consumer and rethrows any exception as a {@link RuntimeException}.
*
* @param consumer the consumer to consume
* @param object the object to consume by {@code consumer}
* @param the type the consumer accepts
* @param the type of checked exception the consumer may throw
*/
public static void accept(final FailableConsumer consumer, final T object) {
run(() -> consumer.accept(object));
}
/**
* Consumes a consumer and rethrows any exception as a {@link RuntimeException}.
*
* @param consumer the consumer to consume
* @param value the value to consume by {@code consumer}
* @param the type of checked exception the consumer may throw
*/
public static void accept(final FailableDoubleConsumer consumer, final double value) {
run(() -> consumer.accept(value));
}
/**
* Consumes a consumer and rethrows any exception as a {@link RuntimeException}.
*
* @param consumer the consumer to consume
* @param value the value to consume by {@code consumer}
* @param the type of checked exception the consumer may throw
*/
public static void accept(final FailableIntConsumer consumer, final int value) {
run(() -> consumer.accept(value));
}
/**
* Consumes a consumer and rethrows any exception as a {@link RuntimeException}.
*
* @param consumer the consumer to consume
* @param value the value to consume by {@code consumer}
* @param the type of checked exception the consumer may throw
*/
public static void accept(final FailableLongConsumer consumer, final long value) {
run(() -> consumer.accept(value));
}
/**
* Applies a function and rethrows any exception as a {@link RuntimeException}.
*
* @param function the function to apply
* @param input1 the first input to apply {@code function} on
* @param input2 the second input to apply {@code function} on
* @param the type of the first argument the function accepts
* @param the type of the second argument the function accepts
* @param the return type of the function
* @param the type of checked exception the function may throw
* @return the value returned from the function
*/
public static R apply(final FailableBiFunction function, final T input1,
final U input2) {
return get(() -> function.apply(input1, input2));
}
/**
* Applies a function and rethrows any exception as a {@link RuntimeException}.
*
* @param function the function to apply
* @param input the input to apply {@code function} on
* @param the type of the argument the function accepts
* @param the return type of the function
* @param the type of checked exception the function may throw
* @return the value returned from the function
*/
public static R apply(final FailableFunction function, final T input) {
return get(() -> function.apply(input));
}
/**
* Applies a function and rethrows any exception as a {@link RuntimeException}.
*
* @param function the function to apply
* @param left the first input to apply {@code function} on
* @param right the second input to apply {@code function} on
* @param the type of checked exception the function may throw
* @return the value returned from the function
*/
public static double applyAsDouble(final FailableDoubleBinaryOperator function,
final double left, final double right) {
return getAsDouble(() -> function.applyAsDouble(left, right));
}
/**
* Converts the given {@link FailableBiConsumer} into a standard {@link BiConsumer}.
*
* @param the type of the first argument of the consumers
* @param the type of the second argument of the consumers
* @param consumer a failable {@code BiConsumer}
* @return a standard {@code BiConsumer}
*/
public static BiConsumer asBiConsumer(final FailableBiConsumer consumer) {
return (input1, input2) -> accept(consumer, input1, input2);
}
/**
* Converts the given {@link FailableBiFunction} into a standard {@link BiFunction}.
*
* @param the type of the first argument of the input of the functions
* @param the type of the second argument of the input of the functions
* @param the type of the output of the functions
* @param function a {@code FailableBiFunction}
* @return a standard {@code BiFunction}
*/
public static BiFunction asBiFunction(final FailableBiFunction function) {
return (input1, input2) -> apply(function, input1, input2);
}
/**
* Converts the given {@link FailableBiPredicate} into a standard {@link BiPredicate}.
*
* @param the type of the first argument used by the predicates
* @param the type of the second argument used by the predicates
* @param predicate a {@code FailableBiPredicate}
* @return a standard {@code BiPredicate}
*/
public static BiPredicate asBiPredicate(final FailableBiPredicate predicate) {
return (input1, input2) -> test(predicate, input1, input2);
}
/**
* Converts the given {@link FailableCallable} into a standard {@link Callable}.
*
* @param the type used by the callables
* @param callable a {@code FailableCallable}
* @return a standard {@code Callable}
*/
public static Callable asCallable(final FailableCallable callable) {
return () -> call(callable);
}
/**
* Converts the given {@link FailableConsumer} into a standard {@link Consumer}.
*
* @param the type used by the consumers
* @param consumer a {@code FailableConsumer}
* @return a standard {@code Consumer}
*/
public static Consumer asConsumer(final FailableConsumer consumer) {
return input -> accept(consumer, input);
}
/**
* Converts the given {@link FailableFunction} into a standard {@link Function}.
*
* @param the type of the input of the functions
* @param the type of the output of the functions
* @param function a {code FailableFunction}
* @return a standard {@code Function}
*/
public static Function asFunction(final FailableFunction function) {
return input -> apply(function, input);
}
/**
* Converts the given {@link FailablePredicate} into a standard {@link Predicate}.
*
* @param the type used by the predicates
* @param predicate a {@code FailablePredicate}
* @return a standard {@code Predicate}
*/
public static Predicate asPredicate(final FailablePredicate predicate) {
return input -> test(predicate, input);
}
/**
* Converts the given {@link FailableRunnable} into a standard {@link Runnable}.
*
* @param runnable a {@code FailableRunnable}
* @return a standard {@code Runnable}
*/
public static Runnable asRunnable(final FailableRunnable> runnable) {
return () -> run(runnable);
}
/**
* Converts the given {@link FailableSupplier} into a standard {@link Supplier}.
*
* @param the type supplied by the suppliers
* @param supplier a {@code FailableSupplier}
* @return a standard {@code Supplier}
*/
public static Supplier asSupplier(final FailableSupplier supplier) {
return () -> get(supplier);
}
/**
* Calls a callable and rethrows any exception as a {@link RuntimeException}.
*
* @param callable the callable to call
* @param the return type of the callable
* @param the type of checked exception the callable may throw
* @return the value returned from the callable
*/
public static V call(final FailableCallable callable) {
return get(callable::call);
}
/**
* Invokes a supplier, and returns the result.
*
* @param supplier The supplier to invoke.
* @param The suppliers output type.
* @param The type of checked exception, which the supplier can throw.
* @return The object, which has been created by the supplier
*/
public static T get(final FailableSupplier supplier) {
try {
return supplier.get();
} catch (final Throwable t) {
throw rethrow(t);
}
}
/**
* Invokes a boolean supplier, and returns the result.
*
* @param supplier The boolean supplier to invoke.
* @param The type of checked exception, which the supplier can throw.
* @return The boolean, which has been created by the supplier
*/
public static boolean getAsBoolean(final FailableBooleanSupplier supplier) {
try {
return supplier.getAsBoolean();
} catch (final Throwable t) {
throw rethrow(t);
}
}
/**
* Invokes a double supplier, and returns the result.
*
* @param supplier The double supplier to invoke.
* @param The type of checked exception, which the supplier can throw.
* @return The boolean, which has been created by the supplier
*/
public static double getAsDouble(final FailableDoubleSupplier supplier) {
try {
return supplier.getAsDouble();
} catch (final Throwable t) {
throw rethrow(t);
}
}
/**
* Invokes an int supplier, and returns the result.
*
* @param supplier The int supplier to invoke.
* @param The type of checked exception, which the supplier can throw.
* @return The boolean, which has been created by the supplier
*/
public static int getAsInt(final FailableIntSupplier supplier) {
try {
return supplier.getAsInt();
} catch (final Throwable t) {
throw rethrow(t);
}
}
/**
* Invokes a long supplier, and returns the result.
*
* @param supplier The long supplier to invoke.
* @param The type of checked exception, which the supplier can throw.
* @return The boolean, which has been created by the supplier
*/
public static long getAsLong(final FailableLongSupplier supplier) {
try {
return supplier.getAsLong();
} catch (final Throwable t) {
throw rethrow(t);
}
}
/**
*
* Rethrows a {@link Throwable} as an unchecked exception. If the argument is already unchecked, namely a
* {@code RuntimeException} or {@code Error} then the argument will be rethrown without modification. If the
* exception is {@code IOException} then it will be wrapped into a {@code UncheckedIOException}. In every other
* cases the exception will be wrapped into a {@code
* UndeclaredThrowableException}
*
*
*
* Note that there is a declared return type for this method, even though it never returns. The reason for that is
* to support the usual pattern:
*
*
*
* throw rethrow(myUncheckedException);
*
*
*
* instead of just calling the method. This pattern may help the Java compiler to recognize that at that point an
* exception will be thrown and the code flow analysis will not demand otherwise mandatory commands that could
* follow the method call, like a {@code return} statement from a value returning method.
*
*
* @param throwable The throwable to rethrow ossibly wrapped into an unchecked exception
* @return Never returns anything, this method never terminates normally.
*/
public static RuntimeException rethrow(final Throwable throwable) {
Objects.requireNonNull(throwable, "throwable");
if (throwable instanceof RuntimeException) {
throw (RuntimeException) throwable;
} else if (throwable instanceof Error) {
throw (Error) throwable;
} else if (throwable instanceof IOException) {
throw new UncheckedIOException((IOException) throwable);
} else {
throw new UndeclaredThrowableException(throwable);
}
}
/**
* Runs a runnable and rethrows any exception as a {@link RuntimeException}.
*
* @param runnable The runnable to run
* @param the type of checked exception the runnable may throw
*/
public static void run(final FailableRunnable runnable) {
try {
runnable.run();
} catch (final Throwable t) {
throw rethrow(t);
}
}
/**
* Converts the given collection into a {@link FailableStream}. The {@link FailableStream} consists of the
* collections elements. Shortcut for
*
*
* Functions.stream(collection.stream());
*
*
* @param collection The collection, which is being converted into a {@link FailableStream}.
* @param The collections element type. (In turn, the result streams element type.)
* @return The created {@link FailableStream}.
*/
public static FailableStream stream(final Collection collection) {
return new FailableStream<>(collection.stream());
}
/**
* Converts the given stream into a {@link FailableStream}. The {@link FailableStream} consists of the same
* elements, than the input stream. However, failable lambdas, like {@link FailablePredicate},
* {@link FailableFunction}, and {@link FailableConsumer} may be applied, rather than {@link Predicate},
* {@link Function}, {@link Consumer}, etc.
*
* @param stream The stream, which is being converted into a {@link FailableStream}.
* @param The streams element type.
* @return The created {@link FailableStream}.
*/
public static FailableStream stream(final Stream stream) {
return new FailableStream<>(stream);
}
/**
* Tests a predicate and rethrows any exception as a {@link RuntimeException}.
*
* @param predicate the predicate to test
* @param object1 the first input to test by {@code predicate}
* @param object2 the second input to test by {@code predicate}
* @param the type of the first argument the predicate tests
* @param the type of the second argument the predicate tests
* @param the type of checked exception the predicate may throw
* @return the boolean value returned by the predicate
*/
public static boolean test(final FailableBiPredicate predicate,
final T object1, final U object2) {
return getAsBoolean(() -> predicate.test(object1, object2));
}
/**
* Tests a predicate and rethrows any exception as a {@link RuntimeException}.
*
* @param predicate the predicate to test
* @param object the input to test by {@code predicate}
* @param the type of argument the predicate tests
* @param the type of checked exception the predicate may throw
* @return the boolean value returned by the predicate
*/
public static boolean test(final FailablePredicate predicate, final T object) {
return getAsBoolean(() -> predicate.test(object));
}
/**
* A simple try-with-resources implementation, that can be used, if your objects do not implement the
* {@link AutoCloseable} interface. The method executes the {@code action}. The method guarantees, that all
* the {@code resources} are being executed, in the given order, afterwards, and regardless of success, or failure.
* If either the original action, or any of the resource action fails, then the first failure (AKA
* {@link Throwable} is rethrown. Example use:
*
*
* final FileInputStream fis = new FileInputStream("my.file");
* Functions.tryWithResources(useInputStream(fis), null, () -> fis.close());
*
*
* @param action The action to execute. This object will always be invoked.
* @param errorHandler An optional error handler, which will be invoked finally, if any error occurred. The error
* handler will receive the first error, AKA {@link Throwable}.
* @param resources The resource actions to execute. All resource actions will be invoked, in the given
* order. A resource action is an instance of {@link FailableRunnable}, which will be executed.
* @see #tryWithResources(FailableRunnable, FailableRunnable...)
*/
@SafeVarargs
public static void tryWithResources(final FailableRunnable extends Throwable> action,
final FailableConsumer errorHandler,
final FailableRunnable extends Throwable>... resources) {
final FailableConsumer actualErrorHandler;
if (errorHandler == null) {
actualErrorHandler = Failable::rethrow;
} else {
actualErrorHandler = errorHandler;
}
if (resources != null) {
for (final FailableRunnable extends Throwable> failableRunnable : resources) {
Objects.requireNonNull(failableRunnable, "runnable");
}
}
Throwable th = null;
try {
action.run();
} catch (final Throwable t) {
th = t;
}
if (resources != null) {
for (final FailableRunnable> runnable : resources) {
try {
runnable.run();
} catch (final Throwable t) {
if (th == null) {
th = t;
}
}
}
}
if (th != null) {
try {
actualErrorHandler.accept(th);
} catch (final Throwable t) {
throw rethrow(t);
}
}
}
/**
* A simple try-with-resources implementation, that can be used, if your objects do not implement the
* {@link AutoCloseable} interface. The method executes the {@code action}. The method guarantees, that all
* the {@code resources} are being executed, in the given order, afterwards, and regardless of success, or failure.
* If either the original action, or any of the resource action fails, then the first failure (AKA
* {@link Throwable} is rethrown. Example use:
*
*
* final FileInputStream fis = new FileInputStream("my.file");
* Functions.tryWithResources(useInputStream(fis), () -> fis.close());
*
*
* @param action The action to execute. This object will always be invoked.
* @param resources The resource actions to execute. All resource actions will be invoked, in the given
* order. A resource action is an instance of {@link FailableRunnable}, which will be executed.
* @see #tryWithResources(FailableRunnable, FailableConsumer, FailableRunnable...)
*/
@SafeVarargs
public static void tryWithResources(final FailableRunnable extends Throwable> action,
final FailableRunnable extends Throwable>... resources) {
tryWithResources(action, null, resources);
}
private Failable() {
// empty
}
}