Android Developers Blog

Announcing Glance: Tiles for Wear OS made simple

26 January 2022

Posted by Anna Bernbaum, Associate Product Manager
Last year we announced the Wear Tiles API. To complement that Java API, we are excited to announce that support for Wear OS Tiles has been added to Glance, a new framework built on top of Jetpack Compose designed to make it easier to build for surfaces outside your app on Android. We'd love to get your feedback on this alpha version. Tiles provide Wear OS users easy access to the information and actions they need in order to get things done quickly. They also are one of the most used surfaces on Wear OS. Just one swipe away from the Watch Face, users can quickly access the most important information or actions from an app, like start a timer or get the latest weather forecast.

Let's see how we can create a Tile with Glance: class HelloTileService : GlanceTileService() { @Composable override fun Content() { Text(text = "Hello Glance") } } The simple code above generates the Tile below.

“Hello Glance” Tile sample with Glance

Note: Using Glance-wear-tiles requires`minSdkVersion`>= 26.How it works Glance creates “glanceable” experiences across Android surfaces using a base-set of Composables. For Tiles on Wear OS, Glance translates Composables into Tiles.

Diagram: Glance structure

Glance requires Compose to be enabled and depends on Runtime, Graphics, and Unit UI Compose layers, but it’s not directly interoperable with other existing Jetpack Compose UI elements, like Compose for Wear OS. What’s in the Alpha This initial release introduces the main APIs to build wear Tiles:

GlanceTileService - A service to create your tile in the composable Content() function.

Initial set of Glance Composables: Box, Row, Column, Text, Image, Spacer, CurvedRow, CurvedText.

GlanceModifier - Plays the same role as androidx.compose.ui.Modifier but for the Glance composables.

actionStartActivity - Starts an Activity from a user interaction.

TimelineMode.SingleEntry and TimelineMode.TimeBoundEntries - Handle single-entry and time bound timeline entries.

GlanceStateDefinition - Persistent tile state

LocalTimeInterval - Local compositions (similar to LocalState)

We are working on bringing even more functionality with default theming, further Android Studio support, and more. Stay tuned for new releases. Get started with Glance For a quick start, take a look at the samples in the AndroidX repository. Glance works with the latest stable Android Studio, although since Glance relies on Compose Runtime, follow the steps on the Jetpack Compose docs to set it up first. The Alpha version is your opportunity to influence the APIs, so please share your feedback and let us know your experience! Happy Composing with Glance!

Android Studio Bumblebee (2021.1.1) Stable

25 January 2022

Posted by Adarsh Fernando, Product Manager, Android

The Android Studio team has been abuzz with the stable release of Android Studio Bumblebee (2021.1.1) 🐝 and Android Gradle plugin (AGP) 7.1.0; the latest versions of Android official IDE and build system. We’ve improved functionality across a broad area of the typical developer workflow: Build and Deploy, Profiling and Inspection, and Design. Some notable additions include a unified test execution between Android Studio and your continuous integration (CI) server ✅, convenient pairing flows to support ADB over Wi-Fi 📲, Improved Profiler tools to help you identify and analyze jank in your app 🕵️, and new ways to preview animations 🎥 and UI interactions without deploying your app to a device. As always, this release wouldn’t be possible without the early feedback from our Preview users. So read on or watch below for further highlights and new features you can find in this stable version. If you’re ready to jump in and see for yourself, head over to the official website to download Android Studio Bumblebee (2021.1.1).What’s in Android Studio Bumblebee (2021.1.1) Below is a full list of new features in Android Studio Bumblebee (2021.1.1), organized by the three major themes. Build and Deploy

New Device Manager: This new tool window in Bumblebee makes it easier to see and manage your virtual and physical test devices, and you can open it by selecting View > Tool Windows > Device Manager from the main menu bar. In the Virtual tab, create a new device, review device details, delete a device, or anything else you used to do from the now removed AVD Manager. In the Physical tab, quickly pair to a new device using ADB Wi-Fi and see details of each physical device at a glance, or quickly inspect each device’s file system using the Device File Explorer with a click of a button. Learn more about the New Device Manager in the release notes.

Device Manager

ADB over Wi-Fi: Bumblebee includes a simplified flow to connect to your Android 11 and higher devices over Wi-Fi for deployment and debugging using ADB. After you enable debugging over Wi-Fi on your device, select the Pair using Wi-Fi action in the Physical tab of the new Device Manager to open the pairing wizard. Then follow the steps provided to pair to a device connected over the same network. Learn more.

Pairing a device with ADB over Wifi

Run Instrumented Tests in Android Studio using Gradle: Have you ever run tests in Android Studio with different results than the same tests running on your CI? This can be a frustrating issue that leads to lost productivity. To resolve this issue, we’ve introduced a new test runner to Android Gradle plugin (AGP) 7.1.0 that Android Studio Bumblebee uses by default when running instrumentation tests, so all your tests run through a unified test runner. This is a similar improvement to Android Studio Arctic Fox, where we started running all unit tests via Gradle by default. And, similarly, this improvement doesn’t require you to change how you write or run your tests!

Using different runners lead to inconsistent results

Android Studio now runs instrumentation tests via Gradle

Android Gradle Plugin Upgrade Assistant now updates API usage: Originally introduced in Android Studio 4.2, the AGP Upgrade Assistant helped users update their projects to the latest version, and improvements in Arctic Fox provided a new UI with the ability to review and select the upgrade version and steps. In Bumblebee, the Upgrade Assistant now also checks for and offers to update your DSL to help you avoid using deprecated APIs before they are deleted. For more information see the Android Gradle Plugin DSL/API migration timeline.

Non-Transitive R classes on for new projects: Android Studio Arctic Fox introduced new refactoring tools to help you use non-transitive R classes to enable faster builds for applications with multiple modules. When creating new projects using Bumblebee, the IDE configures your project to use non-transitive R classes, by default. While this does bring performance improvements, you now have to refer to R classes by their proper package name, and not by the package names of their parent modules, as they will no longer resolve transitively. For more information see Use non-transitive R classes.

Emulator tool window enabled by default: Introduced in Android Studio 4.1, the Emulator launches within an Android Studio tool window and allows you to deploy and interact with virtual Android devices while fully remaining within the context of the IDE. The changes ads an improved UX for extended controls and snapshot management. For more information see Run the Android Emulator directly in Android Studio.

Apple Silicon Support Update - For those using macOS on Apple Silicon (arm64) hardware, Android Studio Arctic Fox and the Android Emulator have supported this new architecture since last year. However, with this release, we have now updated the Android SDK platform tools v32.0.0 (which includes ADB and fastboot) and build tools v32.1.0 (which includes aapt) to be universal binaries so that your Android developer tools no longer need the Rosetta binary translator to run. Based on community feedback, those developers on this hardware platform have seen notable performance improvements. See release notes.

Profile and Inspect

Jank detection track in Profilers: When profiling your app using devices running Android 11 (API level 30) or higher, the CPU profiler now shows a new group of tracks that illustrate the stages of each frame under Frame Lifecycle: Application, Wait for GPU, Composition and Frames on display. Each track labels the frames with a frame number and color-codes the rectangle to make it easy for you to visualize where a particular frame is in its lifecycle, along with guides you can toggle to compare with Vsync events. You can use this data to understand where Jank might occur in your app and investigate the root causes. In the Analysis panel, there is now a Frames tab, which conveniently summarizes rendering information for all frames. For more information, see UI jank detection.

Detailed frame lifecycle information in the CPU Profiler

Profileable app profiling support in Studio Profilers: When profiling your app, it’s important to generate accurate data with the version of your app that most closely resembles what your users will install. To do so, you can now include the <profileable> property in your app’s manifest to profile apps that are not debuggable, as shown below.

<profileable android:shell="true"/>

Profileable is a manifest configuration introduced in Android 10, and is available for CPU and Memory profiling tasks. Using the profileable flag instead of the debuggable flag has the key advantage of lower overhead for performance measurement; however, certain profiling features are not available for Profileable builds, such as the Event timeline, API initiated CPU profiling, heap dumps, or live location recordings. For more information, see Profileable applications.

Inspect Jobs, Alarms, and Wakelocks: The Background Task Inspector has been expanded to allow you to inspect Jobs, Alarms, and Wakelocks. You can see live information on how these background tasks are being scheduled, and see detailed information about their execution, similar to how you can inspect Workers. Additionally, when inspecting Workers, you can track and inspect Jobs that your Workers schedule for you. If you used to use the Energy Profiler in previous versions of the IDE, you should now navigate to View > Tool Windows > App Inspection from the menu bar and select the Background Task Inspector to inspect Jobs, Alarms, and Wakelocks.

Inspect Jobs, Alarms, and Wakelocks in the Background Task Inspector

Network Inspection: The Network Profiler has now migrated to the App Inspection tool window, to allow for a lighter-weight experience for inspecting network traffic in your app. The look and feel of the Network Profiler has been maintained and works with any debuggable app on devices running API level 26 and higher. To use the new inspector, select View > Tool Windows > App Inspection from the menu bar and select the Network Inspector. For more information, see Inspect network traffic with the Network Inspector.

Capture Layout Inspector snapshots: You can now capture snapshots of your app’s layout hierarchy to save, share, or inspect later. Snapshots capture the data you would typically see when using the Layout Inspector, including a detailed 3D rendering of your layout, the component tree of your View, Compose, or hybrid layout, and detailed attributes for each component of your UI. When inspecting the layout of a live running app, click Export snapshot from the Layout Inspector toolbar and save the snapshot with an *.li extension. You can then load a Layout Inspector snapshot by selecting File > Open from the main menu bar, and opening a *.li file. The snapshot appears in a tab in the Editor window, so that you can easily compare it with your running app. Learn more at Capture layout hierarchy snapshots.

Support for Compose semantics in the Layout Inspector: In Compose, Semantics describe your UI in an alternative manner that is understandable for Accessibility services and for the Testing framework. In Android Studio Bumblebee, you can now use the Layout Inspector to inspect semantic information in your Compose layouts. When selecting a Compose node, use the Attributes window to check whether it declares semantic information directly, merges semantics from its children, or both. To quickly identify which nodes include semantics, either declared or merged, use select the View options dropdown in the Component Tree window and select Highlight Semantics Layers.

Design

Interactive Preview: Android Studio Arctic Fox launched with support to statically preview your composable functions in the Design / Split window of the Editor. In Bumblebee, we’ve expanded functionality to allow you to interact with certain components of your Compose layouts, to validate behavior without building and deploying the full app to a running device! To get started, navigate to a previewable compose function and click Start Interactive Mode in the Design / Split window. For more information see Interactive mode.

Interact with the Compose Preview to validate behavior

Animated Vector Drawables Preview: The Preview window is now also available when viewing vector drawables. When viewing a static drawable, you can use the preview window to change background options between “None”, “White”, “Black”, “Checkedered”, to view your drawable against different conditions. Animated drawables also provide the option to preview the animation at different speeds as well as backgrounds, to help you test animations before using them in your app. To learn more, see Animated Vector Drawables (AVD) preview.

Preview your animated vector drawables

Updated Device picker for design tools: To simplify designing your app for the diverse number of Android devices, we’ve updated the device picker in various design tool windows, such as Layout Editor and Layout Validation, with reference devices that reflect popular sizes of each device form factor. From phones to tablets, and Wear devices to Android TVs, it’s now easier to preview, validate, or edit your layout on screen sizes that are most representative of popular real-world devices. To learn more, see Change the preview appearance.

To recap, Android Studio Bumblebee (2021.1.1) includes these new enhancements & features: Build and Deploy

Run Instrumented Tests in Android Studio using Gradle

Android Gradle Plugin Upgrade Assistant now updates API usage

Non-Transitive R classes on for new projects

New Device Manager

ADB over Wi-Fi

Emulator tool window enabled by default

Apple Silicon Support Update

Profile and Inspect

Jank detection track in Profilers

Profileable app profiling support in Studio Profilers

Inspect Jobs, Alarms, and Wakelocks in the Background task Inspector

Capture Layout Inspector snapshots

Support for Compose semantics in the Layout Inspector

Design

Interactive Preview

Animated Vector Drawables Preview

Updated Device picker for design tools

Google Play Games beta launches on PC in Korea, Taiwan, and Hong Kong

20 January 2022

Posted by Arjun Dayal, Group Product Manager, Google Play Games

In December, we announced that Google Play Games will be coming to PCs. As part of our broader goal to make our products and services work better together, this product strives to meet players where they are and give them access to their games on as many devices as possible. We're excited to announce that we’ve opened sign-ups for Google Play Games as a beta in Korea, Taiwan, and Hong Kong.

Introduction video of Google Play Games beta

Users participating in the beta can play a catalog of Google Play games on their Windows PC via a standalone application built by Google. We’re excited to announce that some of the most popular mobile games in the world will be available at launch, including Mobile Legends: Bang Bang, Summoners War, State of Survival: The Joker Collaboration, and Three Kingdoms Tactics, which delight hundreds of millions of players globally each month.

This product brings the best of Google Play to more laptops and desktops, enabling immersive and seamless gameplay sessions between a phone, tablet, Chromebook, and Windows PC. Players can easily browse, download, and play their favorite mobile games on their PCs, while taking advantage of larger screens with mouse and keyboard inputs. No more losing your progress or achievements when switching between devices, it just works with your Google Play Games profile! Play Points can also be earned for Google Play Games activity on PCs.

Google Play Games gameplay on multiple devices including a phone, PC, and tablet.

We’re thrilled to expand our platform for players to enjoy their favorite Android games even more. To sign up for future announcements, or to access the beta in Korea, Taiwan, and Hong Kong, please go to g.co/googleplaygames. If you’re an Android developer looking to learn more about Google Play Games, please express interest on our developer site. We’ll have more to share on future beta releases and regional availability soon. Windows is a trademark of the Microsoft group of companies.
Game titles may vary by region.

Android Basics and Training Update

20 January 2022

Posted by Dan Galpin, Developer Relations Engineer

In October of 2021 we released the final unit of Android Basics in Kotlin, our free, self-paced programming course that makes Android development accessible to everyone. It teaches people with no programming experience how to build Android apps. Along the way, students learn the fundamentals of programming and the basics of the Kotlin programming language. In response to feedback from educators and learners, we've continued to iterate on our course material, adding projects that allow you to apply learnings along with new topics that can prepare students for more advanced material. A focus on basics With these updates, Android Basics in Kotlin now covers the key material covered in Android Kotlin Fundamentals, so we will be sunsetting the latter course. More advanced learners are encouraged to work through the Basics material, skipping sections that they are familiar with and moving straight to quizzes. Focusing on basics means that intermediate and advanced learners that might be missing a key concept will have what they need to succeed with this material. This also allows our team to focus on making sure our courseware continues to represent our most recent guidance. In addition to courseware, we're continuing to provide codelabs, code samples, documentation, and video content to serve learners at all levels. What's next? Our team is hard at work on the next course that will teach people how to program Android applications using Jetpack Compose. We're looking forward to teaching Android’s modern toolkit for building native UI because of all the ways that it simplifies and accelerates Android UI development. What to do now Taking the current course will teach you the fundamentals of app development, serving as a great starting point should you want to explore the existing Jetpack Compose Learning Pathway, or jump into the upcoming Android Basics with Compose course. You'll have a foundation that you can build on as you continue to explore the world of Android development. Both versions of Android Basics are planned to coexist, giving the option of learning Android with either UI toolkit. Whether you’ve never built an app before but want to learn how, or just want to brush up on some of our latest best practices, check out the Android Basics in Kotlin course.

Creating an app to help your community during the pandemic with Gaston Saillen #IamaGDE

20 December 2021

Posted by Alicja Heisig, Developer Relations Program Manager Welcome to #IamaGDE - a series of spotlights presenting Google Developer Experts (GDEs) from across the globe. Discover their stories, passions, and highlights of their community work. Gaston Saillen started coding for fun, making apps for his friends. About seven years ago, he began working full-time as an Android developer for startups. He built a bunch of apps—and then someone gave him an idea for an app that has had a broad social impact in his local community. Now, he is a senior Android developer at Distillery. Meet Gaston Saillen, Google Developer Expert in Android and Firebase.

Building the Uh-LaLa! app After seven years of building apps for startups, Gaston visited a local food delivery truck to pick up dinner, and the server asked him, “Why don’t you do a food delivery app for the town, since you are an Android developer? We don’t have any food delivery apps here, but in the big city, there are tons of them.” The food truck proprietor added that he was new in town and needed a tool to boost his sales. Gaston was up for the challenge and created a straightforward delivery app for local Cordoba restaurants he named Uh-Lala! Restaurants configure the app themselves, and there’s no app fee. “My plan was to deliver this service to this community and start making some progress on the technology that they use for delivery,” says Gaston. “And after that, a lot of other food delivery services started using the app.” The base app is built similarly to food delivery apps for bigger companies. Gaston built it for Cordoba restaurants first, after several months of development, and it’s still the only food delivery app in town. When he released the app, it immediately got traction, with people placing orders. His friends joined, and the app expanded. “I’ve made a lot of apps as an Android engineer, but this is the first time I’ve made one that had such an impact on my community.” He had to figure out how to deliver real-time notifications that food was ready for delivery. “That was a little tough at first, but then I got to know more about all the backend functions and everything, and that opened up a lot of new features.” He also had to educate two groups of users: Restaurant owners need to know how to input their data into the app, and customers had to change their habit of using their phones for calls instead of apps. Gaston says seeing people using the app is rewarding because he feels like he’s helping his community. “All of a sudden, nearby towns started using Uh-LaLa!, and I didn't expect it to grow that big, and it helped those communities.” During the COVID-19 pandemic, many restaurants struggled to maintain their sales numbers. A local pub owner ran a promotion through Instagram to use the Uh-Lala! App for ten percent off, and their sales returned to pre-COVID levels. “That is a success story. They were really happy about the app.”

image of person holding a phone and an image of an app on the phone

Becoming a GDE Gaston has been a GDE for seven years. When he was working on his last startup, he found himself regularly answering questions about Android development and Firebase on StackOverflow and creating developer content in the form of blog posts and YouTube videos. When he learned about the GDE program, it seemed like a perfect way to continue to contribute his Android development knowledge to an even broader developer community. Once he was selected, he continued writing blog posts and making videos—and now, they reach a broader audience. “I created a course on Udemy that I keep updated, and I’m still writing the blog posts,” he says. “We also started the GDG here in Cordoba, and we try to have a new talk every month.” Gaston enjoys the GDE community and sharing his ideas about Firebase and Android with other developers. He and several fellow Firebase developers started a WhatsApp group to chat about Firebase. “I enjoy being a Google Developer Expert because I can meet members of the community that do the same things that I do. It’s a really nice way to keep improving my skills and meet other people who also contribute and make videos and blogs about what I love: Android.” The Android platform provides developers with state-of-the art tools to build apps for user. Firebase allows developers to accelerate and scale app development without managing infrastructure; release apps and monitor their performance and stability; and boost engagement with analytics, A/B testing, and messaging campaigns.

Future plans Gaston looks forward to developing Uh-La-La further and building more apps, like a coworking space reservation app that would show users the hours and locations of nearby coworking spaces and allow them to reserve a space at a certain time. He is also busy as an Android developer with Distillery.

Gaston’s advice to future developers “Keep moving forward. Any adversity that you will be having in your career will be part of your learning, so the more that you find problems and solve them, the more that you will learn and progress in your career.” Learn more about the Experts Program → developers.google.com/community/experts Watch more on YouTube → https://goo.gle/GDE Follow us on Twitter and LinkedIn

MAD Skills Gradle and AGP build APIs Wrap Up!

16 December 2021

Posted by Murat Yener, Android Developer Advocate

That’s a wrap! We’ve just finished a new MAD skills series on Gradle and Android Gradle plugin build APIs. In this series we shifted gears and took a look at how you can extend your build by using Gradle and brand new Android Gradle plugin APIs. We covered how Gradle works, how you can configure the Android Gradle plugin, and learned which APIs to use to help customize your builds and keep your builds fast and efficient. If you missed this series or some of the episodes, here is a quick recap of what to expect. Episode 1: Configure your build - Intro to Gradle and AGP Gradle is a general purpose build tool which can build specific project types by using plugins. Plugins introduce a way to configure the build and decide which tasks are needed to build that project. Gradle configures and executes these tasks in different phases. Understanding how the build phases work and how to configure the Android Gradle plugin can help you customize your build according to your project’s needs and keep build times efficient. You can check out the following video or if you prefer, read the article. Episode 2: How to write a plugin Extending your build by writing your own plugin gives you a way to customize your build even further! Starting with version 7.0, Android Gradle Plugin now offers stable extension points for manipulating variant configuration and the produced build artifacts. In this episode we started with writing a custom task and used the new Variant API to initialize and modify properties of Variants. You can find the same content in article form. Episode 3: Taking your plugin to the next step As we saw in previous episodes, keeping your config phase fast and resolving values lazily can help keep your builds efficient. Providers and Properties let you pass inputs and receive outputs from Gradle tasks lazily. In this episode we also take a look at the new Artifacts API to access and modify the app manifest. Check out the article or the following video. Episode 4: Gradle and AGP Build APIs Community Tip In the last episode in the series, we feature Alex Saveau, who maintains the Gradle Play Publisher and Version Orchestrator plugins. Alex shares a tip on using modern AGP and Gradle APIs to manipulate Android build artifacts. To learn more, check out the following video. Episode 6: Live Q&A Finally, we wrapped up this series with a live Q&A session where we answered your questions. If you missed the Q&A, make sure to check out the following recording. If you are interested to learn more, make sure to check out the resources and the Gradle recipes repo linked below! See you in the next MAD Skills series. Recipes repo: https://github.com/android/gradle-recipes Extend the Android Gradle plugin: https://developer.android.com/studio/build/extend-agp AGP Roadmap: https://goo.gle/3EuNYXz

Announcing Jetpack Glance Alpha for app widgets

15 December 2021

Posted by Marcel Pintó Biescas, Developer Relations Engineer, @marxallski

Android 12 revamps a key feature for many Android users, App Widgets, making them more useful, beautiful, and discoverable (84% use at least 1 widget). Today, we’re making it even easier to build them by releasing the first alpha of Jetpack Glance, a new framework built on top of the Jetpack Compose runtime designed to make it faster and easier to build app widgets for the home screen and other surfaces. We’d love you to give it a try and share your feedback! Glance offers similar modern, declarative Kotlin APIs that you are used to with Jetpack Compose, helping you build beautiful, responsive app widgets with way less code.

Glance “Hello World” widget sample

class GreetingsWidget(private val name: String): GlanceAppWidget() { @Composable override fun Content() { Text(text = "Hello $name") } } class GreetingsWidgetReceiver : GlanceAppWidgetReceiver() { override val glanceAppWidget = GreetingsWidget("Glance") } How it works Glance provides a base-set of Composables to help build “glanceable” experiences. Starting today with app widget components but with more coming. Using the Jetpack Compose runtime, Glance can translate Composables into actual RemoteViews, and display them in an app widget.

Diagram: Glance structure

This means that Glance requires Compose to be enabled and depends on Runtime, Graphics, and Unit UI Compose layers, but it’s not directly interoperable with other existing Jetpack Compose UI elements. However, state or any other logic within your app can be shared to create a glanceable UI. What's in Alpha This initial release introduces the main APIs to enable you to build app widgets in addition to providing interoperability with existing RemoteViews. Here’s an overview of what the library offers, at a glance:

Declare your app widgets with GlanceAppWidget and GlanceAppWidgetReceiver.

Compose your UI with the initial set of Glance Composables: Box, Row, Column, Text, Button, LazyColumn, Image, Spacer.

Apply modifiers to the composables using GlanceModifier methods.

Handle user interaction with predefined Actions.

Provide parameters to Action with ActionParameters.

Handle different size modes by defining SizeMode.Single, SizeMode.Exact or SizeMode.Responsive.

Persist GlanceAppWidget state by providing a GlanceStateDefinition.

Local compositions like LocalContext, LocalState, LocalGlanceId, LocalSize.

Interop with your existing RemoteViews with the AndroidRemoteViews Composable.

We are working on bringing even more functionality with default theming, further Android Studio support, and more. Stay tuned for new releases. Note: while the minSDK is 21, we are currently only supporting compatibility till SDK v23.Get started with Glance Check out the sample on GitHub for a quick start. Glance works with the latest stable Android Studio, although since Glance relies on Compose Runtime, follow the steps on the Jetpack Compose docs to set it up first. In addition, for a more advanced showcase, checkout the demos in the AndroidX repository.

ResponsiveAppWidget.kt demo

The Alpha version is your opportunity to influence the APIs, so please share your feedback and let us know your experience! Happy Composing with Glance!

Announcing Glance: Tiles for Wear OS made simple

Android Studio Bumblebee (2021.1.1) Stable

Google Play Games beta launches on PC in Korea, Taiwan, and Hong Kong

Android Basics and Training Update

Creating an app to help your community during the pandemic with Gaston Saillen #IamaGDE

MAD Skills Gradle and AGP build APIs Wrap Up!

Announcing Jetpack Glance Alpha for app widgets

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