mirror of
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247 lines
7.1 KiB
Markdown
247 lines
7.1 KiB
Markdown
# Overview
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GraphQL is data-storage agnostic. You can use any underlying data storage engine, including SQL or NoSQL database,
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plain files or in-memory data structures.
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In order to convert GraphQL query to PHP array **graphql-php** traverses query fields (using depth-first algorithm) and
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runs special `resolve` function on each field. This `resolve` function is provided by you as a part of
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[field definition](type-system/object-types/#field-configuration-options).
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Result returned by `resolve` function is directly included in response (for scalars and enums)
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or passed down to nested fields (for objects).
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Let's walk through an example. Consider following GraphQL query:
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```graphql
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{
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lastStory {
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title
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author {
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name
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}
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}
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}
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```
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We need Schema that can fulfill it. On the very top level Schema contains Query type:
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```php
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$queryType = new ObjectType([
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'name' => 'Query',
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'fields' => [
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'lastStory' => [
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'type' => $blogStoryType,
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'resolve' => function() {
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return [
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'id' => 1,
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'title' => 'Example blog post',
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'authorId' => 1
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];
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}
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]
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]
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]);
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```
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As we see field `lastStory` has `resolve` function that is responsible for fetching data.
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In our example we simply return array value, but in real-world application you would query
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your database/cache/search index and return result.
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Since `lastStory` is of complex type `BlogStory` this result is passed down to fields of this type:
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```php
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$blogStoryType = new ObjectType([
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'name' => 'BlogStory',
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'fields' => [
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'author' => [
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'type' => $userType,
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'resolve' => function($blogStory) {
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$users = [
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1 => [
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'id' => 1,
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'name' => 'Smith'
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],
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2 => [
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'id' => 2,
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'name' => 'Anderson'
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]
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];
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return $users[$blogStory['authorId']];
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}
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],
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'title' => [
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'type' => Type::string()
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]
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]
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]);
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```
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Here `$blogStory` is the array returned by `lastStory` field above.
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Again: in real-world applications you would fetch user data from datastore by `authorId` and return it.
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Also note that you don't have to return arrays. You can return any value, **graphql-php** will pass it untouched
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to nested resolvers.
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But then the question appears - field `title` has no `resolve` option. How is it resolved?
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The answer is: there is default resolver for all fields. When you define your own `resolve` function
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for a field you simply override this default resolver.
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# Default Field Resolver
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**graphql-php** provides following default field resolver:
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```php
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function defaultFieldResolver($source, $args, $context, ResolveInfo $info)
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{
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$fieldName = $info->fieldName;
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$property = null;
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if (is_array($source) || $source instanceof \ArrayAccess) {
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if (isset($source[$fieldName])) {
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$property = $source[$fieldName];
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}
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} else if (is_object($source)) {
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if (isset($source->{$fieldName})) {
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$property = $source->{$fieldName};
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}
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}
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return $property instanceof \Closure ? $property($source, $args, $context) : $property;
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}
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```
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As you see it returns value by key (for arrays) or property (for objects). If value is not set - it returns `null`.
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To override default resolver - use:
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```php
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GraphQL\GraphQL::setDefaultFieldResolver($myResolverCallback);
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```
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# Default Field Resolver per Type
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Sometimes it might be convenient to set default field resolver per type. You can do so by providing
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[resolveField option in type config](type-system/object-types/#configuration-options). For example:
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```php
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$userType = new ObjectType([
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'name' => 'User',
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'fields' => [
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'name' => Type::string(),
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'email' => Type::string()
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],
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'resolveField' => function(User $user, $args, $context, ResolveInfo $info) {
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switch ($info->fieldName) {
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case 'name':
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return $user->getName();
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case 'email':
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return $user->getEmail();
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default:
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return null;
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}
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}
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]);
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```
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Keep in mind that **field resolver** has precedence over **default field resolver per type** which in turn
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has precedence over **default field resolver**.
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# Solving N+1 Problem
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Since: 0.9.0
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One of the most annoying problems with data fetching is so-called [N+1 problem](https://secure.phabricator.com/book/phabcontrib/article/n_plus_one/).
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Consider following GraphQL query:
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```
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{
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topStories(limit: 10) {
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title
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author {
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name
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email
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}
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}
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}
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```
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Naive field resolution process would require up to 10 calls to underlying data store to fetch authors for all 10 stories.
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**graphql-php** provides tools to mitigate this problem: it allows you to defer actual field resolution to later stage
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when one batched query could be executed instead of 10 distinct queries.
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Here is an example of `BlogStory` resolver for field `author` that uses deferring:
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```php
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'resolve' => function($blogStory) {
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MyUserBuffer::add($blogStory['authorId']);
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return new GraphQL\Deferred(function () use ($blogStory) {
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MyUserBuffer::loadBuffered();
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return MyUserBuffer::get($blogStory['authorId']);
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});
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}
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```
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In this example we fill up buffer with 10 author ids first. Then **graphql-php** continues
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resolving other non-deferred fields until there are none of them left.
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After that it calls `Closures` wrapped by `GraphQL\Deferred` which in turn load all buffered
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ids once (using SQL IN(?), Redis MGET or other similar tools) and return final field value.
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Originally this approach was advocated by Facebook in their [Dataloader](https://github.com/facebook/dataloader)
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project.
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This solution enables very interesting optimizations at no cost. Consider following query:
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```
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{
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topStories(limit: 10) {
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author {
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email
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}
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}
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category {
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stories(limit: 10) {
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author {
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email
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}
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}
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}
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}
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```
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Even if `author` field is located on different levels of query - it can be buffered in the same buffer.
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In this example only one query will be executed for all story authors comparing to 20 queries
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in naive implementation.
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# Async PHP
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Since: 0.9.0
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If your project runs in environment that supports async operations
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(like `HHVM`, `ReactPHP`, `Icicle.io`, `appserver.io` `PHP threads`, etc) you can leverage
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the power of your platform to resolve fields asynchronously.
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The only requirement: your platform must support the concept of Promises compatible with
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[Promises A+](https://promisesaplus.com/) specification.
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To enable async support - set adapter for promises:
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```
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GraphQL\GraphQL::setPromiseAdapter($adapter);
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```
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Where `$adapter` is an instance of class implementing `GraphQL\Executor\Promise\PromiseAdapter` interface.
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Then in your `resolve` functions you should return `Promises` of your platform instead of
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`GraphQL\Deferred` instances.
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Platforms supported out of the box:
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* [ReactPHP](https://github.com/reactphp/react) (requires **react/promise** as composer dependency):
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`GraphQL\GraphQL::setPromiseAdapter(new GraphQL\Executor\Promise\Adapter\ReactPromiseAdapter());`
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To integrate other platform - implement `GraphQL\Executor\Promise\PromiseAdapter` interface.
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