PHP Classes

File: vendor/react/promise-timer/README.md

Recommend this page to a friend!
  Classes of Adeleye Ayodeji   Simple PHP Chat with Websocket   vendor/react/promise-timer/README.md   Download  
File: vendor/react/promise-timer/README.md
Role: Documentation
Content type: text/markdown
Description: Documentation
Class: Simple PHP Chat with Websocket
Implements a chat system using Websockets
Author: By
Last change:
Date: 5 months ago
Size: 11,016 bytes
 

Contents

Class file image Download

PromiseTimer

CI status

A trivial implementation of timeouts for Promises, built on top of ReactPHP.

Table of contents

Usage

This lightweight library consists only of a few simple functions. All functions reside under the React\Promise\Timer namespace.

The below examples refer to all functions with their fully-qualified names like this:

React\Promise\Timer\timeout(?);

As of PHP 5.6+ you can also import each required function into your code like this:

use function React\Promise\Timer\timeout;

timeout(?);

Alternatively, you can also use an import statement similar to this:

use React\Promise\Timer;

Timer\timeout(?);

timeout()

The timeout(PromiseInterface<mixed, Exception|mixed> $promise, float $time, ?LoopInterface $loop = null): PromiseInterface<mixed, TimeoutException|Exception|mixed> function can be used to cancel operations that take too long.

You need to pass in an input $promise that represents a pending operation and timeout parameters. It returns a new promise with the following resolution behavior:

  • If the input `$promise` resolves before `$time` seconds, resolve the resulting promise with its fulfillment value.
  • If the input `$promise` rejects before `$time` seconds, reject the resulting promise with its rejection value.
  • If the input `$promise` does not settle before `$time` seconds, cancel the operation and reject the resulting promise with a TimeoutException.

Internally, the given $time value will be used to start a timer that will cancel the pending operation once it triggers. This implies that if you pass a really small (or negative) value, it will still start a timer and will thus trigger at the earliest possible time in the future.

If the input $promise is already settled, then the resulting promise will resolve or reject immediately without starting a timer at all.

This function takes an optional LoopInterface|null $loop parameter that can be used to pass the event loop instance to use. You can use a null value here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.

A common use case for handling only resolved values looks like this:

$promise = accessSomeRemoteResource();
React\Promise\Timer\timeout($promise, 10.0)->then(function ($value) {
    // the operation finished within 10.0 seconds
});

A more complete example could look like this:

$promise = accessSomeRemoteResource();
React\Promise\Timer\timeout($promise, 10.0)->then(
    function ($value) {
        // the operation finished within 10.0 seconds
    },
    function ($error) {
        if ($error instanceof React\Promise\Timer\TimeoutException) {
            // the operation has failed due to a timeout
        } else {
            // the input operation has failed due to some other error
        }
    }
);

Or if you're using react/promise v2.2.0 or up:

React\Promise\Timer\timeout($promise, 10.0)
    ->then(function ($value) {
        // the operation finished within 10.0 seconds
    })
    ->otherwise(function (React\Promise\Timer\TimeoutException $error) {
        // the operation has failed due to a timeout
    })
    ->otherwise(function ($error) {
        // the input operation has failed due to some other error
    })
;

As discussed above, the timeout() function will take care of the underlying operation if it takes too long. In this case, you can be sure the resulting promise will always be rejected with a TimeoutException. On top of this, the function will try to cancel the underlying operation. Responsibility for this cancellation logic is left up to the underlying operation.

  • A common use case involves cleaning up any resources like open network sockets or file handles or terminating external processes or timers.
  • If the given input `$promise` does not support cancellation, then this is a NO-OP. This means that while the resulting promise will still be rejected, the underlying input `$promise` may still be pending and can hence continue consuming resources

On top of this, the returned promise is implemented in such a way that it can be cancelled when it is still pending. Cancelling a pending promise will cancel the underlying operation. As discussed above, responsibility for this cancellation logic is left up to the underlying operation.

$promise = accessSomeRemoteResource();
$timeout = React\Promise\Timer\timeout($promise, 10.0);

$timeout->cancel();

For more details on the promise cancellation, please refer to the Promise documentation.

If you want to wait for multiple promises to resolve, you can use the normal promise primitives like this:

$promises = array(
    accessSomeRemoteResource(),
    accessSomeRemoteResource(),
    accessSomeRemoteResource()
);

$promise = React\Promise\all($promises);

React\Promise\Timer\timeout($promise, 10)->then(function ($values) {
    // all promises resolved
});

The applies to all promise collection primitives alike, i.e. all(), race(), any(), some() etc.

For more details on the promise primitives, please refer to the Promise documentation.

sleep()

The sleep(float $time, ?LoopInterface $loop = null): PromiseInterface<void, RuntimeException> function can be used to create a new promise that resolves in $time seconds.

React\Promise\Timer\sleep(1.5)->then(function () {
    echo 'Thanks for waiting!' . PHP_EOL;
});

Internally, the given $time value will be used to start a timer that will resolve the promise once it triggers. This implies that if you pass a really small (or negative) value, it will still start a timer and will thus trigger at the earliest possible time in the future.

This function takes an optional LoopInterface|null $loop parameter that can be used to pass the event loop instance to use. You can use a null value here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.

The returned promise is implemented in such a way that it can be cancelled when it is still pending. Cancelling a pending promise will reject its value with a RuntimeException and clean up any pending timers.

$timer = React\Promise\Timer\sleep(2.0);

$timer->cancel();

~~resolve()~~

> Deprecated since v1.8.0, see sleep() instead.

The resolve(float $time, ?LoopInterface $loop = null): PromiseInterface<float, RuntimeException> function can be used to create a new promise that resolves in $time seconds with the $time as the fulfillment value.

React\Promise\Timer\resolve(1.5)->then(function ($time) {
    echo 'Thanks for waiting ' . $time . ' seconds' . PHP_EOL;
});

Internally, the given $time value will be used to start a timer that will resolve the promise once it triggers. This implies that if you pass a really small (or negative) value, it will still start a timer and will thus trigger at the earliest possible time in the future.

This function takes an optional LoopInterface|null $loop parameter that can be used to pass the event loop instance to use. You can use a null value here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.

The returned promise is implemented in such a way that it can be cancelled when it is still pending. Cancelling a pending promise will reject its value with a RuntimeException and clean up any pending timers.

$timer = React\Promise\Timer\resolve(2.0);

$timer->cancel();

~~reject()~~

> Deprecated since v1.8.0, see sleep() instead.

The reject(float $time, ?LoopInterface $loop = null): PromiseInterface<void, TimeoutException|RuntimeException> function can be used to create a new promise which rejects in $time seconds with a TimeoutException.

React\Promise\Timer\reject(2.0)->then(null, function (React\Promise\Timer\TimeoutException $e) {
    echo 'Rejected after ' . $e->getTimeout() . ' seconds ' . PHP_EOL;
});

Internally, the given $time value will be used to start a timer that will reject the promise once it triggers. This implies that if you pass a really small (or negative) value, it will still start a timer and will thus trigger at the earliest possible time in the future.

This function takes an optional LoopInterface|null $loop parameter that can be used to pass the event loop instance to use. You can use a null value here in order to use the default loop. This value SHOULD NOT be given unless you're sure you want to explicitly use a given event loop instance.

The returned promise is implemented in such a way that it can be cancelled when it is still pending. Cancelling a pending promise will reject its value with a RuntimeException and clean up any pending timers.

$timer = React\Promise\Timer\reject(2.0);

$timer->cancel();

TimeoutException

The TimeoutException extends PHP's built-in RuntimeException.

getTimeout()

The getTimeout(): float method can be used to get the timeout value in seconds.

Install

The recommended way to install this library is through Composer. New to Composer?

This project follows SemVer. This will install the latest supported version:

$ composer require react/promise-timer:^1.8

See also the CHANGELOG for details about version upgrades.

This project aims to run on any platform and thus does not require any PHP extensions and supports running on legacy PHP 5.3 through current PHP 8+ and HHVM. It's highly recommended to use the latest supported PHP version for this project.

Tests

To run the test suite, you first need to clone this repo and then install all dependencies through Composer:

$ composer install

To run the test suite, go to the project root and run:

$ vendor/bin/phpunit

License

MIT, see LICENSE file.