completablefuture usage

How to use CompletableFuture to wait for multiple async operations to complete?

CompletableFuture provides a method called allOf that can be used to wait for multiple asynchronous operations to complete. The allOf method takes a variable number of CompletableFuture objects as arguments and returns a new CompletableFuture that completes when all of the input CompletableFuture objects have completed.allOf that can be used to wait for multiple asynchronous operations to complete. The allOf method takes a variable number of CompletableFuture objects as arguments and returns a new CompletableFuture that completes when all of the input CompletableFuture objects have completed.

The following code sample shows how to use the allOf method to wait for multiple asynchronous operations to complete:

CompletableFuture<String> future1 = CompletableFuture.supplyAsync(() -> "Hello");
CompletableFuture<String> future2 = CompletableFuture.supplyAsync(() -> "World");
CompletableFuture<Void> allOf = CompletableFuture.allOf(future1, future2);

allOf.join();

System.out.println(future1.get()); // Prints "Hello"
System.out.println(future2.get()); // Prints "World"

How does CompletableFuture's cancellation mechanism work?

CompletableFuture provides a cancel method that can be used to cancel the asynchronous operation represented by the CompletableFuture. The cancel method takes a boolean argument that indicates whether or not the cancellation should be interrupting.

If the cancel method is called with the interrupting flag set to true, the asynchronous operation will be interrupted if it is still running. If the asynchronous operation has already completed, the cancel method will have no effect.

If the cancel method is called with the interrupting flag set to false, the asynchronous operation will be cancelled if it has not yet completed. If the asynchronous operation has already completed, the cancel method will have no effect.

The following code sample shows how to use the cancel method to cancel an asynchronous operation:

CompletableFuture<String> future = CompletableFuture.supplyAsync(() -> {
    try {
        Thread.sleep(1000);
    } catch (InterruptedException e) {
        e.printStackTrace();
    }
    return "Hello World";
});

future.cancel(true); // Interrupt the asynchronous operation

if (future.isCancelled()) {
    System.out.println("The asynchronous operation was cancelled.");
}

How to handle exceptions and return values with CompletableFuture?

CompletableFuture provides methods for handling both exceptions and return values. The thenApply and thenAccept methods can be used to handle return values, while the exceptionally and handle methods can be used to handle exceptions.

The thenApply method takes a function as an argument and returns a new CompletableFuture that will be completed with the result of applying the function to the result of the original CompletableFuture. The following code sample shows how to use the thenApply method to handle a return value:

CompletableFuture<String> future = CompletableFuture.supplyAsync(() -> "Hello World");

CompletableFuture<Integer> future2 = future.thenApply(s -> s.length());

future2.join();

System.out.println(future2.get()); // Prints 11

The thenAccept method takes a consumer as an argument and returns a new CompletableFuture that will be completed when the consumer has been applied to the result of the original CompletableFuture. The following code sample shows how to use the thenAccept method to handle a return value:

CompletableFuture<String> future = CompletableFuture.supplyAsync(() -> "Hello World");

CompletableFuture<Void> future2 = future.thenAccept(s -> System.out.println(s));

future2.join(); // Prints "Hello World"

The exceptionally method takes a function as an argument and returns a new CompletableFuture that will be completed with the result of applying the function to the exception that caused the original CompletableFuture to complete exceptionally. The following code sample shows how to use the exceptionally method to handle an exception:

CompletableFuture<String> future = CompletableFuture.supplyAsync(() -> {
    throw new RuntimeException("Error!");
});

CompletableFuture<String> future2 = future.exceptionally(e -> "Error occurred: " + e.getMessage());

future2.join();

System.out.println(future2.get()); // Prints "Error occurred: java.lang.RuntimeException: Error!"

The handle method takes a bi-function as an argument and returns a new CompletableFuture that will be completed with the result of applying the bi-function to the result of the original CompletableFuture and the exception that caused the original CompletableFuture to complete exceptionally (if any). The following code sample shows how to use the handle

The following code sample shows how to use the allOf method to wait for multiple asynchronous operations to complete:🎜

CompletableFuture<String> future = CompletableFuture.supplyAsync(() -> {
    if (Math.random() > 0.5) {
        return "Success";
    } else {
        throw new RuntimeException("Error!");
    }
});

CompletableFuture<String> future2 = future.handle((result, exception) -> {
    if (exception != null) {
        return "Error occurred: " + exception.getMessage();
    } else {
        return result;
    }
});

future2.join();

System.out.println(future2.get()); // Prints "Success" or "Error occurred: java.lang.RuntimeException: Error!"

🎜How does CompletableFuture's cancellation mechanism work?🎜🎜CompletableFuture provides a cancel method that can be used to cancel the asynchronous operation represented by the CompletableFuture. The cancel method takes a boolean argument that indicates whether or not the cancellation should be interrupting.🎜🎜If the cancel method is called with the interrupting flag set to true, the asynchronous operation will be interrupted if it is still running. If the asynchronous operation has already completed, the cancel method will have no effect.🎜🎜If the cancel method is called with the interrupting flag set to false, the asynchronous operation will be cancelled if it has not yet completed. If the asynchronous operation has already completed, the cancel method will have no effect.🎜🎜The following code sample shows how to use the cancel method to cancel an asynchronous operation:🎜rrreee🎜How to handle exceptions and return values with CompletableFuture?🎜🎜CompletableFuture provides methods for handling both exceptions and return values. The thenApply and thenAccept methods can be used to handle return values, while the exceptionally and handle methods can be used to handle exceptions.🎜🎜The thenApply method takes a function as an argument and returns a new CompletableFuture that will be completed with the result of applying the function to the result of the original CompletableFuture. The following code sample shows how to use the thenApply method to handle a return value:🎜rrreee🎜The thenAccept method takes a consumer as an argument and returns a new CompletableFuture that will be completed when the consumer has been applied to the result of the original CompletableFuture. The following code sample shows how to use the thenAccept method to handle a return value:🎜rrreee🎜The exceptionally method takes a function as an argument and returns a new CompletableFuture that will be completed with the result of applying the function to the exception that caused the original CompletableFuture to complete exceptionally. The following code sample shows how to use the exceptionally method to handle an exception:🎜rrreee🎜The handle method takes a bi-function as an argument and returns a new CompletableFuture that will be completed with the result of applying the bi-function to the result of the original CompletableFuture and the exception that caused the original CompletableFuture to complete exceptionally (if any). The following code sample shows how to use the handle method to handle a return value or an exception:🎜rrreee

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