Advanced Android in Kotlin, developed by Google together with Udacity, is our newly-released, free, self-paced online course. In this course expert instructors from the Android team at Google will introduce you to some of the advanced features you can build into your Android apps.
This course is intended for developers who have mastered the basics of building an Android app in Kotlin, and want to dive deeper into advanced functionality. To benefit most from this course, you need skills equivalent to what's taught in our Android Fundamentals Udacity or codelab courses.
Advanced Android in Kotlin teaches you about notifications, graphics and animations on Android, using third-party authentication for login, and how to add maps to your apps. Learn how to create custom views that can look like anything you want, draw to a canvas, and have eye-catching animations. And, most importantly, you will learn how to properly test your apps!
Here is a sample of apps you will build:
Check out the YouTube course trailer below for additional information about the course and apps:
Different people like to learn in different ways, so we are offering this course as both a Udacity video-based course and as a series of codelabs with topics that you can explore in any order. Whether you prefer to work on your own with just the text and code, or to have an instructor help walk through the code with you on video, we’ve got you covered; just choose your path and get learning!
Last month’s #AndroidDevSummit was jam-packed with announcements and technical news...so much that we wouldn’t be surprised if you missed something. So all this month, we’ll be diving into key areas from throughout the summit so you don’t miss anything. Earlier this week, we spotlighted Kotlin and Jetpack Compose, and today, we’re highlighting Android Studio, with the top three things you should know:
#1: Support for Jetpack Compose
For the best experience developing with Jetpack Compose, you can now use the latest version of Android Studio 4.0 in the canary channel, and benefit from smart editor features, such as New Project templates, code completion and the ability to immediately preview your Jetpack Compose UI.
#2: What’s new in Android Studio session
We covered both new features and successes of our quality initiative called Project Marble. On the quality aspect, we discuss improvements around hangs and latency, memory leak detection, automatic IDE heap sizing and build speed. Also during the session you will find demos on new developments & features in Android Studio such as Build Attribution tool which helps you understand and diagnose problems with your build system, Java 8 library desugaring, View binding, Kotlin Android live templates, an updated live Layout inspector which allows you to drill into resources right from the view to find where a property value originates in the source code with a 3D visualization of your view hierarchy.
#3: Android Studio Design tools
We introduced new features of Layout & Navigation editor including a new split view, new tools such as Multi-preview which allows you to visualize your layout in different configurations and MotionEditor, visual design editor for the MotionLayout layout type, making it easier to create and preview animations. The Motion Editor provides a simple interface for manipulating elements from the MotionLayout library that serves as the foundation for animation in Android apps. In previous releases, creating and altering these elements required manually editing constraints in XML resource files. Now, the Motion Editor can generate this XML for you, with support for start and end states, keyframes, transitions, and timelines.
You can find the entire playlist of Android Dev Summit sessions and videos here. We’ll continue to spotlight other areas later this month, so keep an eye out and follow AndroidDevelopers on Twitter. Thanks so much for letting us be a part of this experience with you!
Posted by Marcus Leal, Product Manager, Google Play Ads
How do people find your app? It’s the million-dollar question for any developer, and the answer can help you make the right choices about your marketing strategy and budget. Accurate install referral data is crucial for understanding which traffic sources send users to download your app from the Google Play Store, as well as identifying fraudulent attempts to claim install attributions.
That’s why in 2017, we launched the Play Install Referrer API, which provides a reliable and robust mechanism for apps to retrieve referral information directly from the Play Store. It was a big step forward from the old install_referrer intent broadcast, so many developers made the switch right away, including App Attribution Program partners like Adjust, AppsFlyer, and Kochava. Now, because it’s been replaced by the new API, we’ve decided to deprecate the install_referrer intent broadcast mechanism on March 1, 2020. After this date, new versions of the Play Store app will no longer broadcast the install_referrer intent after app installs.
We are asking developers who still rely on the install_referrer to use the Play Install Referrer API instead. Among other advantages, the Install Referrer API offers better performance, uses a secure communication channel between your app and the Play Store, and offers a more robust solution against spoof and attribution fraud.
If you still use the Broadcast API and the install_referrer intent to track your referrals, be sure to make the switch by March 1, 2020. Migration is easy, and the cost of adoption is low. Learn how to use the Play Install Referrer API to track your app installs today.
Last month’s #AndroidDevSummit was jam-packed with announcements and technical news...so much that we wouldn’t be surprised if you missed something. So all this month, we’ll be diving into key areas from throughout the summit so you don’t miss anything. First up, we’re spotlighting Kotlin, with the top things you should know:
#1: Kotlin momentum on Android
Kotlin is at the heart of modern Android development — and we’ve been excited to see how quickly it has won over developers around the world. At Android Dev Summit we announced that nearly 60% of the top 1000 Android apps on the Play Store now use Kotlin, and we’re seeing more developers adopt it every day. Kotlin has helpful features like null safety, data classes, coroutines, and complete interoperability with the Java programming language. We’re doubling down on Kotlin with more Kotlin-first APIs even beyond AndroidX — we just released KTX extensions, including coroutines support, for Play Core. There’s never been a better time to give Kotlin a try.
#2: Learn more: Getting started with Kotlin & diving into advanced Kotlin with coroutines
If you’re introducing Kotlin into an existing codebase, chances are that you’ll be calling the Java programming language from Kotlin and vice versa. At Android Dev Summit, developer advocates Murat Yener, Nicole Borrelli, and Wenbo Zhu took a look at how nullability, getters, setters, default parameters, exceptions, and more work across the two languages.
For those looking into more advanced Kotlin topics, we recommend watching Jose Alcérreca's and Yigit Boyar's talk that explains how coroutines and Flow can fit together with LiveData in your app's architecture and one on testing coroutines by Sean McQuillan and Manuel Vivo.
#3: Get certified in Kotlin
We announced the launch of our Associate Android Developer certification in Kotlin. Now you can prove your proficiency with modern Kotlin development on Android to your coworkers, your professional network, or even your future employer. As part of this launch, you can take this exam at a discount when using the code ADSCERT99 through January 25.
It’s especially great to hear from you, the Android community, at events like Android Dev Summit: what do you want to hear more about, and how can we help with something you’re working on. We asked you to submit your burning questions on Twitter and the livestream, and developer advocates Florina Muntenescu and Sean McQuillan answered your Kotlin and coroutines questions live during our #AskAndroid segment:
You can find the entire playlist of Android Dev Summit sessions and videos here. We’ll continue to spotlight other areas later this month, so keep an eye out and follow Android Developers on Twitter. Thanks so much for letting us be a part of this experience with you!
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Last month’s #AndroidDevSummit was jam-packed with announcements and technical news...so much that we wouldn’t be surprised if you missed something. So all this month, we’ll be diving into key areas from throughout the summit so you don’t miss anything. Earlier today, we spotlighted Kotlin and now we’re diving into Jetpack Compose, with the top three things you should know:
#1: Jetpack Compose is available in Developer Preview!
Jetpack Compose is Android’s modern toolkit for building native UI. It allows developers to write beautiful Android apps in an intuitive way, writing less code and accelerating development. It's powerful, because when writing code is a pleasure, you can focus on making your apps look beautiful and giving your users the best experience. At #AndroidDevSummit, we released the Developer Preview, to enable more feedback as we work towards bringing Jetpack Compose to beta next year. All you need to do is download the Android Studio 4.0 Canary build to try it out. To give feedback, feel free to reach out through the Kotlinlang Slack channel or our Bug Tracker to let us know what you think. It's your chance to help us build the right thing!
#2: See what's new in Jetpack Compose
At Android Dev Summit we showed how we've designed Compose to simplify development of Android apps, details on the new Material UI components we are building, and insights on some of the learnings that are informing the way we think about Compose. We also showcased how to write a small app, including layout and state management for a list of elements, in just a few lines of code.
Watch the Android Dev Summit session video to learn more:
If you want to take a look behind the scenes, we also had a tech deep dive into the inner workings of Compose:
#3: Try it out, with our tutorial, sample app, and codelab!
Jetpack Compose is still in Developer Preview, which means it's a great time to try it out and let us know what you think about it. To help you with that, you can follow our tutorial, which will take you through the first steps of building a Compose app, and also take a look at our sample app, Jetnews, that shows what is currently possible with Jetpack Compose. We also have a popular codelab available to take you through how to build UIs with Compose, how to manage state in composable functions, and data flow principles in Compose.
...and we also heard from you!
But Android Dev Summit isn’t just about what we’ve got to say; it’s also about you telling us what you’d like to see worked on to make your life easier. And this year, one thing we heard strongly from our community was how important it is to have the right tools to manage your layouts on so many different form factors and devices. Jetpack Compose has full Android Studio support and you can iterate fast with live Previews.
Android Dev Summit is over for this year, but you can keep giving us your feedback through the Kotlinlang Slack channel and Bug Tracker.
Today we’re kicking off Playtime, our annual event series where we host developers from all over the world to discuss features and best practices to help you grow your apps and games businesses. Last month’s Android Dev Summit focused on modern Android development. Here on the Google Play team, we’re focusing on modern app and game distribution — our set of powerful and customizable distribution features and tools that work together to power your success on Google Play.
The Android App Bundle is foundational to modern app and game distribution, replacing the monolithic APK. Since it launched 18 months ago, over 270K apps and games have made the switch, representing over 25% of active installs. Those that switched have seen an average size savings of 20% compared to a universal APK and more efficient releases as a result.
A recent internal analysis revealed that users with storage-constrained devices are much more likely to uninstall apps, so optimizing how much space your app needs is important. Our new metrics on the app size report in the Play Console can show you how many of your active users have little free storage on their devices and if they’re uninstalling more than other users.
Testing app bundles is now much easier with internal app sharing. Make anyone in your company an uploader without giving them access to the Play Console and they’ll be able to share test builds of your app as easily as they used to share APKs. With internal app sharing, you can be sure that each device is receiving exactly what Play would deliver in the wild. You don’t need to use version codes or the prod signing key, you can upload debuggable artifacts, and you’ll soon be able to get install links for old versions of your app, too.
The app bundle also lets you modularize your app with dynamic feature modules. Modularization speeds up build times and engineering velocity, since different teams can design, build, test, and debug features in parallel rather than working on the same complex code for a monolithic app. Based on your feedback, we’ve made it easier to develop modular apps with tools such as the new Dynamic Feature Navigator library and FakeSplitInstallManager, which lets you test on-demand delivery while offline instead of waiting for the Play Store.
In-app updates let you prompt users to update to the latest version of your app, without them having to leave your app. More than 10% of the top apps and games are already using in-app updates with an average acceptance rate of 24%. Based on your feedback, we’re also giving you more control over how and when you show update prompts:
For some games with rich content, the 150MB app bundle size limit is not enough. Using expansion files or content delivery networks can get around this but could introduce complexity when you’re building and releasing your game, and can result in a poor user experience. That’s why we’re extending the app bundle format to support asset delivery with a new delivery construct called asset packs which can go up to multiple gigabytes.
Asset packs are packaged in the app bundle alongside your binary, so you can publish a single artifact to Play that contains everything your game needs, giving you full control of your asset delivery. Play’s asset delivery will also enable texture compression targeting, so that your users only get the assets suitable for their device with no wasted space or bandwidth. And you can rely on Play to keep your assets up to date, just as it does with your game binary. We’re currently testing this with some early partners and hope to make it more widely available soon.
Look out for the sessions from this year’s Playtime, which will be added to the Android Developers YouTube channel. We look forward to sharing more tools and services for your apps and games, made possible by the app bundle and our new dynamic framework. And as always, please give us your feedback and let us know what you think.
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Since Google Fit was released in 2015, apps with an abundance of features for health and fitness tracking have integrated with the Google Fit APIs. Over the years, the number of users using Google Fit as a central repository for their fitness and wellness data has grown significantly.
With Android 10, we're making further updates to give users even more control over this personal data. One key change concerns how Android apps can monitor a user’s physical activity and retrieve data from Android sensor APIs and the Google Fit platform.
In Android 10: Activity recognition permission
Android 10 introduces a new runtime permission for activity recognition for apps that make use of the user's step and calorie count or classify the user's physical activity, such as walking, biking, or moving in a vehicle through one of the following APIs:
If your app relies only on raw data from other built-in sensors on the device, such as the accelerometer and gyroscope, you don't need to declare this new permission in your app.
Activity Recognition Permission Enforcement
Google Fit physical activity APIs
This new permission affects a subset of data types available in the Google Fit APIs on Android. If your app accesses these types from Google Fit today, then you need to update your app inline with the new permissions.
The activity recognition runtime permission is required for accessing the following APIs / data types:
With Android 10 now launched and SDK 29 becoming your primary development target, now is the time to make sure your apps are compatible with the new runtime permission.
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