dijs is a dependency injection framework for Node.js and browser environments.
It is inspired by AngularJS 1.x and allows to choose between synchronous and asynchronous (using callbacks and promises) resolution patterns in an non-opinionated way.
Featured on DailyJS.
const Di = require('dijs');
class TestClass {
constructor (PI, RAD_TO_DEG) {
this.PI = PI;
this.RAD_TO_DEG = RAD_TO_DEG;
}
deg (value) {
return value * this.RAD_TO_DEG;
}
}
// Initialize a new dijs instance. By default, this will use "CallbackMethod",
// thus the first argument is "null" (instead providing another method).
// The $provide and $resolve method expect callback functions.
let instance = new Di(null)
// Provides a constant
.$provideValue('PI', Math.PI)
// Providing a constant using dependencies
.$provide('RAD_TO_DEG', (PI, callback) => callback(null, (180 / PI)))
.$resolve((err) => {
if (err) {
throw err;
}
let AnnotatedTestClass = instance.$annotate(TestClass);
let a = new AnnotatedTestClass();
// logs 180
console.log(a.deg(Math.PI));
});
By default, all provided values are being set on the dijs instance. This behavior can be turned off:
const Di = require('dijs');
let d = new Di(null, 'Math', { assign : false });
d.$provide('PI', function (callback) {
callback(null, Math.PI);
});
d.$resolve(function (err) {
if (err) {
throw err;
}
console.log(`d.PI is undefined`, d.PI === undefined);
console.log(`d.$get("PI") equals Math.PI`, d.$get('PI') === Math.PI);
});
});
Returns a new dijs instance with the given method (CallbackMethod is the default one).
Returns a class which will be initialized with the dependencies stated in classFn's constructor. When classFn is a function, its parameters are being resolved to matching dependencies.
This method must called after $resolve().
Returns the (previously provided) sub-module specified by a dot-delimited id.
Calls a function with (already-provided) dependencies. It is required to call $resolve beforehand.
Dependant on the current resolution method, this function is synchronous or asynchronous
Provides a module in the namespace with the given key.
If passthrough is set, the object will be just passed through, no dependencies are looked up this way.
Provides a value in the namespace with the given key (shortcut for $provide using passthrough).
Resolves the dependency graph.
This method might take a callback function (in case of the default CallbackMethod) or return a promise with PromiseMethod.
Sets a value in the namespace, specified by a dot-delimited path.
By default, dijs uses the asynchronous CallbackMethod in order to resolve dependencies. Require them as follwing:
const Di = require('dijs');
const SyncMethod = require('dijs/methods/sync');
const PromiseMethod = require('dijs/methods/promise');
Asynchronous providing and resolving dependencies using Node.js-style callback functions.
It is expected that the last parameter of your callback functions is called "callback", "cb" or "next".
This function takes an error (or a falsy value like null) as first argument. The second argument should be the provided value.
let d = new Di();
d.$provide('PI', (callback) => { // alternative names: cb or next
callback(null, Math.PI);
});
d.$resolve((err) => {
if (err) {
return done(err);
}
assert.equal(d.PI, Math.PI);
done();
});
Provides and resolves dependencies using the ES2015 Promise API.
let d = new Di();
d.$provide('PI', Promise.resolve(Math.PI));
d.$provide('2PI', (PI) => Promise.resolve(2 * Math.PI));
d.$resolve().then(() => {
assert.equal(d['2PI'], 2 * Math.PI);
done();
}, (err) => {
done(err);
});
Synchronous way to provide and resolve depdencies.
let d = new Di(SyncMethod);
d.$provide('PI', Math.PI);
d.$provide('2PI', (PI) => 2 * Math.PI);
d.$resolve();
assert.equal(d['2PI'], 2 * Math.PI);
If you don't pass a value through, you can choose between the function and the array notation to describe the module's dependencies. In any case, you will need to pass a function whose return value gets stored in the namespace. Its parameters describe its dependencies.
To describe a dependency, you can pass a function whose parameters declare the other modules on which it should depend.
Note: You cannot inject dot-delimited dependencies with this notation.
var mod = new Di();
mod.$provide('Pi',Math.PI, true);
mod.$provide('2Pi', function (Pi, callback) { callback(null, return 2*Pi); });
// ...
When your code is going to be minified or if you are about to make use of nested namespaces, the array notation is safer to use. All dependencies are listed as strings in the first part of the array, the last argument must be the actual module function.
var mod = new Di();
mod.$provide('Math.Pi',Math.PI, true);
mod.$provide('2Pi', ['Math.Pi', function (Pi, callback) {
callback(null, 2*Pi);
}]);
// ...
An alternative way is to provide a "$inject" property when using $annotate or $provide. This requires minification tools being in use not to mangle this key:
class TestClass {
constructor (pi) {
this.RAD_TO_DEG = (180 / pi);
}
deg (value) {
return value * this.RAD_TO_DEG;
}
}
TestClass['$inject'] = ['PI'];
var mod = new Di();
mod.$provideValue('PI', Math.PI);
mod.$resolve((err) => {
if (err) { throw err; }
let WrappedTestClass = mod.$annotate(TestClass);
let instance = new WrappedTestClass();
console.log(instance.deg(Math.PI * 2)); // 360
});
Each dijs instance has a new namespace instance at its core. Namespaces provide getter/setter methods for sub-paths:
var Namespace = require('dijs/lib/namespace');
var namespace = new Namespace('home');
namespace.floor = { chair : true };
assert.deepEqual(namespace.$get('home.floor'), { chair : true})
namespace.$set('home.floor.chairColor', 'blue');
assert.deepEqual(namespace.floor, { chair: true, chairColor: 'blue' });
Please note that dijs assigns all namespace values to instances. You can disable this behavior using the "assign" option (see above).
Bundled versions are available in the dist/ folder.
You can create a minified build with Google's Closure compiler by running
make
in the project directory.
MIT (see LICENSE)