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ts-inject

ts-inject is a 100% typesafe dependency injection framework for TypeScript projects, designed to enhance code sharing and modularity by ensuring compile-time dependency resolution. This framework leverages the dependency injection design pattern to decouple dependency usage from creation, allowing components to rely on interfaces rather than implementations.

Features and Alternatives

ts-inject brings typesafety to dependency injection, setting it apart from a vast majority of frameworks, like InversifyJS, which operate at runtime and therefore lack this level of typesafety.

While typed-inject also prioritizes typesafety, it lacks several key features that ts-inject offers:

  • Overcomes TypeScript Nested Type Limitations: Unlike some frameworks, ts-inject navigates around TypeScript's limits on nested types, making it more robust for complex applications.
  • Composable Containers: ts-inject enables merging multiple containers, facilitating greater modularity and code reuse.
  • PartialContainer: It allows service registration without pre-defined dependencies, offering more flexibility compared to regular containers.

Getting Started

Installation

npm install @snap/ts-inject

Sample Usage

This quick start guide demonstrates how to define services, register them in a container, and then retrieve them for use.

Defining Services

Define a couple of services. For simplicity, we'll use a Logger service and a Database service, where Database depends on Logger for logging purposes.

// Logger service definition
class Logger {
  log(message: string) {
    console.log(`Log: ${message}`);
  }
}

// Database service depends on Logger
class Database {
  constructor(private logger: Logger) {}

  save(record: string) {
    this.logger.log(`Saving record: ${record}`);
    // Assume record saving logic here
  }
}

Setting Up the Container

With ts-inject, you can easily set up a container to manage these services:

import { Container, Injectable } from "@snap/ts-inject";

// Define Injectable factory functions for services
const loggerFactory = Injectable("Logger", () => new Logger());
const databaseFactory = Injectable("Database", ["Logger"] as const, (logger: Logger) => new Database(logger));

// Create a container and register services
const container = Container.provides(loggerFactory).provides(databaseFactory);

// Now, retrieve the Database service from the container
const db = container.get("Database");
db.save("user1"); // Log: Saving record: user1

Composable Containers

ts-inject supports composable containers, allowing you to modularize service registration:

const baseContainer = Container.provides(loggerFactory);
const appContainer = Container.provides(baseContainer).provide(databaseFactory);

const db: Database = appContainer.get("Database");
db.save("user2"); // Log: Saving record: user2

Key Concepts

  • Container: A registry for all services, handling their creation and retrieval.
  • PartialContainer: Similar to a Container but allows services to be registered without defining all dependencies upfront. Unlike a regular Container, it does not support retrieving services directly.
  • Service: Any value or instance provided by the Container.
  • Token: A unique identifier for each service, used for registration and retrieval within the Container.
  • InjectableFunction: Functions that return service instances. They can include dependencies which are injected when the service is requested.
  • InjectableClass: Classes that can be instantiated by the Container. Dependencies should be specified in a static "dependencies" field to enable proper injection.

API Reference

For comprehensive documentation of all ts-inject features and APIs, please refer to the API Reference.

Contributing

Contributing guide.

License

ts-inject is published under MIT license.

Project Origins

ts-inject originated as an internal project at Snap Inc., developed by Weston Fribley. Inspired by the principles of typed-inject, it was designed to address the limitations of existing dependency injection frameworks and improve typesafe dependency resolution in TypeScript. Initially aimed at enhancing CameraKit's codebase, its success led to its adoption across various teams at Snap Inc., and now it has evolved into an open-source project to benefit the wider TypeScript community.