As you can see, overlay is just a div that is appended to the body. Currently, there is nothing inside this div , and we’ll see later how to render content inside it. Let’s continue with the OverlayConfig parameter.

We set hasBackdrop to true so that we can close the popover when the user clicks outside of it. We create a custom backdropClass as we want to remove the default box-shadow style.

The scrollStrategy option determines how the overlay will react to scrolling outside the overlay element. In our case, we set it to reposition() as we want to re-position the overlay element on scroll.

The positionStrategy option determines how the overlay will be positioned on-screen. Let’s see the getOverlayPosition() method implementation:

Let’s break it down. The flexibleConnectedTo() method takes the origin element that the overlay should be positioned relative to.

The withPositions() method take a list of a ConnectionPositionPair[] . This is a list of preferred positions, from most to least desirable. The “best” position will be selected based on how well the overlay fits within the viewport.

originX : This will be start , end , or center . It’s the attachment point for your overlay . This refers to the start , end and center of the origin element.

originY : This will be top , bottom or center . This refers to the top , bottom or center of the origin element.

overlayX and overlayY have the same options, but refer to where the overlay will be attached to.

Take the first ConnectionPositionPair and think about it as a connection between the overlay bottom to the origin top. I know it’s confusing, but try to play with it a little bit and you’ll eventually understand what’s going on.

So, in our case, we preferred a top position with a fallback of a bottom position, which gives us the following functionality:

Scrolling…

Here are more predefined positions for your convenience:

Back to the code, we set the withPush() method to false as we don’t want the overlay to be pushed on-screen if none of the provided positions fit. Try to remove this method and scroll, you’ll see the effect.

Create the PopoverRef

The next step is to create a PopoverRef which gets the overlayRef , content , and data , and exposes a close() method, which will close the popover, and an afterClosed observable that will notify us when the user closes the popover.

The code is self-explanatory. We have a close() method that optionally accepts a data parameter that will be passed to the observers. We also want to be able to determine if the popover was closed by clicking on the backdrop or the close button, so we add an event type .

A different approach for closing the popover in case that you don’t want to use a backdrop is to register a document click event and do it by yourself, for example:

Create the Injector

As we said before, our popover can also render a custom component. We want the custom component to get a reference to the current popoverRef instance and use it to get the provided data and close the popover. Let’s see how we can do that.

We are using the PortalInjector class to create an injector. The PortalInjector class is a tiny abstraction that implements the Injector get() method. It uses the parent injector and an optional WeakMap that contains custom providers. Here is the implementation directly from the source code:

If it can’t find the provider in the custom providers list, it will continue with the parent injector. Great, we have an injector , now let’s move on to the final step — attaching the popover component to the overlay .

Attach the Popover Component

As we saw before, we have an overlay , but nothing has been attached to it yet. To attach a component to an overlay , we could use the attach() method, passing a ComponentPortal .

A Portal is a piece of UI that can be dynamically rendered to an open slot on the page.

The “piece of UI” can be either a Component or a TemplateRef and the “open slot” is a PortalOutlet . Overlay is a PortalOutlet and we’re rendering the PopoverComponent inside the overlay .

Note: You can skip the injector part if the provided content is not a custom component.

Let’s finish with the PopoverComponent implementation.

Create the Popover Component

The PopoverComponent injects, via DI, the current popoverRef , and based on the provided content type, renders the view.

We have a basic switchCase that will render the correct type based on the provided content type. Note that if it’s a TemplateRef , we’re also exposing the close() method via context .

Let’s see how we can finally use this with all three cases.

Using with Template

As we saw before, we can now use the close() method that we pass via context .

Using with Component

We can inject the PopoverRef via DI as well as access the provided data and the close() method. Note that when a component is dynamically created using portals, it must be included in the entryComponents of its NgModule.

Using with Text

Here is an example of popover with simple text.

If you’re using a translate provider, you can take it one step further and also accepts a translate key . (for example, general.welcome )

Summary

We learned how the Angular CDK overlay feature provides a convenient and robust way to create powerful components. You can take what you learned here and continue to build components like autocomplete , dropdown , tooltips , etc.

This was just a little information on the API capabilities. I highly recommend going over the source code and learning about the other awesome stuff that it provides.

Ready to Master Angular?

🔥 Last but Not Least, Have you Heard of Akita?

Akita is a state management pattern that we’ve developed here in Datorama. It’s been successfully used in a big data production environment, and we’re continually adding features to it.

Akita encourages simplicity. It saves you the hassle of creating boilerplate code and offers powerful tools with a moderate learning curve, suitable for both experienced and inexperienced developers alike.

I highly recommend checking it out.

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