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Tornado ๐ŸŒช๐ŸŽ

Tornado Logo

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A library for asynchronous programming in Php.

Tornado is composed of several interfaces to write asynchronous programs using generators. This library provides adapters for popular asynchronous frameworks (ReactPhp, Amp) and built-in adapters to understand how to write your own.

Installation

You can install it using Composer:

composer require m6web/tornado

You will also have to install additional dependencies related to the adapter you choose for your EventLoop you may check our suggestions using Composer:

composer suggests --by-package

โ„น๏ธ Tornado includes its own EventLoop adapter to ease quick testing, and to show how you could write your own EventLoop optimized for your use case, but keep in mind that โš ๏ธTornado adapters are not yet production readyโš ๏ธ.

How to use it

You can find ready-to-use examples in examples directory, but here some detailed explanations about asynchronous programing, and Tornado principles.

Dealing with promises

The EventLoop is the engine in charge of executing all asynchronous functions. If one of those functions is waiting an asynchronous result (a Promise) the EventLoop is able to pause this function and to resume an other one ready to be executed.

When you get a Promise, the only way to retrieve its concrete value is to yield it, letting the EventLoop deal internally with Php Generators.

/**
 * Sends a HTTP request a returns its body as a Json array.
 */
function getJsonResponseAsync(Tornado\HttpClient $httpClient, RequestInterface $request): \Generator
{
    /** @var ResponseInterface $response */
    $response = yield $httpClient->sendRequest($request);

    return json_decode((string) $response->getBody(), true);
}

โš ๏ธ Remember that the return type can NOT be array here, even if we expect that json_decode will return an array. Since we are creating a Generator, the return type is by definition \Generator.

Asynchronous functions

As soon as your function needs to wait a Promise, it becomes by definition an asynchronous function. To execute it, you need to use EventLoop::async method. The returned Promise will be resolved with the value returned by your function.

/**
 * Returns a Promise that will be resolved with a Json array.
 */
function requestJsonContent(Tornado\EventLoop $eventLoop, Tornado\HttpClient $httpClient): Tornado\Promise
{
    $request = new Psr7\Request(
        'GET',
        'http://httpbin.org/json',
        ['accept' => 'application/json']
    );

    return $eventLoop->async(getJsonResponseAsync($httpClient, $request));
}

โš ๏ธ Keep in mind that's a bad practice to expose publicly a Generator. Your asynchronous functions should return a Promise and keep its Generator as an implementation detail, you could choose to return a Promise in an other manner (see dedicated examples).

Running the event loop

Now, you know that you have to create a generator to wait a Promise, and then call EventLoop::async to execute the generator and obtain a new Promiseโ€ฆ But how can we wait the first Promise? Actually, there is a second way to wait a Promise, a synchronous one: the EventLoop::wait method. It means that you should use it only once, to wait synchronously the resolution of a predefined goal. Internally, this function will run a loop to handle all events until your goal is reached (or an error occurred, see dedicated chapter).

function waitResponseSynchronously(Tornado\EventLoop $eventLoop, Tornado\HttpClient $httpClient)
{
    /** @var array $jsonArray */
    $jsonArray = $eventLoop->wait(requestJsonContent($eventLoop, $httpClient));
    echo '>>> '.json_encode($jsonArray).PHP_EOL;
}

Like with the yield keyword, the EventLoop::wait method will return the resolved value of the input Promise, but remember that you should use it only once during execution.

Concurrency

To reveal the true power of asynchronous programming, we have to introduce concurrency in our program. If our goal is to send only one HTTP request and wait for it, there is no gain to deal with an asynchronous request. However, as soon as you have at least two goals to reach, asynchronous functions will improve your performances thanks to concurrency. To resolve several independent Promises, use EventLoop::promiseAll method to create a new Promise that will be resolved when all others are resolved.

function waitManyResponsesSynchronously(Tornado\EventLoop $eventLoop, Tornado\HttpClient $httpClient)
{
    $allJsonArrays = $eventLoop->wait(
        $eventLoop->promiseAll(
            requestJsonContent($eventLoop, $httpClient),
            requestJsonContent($eventLoop, $httpClient),
            requestJsonContent($eventLoop, $httpClient),
            requestJsonContent($eventLoop, $httpClient)
        )
    );

    foreach ($allJsonArrays as $index => $jsonArray) {
        echo "[$index]>>> ".json_encode($jsonArray).PHP_EOL;
    }
}

It's important to note that it will be more efficient to use EventLoop::promiseAll instead of waiting each input Promise consecutively, because of concurrency. Each time that you have several promises to resolve, ask yourself if you could wait them concurrently, especially when you deal with loops (take a look to EventLoop::promiseForeach function and corresponding example).

Resolving your own promises

By design, you cannot resolve a promise by yourself, you will need a Deferred. It allows you to create a Promise and to resolve (or reject) it while not exposing these advanced controls.

function promiseWaiter(Tornado\Promise $promise): \Generator
{
    echo "I'm waiting a promiseโ€ฆ\n";
    $result = yield $promise;
    echo "I received [$result]!\n";
}

function deferredResolver(Tornado\EventLoop $eventLoop, Tornado\Deferred $deferred): \Generator
{
    yield $eventLoop->delay(1000);
    $deferred->resolve('Hello World!');
}

function waitDeferredSynchronously(Tornado\EventLoop $eventLoop)
{
    $deferred = $eventLoop->deferred();
    $eventLoop->wait($eventLoop->promiseAll(
        $eventLoop->async(deferredResolver($eventLoop, $deferred)),
        $eventLoop->async(promiseWaiter($deferred->getPromise()))
    ));
}

Error management

A Promise is resolved in case of success, but it will be rejected with a Throwable in case of error. While waiting a Promise with yield or EventLoop::wait an exception may be thrown, it's up to you to catch it or to let it propagate to the upper level. If you throw an exception in an asynchronous function, this will reject the associated Promise.

function failingAsynchronousFunction(Tornado\EventLoop $eventLoop): \Generator
{
    yield $eventLoop->idle();

    throw new \Exception('This is an exception!');
}

function waitException(Tornado\EventLoop $eventLoop)
{
    try {
        $eventLoop->wait($eventLoop->async(failingAsynchronousFunction($eventLoop)));
    } catch (\Throwable $throwable) {
        echo $throwable->getMessage().PHP_EOL;
    }
}

When using EventLoop::async, all exceptions thrown inside the generator will reject the returned Promise. In case of a background computing you may ignore this Promise and not yield nor wait it, but Tornado will still catch thrown exceptions to prevent to miss them. By design, an ignored rejected Promise will throw its exception during its destruction. It means that if you really want to ignore all exceptions (really?), you have to catch and ignore them explicitly in your code.

$ignoredPromise = $eventLoop->async((function() {
  try {
    yield from throwingGenerator();
  } catch(\Throwable $throwable) {
      // I want to ignore all exceptions for this function
  }
})());

FAQ

Is Tornado related to the Tornado Python library?

No, even if these two libraries deal with asynchronous programming, they are absolutely not related. The name Tornado has been chosen in reference to the horse ridden by Zorro.

I โค๏ธ your logo, who did it?

The Tornado logo has been designed by Cรฉcile Moret.

Contributing

Running unit tests:

composer tests-unit

Running examples:

composer tests-examples

Running PhpStan (static analysis):

composer static-analysis

Check code style:

composer code-style-check

Fix code style:

composer code-style-fix

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A library for asynchronous programming ๐ŸŒช๏ธ ๐ŸŽ

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