Headwater
Dependency Injection and Mediator for TypeScript and JavaScript
Headwater is a simple and fast Inversion of Control and Mediator implementation. These implementations work together or separately.
Example
We can combine our Dependency Injection and Mediator patterns together!
Declare a Types enum.
enum Types {
Mediator = 'Mediator',
PostDataAccess = 'PostDataAccess',
}Create a Mediator.
const mediator = new Mediator();Create a Request.
interface Post {
id: string;
subject: string;
body: string;
}
class GetPostRequest<Post> {
constructor(public id: string) {
super();
}
}Add a RequestHandler to the Mediator.
Note the use of
inject()anywhere we want to use Dependency Injection.Assuming we have a
PostDataAccessclass defined somewhere, we can inject it here!
mediator.add({
type: GetPostRequest,
handler: async (
{ id },
postDataAccess = inject(Types.PostDataAccess)
) => {
const post = await postDataAccess.get(id);
return post;
}
});Bind the values to a Container.
const container = new Container({
[Types.Mediator]: {
value: mediator
},
[Types.PostDataAccess]: {
value: PostDataAccess
}
});
Container.setDefault(container);
type Bindings = typeof container['bindings'];
declare module 'headwater' {
interface DefaultBindings extends Bindings {}
}Inject the Mediator, send a Request, and Headwater will do the rest!
async function main(mediator = inject(Types.Mediator)) {
const post = await mediator.send(new GetPostRequest(1234));
return post;
}
main();
// returns a PostDependency Injection
For Inversion of Control, we need to bind values to a Container, so we can retrieve them later. We can bind three types of values:
- Value
- Constructor
- Factory
Create or use Default Container
We need a Container for binding values. We can either create and manage this container directly, or use the default Container.
We first must import Container.
import { Container } from 'headwater';Create Container
const container = new Container();Use Default Container
const container = Container.getDefault();We can also set the Default Container
const container = new Container();
Container.setDefault(container);TypeScript Integration
The types for the Default Container can be injected as ambient typings.
Note: It is highly recommended declare ambient typings. This will allow simpler calls to
inject()later.
type Bindings = typeof container['bindings'];
declare module 'headwater' {
interface DefaultBindings extends Bindings {}
}Binding Values
We can bind any value to a Container. We associate each binding with a unique Type. The Type can be any string, number, or symbol.
Note: It is highly recommended to use TypeScript
string enumvalues:
enum Types {
UserDataAccess = 'UserDataAccess',
PostDataAccess = 'PostDataAccess'
}It is also possible to use const string values:
const USER_DATA_ACCESS = 'UserDataAccess';
const POST_DATA_ACCESS = 'PostDataAccess';Binding to the Container
Note: It is highly recommended to bind in the constructor. This provides typings automatically.
const container = new Container({
[Types.UserDataAccess]: {
value: new UserDataAccess()
},
[Types.PostDataAccess]: {
value: new PostDataAccess()
}
});It is also possible to bind later via:
Container.prototype.bindValue()Container.prototype.bindConstructor()-
Container.prototype.bindFactory().
Bind a Value
We can bind a singleton value to a Type.
This can be done in the constructor via:
enum Types {
Value = 'Value'
}
const container = new Container({
[Types.Value]: {
value: 'Some singleton value'
}
});It can also be done later via:
container.bindValue(Types.Value, 'Some singleton value');Bind a Constructor
We can bind a constructor to a Type. This constructor will be called later to create instances.
Note: Constructor parameters should have default values. However, these can be specified upon injection.
class ExampleClass {
constructor(public value = 0) {
}
}
enum Types {
ExampleClass: 'ExampleClass'
}
const container = new Container({
[Types.ExampleClass]: {
type: 'constructor',
value: ExampleClass
}
});It can also be done later via:
container.bindConstructor(Types.ExampleClass, ExampleClass);Bind a Factory
We can also bind a factory to a Type. This factory will be called later.
Note: Factory parameters should have default values. However, these can be specified upon injection.
function ExampleFactory(value = 0) {
return {
value
};
}
enum Types {
ExampleFactory = 'ExampleFactory';
}
const container = new Container({
[Types.ExampleFactory]: {
type: 'factory',
value: ExampleFactory
}
});It can also be done later via:
container.bindFactory(Types.ExampleFactory, factory);Type Property
The optional type property in the constructor can be specified via string or BindingType. Possible string values are:
"value""constructor""factory"
If unspecified, it is assumed to be a Value Binding.
const container = new Container({
[Types.Value]: {
type: BindingType.Value,
value: 'Some singleton value'
},
[Types.ExampleClass]: {
type: BindingType.Constructor,
value: ExampleClass
},
[Types.ExampleFactory]: {
type: BindingType.Factory,
value: ExampleFactory
}
});Retrieving Values
We can get any bound Type with the function inject().
const value = inject(Types.Value);
const example = inject(Types.ExampleClass);
const factory = inject(Types.FactoryExample);We can also get them directly from a Container.
const value = container.get(Types.Value);
const example = container.get(Types.ExampleClass);
const factory = container.get(Types.FactoryExample);If a Constructor or Factory use parameters, we may specify them.
function ExampleFactory(value) {
return value;
}
...
const factory = inject(Types.ExampleFactory, 1);
// result will be 1Injecting Values
We inject into a function by default parameter values. For any function, we can specify default parameters. If undefined is passed into that parameter, the default value is used instead.
Note: It is highly recommended to inject via default parameter values.
For example:
function ExampleFactory(value = 0) {
return value;
}
const result = ExampleFactory();
// result will equal 0In this example, when we call factory with no parameters, value will be 0.
So, we can use a bound Container value for the default value.
function ExampleFactory(value = inject(Types.Value)) {
return value;
}
const result = ExampleFactory();
// result will be the value bound to Types.Value.In this example, when factory is called with no parameters, we will use whatever is bound to Types.Value.
Specifying Parameters
If the bound value is a constructor or factory, we can also pass parameters into the Container.get() method.
For exmaple:
function factory(value = container.get('constructor', 1, 2, 3)) {
return value;
}Specifying Containers
We can also use inject(), which uses the default Container.
import { inject } from 'headwater';
function factory(value = inject('value')) {
return value;
}We can also specify a Container for inject().
function factory(value = inject('value', container)) {
return value;
}Mediator
For the Mediator pattern, we bind Handlers to Request types.
Create a Mediator
import { Mediator } from 'headwater';
const mediator = new Mediator();NOTE: For simplicity, the Mediator can be injected via IOC.
Add Handler
Defining Requests
We must create a new class that extends Request<T>. We specify into the generic <T> the return type of the Request.
import { Request } from 'headwater';
class CreateRequest extends Request<string> {
data: Data;
constructor(data: Data) {
super();
this.data = Data;
}
}NOTE: The
super()must be called.
Binding Handlers
The Handler must return a Promise with the type specified in the Request.
mediator.addHandler(async (request: CreateRequest) => {
// This function is async
// The return type must match the CreateRequest
return '';
});Send
We must now create a new Request object, and pass it into the Mediator. It will match the Request with a Handler and return a Promise with the value.
const request = new CreateRequest({ ... });
const result = await mediator.send(request);