@coderspirit/lambda-ioc
Super type safe dependency injection 💉 for TypeScript (inspired by Diddly)
NOTE: This is a “fork” of Tom Sherman’s Diddly library, who deserves most credit for this work.
Install instructions
Node
# With NPM
npm install @coderspirit/lambda-ioc
# Or with Yarn:
yarn add @coderspirit/lambda-ioc
Deno
Lambda-IoC
is served through different CDNs
import { ... } from 'https://denopkg.com/Coder-Spirit/lambda-ioc@[VERSION]/lambda-ioc/deno/index.ts'
import { ... } from 'https://deno.land/x/lambda_ioc@[VERSION]/lambda-ioc/deno/index.ts'
Example
import {
constructor,
createContainer,
func
} from '@coderspirit/lambda-ioc'
function printNameAndAge(name: string, age: number) {
console.log(`${name} is aged ${age}`)
}
class Person {
constructor(
public readonly age: number,
public readonly name: string
) {}
}
const container = createContainer()
.registerValue('someAge', 5)
.registerValue('someName', 'Timmy')
// We can register functions
.register('fn', func(printNameAndAge, 'someName', 'someAge'))
// And constructors too
.register('Person', constructor(Person, 'someAge', 'someName'))
// We can "define groups" by using `:` as an infix, the group's name will be
// the first part of the string before `:`.
// Groups can be used in all "register" methods.
.registerValue('group1:a', 1) // group == 'group1'
.registerValue('group1:b', 2)
.registerValue('group2:a', 3) // group == 'group2'
.registerValue('group2:b', 4)
// We can resolve registered functions
const print = container.resolve('fn')
print() // Prints "Timmy is aged 5"
// We can resolve registered constructors
const person = container.resolve('Person')
console.print(person.age) // Prints "5"
console.print(person.name) // Prints "Timmy"
// We can resolve registered "groups"
container.resolveGroup('group1') // ~ [1, 2], not necessarily in the same order
container.resolveGroup('group2') // ~ [3, 4], not necessarily in the same order
// We can also resolve the container itself, and the return type will always be
// up to date. This is useful if we want to use the container as a factory for
// some of your dependencies.
const resolvedContainer = container.resolve('$')
// If you want to indirectly resolve the container itself, it can be done only
// with the methods:
// - registerConstructor
// - registerAsyncConstructor
// This is because they have "privileged" information about the container's
// type, while relying on `register` or `registerAsync` plus "combinators" does
// not allow us to leverage that information.
It is also possible to register and resolve asynchronous factories and dependencies. If you are curious, just try out:
registerAsync
registerAsyncConstructor
resolveAsync
Benefits
- 100% type safe:
- The type checker will complain if we try to resolve unregistered dependencies.
- The type checker will complain if we try to register new dependencies that depend on unregistered dependencies, or if there is any kind of type mismatch.
- Purely functional
- Immutable
- Circular dependencies are impossible
Drawbacks
- All dependencies must be declared “in order”.
- This implies that this IoC container cannot be used in combination with some auto-wiring solutions, such as IoC decorators.
- The involved types are a bit convoluted:
- They might cause the type checker to be slow.
- In some situations, the type checker might be unable to infer the involved types due to excessive “nested types” depth.
Differences respect to Diddly
- First-class support for Deno.
- First-class support for asynchronous dependency resolution.
- Stricter types for dependencies re-registration.
- Groups registration and resolution: very useful when we need to resolve all dependencies belonging to a same category.
- Self-resolution. The container is able to resolve itself, to be used as a factory.
- The container interface has been split into
ReaderContainer
andWriterContainer
, making it easier to use precise types. - More extense documentation.