I can't seem to figure out why I need ngDoCheck lifecycle hook other than for simple notification, particularly how writing code inside of it makes a difference as regard to change detection. Most of the examples I've found show useless examples, like this one, with a bunch of logging functionality.

Also, in the generated classes I don't see it being used for something else other than simple notification:


Wrapper_AppComponent.prototype.ngDoCheck = function(view,el,throwOnChange) {
  var self = this;
  var changed = self._changed;
  self._changed = false;
  if (!throwOnChange) {
    if (changed) {
      self._changes = {};
    self.context.ngDoCheck(); <----------- this calls ngDoCheck on the component
                                               but the result is not used 
                                               anywhere and no params are passed
  return changed;

5 Answers 5


This great article If you think ngDoCheck means your component is being checked — read this article explains the error in depth.

The contents of this answer is based on the angular version 2.x.x. For the most recent version 4.x.x see this post.

There is nothing on the internet on the inner workings of change detection, so I had to spend about a week debugging sources, so this answer will be pretty technical on details.

An angular application is a tree of views (AppView class that is extended by the Component specific class generated by the compiler). Each view has a change detection mode that lives in cdMode property. The default value for cdMode is ChangeDetectorStatus.CheckAlways, which is cdMode = 2.

When a change detection cycle runs, each parent view checks whether it should perform change detection on the child view here:

      detectChanges(throwOnChange: boolean): void {
        const s = _scope_check(this.clazz);
        if (this.cdMode === ChangeDetectorStatus.Checked ||
            this.cdMode === ChangeDetectorStatus.Errored)
        if (this.cdMode === ChangeDetectorStatus.Destroyed) {
        this.detectChangesInternal(throwOnChange); <---- performs CD on child view

where this points to the child view. So if cdMode is ChangeDetectorStatus.Checked=1, the change detection is skipped for the immediate child and all its descendants because of this line.

    if (this.cdMode === ChangeDetectorStatus.Checked ||
            this.cdMode === ChangeDetectorStatus.Errored)

What changeDetection: ChangeDetectionStrategy.OnPush does is simply sets cdMode to ChangeDetectorStatus.CheckOnce = 0, so after the first run of change detection the child view will have its cdMode set to ChangeDetectorStatus.Checked = 1 because of this code:

    if (this.cdMode === ChangeDetectorStatus.CheckOnce) 
         this.cdMode = ChangeDetectorStatus.Checked;

Which means that the next time a change detection cycle starts there will be no change detection performed for the child view.

There are few options how to run change detection for such view. First is to change child view's cdMode to ChangeDetectorStatus.CheckOnce, which can be done using this._changeRef.markForCheck() in ngDoCheck lifecycle hook:

      constructor(private _changeRef: ChangeDetectorRef) {   }
      ngDoCheck() {

This simply changes cdMode of the current view and its parents to ChangeDetectorStatus.CheckOnce, so next time the change detection is performed the current view is checked.

Check a full example here in the sources, but here is the gist of it:

          constructor(ref: ChangeDetectorRef) {
            setInterval(() => {
              this.numberOfTicks ++
              // the following is required, otherwise the view will not be updated
            }, 1000);

The second option is call detectChanges on the view itself which will run change detection on the current view if cdMode is not ChangeDetectorStatus.Checked or ChangeDetectorStatus.Errored. Since with onPush angular sets cdMode to ChangeDetectorStatus.CheckOnce, angular will run the change detection.

So ngDoCheck doesn't override the changed detection, it's simply called on every changed detection cycle and it's only job is to set current view cdMode as checkOnce, so that during next change detection cycle it's checked for the changes. See this answer for details. If the current view's change detection mode is checkAlways (set by default if onPush strategy is not used), ngDoCheck seem to be of no use.


The DoCheck interface is used to detect changes manually which the angular change detection have overlooked. A use could be when you change the ChangeDetectionStrategy of your component, but you know that one property of an object will change.

It's more efficient to check for this one change, than to let the changeDetector run through your entire component

let obj = {
  iChange = 'hiii'

If you use obj.iChange inside your template, angular will not detect it if this value changes, because the reference of obj itself doesn't change. You need to implement an ngDoCheck to check if the value has changed, and call a detectChanges on your component's changeDetector.

From the angular documentation about DoCheck

While the ngDoCheck hook can detect when the hero's name has changed, it has a frightful cost. This hook is called with enormous frequency — after every change detection cycle no matter where the change occurred. It's called over twenty times in this example before the user can do anything.

Most of these initial checks are triggered by Angular's first rendering of unrelated data elsewhere on the page. Mere mousing into another input box triggers a call. Relatively few calls reveal actual changes to pertinent data. Clearly our implementation must be very lightweight or the user experience will suffer.

tested example

   selector: 'test-do-check',
   template: `
      <div [innerHtml]="obj.changer"></div>
    changeDetection: ChangeDetectionStrategy.OnPush
export class TestDoCheckComponent implements DoCheck, OnInit {
    public obj: any = {
       changer: 1
    private _oldValue: number = 1;
    constructor(private _changeRef: ChangeDetectorRef){}
    ngOnInit() {
       setInterval(() => {
          this.obj.changer += 1;
       }, 1000);
    ngDoCheck() {
       if(this._oldValue !== this.obj.changer) {
          this._oldValue = this.obj.changer;

               //disable this line to see the counter not moving
  • thanks but I still don't understand. Your answer seems to be about ngDoChanges. How is it related to ngDoCheck? Commented Mar 7, 2017 at 8:39
  • @Maximus what PierreDuc meant if you don't use DoCheck, you need to trigger change detection manually if the object ref doesn't change.
    – eko
    Commented Mar 7, 2017 at 8:42
  • @echonax, that's even more confusing. Maybe you can show an elaborate example? Commented Mar 7, 2017 at 8:45
  • 1
    @PierreDuc, can you please take a look at this plunker? The counter is not updated there as well Commented Mar 7, 2017 at 11:35
  • 1
    @echonax, published an article on changed detection here, you might want to check it out Commented Apr 28, 2017 at 9:13


The default algorithm of angular for change detection looks for differences by comparing input-bound properties value by reference, understand. Cool. 🙌

Limitation of ngOnChanges()

Due to default behavior of angular change detection, ngOnChanges can't detect if someone changes a property of an object or push an item into array 😔. So ngDoCheck comes to recuse.

ngDoCheck() 🤩 wow!

Detect deep changes like a property change in object or item is pushed into array even without reference change. Amazing Right 😊


In simple terms :

It's generally a component check on following occasions:

  • Update child component input bindings
  • Update DOM interpolations
  • Update query list

Use :

Deep Watch changes which angular misses out.


I used it today and case was the following. I had a complex object array MyItem[]. In my template I used a ngFor to iterate over it and generate a component.

Every template generate inside the ngFor had buttons for moving the current location on up or down.

This worked great for the pressed component but not for the siblings.

With ngDoCheck I did the following:

ngDoCheck(): void
   // this life cycle will check if one of your sibling steps changed the order and update the view 
   // otherwise siblings views will not be updated and keep there previous DOM element
   if(this.stepItem?.stepNo && this.stepItem.stepNo != this.currentStepNo)
       this.currentStepNo = this.stepItem.stepNo;

With that the other components effected will be rerendered.

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