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Promises/A+ implementation that handles promise chaining and resolution iteratively, allowing for “infinite” promise chaining while keeping the stack size constant. Read this blog post for a general introduction to promises.
wait
method.then
function.GuzzleHttp\Promise\coroutine()
.A promise represents the eventual result of an asynchronous operation. The
primary way of interacting with a promise is through its then
method, which
registers callbacks to receive either a promise’s eventual value or the reason
why the promise cannot be fulfilled.
Callbacks are registered with the then
method by providing an optional
$onFulfilled
followed by an optional $onRejected
function.
use GuzzleHttp\Promise\Promise;
$promise = new Promise();
$promise->then(
// $onFulfilled
function ($value) {
echo 'The promise was fulfilled.';
},
// $onRejected
function ($reason) {
echo 'The promise was rejected.';
}
);
Resolving a promise means that you either fulfill a promise with a value or
reject a promise with a reason. Resolving a promises triggers callbacks
registered with the promises’s then
method. These callbacks are triggered
only once and in the order in which they were added.
Promises are fulfilled using the resolve($value)
method. Resolving a promise
with any value other than a GuzzleHttp\Promise\RejectedPromise
will trigger
all of the onFulfilled callbacks (resolving a promise with a rejected promise
will reject the promise and trigger the $onRejected
callbacks).
use GuzzleHttp\Promise\Promise;
$promise = new Promise();
$promise
->then(function ($value) {
// Return a value and don't break the chain
return "Hello, " . $value;
})
// This then is executed after the first then and receives the value
// returned from the first then.
->then(function ($value) {
echo $value;
});
// Resolving the promise triggers the $onFulfilled callbacks and outputs
// "Hello, reader".
$promise->resolve('reader.');
Promises can be chained one after the other. Each then in the chain is a new
promise. The return value of a promise is what’s forwarded to the next
promise in the chain. Returning a promise in a then
callback will cause the
subsequent promises in the chain to only be fulfilled when the returned promise
has been fulfilled. The next promise in the chain will be invoked with the
resolved value of the promise.
use GuzzleHttp\Promise\Promise;
$promise = new Promise();
$nextPromise = new Promise();
$promise
->then(function ($value) use ($nextPromise) {
echo $value;
return $nextPromise;
})
->then(function ($value) {
echo $value;
});
// Triggers the first callback and outputs "A"
$promise->resolve('A');
// Triggers the second callback and outputs "B"
$nextPromise->resolve('B');
When a promise is rejected, the $onRejected
callbacks are invoked with the
rejection reason.
use GuzzleHttp\Promise\Promise;
$promise = new Promise();
$promise->then(null, function ($reason) {
echo $reason;
});
$promise->reject('Error!');
// Outputs "Error!"
If an exception is thrown in an $onRejected
callback, subsequent
$onRejected
callbacks are invoked with the thrown exception as the reason.
use GuzzleHttp\Promise\Promise;
$promise = new Promise();
$promise->then(null, function ($reason) {
throw new \Exception($reason);
})->then(null, function ($reason) {
assert($reason->getMessage() === 'Error!');
});
$promise->reject('Error!');
You can also forward a rejection down the promise chain by returning a
GuzzleHttp\Promise\RejectedPromise
in either an $onFulfilled
or
$onRejected
callback.
use GuzzleHttp\Promise\Promise;
use GuzzleHttp\Promise\RejectedPromise;
$promise = new Promise();
$promise->then(null, function ($reason) {
return new RejectedPromise($reason);
})->then(null, function ($reason) {
assert($reason === 'Error!');
});
$promise->reject('Error!');
If an exception is not thrown in a $onRejected
callback and the callback
does not return a rejected promise, downstream $onFulfilled
callbacks are
invoked using the value returned from the $onRejected
callback.
use GuzzleHttp\Promise\Promise;
use GuzzleHttp\Promise\RejectedPromise;
$promise = new Promise();
$promise
->then(null, function ($reason) {
return "It's ok";
})
->then(function ($value) {
assert($value === "It's ok");
});
$promise->reject('Error!');
You can synchronously force promises to complete using a promise’s wait
method. When creating a promise, you can provide a wait function that is used
to synchronously force a promise to complete. When a wait function is invoked
it is expected to deliver a value to the promise or reject the promise. If the
wait function does not deliver a value, then an exception is thrown. The wait
function provided to a promise constructor is invoked when the wait
function
of the promise is called.
$promise = new Promise(function () use (&$promise) {
$promise->resolve('foo');
});
// Calling wait will return the value of the promise.
echo $promise->wait(); // outputs "foo"
If an exception is encountered while invoking the wait function of a promise, the promise is rejected with the exception and the exception is thrown.
$promise = new Promise(function () use (&$promise) {
throw new \Exception('foo');
});
$promise->wait(); // throws the exception.
Calling wait
on a promise that has been fulfilled will not trigger the wait
function. It will simply return the previously resolved value.
$promise = new Promise(function () { die('this is not called!'); });
$promise->resolve('foo');
echo $promise->wait(); // outputs "foo"
Calling wait
on a promise that has been rejected will throw an exception. If
the rejection reason is an instance of \Exception
the reason is thrown.
Otherwise, a GuzzleHttp\Promise\RejectionException
is thrown and the reason
can be obtained by calling the getReason
method of the exception.
$promise = new Promise();
$promise->reject('foo');
$promise->wait();
PHP Fatal error: Uncaught exception ‘GuzzleHttp\Promise\RejectionException’ with message ‘The promise was rejected with value: foo’
When synchronously waiting on a promise, you are joining the state of the promise into the current state of execution (i.e., return the value of the promise if it was fulfilled or throw an exception if it was rejected). This is called “unwrapping” the promise. Waiting on a promise will by default unwrap the promise state.
You can force a promise to resolve and not unwrap the state of the promise
by passing false
to the first argument of the wait
function:
$promise = new Promise();
$promise->reject('foo');
// This will not throw an exception. It simply ensures the promise has
// been resolved.
$promise->wait(false);
When unwrapping a promise, the resolved value of the promise will be waited upon until the unwrapped value is not a promise. This means that if you resolve promise A with a promise B and unwrap promise A, the value returned by the wait function will be the value delivered to promise B.
Note: when you do not unwrap the promise, no value is returned.
You can cancel a promise that has not yet been fulfilled using the cancel()
method of a promise. When creating a promise you can provide an optional
cancel function that when invoked cancels the action of computing a resolution
of the promise.
When creating a promise object, you can provide an optional $waitFn
and
$cancelFn
. $waitFn
is a function that is invoked with no arguments and is
expected to resolve the promise. $cancelFn
is a function with no arguments
that is expected to cancel the computation of a promise. It is invoked when the
cancel()
method of a promise is called.
use GuzzleHttp\Promise\Promise;
$promise = new Promise(
function () use (&$promise) {
$promise->resolve('waited');
},
function () {
// do something that will cancel the promise computation (e.g., close
// a socket, cancel a database query, etc...)
}
);
assert('waited' === $promise->wait());
A promise has the following methods:
then(callable $onFulfilled, callable $onRejected) : PromiseInterface
Appends fulfillment and rejection handlers to the promise, and returns a new promise resolving to the return value of the called handler.
otherwise(callable $onRejected) : PromiseInterface
Appends a rejection handler callback to the promise, and returns a new promise resolving to the return value of the callback if it is called, or to its original fulfillment value if the promise is instead fulfilled.
wait($unwrap = true) : mixed
Synchronously waits on the promise to complete.
$unwrap
controls whether or not the value of the promise is returned for a
fulfilled promise or if an exception is thrown if the promise is rejected.
This is set to true
by default.
cancel()
Attempts to cancel the promise if possible. The promise being cancelled and the parent most ancestor that has not yet been resolved will also be cancelled. Any promises waiting on the cancelled promise to resolve will also be cancelled.
getState() : string
Returns the state of the promise. One of pending
, fulfilled
, or
rejected
.
resolve($value)
Fulfills the promise with the given $value
.
reject($reason)
Rejects the promise with the given $reason
.
A fulfilled promise can be created to represent a promise that has been fulfilled.
use GuzzleHttp\Promise\FulfilledPromise;
$promise = new FulfilledPromise('value');
// Fulfilled callbacks are immediately invoked.
$promise->then(function ($value) {
echo $value;
});
A rejected promise can be created to represent a promise that has been rejected.
use GuzzleHttp\Promise\RejectedPromise;
$promise = new RejectedPromise('Error');
// Rejected callbacks are immediately invoked.
$promise->then(null, function ($reason) {
echo $reason;
});
This library works with foreign promises that have a then
method. This means
you can use Guzzle promises with React promises
for example. When a foreign promise is returned inside of a then method
callback, promise resolution will occur recursively.
// Create a React promise
$deferred = new React\Promise\Deferred();
$reactPromise = $deferred->promise();
// Create a Guzzle promise that is fulfilled with a React promise.
$guzzlePromise = new \GuzzleHttp\Promise\Promise();
$guzzlePromise->then(function ($value) use ($reactPromise) {
// Do something something with the value...
// Return the React promise
return $reactPromise;
});
Please note that wait and cancel chaining is no longer possible when forwarding a foreign promise. You will need to wrap a third-party promise with a Guzzle promise in order to utilize wait and cancel functions with foreign promises.
In order to keep the stack size constant, Guzzle promises are resolved asynchronously using a task queue. When waiting on promises synchronously, the task queue will be automatically run to ensure that the blocking promise and any forwarded promises are resolved. When using promises asynchronously in an event loop, you will need to run the task queue on each tick of the loop. If you do not run the task queue, then promises will not be resolved.
You can run the task queue using the run()
method of the global task queue
instance.
// Get the global task queue
$queue = \GuzzleHttp\Promise\queue();
$queue->run();
For example, you could use Guzzle promises with React using a periodic timer:
$loop = React\EventLoop\Factory::create();
$loop->addPeriodicTimer(0, [$queue, 'run']);
TODO: Perhaps adding a futureTick()
on each tick would be faster?
By shuffling pending handlers from one owner to another, promises are resolved iteratively, allowing for “infinite” then chaining.
<?php
require 'vendor/autoload.php';
use GuzzleHttp\Promise\Promise;
$parent = new Promise();
$p = $parent;
for ($i = 0; $i < 1000; $i++) {
$p = $p->then(function ($v) {
// The stack size remains constant (a good thing)
echo xdebug_get_stack_depth() . ', ';
return $v + 1;
});
}
$parent->resolve(0);
var_dump($p->wait()); // int(1000)
When a promise is fulfilled or rejected with a non-promise value, the promise then takes ownership of the handlers of each child promise and delivers values down the chain without using recursion.
When a promise is resolved with another promise, the original promise transfers all of its pending handlers to the new promise. When the new promise is eventually resolved, all of the pending handlers are delivered the forwarded value.
Some promise libraries implement promises using a deferred object to represent a computation and a promise object to represent the delivery of the result of the computation. This is a nice separation of computation and delivery because consumers of the promise cannot modify the value that will be eventually delivered.
One side effect of being able to implement promise resolution and chaining iteratively is that you need to be able for one promise to reach into the state of another promise to shuffle around ownership of handlers. In order to achieve this without making the handlers of a promise publicly mutable, a promise is also the deferred value, allowing promises of the same parent class to reach into and modify the private properties of promises of the same type. While this does allow consumers of the value to modify the resolution or rejection of the deferred, it is a small price to pay for keeping the stack size constant.
$promise = new Promise();
$promise->then(function ($value) { echo $value; });
// The promise is the deferred value, so you can deliver a value to it.
$promise->resolve('foo');
// prints "foo"