Really slow change detection in hybrid Angular app - javascript

We have a hybrid AngularJS / Angular 8 app, and we keep constantly running into issues with really slow change detection between components from different versions of the framework. Until now we've only had this problem when using AngularJS components inside Angular components. The common case is having a new Angular 8 form that has some old AngularJS components in it, and with some specific AngularJS components it can take anywhere between ~2 to ~10 seconds for the changes made in the component to propagate to the Angular form and for form validations to run. The UI doesn't hang or anything, it stays responsive, but there just seems to be a varying delay in communications between the different versions of the framework. Other AngularJS components in the same form might work seamlessly. We haven't found out the root cause for it yet, but we have found one reliable workaround; use $timeout(() => $scope.apply()); in the AngularJS component, usually in the $onChanges-listener. This triggers change detection in Angular and removes the delay.
Now we're facing it with an Angular component that is used inside an AngularJS component. We have a new Angular component that essentially wraps an NG Bootstrap datepicker, and after selecting a date in the datepicker, there is a varying delay of several seconds (up to around 10 seconds) before the parent AngularJS form realizes that any changes were made. Angular's upgrade guide mentions that you can use NgZone.run() to manually trigger change detection when using downgradeModule() (which we are), but we haven't found a way to get it working. The documentation doesn't really go into detail how run() should be used, either. We also tried ChangeDetectorRef.detectChanges(), to no avail.
I tried passing the AngularJS parent component's $scope down to the Angular component and using setTimeout(() => $scope.$apply()); in the Angular component after emitting a change event with an EventEmitter, and that did work; the delay was gone. But obviously this is not something we want to use for real.
Any suggestions on how to eliminate the change detection delay between AngularJS / Angular 8 components, either by manually triggering change detection from an Angular component or some other way?

In the end we didn't find any other solution than the one described in the question: passing the AngularJS $scope as an input parameter to the Angular component and wrapping the event emissions in $scope.$apply(), i.e.
$scope.$apply(() => valueChange.emit(value));
Based on the Angular upgrade guide, this seems to be the only way to get it working when using downgradeModule().

Problems occur in AngularJS as it runs in cycles ($digset). That way, AngularJS can evaluate the changes between the model and the view.
In every $digest cycle, the watchers are executed. This is the phase where Angular evaluates the expressions that are attached to the view and re-renders them back to the user.
There are a lot of times when operations in the client should and need to be done outside of the “Angular world”, which means Angular is not aware of these changes and does not reflect the changes to the user. There are several methods to resolve this issue, one as you mentioned using $timeout, methods are:
$apply()
$timeout()
$digest()
$evalAsync()
$evalAsync() was first introduced in AngularJS 1.2.X, and for me, it’s the best method to use.
Before $evalAsync() was introduced, Officially answered by the Angular team, when you have issues with cycles and want to reflect changes from outside the “Angular world”, use $timeout().
After Angular has evolved and more users have experienced this known issue, the Angular team has created the $evalAsync(). This function will evaluate the expression during the current cycle or the next.
For more details: source

Related

Anything similar to ChangeDetectionStrategy.OnPush in AngularJS 1?

Is there an equivalent to Angular's (v2+) ChangeDetectionStrategy.OnPush for AngularJS 1?
In other words, is there a way to restrict $digest cycles from re-evaluating scope inside certain components unless the component's $onChanges hook has just fired (meaning one of the bindings has been updated)? This could be built-in functionality into AngularJS or a third-party module.
Working with SPAs that have very large code bases (meaning it would take a year to upgrade to Angular2), it would certainly be nice to get some of those OnPush performance benefits today.

Is data binding in AngularJS based on time period?

I've already read the answer:
https://stackoverflow.com/a/9693933/4382683
What I want to know is when does angular decide that it's suitable to run the $digest cycle? Because when I change a property of an object in $scope, it's instantly propagated throughout. Does this dirty-checking happen every 50ms or so?
Also, is Object.watch() used anywhere in Angular?
It's not based on time period. Angular actually $digests only if one of the following happens:
Any interaction with ng tags and attribute or custom directives
When a promise is resolved. Like for $http or $timeout
These and probably a few other cases I don't know about. I understand now that it's not possible that the values in $scope change without any of these things happening. Hence, whenever these happen, angular does a $digest. Also, no time periods.
And, no Object.watch() anywhere since it's only for debugging purposes.

AngularJS integration with Vaadin

I have used jquery integration with vaadin many times inside custom components. I wanna see an example of angularjs integration with vaadin.
Additionally need to know AngularJS is working with IE9.
you can check out https://github.com/akquinet/vaangular/tree/master/vaangular-demo for an example of how 2 integrate Vaadin and AngularJS...
The main thing that happens is creating a $scope for AngularJS that is wired up with vaadin. There is one essential challenge: the JavaScript invoked by vaadin is outside any AngularJS dependency injection or scope management. Meanwhile, all code you write for AngularJS is obviously inside dependency injection and scope management.
Furthermore, AngularJS assumes (at least per se) that the page's HTML is parsed once and wired up to AngularJS. With vaadin, however, the page's HTML is just some proxy to fire up vaadin, and there is nothing to wire up. Even more so, the part with AngularJS in it might be added to a vaadin UI a considerable amount of time after the application was started.
So, what is needed is an approach to create some new AngularJS-wired-up DOM and Controller on demand from outside AngularJS dependency management / scoping magic.
given a module 'innerModuleName' defined with angular.module, vaangular achieves this (in bespoke NgTemplate.js) in two steps:
First, a scope within AngularJS is created via
angular.injector([ 'ng', innerModuleName ]).invoke(function($compile, $rootScope) {
Second, the scope (called scpe) and DOM are brought together via
var connectorElement = angular.element(connector.getElement());
var cmp = $compile(templateElement);
scpe = $rootScope.$new(false);
cmp(scpe);
scpe.$digest();
connectorElement.append(templateElement);
At the end of this process, we have a new part of the DOM wired up to a new controller.
The point is that now, you can have the Vaadin Connector inside angularJS

AngularJS and location.path()

I'm working on a webpage based on AngularJS and sometimes I need to change the path (the shebang if you prefer it). The thing is that sometimes $location.path("/my_path_here") works, but sometimes I need to call $scope.$apply() after calling $location.path to make the webbrowser switch to the new path.
Why is this happening?
EDIT:
Example http://pastebin.com/d1SjfCHd
Take a look at this question and Misko's answer: How does data binding work in AngularJS?
That answer explains the process in technical great detail. So, I'm gonna tell it in layman's terms.
AngularJS makes itself work by using dirty checking, there are sets of values that angular is watching. Everytime something big happens, (a click, a function call in controller), angular runs a digest cycle, comparing the watched values to see if there is any change. If there is a change, depending on the watcher, angular will take necessary action (update view, fire a callback, update route).
When you use default directives and no jquery event handling in controller, you will be fine.
However, if you do, you need to know that you are NOT in the angular's digest cycle. Which means the watchers will not fire until a digest occurs.
You need to know when are you updating a variable that is being watched. Mostly it is custom DOM event (or jquery events). When it is the case, you need to let angular know that something is changed and it needs to re-check what happened (ie. update watchers).
This is by doing scope.$apply() after you have changed something.
Bear in mind that you cannot run an $apply() if you are already in the angular's digest cycle. It will throw an error like $digest already in progress.

How does data binding work in AngularJS?

How does data binding work in the AngularJS framework?
I haven't found technical details on their site. It's more or less clear how it works when data is propagated from view to model. But how does AngularJS track changes of model properties without setters and getters?
I found that there are JavaScript watchers that may do this work. But they are not supported in Internet Explorer 6 and Internet Explorer 7. So how does AngularJS know that I changed for example the following and reflected this change on a view?
myobject.myproperty="new value";
AngularJS remembers the value and compares it to a previous value. This is basic dirty-checking. If there is a change in value, then it fires the change event.
The $apply() method, which is what you call when you are transitioning from a non-AngularJS world into an AngularJS world, calls $digest(). A digest is just plain old dirty-checking. It works on all browsers and is totally predictable.
To contrast dirty-checking (AngularJS) vs change listeners (KnockoutJS and Backbone.js): While dirty-checking may seem simple, and even inefficient (I will address that later), it turns out that it is semantically correct all the time, while change listeners have lots of weird corner cases and need things like dependency tracking to make it more semantically correct. KnockoutJS dependency tracking is a clever feature for a problem which AngularJS does not have.
Issues with change listeners:
The syntax is atrocious, since browsers do not support it natively. Yes, there are proxies, but they are not semantically correct in all cases, and of course there are no proxies on old browsers. The bottom line is that dirty-checking allows you to do POJO, whereas KnockoutJS and Backbone.js force you to inherit from their classes, and access your data through accessors.
Change coalescence. Suppose you have an array of items. Say you want to add items into an array, as you are looping to add, each time you add you are firing events on change, which is rendering the UI. This is very bad for performance. What you want is to update the UI only once, at the end. The change events are too fine-grained.
Change listeners fire immediately on a setter, which is a problem, since the change listener can further change data, which fires more change events. This is bad since on your stack you may have several change events happening at once. Suppose you have two arrays which need to be kept in sync for whatever reason. You can only add to one or the other, but each time you add you fire a change event, which now has an inconsistent view of the world. This is a very similar problem to thread locking, which JavaScript avoids since each callback executes exclusively and to completion. Change events break this since setters can have far-reaching consequences which are not intended and non obvious, which creates the thread problem all over again. It turns out that what you want to do is to delay the listener execution, and guarantee, that only one listener runs at a time, hence any code is free to change data, and it knows that no other code runs while it is doing so.
What about performance?
So it may seem that we are slow, since dirty-checking is inefficient. This is where we need to look at real numbers rather than just have theoretical arguments, but first let's define some constraints.
Humans are:
Slow — Anything faster than 50 ms is imperceptible to humans and thus can be considered as "instant".
Limited — You can't really show more than about 2000 pieces of information to a human on a single page. Anything more than that is really bad UI, and humans can't process this anyway.
So the real question is this: How many comparisons can you do on a browser in 50 ms? This is a hard question to answer as many factors come into play, but here is a test case: http://jsperf.com/angularjs-digest/6 which creates 10,000 watchers. On a modern browser this takes just under 6 ms. On Internet Explorer 8 it takes about 40 ms. As you can see, this is not an issue even on slow browsers these days. There is a caveat: The comparisons need to be simple to fit into the time limit... Unfortunately it is way too easy to add a slow comparison into AngularJS, so it is easy to build slow applications when you don't know what you are doing. But we hope to have an answer by providing an instrumentation module, which would show you which are the slow comparisons.
It turns out that video games and GPUs use the dirty-checking approach, specifically because it is consistent. As long as they get over the monitor refresh rate (typically 50-60 Hz, or every 16.6-20 ms), any performance over that is a waste, so you're better off drawing more stuff, than getting FPS higher.
Misko already gave an excellent description of how the data bindings work, but I would like to add my view on the performance issue with the data binding.
As Misko stated, around 2000 bindings are where you start to see problems, but you shouldn't have more than 2000 pieces of information on a page anyway. This may be true, but not every data-binding is visible to the user. Once you start building any sort of widget or data grid with two-way binding you can easily hit 2000 bindings, without having a bad UX.
Consider, for example, a combo box where you can type text to filter the available options. This sort of control could have ~150 items and still be highly usable. If it has some extra feature (for example a specific class on the currently selected option) you start to get 3-5 bindings per option. Put three of these widgets on a page (e.g. one to select a country, the other to select a city in the said country, and the third to select a hotel) and you are somewhere between 1000 and 2000 bindings already.
Or consider a data-grid in a corporate web application. 50 rows per page is not unreasonable, each of which could have 10-20 columns. If you build this with ng-repeats, and/or have information in some cells which uses some bindings, you could be approaching 2000 bindings with this grid alone.
I find this to be a huge problem when working with AngularJS, and the only solution I've been able to find so far is to construct widgets without using two-way binding, instead of using ngOnce, deregistering watchers and similar tricks, or construct directives which build the DOM with jQuery and DOM manipulation. I feel this defeats the purpose of using Angular in the first place.
I would love to hear suggestions on other ways to handle this, but then maybe I should write my own question. I wanted to put this in a comment, but it turned out to be way too long for that...
TL;DR
The data binding can cause performance issues on complex pages.
By dirty checking the $scope object
Angular maintains a simple array of watchers in the $scope objects. If you inspect any $scope you will find that it contains an array called $$watchers.
Each watcher is an object that contains among other things
An expression which the watcher is monitoring. This might just be an attribute name, or something more complicated.
A last known value of the expression. This can be checked against the current computed value of the expression. If the values differ the watcher will trigger the function and mark the $scope as dirty.
A function which will be executed if the watcher is dirty.
How watchers are defined
There are many different ways of defining a watcher in AngularJS.
You can explicitly $watch an attribute on $scope.
$scope.$watch('person.username', validateUnique);
You can place a {{}} interpolation in your template (a watcher will be created for you on the current $scope).
<p>username: {{person.username}}</p>
You can ask a directive such as ng-model to define the watcher for you.
<input ng-model="person.username" />
The $digest cycle checks all watchers against their last value
When we interact with AngularJS through the normal channels (ng-model, ng-repeat, etc) a digest cycle will be triggered by the directive.
A digest cycle is a depth-first traversal of $scope and all its children. For each $scope object, we iterate over its $$watchers array and evaluate all the expressions. If the new expression value is different from the last known value, the watcher's function is called. This function might recompile part of the DOM, recompute a value on $scope, trigger an AJAX request, anything you need it to do.
Every scope is traversed and every watch expression evaluated and checked against the last value.
If a watcher is triggered, the $scope is dirty
If a watcher is triggered, the app knows something has changed, and the $scope is marked as dirty.
Watcher functions can change other attributes on $scope or on a parent $scope. If one $watcher function has been triggered, we can't guarantee that our other $scopes are still clean, and so we execute the entire digest cycle again.
This is because AngularJS has two-way binding, so data can be passed back up the $scope tree. We may change a value on a higher $scope that has already been digested. Perhaps we change a value on the $rootScope.
If the $digest is dirty, we execute the entire $digest cycle again
We continually loop through the $digest cycle until either the digest cycle comes up clean (all $watch expressions have the same value as they had in the previous cycle), or we reach the digest limit. By default, this limit is set at 10.
If we reach the digest limit AngularJS will raise an error in the console:
10 $digest() iterations reached. Aborting!
The digest is hard on the machine but easy on the developer
As you can see, every time something changes in an AngularJS app, AngularJS will check every single watcher in the $scope hierarchy to see how to respond. For a developer this is a massive productivity boon, as you now need to write almost no wiring code, AngularJS will just notice if a value has changed, and make the rest of the app consistent with the change.
From the perspective of the machine though this is wildly inefficient and will slow our app down if we create too many watchers. Misko has quoted a figure of about 4000 watchers before your app will feel slow on older browsers.
This limit is easy to reach if you ng-repeat over a large JSON array for example. You can mitigate against this using features like one-time binding to compile a template without creating watchers.
How to avoid creating too many watchers
Each time your user interacts with your app, every single watcher in your app will be evaluated at least once. A big part of optimising an AngularJS app is reducing the number of watchers in your $scope tree. One easy way to do this is with one time binding.
If you have data which will rarely change, you can bind it only once using the :: syntax, like so:
<p>{{::person.username}}</p>
or
<p ng-bind="::person.username"></p>
The binding will only be triggered when the containing template is rendered and the data loaded into $scope.
This is especially important when you have an ng-repeat with many items.
<div ng-repeat="person in people track by username">
{{::person.username}}
</div>
This is my basic understanding. It may well be wrong!
Items are watched by passing a function (returning the thing to be
watched) to the $watch method.
Changes to watched items must be made within a block of code
wrapped by the $apply method.
At the end of the $apply the $digest method is invoked which goes
through each of the watches and checks to see if they changed since
last time the $digest ran.
If any changes are found then the digest is invoked again until all changes stabilize.
In normal development, data-binding syntax in the HTML tells the AngularJS compiler to create the watches for you and controller methods are run inside $apply already. So to the application developer it is all transparent.
I wondered this myself for a while. Without setters how does AngularJS notice changes to the $scope object? Does it poll them?
What it actually does is this: Any "normal" place you modify the model was already called from the guts of AngularJS, so it automatically calls $apply for you after your code runs. Say your controller has a method that's hooked up to ng-click on some element. Because AngularJS wires the calling of that method together for you, it has a chance to do an $apply in the appropriate place. Likewise, for expressions that appear right in the views, those are executed by AngularJS so it does the $apply.
When the documentation talks about having to call $apply manually for code outside of AngularJS, it's talking about code which, when run, doesn't stem from AngularJS itself in the call stack.
Explaining with Pictures :
Data-Binding needs a mapping
The reference in the scope is not exactly the reference in the template. When you data-bind two objects, you need a third one that listen to the first and modify the other.
Here, when you modify the <input>, you touch the data-ref3. And the classic data-bind mecanism will change data-ref4. So how the other {{data}} expressions will move ?
Events leads to $digest()
Angular maintains a oldValue and newValue of every binding. And after every Angular event, the famous $digest() loop will check the WatchList to see if something changed. These Angular events are ng-click, ng-change, $http completed ... The $digest() will loop as long as any oldValue differs from the newValue.
In the previous picture, it will notice that data-ref1 and data-ref2 has changed.
Conclusions
It's a little like the Egg and Chicken. You never know who starts, but hopefully it works most of the time as expected.
The other point is that you can understand easily the impact deep of a simple binding on the memory and the CPU. Hopefully Desktops are fat enough to handle this. Mobile phones are not that strong.
Obviously there is no periodic checking of Scope whether there is any change in the Objects attached to it. Not all the objects attached to scope are watched . Scope prototypically maintains a $$watchers . Scope only iterates through this $$watchers when $digest is called .
Angular adds a watcher to the $$watchers for each of these
{{expression}} — In your templates (and anywhere else where there’s an expression) or when we define ng-model.
$scope.$watch(‘expression/function’) — In your JavaScript we can just attach a scope object for angular to watch.
$watch function takes in three parameters:
First one is a watcher function which just returns the object or we can just add an expression.
Second one is a listener function which will be called when there is a change in the object. All the things like DOM changes will be implemented in this function.
The third being an optional parameter which takes in a boolean . If its true , angular deep watches the object & if its false Angular just does a reference watching on the object.
Rough Implementation of $watch looks like this
Scope.prototype.$watch = function(watchFn, listenerFn) {
var watcher = {
watchFn: watchFn,
listenerFn: listenerFn || function() { },
last: initWatchVal // initWatchVal is typically undefined
};
this.$$watchers.push(watcher); // pushing the Watcher Object to Watchers
};
There is an interesting thing in Angular called Digest Cycle. The $digest cycle starts as a result of a call to $scope.$digest(). Assume that you change a $scope model in a handler function through the ng-click directive. In that case AngularJS automatically triggers a $digest cycle by calling $digest().In addition to ng-click, there are several other built-in directives/services that let you change models (e.g. ng-model, $timeout, etc) and automatically trigger a $digest cycle. The rough implementation of $digest looks like this.
Scope.prototype.$digest = function() {
var dirty;
do {
dirty = this.$$digestOnce();
} while (dirty);
}
Scope.prototype.$$digestOnce = function() {
var self = this;
var newValue, oldValue, dirty;
_.forEach(this.$$watchers, function(watcher) {
newValue = watcher.watchFn(self);
oldValue = watcher.last; // It just remembers the last value for dirty checking
if (newValue !== oldValue) { //Dirty checking of References
// For Deep checking the object , code of Value
// based checking of Object should be implemented here
watcher.last = newValue;
watcher.listenerFn(newValue,
(oldValue === initWatchVal ? newValue : oldValue),
self);
dirty = true;
}
});
return dirty;
};
If we use JavaScript’s setTimeout() function to update a scope model, Angular has no way of knowing what you might change. In this case it’s our responsibility to call $apply() manually, which triggers a $digest cycle. Similarly, if you have a directive that sets up a DOM event listener and changes some models inside the handler function, you need to call $apply() to ensure the changes take effect. The big idea of $apply is that we can execute some code that isn't aware of Angular, that code may still change things on the scope. If we wrap that code in $apply , it will take care of calling $digest(). Rough implementation of $apply().
Scope.prototype.$apply = function(expr) {
try {
return this.$eval(expr); //Evaluating code in the context of Scope
} finally {
this.$digest();
}
};
AngularJS handle data-binding mechanism with the help of three powerful functions : $watch(),$digest()and $apply(). Most of the time AngularJS will call the $scope.$watch() and $scope.$digest(), but
in some cases you may have to call these functions manually to update with new values.
$watch() :-
This function is used to observe changes in a variable on the $scope.
It accepts three parameters: expression, listener and equality object,
where listener and equality object are optional parameters.
$digest() -
This function iterates through all the watches in the $scope object,
and its child $scope objects
(if it has any). When $digest() iterates
over the watches, it checks if the value of the expression has
changed. If the value has changed, AngularJS calls the listener with
new value and old value. The $digest() function is called
whenever AngularJS thinks it is necessary. For example, after a button
click, or after an AJAX call. You may have some cases where AngularJS
does not call the $digest() function for you. In that case you have to
call it yourself.
$apply() -
Angular do auto-magically updates only those model changes which are
inside AngularJS context. When you do change in any model outside of
the Angular context (like browser DOM events, setTimeout, XHR or third
party libraries), then you need to inform Angular of the changes by
calling $apply() manually. When the $apply() function call finishes
AngularJS calls $digest() internally, so all data bindings are
updated.
It happened that I needed to link a data model of a person with a form, what I did was a direct mapping of the data with the form.
For example if the model had something like:
$scope.model.people.name
The control input of the form:
<input type="text" name="namePeople" model="model.people.name">
That way if you modify the value of the object controller, this will be reflected automatically in the view.
An example where I passed the model is updated from server data is when you ask for a zip code and zip code based on written loads a list of colonies and cities associated with that view, and by default set the first value with the user. And this I worked very well, what does happen, is that angularJS sometimes takes a few seconds to refresh the model, to do this you can put a spinner while displaying the data.
The one-way data binding is an approach where a value is taken from the data model and inserted into an HTML element. There is no way to update model from view. It is used in classical template systems. These systems bind data in only one direction.
Data-binding in Angular apps is the automatic synchronisation of data between the model and view components.
Data binding lets you treat the model as the single-source-of-truth in your application. The view is a projection of the model at all times. If the model is changed, the view reflects the change and vice versa.
Here is an example of data binding with AngularJS, using an input field. I will explain later
HTML Code
<div ng-app="myApp" ng-controller="myCtrl" class="formInput">
<input type="text" ng-model="watchInput" Placeholder="type something"/>
<p>{{watchInput}}</p>
</div>
AngularJS Code
myApp = angular.module ("myApp", []);
myApp.controller("myCtrl", ["$scope", function($scope){
//Your Controller code goes here
}]);
As you can see in the example above, AngularJS uses ng-model to listen and watch what happens on HTML elements, especially on input fields. When something happens, do something. In our case, ng-model is bind to our view, using the mustache notation {{}}. Whatever is typed inside the input field is displayed on the screen instantly. And that's the beauty of data binding, using AngularJS in its simplest form.
Hope this helps.
See a working example here on
Codepen
AngularJs supports Two way data-binding.
Means you can access data View -> Controller & Controller -> View
For Ex.
1)
// If $scope have some value in Controller.
$scope.name = "Peter";
// HTML
<div> {{ name }} </div>
O/P
Peter
You can bind data in ng-model Like:-
2)
<input ng-model="name" />
<div> {{ name }} </div>
Here in above example whatever input user will give, It will be visible in <div> tag.
If want to bind input from html to controller:-
3)
<form name="myForm" ng-submit="registration()">
<label> Name </lbel>
<input ng-model="name" />
</form>
Here if you want to use input name in the controller then,
$scope.name = {};
$scope.registration = function() {
console.log("You will get the name here ", $scope.name);
};
ng-model binds our view and render it in expression {{ }}.
ng-model is the data which is shown to the user in the view and with which the user interacts.
So it is easy to bind data in AngularJs.
Angular.js creates a watcher for every model we create in view. Whenever a model is changed, an "ng-dirty" class is appeneded to the model, so the watcher will observe all models which have the class "ng-dirty" & update their values in the controller & vice versa.
data binding:
What is data binding?
Whenever the user changes the data in the view , there occurs an update of that change in the scope model, and viceversa.
How is it possible?
Short answer :
With the help of digest cycle.
Description :
Angular js sets the watcher on the scope model, which fires the listener function if there is a change in the model.
$scope.$watch('modelVar' , function(newValue,oldValue){
//Dom update code with new value
});
So When and How is the watcher function called?
Watcher function is called as part of the digest cycle.
Digest cycle is called automatically triggered as part of angular js built in directives/services like ng-model , ng-bind , $timeout, ng-click and others.. that let you trigger the digest cycle.
Digest cycle function:
$scope.$digest() -> digest cycle against the current scope.
$scope.$apply() -> digest cycle against the parent scope
i.e$rootScope.$apply()
Note:
$apply() is equal to $rootScope.$digest() this means the dirty checking starts right from the root or top or the parent scope down to all the child $scopes in the angular js application.
The above features work in the browsers IE for the mentioned versions also just by making sure your application is angular js application which means you are using the angularjs framework script file referenced in the script tag.
Thank you.

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