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vertx-util

General purpose utils & apis for interacting with vert.x

Getting Started

Add a dependency to vertx-util:

<dependency>
    <groupId>com.jtruelove.vertx</groupId>
    <artifactId>vertx-util</artifactId>
    <version>0.7.0</version>
</dependency>
vertx-util vert.x Version
3.3.0-SNAPSHOT 3.3.0-SNAPSHOT
0.6.0 3.2.0

Promises

Light weight promises that run on the vertx event loop. This allows developers to easily coordinate running a number of callbacks in parallel or serially while getting notifications of results or exceptions. Also there is a JsonObject that is supplied to enable passing of information between callbacks as well as to the exception or done handlers.

Basic Example

// pass it the ref to your current vertx event loop.
Promise.newInstance(vertx)
.then((context, onResult) -> {
    // do some stuff
    context.put("result", "some text to share");
    onResult.accept(true);
})
.then((context, onResult) -> onResult.accept(context.containsKey("result")))
// optional exception handler, when a promise calls onResult.accept(false) or a callback throws an exception
.except((context) -> System.out.println("Failure: " + context.encode()))
// optional completion handler called when all callbacks have run and succeeded
.done((context) -> System.out.println("Success: " + context.encode()))
// optionally set a timeout in ms for the callback chain to complete in
.timeout(3000)
// you are required to call this once and only once to make the promise chain begin to evaluate
.eval();

Callbacks in Parallel

// pass it the ref to your current vertx event loop,
Promise.newInstance(vertx)
// these can complete in a different order than they are added
.all((context, onResult) -> {
    System.out.println("Also 'all' call 1");
    onResult.accept(true);
},
(context, onResult) -> {
    System.out.println("Also 'all' call 2");
    onResult.accept(true);
})
.done((context) -> System.out.println("Success"))
// you are required to call this once and only once to make the promise chain begin to evaluate
.eval();

Callbacks Serially then in Parallel

// pass it the ref to your current vertx event loop,
Promise.newInstance(vertx)
.then((context, onResult) -> {
    System.out.println("Start here");
    onResult.accept(true);
})
.then((context, onResult) -> {
    System.out.println("Continue here");
    onResult.accept(true);
})
.all((context, onResult) -> {
    System.out.println("Starting something else");
    vertx.executeBlocking(future -> {
        try {
            Thread.sleep(1000);
        } catch (Exception ex) {}
            future.complete();
        }, asyncResult -> {
            System.out.println("'all' call 1");
            onResult.accept(true);
    });
    }, (context, onResult) -> {
        System.out.println("'all' call 2");
        onResult.accept(true);
    })
.done((context) -> System.out.println("Success"))
// you are required to call this once and only once to make the promise chain begin to evaluate
.eval();

Promise Factory

There's a promise factory supplied that allows you to set the vertx instance once and generate Promises on demand without having to keep your vertx reference around.

PromiseFactory factory = new PromiseFactory(vertx);
// Promise 1
factory.create().then((context, onResult) -> {
   System.out.println("a new promise");
    onResult.accept(true);
}).eval();

// Promise 2
factory.createParallel((context, onResult) -> {
    System.out.println("a test");
    onResult.accept(true);
},(context, onResult) -> {
    System.out.println("a test 2");
    onResult.accept(true);
}).eval();

Things to Remember

  • you must call eval() after creating your chain
  • you must call the onResult callback with true or false to continue the chain processing
  • in the case of a timeout the exception handler is called

Latches

These offer a way to coordinate an action after N events have completed just using the vert.x event loop and no additional threads.

// this callback will fire after complete has been called on the latch twice
Latch latch = new Latch(2, () -> System.out.println("I'm all done now"));

// call #1
vertx.executeBlocking(future -> {
    // something expensive like a DB call
    future.complete();
}, result -> latch.complete());

vertx.setTimer(2000, (aTimerId) -> latch.complete());

Event Bus Tools

There are a number of event bus functions including to assist in consuming messages one or N times.

// ie one shot consumers of events
EventBusTools.oneShotConsumer(bus, "SOME_ADDRESS", event -> {
    System.out.println("Got an event: " + event);
});

Service Client

Service Client is wrapper over vertx http client. It supports

  • Creating http client from Json Configuration and builder.
  • Specification of timeout for apis.
  • In-built retry handler ( coming later)
{
  "host" : "localhost",
  "port" : 8080,
  "num_connections" : 10,
  "apis" :[
    {
      "name" : "put",
      "timeout" : 1000
    },
    {
      "name" : "remove",
      "timeout" : 1000
    }
  ]
}

Field breakdown:

  • host server host or endpoint to connect to
  • port server port to connect to
  • num_connections number of connections in connection pool for Vertx http client
  • apis timeouts for apis (extensible to other attributes in future)

Configuration Example:

    JsonObject config = new JsonObject();
    config.put(ServiceClient.HOST, "localhost");
    config.put(ServiceClient.PORT, 8080);
    ServiceClient.create(vertx, config);

Builder Example:

    ServiceClient.Builder builder = new ServiceClient.Builder(vertx);
        builder.withHost("localhost").withPort(8080);
        builder.addApiTimeout("put", 1000L);
        builder.addApiTimeout("remove", 1000L);
        ServiceClient serviceClient = builder.build();

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general purpose utils for interacting with vert.x

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