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💥 This package is no longer supported please use @lsagetlethias/tstrait instead.

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1.1.0 • Public • Published


Yet another mixin library but without mixins.


Depending on how your architecture or your codebase are made, sometimes Mixin are not good enough or simply not good at all. The Trait feature from PHP resolve the instance imutability that Mixin most of the times lacks of.

You can check some definition from PHP manual if you need to:

But TL;DR, Trait are made for multiple inheritance without constructor collision. In another words, traits gives you a way to factorize common methods between classes without putting them in a abstract class.
They can be usefull in override situations.


Node (or front)

yarn add @bios21/tstrait
# or
npm install @bios21/tstrait


// /!\ Not registered yet in the global deno registry /!\
// in you deps.ts
export * as tstait from '';

// in your main.ts
import { tstrait } from './mod.ts';

const { Trait, Use } = tstrait;



At first, you need to create your trait. Becasue traits are not a language feature by default, you need to make you trait extends the Trait class to have some control in your types (in TypeScript only). Extending is not a problem because a trait cannot extends another class or implementing another interface. A trait can only use another trait.

class MyTrait extends Trait {
    // a trait doesn't need a constructor so you can skip it or even make your class abstract
    public something() {}

Then you will need the @Use decorator to apply your trait on your class. For the same reasons, the use keyword doesn't exists in JS/TS so an annotation should do the job instead.

class Foo {}

const Bar = Use(MyTrait)(class Bar {}); // will be fully typed

At this point, any Foo instance will have a something() method for the trait used.

Regarding traits on Abstract Classes

Due to typings issues with abstract, abstract classes cannot be traited with decorators. Only straight call of Use function can works by emulating a fake public constructor on the abstract class with cast.


import { Use, Ctor } from '@bios21/tstrait';
class MyTrait {}

@Use(MyTrait) // Argument of type 'typeof Foo' is not assignable to parameter of type 'Ctor'. Cannot assign an abstract constructor type to a non-abstract constructor type. ts(2345)
abstract class Foo {}

abstract class _Bar {}
const Bar = Use(MyTrait)(_Bar as Ctor<_Bar>); // ok


If you need to, you can use as many trait as you want. In this case, the @Use will takes an array of trait as single parameter:

@Use([Trait1, Trait2, Trait3 /* ... and so on */])
class Foo {}

In this case, Traits will be applied from left to right.

Sometimes, you will also need to configure properly how your trait is applied or handle collision between multiple traits:

@Use([Trait1, Trait2, {
    as: { 'Trait1.method': 'fooBarFunction' } // The "method" from Trait1 will be aliased "fooBarFunction" before being applied to Foo class
class Foo {}

(new Foo()).method(); // KO ; doesn't exists on Foo
(new Foo()).fooBarFunction(); // ok



With as, you can alias a member and/or change its scope (scopes are not yet handled).
Alias must be seen like this: alias "Trait.member" as "scope newName".


@Use([Trait1, {
    as: { 'Trait1.method': 'fooBarFunction' } // Alias "Trait1.method" as "fooBarFunction" when used in Foo class
class Foo {}

(new Foo()).method(); // KO ; doesn't exists on Foo
(new Foo()).fooBarFunction(); // ok


With insteadof, you can solve collision between similar Traits. InsteadOf must be seen like this: use "Trait1.method" instead of what's found in "[Trait2, Trait3, ...]"


class Trait1 extends Trait {
    public foo() {
class Trait2 extends Trait {
    public foo() {

@Use([Trait1, Trait2, {
    insteadOf: { '': [Trait2] } // Use instead of the same method in Trait2
class Foo {}

(new Foo()).foo(); // will log "A" instead of "B"


You can run the example with the command yarn start (or npm run start)

import { Trait, traitSelector, Use } from '@bios21/tstrait';

// Setup
class GetImageTrait extends Trait {
    public static INSTANCE = 'toto';
    public static S1 = 'Static1';
    public static S2 = 'Static2';
    public getImage(p1?: string, p2 = true) {
        // i.e. make a request to retrieve an image
        return null;

class ComputeTrait extends Trait {
    public compute() {
        // i.e. compute anything

    public getImage() {

// 1. Simple Usage
console.log('======= EXAMPLE 1');
class Controller {
    public that = (this as unknown) as Controller & GetImageTrait;
    public foo() {

// ----------------

const controller = new Controller();
console.log('should log "GetImageTrait.getImage"');;

// 2. Function decorator usage for Intellisense
console.log('\n\n======= EXAMPLE 2');
const Controller2 = Use([GetImageTrait, ComputeTrait])(
    class Controller2 {
        public foo(this: Controller2 & GetImageTrait) {

// ----------------

const controller2 = new Controller2();
console.log('should log "GetImageTrait.getImage"');;

// 3 "as" & "insteadof" trait rules
console.log('\n\n======= EXAMPLE 3');
        as: {
            // can use the helper method as selector
            // scope is not handled yet
            [traitSelector(GetImageTrait, 'INSTANCE', true)]: 'protected III',
            'GetImageTrait::S2': 'S3',
        insteadOf: {
            // or do the selector ourselves (only in non-obfuscated code)
            'ComputeTrait.getImage': [GetImageTrait],
class Controller3 {}

// ----------------

const controller3: any = new Controller3();
console.log('should log undefined');
console.log((Controller3 as any).INSTANCE); // should log undefined


console.log('should log "toto"');
console.log((Controller3 as any).III); // should log "toto"


console.log('should log "ComputeTrait.getImage"');
controller3.getImage(); // should log "ComputeTrait.getImage"


console.log('should log "Static2"');
console.log((Controller3 as any).S3); // should log "Static2"






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