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Container ioc

Inversion of Control container & Dependency Injection for Javascript and Node.js apps powered by Typescript.

From typesoft·Updated March 27, 2026·View on GitHub·

is a [Dependency Injection](https://en.wikipedia.org/wiki/Dependency_injection) / [Inversion of Control (IoC) container](http://martinfowler.com/articles/injection.html) package for Javascript and Node.js applications powered by Typescript . It manages the dependencies between classes, so that applications stay easy to change and maintain as they grow. The project is written primarily in TypeScript, distributed under the MIT License license, first published in 2017. Key topics include: container, dependency, dependency-injection, dependency-manager, di.

Latest release: v1.7.3
October 7, 2017View Changelog →

alt text

container-ioc

is a Dependency Injection / Inversion of Control (IoC) container package for Javascript and Node.js applications powered by Typescript . It manages the dependencies between classes, so that applications stay easy to change and maintain as they grow.

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Features:

Examples:

Installation:

npm install --save container-ioc

Basics:

Code examples below are written in Typescript. Check examples/javascript for examples written in Javascript.

Step 1. Define your interfaces and types.

Possible values for types: Symbol, string, Object.

typescript
interface IApplication {
    run(): void;
}

interface IService {
    serve(): void;
}

const TApplication = Symbol('IApplication');

const TService = Symbol('IService');

Step 2. Declare dependencies with decorators Injectable and Inject.

typescript
import { Injectable, Inject } from 'container-ioc';

@Injectable()
export class Application implements IApplication {
    constructor(@Inject(TService) private service: IService) {}
    
    run(): void {
        this.service.serve();
    }
}

@Injectable()
export class Service implements IService {
    serve(): void {
        // serves
    }
}

Step 3. Create a container and register types in there.

typescript
import { Container } from 'container-ioc';

let container = new Container();

container.register([
    { token: TApplication, useClass: Application },
    { token: TService, useClass: Service }
]);

Step 4. Resolve value from the container.

typescript
let app = container.resolve(TApplication);

app.run();

Step 2 for Javascript.

Since Javascript does not support parameter decorators, use alternative API for declaring dependencies. In this case we don't use Inject decorator. See examples/javascript for more.

javascript

@Injectable([TService])
class Service {
    constructor(service) {
        this.service = service;
    }
}

Life Time control

By default, containers resolve singletons when using useClass and useFactory.
Default life time for all items in a container can be set by passing an option object to it's contructor with defailtLifeTime attribute. Possible values: LifeTime.PerRequest (resolves instances) and LifeTime.Persistent (resolves singletons);

typescript
import { LifeTime } from 'container-ioc';

const container = new Container({
    defaultLifeTime: LifeTime.PerRequest
});

You can also specify life time individually for each item in a container by specifying lifeTime attribute.

typescript
container.register([
    {
        token: TService,
        useClass: Service,
        lifeTime: LifeTime.PerRequest
    }
]);
typescript
container.register([
    {
        token: TService,
        useFactory: () => {
            return {
                serve(): void {}
            }
        },
        lifeTime: LifeTime.Persistent
    }
]);

Hierarchical containers

If a container can't find a value within itself, it will look it up in ascendant containers. There a 3 ways to set a parent for a container.

1. Container.createChild() method.
typescript
const parentContainer = new Container();
const childContainer = parentContainer.createChild();
2. Container.setParent() method.
typescript
const parent = new Container();
const child = new Container();

child.setParent(parent);
3. Via Container's constructor with options.
typescript
const parent = new Container();
const child = new Container({
    parent: parent
});

Using Factories

typescript
/* Without injections */
container.register([
    {
        token: 'TokenForFactory',
        useFactory: () => {
            return 'any-value';
        }
    }
]);

/* With injections */
container.register([
    { token: 'EnvProvider', useClass: EnvProvider },
    {
        token: 'TokenForFactory',
        useFactory: (envProvider) => {
            // do something
            return 'something';
        },
        inject: ['EnvProvider']
    }
]);

Using Values

typescript
container.register([
    { token: 'IConfig', useValue: {}}
]);

Shortcut for Classes

typescript
container.register([
    App
]);

Is the same as:

typescript
container.register([
    { token: App, useClass: App }
]);

Contribution

Become a contributor to this project. Feel free to submit an issue or a pull request.

see CONTRIBUTION.md for more information.

Please see also our Code of Conduct.

Contributors

Showing top 2 contributors by commit count.

basedalexander

basedalexander

257 commits

Tolowe

Tolowe

5 commits

View all contributors on GitHub →

This article is auto-generated from typesoft/container-ioc via the GitHub API.Last fetched: 6/29/2026