I have been under the impression that decorators in TypeScript are called after the constructor of a class. However, I was told otherwise, for instance, the top answer of this post claims that Decorators are called when the class is declared—not when an object is instantiated. A Udemy instructor of an Angular course I was enrolled in also told me that decorators in Typescript run before property initialization.

However, my experiments on this subject seem to indicate otherwise. For instance, this is a simple Angular code with property binding:


import { Component, Input } from '@angular/core';

  selector: 'app-test',
  template: '{{testString}}'  
export class TestComponent{    
  @Input() testString:string ="default string";    
  constructor() {


<app-test testString="altered string"></app-test>

When I execute the code, the console logs "default string" instead of "altered string". This proves that decorators are called after the constructor of a class executes.

Can somebody give me a definite answer of when decorators are called? Because my research online are contradicting the experiments I make. Thank you!

  • The post you link to is pretty exhaustive and it states clearly "Decorators are called when the class is declared—not when an object is instantiated." This is so. You can get behavior on the instance by replacing either a method or the class (class and methods decorators can do that) but that is specific t the decorator implementation. The decorator itself runs at class delcaration Mar 24, 2018 at 6:48

3 Answers 3


Decorators are called when the class is declared—not when an object is instantiated.

That's correct.

As @H.B. has already said, we can prove it by looking at the transpiled code.

var TestComponent = /** @class */ (function () {
    function TestComponent() {
        this.testString = "default string";
        __metadata("design:type", String)
    ], TestComponent.prototype, "testString", void 0);
    TestComponent = __decorate([
            selector: 'app-test',
            template: '{{testString}}'
        __metadata("design:paramtypes", [])
    ], TestComponent);
    return TestComponent;

Now, let's go through the next steps to understand where you was wrong.

Step 1. The main purpose is to provide metadata

When I execute the code, the console logs "default string" instead of "altered string". This proves that decorators are called after the constructor of a class executes.

You can't be sure until you know what @Input() decorator does.

Angular @Input decorator just adorns component property with some information.

It's just metadata, that will be stored in TestComponent.__prop__metadata__ property.

Object.defineProperty(constructor, PROP_METADATA, {value: {}})[PROP_METADATA]

enter image description here

Step 2. Angular compiler.

Now its time when angular compiler collects all information about component including @Input metadatas to produce component factory. Prepared metadata looks like:

  "selector": "app-test",
  "changeDetection": 1,
  "inputs": [
  "outputs": [],
  "host": {},
  "queries": {},
  "template": "{{testString}}"

(Note: When Angular TemplateParser walk through template it uses this metadata to check whether directive has input with name testString)

Based on the metadata compiler constructs updateDirective expressions:

if (dirAst.inputs.length || (flags & (NodeFlags.DoCheck | NodeFlags.OnInit)) > 0) {
  updateDirectiveExpressions =
      dirAst.inputs.map((input, bindingIndex) => this._preprocessUpdateExpression({
        sourceSpan: input.sourceSpan,
        context: COMP_VAR,
        value: input.value

that will be included in producing factory:

enter image description here

We can notice above that update expressions are generated in parent view(AppComponent).

Step 3. Change detection

After angular produced all factories and inititialized all necessary objects it runs change detection cycly from top view through all child view.

During this process angular calls checkAndUpdateView function, where it also calls updateDirectiveFn:

export function checkAndUpdateView(view: ViewData) {
  if (view.state & ViewState.BeforeFirstCheck) {
    view.state &= ~ViewState.BeforeFirstCheck;
    view.state |= ViewState.FirstCheck;
  } else {
    view.state &= ~ViewState.FirstCheck;
  shiftInitState(view, ViewState.InitState_BeforeInit, ViewState.InitState_CallingOnInit);
  Services.updateDirectives(view, CheckType.CheckAndUpdate);  <====

That's the first place where your @Input property gets value:

providerData.instance[propName] = value;
if (def.flags & NodeFlags.OnChanges) {
  changes = changes || {};
  const oldValue = WrappedValue.unwrap(view.oldValues[def.bindingIndex + bindingIdx]);
  const binding = def.bindings[bindingIdx];
  changes[binding.nonMinifiedName !] =
    new SimpleChange(oldValue, value, (view.state & ViewState.FirstCheck) !== 0);

As you can see It happens before ngOnChanges hook.


Angular doesn't update @Input property value during decorator execution. Change detection mechanism is responsible for such things.


The reason of your confusion is not caused by how Decorators works, but how Angular updates it's input-bound properties. You can prove yourself and

ngOnInit() {
  console.log(this.testString) // see updated value

This happens because ngOnInit is called after the first ngOnChanges and ngOnChanges updates your input.

  • So decorators are called with class declaration in Typescript, but the input-binding behavior in Angular is only first executed in the first ngOnChanges, which is called after the constructor. Is this correct?
    – Eddie Lin
    Mar 24, 2018 at 7:41
  • @Eddie Lin - Yes, decorator is just a function attached to either class, method, accessor or property (as in your case). That function can behave as you want, so Angular wrote @Input decorator that changes target property value depending of the result NgOnChanges. I am playing arround now with it, but cant find proves yet so I could demonstrate, but I am pretty sure that @Input is being evaluated on constructor level, but gets called depending on ngOnChanges Mar 24, 2018 at 7:59

You can just look at the generated code, e.g.

const defaultValue = (value: any) =>
  (target: any, propertyKey: string, descriptor: PropertyDescriptor) => {
    target[propertyKey] = value;

class Test
  myProperty: string;


new Test();

Will produce this:

var __decorate = (this && this.__decorate) || function (decorators, target, key, desc) {
    var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d;
    if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc);
    else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r;
    return c > 3 && r && Object.defineProperty(target, key, r), r;
var defaultValue = function (value) {
    return function (target, propertyKey, descriptor) {
        target[propertyKey] = value;
var Test = /** @class */ (function () {
    function Test() {
    ], Test.prototype, "myProperty", void 0);
    return Test;
new Test();

As you an see the __decorate function is called on the property at class declaration time. This redefines the property according to the decorator code. For Angular this probably just sets some metadata, priming the class for inputs. Here it directly sets the value.

Thus, here the property will already have changed in the constructor.

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