Android Developers Blog

Tips from Android Dev Summit 2022: How to scale made-for-mobile apps to ChromeOS

09 December 2022

Posted by Patrick Fuentes, Developer Relations Engineer, Google ChromeOS

People’s appetite for apps on larger screens is growing fast. In Q1 2022 alone, there were 270 million active Android users across Chromebooks, tablets, and foldables. So if you want to grow reach, engagement, and loyalty, taking your app beyond mobile will unlock a world of opportunity. If your app is available in Google Play, there’s a good chance users are already engaging with it on ChromeOS. And if you’re just starting to think about larger screens, tailoring your app to ChromeOS — which runs a full Android framework — is a great place to start. What’s more is that optimizing for ChromeOS is very similar to optimizing for other larger-screen devices, so any work you do for one will scale to the other. At Android Dev Summit 2022, I shared a few ChromeOS-specific nuances to keep in mind when tailoring your app to larger screens. Let’s explore the top five things devs should consider, as well as workarounds to common challenges. 1) Finessing input compatibility One of the biggest differences between user behavior on mobile and larger-screen devices is people’s preference for input devices. About 90% of ChromeOS users interact with apps using a mouse and keyboard, and Android users across tablets and foldables often do the same.

About 90% of ChromeOS users interact with apps using a mouse and keyboard

The first step to meeting people’s expectations is testing your app’s support for a keyboard, mouse, and stylus. Once you’ve got your basics covered, you can add enhancements such as thoughtful focus states and context menus. You can also further enhance input compatibility on larger screens by testing app-specific input devices, such as game controllers.

Focus states and context menus shown on Chromebooks

2) Creating a fit-for-larger-screen UI People freely resize apps on ChromeOS, so it’s important to think about how your app looks and feels in a variety of aspect ratios — including landscape orientations. Although ChromeOS offers automatic windowing compatibility support for made-for-mobile experiences, apps that specifically optimize for larger screens tend to drive more engagement. The extra screen real estate on Chromebooks, tablets, and foldables gives both you and your users more room to play, explore, and create. So why not make the most of it? You can implement a responsive UI for larger screens with toolkits such as Jetpack Compose and create adaptive experiences by sticking to design best practices.
3) Implementing binary compatibility If you’ve exclusively run your app on Android phones, you might only be familiar with ARM devices. But Chromebooks and many other desktops often use x86 architectures, which makes binary support critical. Although Gradle builds for all non-deprecated ABIs by default, you’ll still need to specifically account for x86 support if your app or one of your libraries includes C++ code. Thanks to binary translation, many Android apps will run on x86 ChromeOS devices even if a compatible version isn’t available. But this can hinder app performance and hurt battery life, so it’s best to provide x86 support explicitly whenever you can.
4) Giving apps a thorough test run The surefire way of ensuring a great user experience? Run rigorous checks to make sure your apps and games work as expected on the devices you’re optimizing for. When you’re building for ChromeOS, testing your apps on Chromebooks or another larger-screen device is ideal. But you've still got options if a physical device isn’t available. For instance, you can still test a keyboard or mouse on an Android handset by plugging them into the USB-C port. And with the new desktop emulator in Android Studio, you can take your app for a spin in a larger-screen setting and test desktop features such as window resizing.

A Chromebook featuring the Desktop Android Virtual Device in Android Studio

5) Polishing apps for publishing Sometimes, even apps tested on Chromebooks — and listed in Google Play — aren’t actually available to ChromeOS users. This usually happens because there’s an entry in the app’s manifest declaring it requires features that aren’t available on the unsupported device. Let’s say you specify your app requires “android.hardware.camera.” That entry refers to a rear-facing camera — so any devices with only a user-facing camera would be considered unsupported. If any camera will work for your app, you can use “android.hardware.camera.any” instead. And if a hardware feature isn’t a must for your app, it’s best to specify in your manifest that it’s not required by using “required=false.”

A Chromebook featuring recommended manifest entries for hardware features. These manifest entries are also featured on their own next to the Chromebook

Once you’ve got your manifest squared away, your app is ready to ship. Your app listing is often your first chance to impress and attract users. That’s why we’re excited the Play Console now enables you to upload screenshots specific to different form factors. With this new functionality, you can show off what your app experience is like on users’ favorite devices and entice them to download.

Connect with millions of larger-screen users As people’s love for desktops, tablets, and foldables continues to grow, building for these form factors is becoming more and more important. Check out other talks from Android Dev Summit 2022 as well as resources on ChromeOS.dev and developer.android.com for more inspiration and how-tos as you optimize for larger screens. And don’t forget to sign up for the ChromeOS newsletter to keep up with the latest.

Per-App Language Preferences - Part 2

08 December 2022

Posted by Neelansh Sahai Android Developer Relations Engineer (on Twitter and LinkedIn)

Context In part 1 of the Per-App Language Preferences blog, we discussed what the feature is, how developers benefit from it, how to implement the feature, and the strong business impact of catering to multilingual users. In this part of the blog, we'll discuss how various top apps migrated to the Per-App Languages Feature and how it benefited them.
Developer Success Stories Here are some top apps that migrated to the Per-App Languages Preferences APIs. Let’s have a look at them.

LinkedIn is a business and employment oriented online platform that is primarily used for professional networking and career development. It bridges the gap between an employer and a job seeker, by providing both a common ground to connect. LinkedIn operates over a huge set of 875+ M registered users spread across more than 200 countries and territories.26 Languages

MyJio is the-one-stop destination for recharges, managing accounts & Jio devices, UPI & payments, entertainment services with movies, music, news, games, quizzes & a lot more. With over 500 M+ total installs spread across the globe, MyJio aims to provide its users better access to a variety of utilities. Also as the user-base of MyJio is quite vast, the app supports a total of over 12+ Languages. With these many features and a wide diversity of active multilingual users, MyJio has a strong reason to localize their app using the best practices.

MyJio developers implemented the Per App Language Preferences APIs right along with the Android 13 release, allowing their users the flexibility to select a language for their app from system settings as well. One of the major use-cases was to retain user's language preference, when users switch devices and then log in again from the same account. In this case, when the data is restored from a previous backup, the language preference is also restored along with the rest of the data, maintaining the seamless MyJio user experience across devices. This shows the API's flexibility to work well with other Android features like Backup and Restore, and helps developers give their users a better user experience.

With over 16.7M+ monthly transacting customers in more than 1000 cities across India, it is one of the most popular food ordering and restaurant discovery services in the region. This also means that the app is used in several languages. Zomato currently supports over 15 languages on its app.
The Zomato team wanted to make the user experience for users across geographies to be very seamless and delightful. Localizing the app based on the region and user preference was an important step in this direction. Zomato was quick to respond to the changes that were introduced in Android 13. They went ahead and migrated their language-switching logic to Per-App Language Preferences, within a week. Thereby helping their users find an easy way to use Zomato in their preferred language.

FROM THE DEVELOPERS :

At Zomato, providing the best customer experience possible is the core of our business and we believe localization is very critical in giving our customers a pleasant experience on the platform. Our team integrated with the new A13 Per-App Language Preferences API provided by Google to make it easy for our users to switch their preferred language on Zomato.

The ease of integrating the API helped us get it done effortlessly in less than a week’s time. Backward compatibility and stability of the API ensured that we are not compromising on the experience of our customers. With this, we hope to provide a better experience to the customer in their journey of online ordering via Zomato.

OkCredit is a credit management app with over 50M+ downloads, having total annual transactions of around 50 Billion USD on the app. As OKCredit supports both local and large-scale businesses and also around 10+ languages in their app, it was critical for them to support the ability to seamlessly switch the app language so that more users are able to onboard on their platform.The developers from OkCredit have always been quick to adopt changes introduced in Android. They recently adopted the Per-App Language Preferences APIs within the timeframe of a week, providing their end users a better and more seamless experience around switching their app languages at their convenience.

FROM THE DEVELOPERS :

The demand for using apps in vernacular language is steadily growing in India. After Google announced Per-App Language Preferences recently, it was a straightforward decision to integrate them. The implementation was straightforward, stable, and compatible with older Android versions.

Conclusion We saw that some top apps have implemented the Per-App Language Preferences APIs in their apps and have also circulated the updates out to the users. This easy migration was possible in such a short timespan due to the low amount of effort investment and minimal code changes required. Lastly, here are some resources that can help you understand the feature better.

Per-App Language Preferences

Sample App ( Compose )

Sample App ( Views )

Per-app language preferences (YouTube Video)

Compose for Wear OS 1.1 is now stable: check out new features!

07 December 2022

Posted by Kseniia Shumelchyk, Android Developer Relations Engineer

Today we’re releasing version 1.1 of Compose for Wear OS, our modern declarative UI toolkit to help developers build beautiful, responsive apps for Wear OS. Since the first stable release earlier this year, we have seen many developers taking advantage of the powerful tools and intuitive APIs to make building their app simpler and more efficient. Todoist and Outdooractive are some of the developers that rebuilt their Wear apps with Compose and accelerated the delivery of a new, functional user experience. Todoist increased its growth rate by 50% since rebuilding their app for Wear 3 and Outdooractive reduced development time by 30% and saw a significant boost in developer productivity and better design/developer collaboration: “Compose makes the UI code more intuitive to write and read, allowing us to prototype faster in the design phase and also collaborate better on the code. What would have taken us days now takes us hours.” The Compose for Wear OS 1.1 release contains new features and brings improvements to existing components, focusing on UX and accessibility. We’ve already updated our samples, codelab, and Horologist libraries to work with Compose for Wear OS 1.1.
New features and APIs The Compose for Wear OS 1.1 release includes the following new functionality (baseline profiles already added for new components): Outlined style for Chips and Buttons To give you additional ability to customize the user interface, we added outlined styles for Chips and Buttons. New OutlinedChip and OutlinedButton composables provide a transparent component with a thin border that can be used for medium-emphasis actions. Also available for compact versions: OutlinedCompactChip and OutlinedCompactButton.

OutlinedChip and OutlinedButton composables

Modifying Chip and Button shapes Starting from version 1.1, you can also modify shapes for Chip/ToggleChip and Button/ToggleButton components using new functions overloads.

Different Chip and Button shapes

Placeholder API

A new experimental API has been added to implement placeholder support. This can be used to achieve three distinct visual effects separately or all together:

A placeholder background brush effect used in containers such as Chip and Cards to draw over the normal background when waiting for content to load.
A Modifier.placeholder() to draw a stadium shaped placeholder widget over the top of content that is being loaded.
A Modifier.placeholderShimmer() for gradient/shimmer effect that is drawn over the top of the other effects to indicate to users that the current state is waiting for data to load.

These effects are designed to be coordinated and shimmer and wipe-off in an orchestrated fashion.

Placeholder API usage examples

Check out the reference docs and sample in Horologist to see how to apply the placeholder to common use cases, such as a Chip with icon and a label that puts placeholder over individual content slots and draws a placeholder shimmer on top while waiting for data to load.

Modifier.scrollAway

Horologist’s fadeAway modifier has been graduated to scrollAway modifier in version 1.1. Modifier.scrollAway scrolls an item vertically in and out of view, based on the scroll state, and already has overloads to work with Column, LazyColumn and ScalingLazyColumn.

Use this modifier to make TimeText fade out of the view as the user starts to scroll a list of items upwards.

ScrollAway modifier usage with TimeText

Additional parameters in CurvedTextStyle

CurvedTextStyle now supports additional parameters (fontFamily, fontWeight, fontStyle, fontSynthesis) to specify font details when creating a curved text style. Extended curved text style can be used on both curvedText and basicCurvedText.

Applying different font to curved text

UX and accessibility improvements

The 1.1 release also focuses on bringing a refined user experience, improvements for TalkBack support and overall better accessibility:

ToggleChip and SplitToggleChip support usage of animated toggle controls (Checkbox, Switch and RadioButton) that can be used instead of the static icons provided by ToggleChipDefaults.
Default gradient colors for Chip/ToggleChip and Cards were adjusted to match the latest UX specification.
Updated a number of the default colors in the MaterialTheme to improve accessibility as the original colors did not have sufficient contrast.
Accessibility improvements to Picker so that multi-picker screens are navigable with screen readers and the content description is accessible.
InlineSlider and Stepper now have button roles, so that TalkBack can recognize them as buttons.
The PositionIndicator in Scaffold is now positioned and sized so that it only takes the space needed. This is useful when semantic information is added to it, so TalkBack gets the correct bounds of the PositionIndicator on screen.

It’s time ⌚ to bring your app to the wrist!

Get started

To begin developing with Compose for Wear OS, get started with hands-on experience trying our codelab, and make sure to check out the documentation and samples. Visit Compose for Wear OS release notes for full list of changes available in version 1.1.

Note that using version 1.1 of Compose for Wear OS requires using the version 1.3 of androidx.compose libraries and therefore Kotlin 1.7.10. Check out the Compose to Kotlin Compatibility Map for more information.

Provide feedback

Compose for Wear OS continues to evolve with the features you’ve been asking for. Please do continue providing us feedback on the issue tracker and join Kotlin Slack #compose-wear channel to connect with the Google team and dev community.

We’re excited to see a growing number of apps using Compose for Wear OS in production, and we’re grateful for all issues and requests that help us to make the toolkit better!

Start building for Wear OS now

Discover even more with technical sessions from the Android Dev Summit providing guidance on app architecture, testing, handling rotary input, and verticalized sessions for media and fitness.

Android 13 for TV is now available

02 December 2022

Posted by Wolfram Klein, Product Manager, Android TV OS

Today we’re releasing the newest version of Android TV OS, Android 13 for TV! This latest release brings further improvements in performance and accessibility to help our developers build engaging apps for the next generation of TVs. Here’s a look at some of what’s new in Android 13 for TV. Performance and Quality Android 13 brings new APIs to the big screen that help developers deliver high quality experiences to users across different device types.

Improvements to the AudioManager API allow developers to anticipate audio attribute support for the active audio device and select the optimal format without starting playback.

Users can now change the default resolution and refresh rate on supported HDMI source devices for a more reliable playback experience.

HDMI state changes are now surfaced to the MediaSession lifecycle, allowing TV dongles and other HDMI source devices to save power and pause content in reaction to HDMI state changes.

Accessibility and Input Controls Android 13 brings new features to make interacting with TV more adaptable.

The InputDevice API now supports different keyboard layouts. Game developers can also reference keys by their physical location to support different layouts of physical keyboards.

A newly created audio descriptions API in AccessibilityManager allows your app to query the new system-wide audio description preference setting, helping developers provide audio descriptions in line with a user’s preference automatically.

Check out the Android TV OS developer site for details on even more features that come with Android 13 on TVs. The new release is now available for both ADT-3 and the Android TV emulator, and developers can choose to test on either the Google TV interface or the standard Android TV interface. As always, we are thankful to our developers for the continued support of Android TV OS. We can’t wait to see what amazing and innovative experiences you’ll continue to build for the big screen.

Google Play Coffee break with Creatrip | Setting up your business for global reach

28 November 2022

Posted by Aditya Swamy, Director, Google Play Partnerships

I sat down for a “virtual coffee” with Haemin Yim, founder and CEO of Creatrip, from Korea to discuss starting on the web, setting up the company for global reach, and tips for startups looking to grow. In Haemin’s words “Creatrip is an app that provides a gateway to authentic Korean trends and cultures.” Last year, they took part in the ChangGoo program, an initiative that supports Korean app startups in partnership with the South Korean government. The Creatrip team applied the learnings of the program to continue to grow and now have users from over 100 countries.Here are my key takeaways from our conversation:

illustration of three people in a rowboat at sea during a storm. The person at the helm is looking at weather related data

Expanding the app's value proposition to address challenges Despite having a great idea for an app, Haemin shared with me that it hasn’t always been smooth sailing. After gaining significant brand awareness and with increasing travel bookings across the app, the pandemic sent the travel industry into disarray. As with many businesses, this had significant implications for Creatrip. However, Haemin and the team used their strong understanding of the people using their app to quickly expand their offering. With the knowledge that people often wanted to visit South Korea because of their interest in K-trends and culture; Haemin adapted the business to provide K-products to those who were unfortunately unable to travel during that period. This led Haemin to grow the business beyond just a travel app and into a global e-commerce platform. Creating new content to fuel app growth Creatrip started as an app that provided travel content. It quickly expanded to provide people with in-app booking features, local currency exchange rates that weren’t previously digitized, and even a global e-commerce platform providing access to popular ‘K-items’. However, content is the key element that draws users into the app. My top advice for businesses looking to continue to evolve their content is to expand their content creator pipeline. For example, by encouraging South Korean locals to contribute, Creatrip could gain a richer and more diverse range of content, showcasing Korea through the eyes of many different people. Haemin and the team are already in the process of building a new feature that allows people to create their own content on the app. Think about short form video apps. By allowing people to become their own content creators, it enables them to have a much wider repository of content and encourages users to spend more time on the app. Now more people want to be creators and make their own content as seen on YouTube. This is fueling growth in watchtime, and adding more users.

illustration of two people receiving global information on shopping, popular items, trends, data, and people via their laptop and phone screen

Going global from the start Something I found particularly interesting from my chat with Haemin, was how she prepared the business for global reach from the start. Haemin believes that despite requiring a bit more time and effort, preparing for global reach from the beginning can actually allow for exponential growth, as you start to target the right markets and reach a global fan base. It is wonderful to see how Haemin brings her passion for all things Korean, to people all around the world. The team’s first step towards going global was by listening to and understanding the needs of the people already using Creatrip. The team at Creatrip have definitely brought a lot of unique ideas to the app. With 90% of their users having started on the website, the team had an ingenious idea to bring people over to mobile. They listened to their global users and saw that people were keen to find out the currency exchange rates being provided at local stores in Seoul. They created a mobile-only feature that shows local currency rates from local stores. This required the team to actually go to the stores twice a day, however it led to a large increase in people using the mobile app - all by providing information that was previously unavailable to people from outside of Seoul. Planning for the future It’s amazing to see how much Creatrip is flourishing; the app has grown from 100k monthly users up to 1.5 million. There are many factors that helped Creatrip grow over the past few years, but some notable takeaways from my chat with Haemin include:

Taking the time to understand the people using their apps and their needs

Launching app only features to drive people from web to the app

Using content as a means to get new users and increase engagement

As a final thought I couldn't let Haemin go without asking her favorite K trends. She mentioned that fusion fine dining was a top trend in Korea, NewJeans were a trending K-pop band, and South Korean blankets were a top K-product. Do you have any questions for Creatrip? What are your own tips for other app or game businesses? Let us know on Twitter.

Per-App Language Preferences - Part 1

22 November 2022

Posted by Neelansh Sahai Android Developer Relations Engineer (on Twitter and LinkedIn)

What if you have a set of users who are quite fluent in English, Hindi, and Spanish, and they have a news app on their phones and prefer to read the news in Hindi? For their texting app, they prefer Spanish as they have some friends and family who they text with in Spanish. But for ease of access, they still prefer their device to be in English. Now there are many such use-cases where the users might want their app languages to be different from their system language. Interesting! Starting with Android 13, we have included one of the most-requested features from users, Per-App Language Preferences. It lets users switch app languages from System settings, providing users with better control over their language choices for different apps, irrespective of the system language.

A cellphone screen displaying App language preferences in system settings for the YouTube app

Build for your multilingual users This blog focuses on how to integrate the Per-App Language Preferences API in your app to provide your users the flexibility to choose different languages for different apps.1. Users can change the language settings from system settings by selecting: Settings → System → Languages & Input → App Languages → [Select the desired App] → [Select the desired Language]

NOTE: Only those apps that have opted in for the feature by specifying the locale_config.xml file (more on this below), will appear in system settings.

A cellphone screen demonstrating finding the language settings from system settings by selecting Settings → System → Languages & Input → App Languages → [Select the desired App] → [Select the desired Language]

2. If your app already has an in-app language picker, you can integrate the Per-App Language Preferences API to leverage the full platform support. For pre-Android 13 users, the system settings won’t be visible, but developers can still provide an in-app language picker.

A cellphone screen demonstrating integrating the Per-App Language prefences API for an app which already has an in-app language picker

How to integrate this feature in your app?

There are 5 steps that need to be followed while working on the Per-App Language Preferences feature, listed here →

1. Create locale_config.xml file

Create a new file in values/xml/ directory and name it as locale_config.xml. This file should contain a list of all the locales that are supported by the app. The list element should be a string containing a locale tag.

NOTE: The locale tags must follow the BCP47 syntax, which is usually {language subtag}–{script subtag}–{country subtag}. Anything other than that will be filtered out by the system and won't be visible in the system settings.

locale_config.xml

<?xml version="1.0" encoding="utf-8"?>
<locale-config xmlns:android="http://schemas.android.com/apk/res/android">
...

<locale android:name="en"/>

<locale android:name="ja-JP"/>

<locale android:name="zh-Hans-MO"/>

<locale android:name="zh-Hant-TW"/>
...
</locale-config>

2. Add the locale_config in the AndroidManifest.xml
locale_config.xmlAndroidManifest.xml
AndroidManifest.xml

3. Add the libraries

Use the latest version of AppCompat Library

build.gradle (app)

def latestAppCompatVersion = “1.6.0-rc01”

dependencies {
...
implementation "androidx.appcompat:appcompat:$latestAppCompatVersion"
implementation "androidx.appcompat:appcompat-resources:$latestAppCompatVersion"
...
}

4. Use AndroidX APIs

Use the APIs in your code to set and get the app locales.

MainActivity.kt

val appLocale: LocaleListCompat = LocaleListCompat.forLanguageTags("xx-YY")

// Call this on the main thread as it may require Activity.restart()
AppCompatDelegate.setApplicationLocales(appLocale)

// Call this to get the selected locale and display it in your App
val selectedLocale = AppCompatDelegate.getApplicationLocales()[0]

NOTE: These APIs are also backward compatible, so even if the app is being used on Android 12 or lower, the APIs would still behave the same, and no additional checks for OS versions are required in your code.

5. Delegate storage to AndroidX

Let AndroidX handle the locale storage so that the user's preference persists.

AndroidManifest.xml

Steps 3, 4, & 5 above demonstrate the minimum components needed to create an in-app language picker.

And with this, your app can now support locale switching.

Additional things to take care of while migrating to the API

Earlier, developers had to handle the user's preferences on their own, either by using SharedPreferences, storing the data on a server, or other app logic. With the new APIs, there is no need to handle this separately. So when you are using these APIs, AndroidX is already taking care of the storage part, but what happens when the app is opened for the first time after a user updates their device to Android 13 or higher?

In this case, the system won’t be aware of the user’s preferences for the app language and thus it will map the app to the default system language. To avoid this, developers need to add some one-time migration logic so that their users don’t have to set the language again when they update the app.

// Specify the constants to be used in the below code snippets

companion object {

// Constants for SharedPreference File
const val PREFERENCE_NAME = "shared_preference"
const val PREFERENCE_MODE = Context.MODE_PRIVATE

// Constants for SharedPreference Keys
const val FIRST_TIME_MIGRATION = "first_time_migration"
const val SELECTED_LANGUAGE = "selected_language"

// Constants for SharedPreference Values
const val STATUS_DONE = "status_done"
}

// Utility method to put a string in a SharedPreference
private fun putString(key: String, value: String) {
val editor = getSharedPreferences(PREFERENCE_NAME, PREFERENCE_MODE).edit()
editor.putString(key, value)
editor.apply()
}

// Utility method to get a string from a SharedPreference
private fun getString(key: String): String? {
val preference = getSharedPreferences(PREFERENCE_NAME, PREFERENCE_MODE)
return preference.getString(key, null)
}

// Check if the migration has already been done or not
if (getString(FIRST_TIME_MIGRATION) != STATUS_DONE) {

   // Fetch the selected language from wherever it was stored. In this case it’s SharedPref
   // In this case let’s assume that it was stored in a key named SELECTED_LANGUAGE
getString(SELECTED_LANGUAGE)?.let { it →

      // Set this locale using the AndroidX library that will handle the storage itself
val localeList = LocaleListCompat.forLanguageTags(it)
AppCompatDelegate.setApplicationLocales(localeList)

      // Set the migration flag to ensure that this is executed only once
putString(FIRST_TIME_MIGRATION, STATUS_DONE)
}
}

What flexibility does the feature provide to the users and developers?

Here are a few things that might prove to be beneficial for you users.

All devices running Android 13 or higher will have a common place for users to discover and change the language of their apps.
Although the system settings are limited to the devices running Android 13 or higher, the AndroidX APIs are backwards compatible. Thus, there is no requirement to add OS Version checks in your code while building for your multilingual users.
Developers do not need to handle configuration changes separately or worry about storing the user's selected language every time. The API handles configuration changes and stores the language preferences for you.
Works with other Android features like Backup and restore. If a user switches to a new device and restores the previously backed up data, your app will retain the user’s last preferred language, thus providing your users with a better and more seamless experience.

Recap

With that, most parts of the feature are covered. So let’s have a quick recap on what we discussed in today’s read.

A quick read on what Per-App Language Preferences offer to multilingual users and app developers.
What end users will see on their devices.
How to migrate your app to the Per-App Language Preferences APIs.
A few things that need to be taken care of while migrating to the APIs to ensure a better user experience.
Lastly, the benefits that end users and developers can leverage from this feature.

Tips from Android Dev Summit 2022: How to scale made-for-mobile apps to ChromeOS

Per-App Language Preferences - Part 2

Compose for Wear OS 1.1 is now stable: check out new features!

Android 13 for TV is now available

Google Play Coffee break with Creatrip | Setting up your business for global reach

Per-App Language Preferences - Part 1

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