.. | ||
example | ||
lib | ||
.gitignore | ||
analysis_options.yaml | ||
angel_graphql.iml | ||
CHANGELOG.md | ||
LICENSE | ||
mono_pkg.yaml | ||
pubspec.yaml | ||
README.md |
A complete implementation of the official GraphQL specification - these are the Angel framework-specific bindings.
The goal of this project is to provide to server-side
users of Dart an alternative to REST API's. package:angel_graphql
, which, when combined with the allows
server-side Dart users to build backends with GraphQL and
virtually any database imaginable.
Installation
To install package:angel_graphql
, add the following to your
pubspec.yaml
:
dependencies:
angel_framework: ^2.0.0-alpha
angel_graphql: ^1.0.0-alpha
Usage
Using this package is very similar to GraphQL.js - you define
a schema, and then mount graphQLHttp
in your router to start
serving. This implementation supports GraphQL features like
introspection, so you can play around with graphiql
as well!
Firstly, define your schema. A GraphQL schema contains an object type that defines all querying operations that can be applied to the backend.
A GraphQL schema may also have a mutation object type, which defines operations that change the backend's state, and optionally a subscription type, which defines real-time interactions (coming soon!).
You can use the convertDartType
helper to wrap your existing
Model
/PODO classes, and make GraphQL aware of them without duplicated
effort.
import 'package:angel_framework/angel_framework.dart';
import 'package:angel_graphql/angel_graphql.dart';
import 'package:graphql_schema/graphql_schema.dart';
import 'package:graphql_server/graphql_server.dart';
import 'package:graphql_server/mirrors.dart';
Future configureServer(Angel app) async {
var queryType = objectType(
'Query',
description: 'A simple API that manages your to-do list.',
fields: [
field(
'todos',
listOf(convertDartType(Todo).nonNullable()),
resolve: resolveViaServiceIndex(todoService),
),
field(
'todo',
convertDartType(Todo),
resolve: resolveViaServiceRead(todoService),
inputs: [
new GraphQLFieldInput('id', graphQLId.nonNullable()),
],
),
],
);
var mutationType = objectType(
'Mutation',
description: 'Modify the to-do list.',
fields: [
field(
'create',
graphQLString,
),
],
);
var schema = graphQLSchema(
queryType: queryType,
mutationType: mutationType,
);
}
After you've created your GraphQLSchema
, you just need to
wrap in a call to graphQLHttp
, a request handler that responds
to GraphQL.
In development, it's also highly recommended to mount the
graphiQL
handler, which serves GraphQL's official visual
interface, for easy querying and feedback.
app.all('/graphql', graphQLHttp(new GraphQL(schema)));
app.get('/graphiql', graphiQL());
All that's left now is just to start the server!
var server = await http.startServer('127.0.0.1', 3000);
var uri =
new Uri(scheme: 'http', host: server.address.address, port: server.port);
var graphiqlUri = uri.replace(path: 'graphiql');
print('Listening at $uri');
print('Access graphiql at $graphiqlUri');
Visit your /graphiql
endpoint, and you'll see the graphiql
UI, ready-to-go!
Now you're ready to build a GraphQL API!
Using Services
What would Angel be without services? For those unfamiliar - in Angel,
Service
is a base class that implements CRUD functionality, and serves
as the database interface within an Angel application. They are well-suited
for NoSQL or other databases without a schema (they can be used with
SQL, but that's not their primary focus).
package:angel_graphql
has functionality to resolve fields by interacting with
services.
Consider our previous example, and note the calls to
resolveViaServiceIndex
and resolveViaServiceRead
:
var queryType = objectType(
'Query',
description: 'A simple API that manages your to-do list.',
fields: [
field(
'todos',
listOf(convertDartType(Todo).nonNullable()),
resolve: resolveViaServiceIndex(todoService),
),
field(
'todo',
convertDartType(Todo),
resolve: resolveViaServiceRead(todoService),
inputs: [
new GraphQLFieldInput('id', graphQLId.nonNullable()),
],
),
],
);
In all, there are:
resolveViaServiceIndex
resolveViaServiceFindOne
resolveViaServiceRead
resolveViaServiceModify
resolveViaServiceUpdate
resolveViaServiceRemove
As one might imagine, using these convenience helpers makes it much quicker to implement CRUD functionality in a GraphQL API.
Documentation
The convertDartType
function can automatically read the documentation
from a type like the following:
@GraphQLDocumentation(description: 'Any object with a .text (String) property.')
abstract class HasText {
String get text;
}
@serializable
@GraphQLDocumentation(
description: 'A task that might not be completed yet. **Yay! Markdown!**')
class Todo extends Model implements HasText {
String text;
@GraphQLDocumentation(deprecationReason: 'Use `completion_status` instead.')
bool completed;
CompletionStatus completionStatus;
Todo({this.text, this.completed, this.completionStatus});
}
@GraphQLDocumentation(description: 'The completion status of a to-do item.')
enum CompletionStatus { COMPLETE, INCOMPLETE }
You can also manually provide documentation for
parameters and endpoints, via a description
parameter on almost
all related functions.
See package:graphql_schema
for more documentation.