An experimental browser for Android that lets developers create Augmented Reality (AR) experiences using web technologies. An iOS version is also available.
Note: This is not an official Google product. Nor is it a fully-featured web browser. Nor are the enabling JavaScript APIs standards, or on the standardization path. WebARonARCore is only meant to enable developer experimentation.
WebARonARCore is built on top of Android ARCore APK, which requires one of the following officially-supported devices:
- Google Pixel or Pixel XL
- Google Pixel 2 or Pixel 2 XL
- Samsung Galaxy S8
Install the ARCore APK, either directly from a device:
- Visit this link from a web browser on your Android device to download and install the ARCore APK.
...or by using ADB:
- Download the ARCore APK to your computer from here and install the APK to your device:
$ adb install -r path/to/arcore_preview.apk
Directly from a device:
- Visit this link from a web browser on your Android device to download and install the WebARonARCore APK.
...or by using ADB:
- Download the WebARonARCore APK.
- Install the APK to your device:
$ adb install -r /path/to/WebARonARCore.apk
Alternatively, the WebARonARCore APK can be built and installed from source.
A list of example scenes compatible with WebARonARCore and WebARonARKit are available at developers.google.com.
To build AR web experiences that work with WebARonARCore (or WebARonARKit for iOS), we recommend three.ar.js, a helper library that works with the popular three.js WebGL framework. Three.ar.js provides common AR building blocks, such as a visible reticle that draws on top of real world surfaces, and example scenes.
WebARonARCore uses WebViews, which is a similar debugging process to debugging Chrome for Android tabs. Check out the prereqs for your device at Get Started with Remote Debugging Android Devices, and learn more about Remote Debugging WebViews by opening chrome://inspect
in the desktop browser while your device is connected via USB.
WebARonARCore can optionally be built and installed from source. Instructions for cloning and building Chromium are available at chromium.org
Prerequisites:
- Linux machine
- GIT
- Python
We recommend the following steps:
- Open a terminal window
- Install depot_tools. You can follow this tutorial or simply follow these 2 steps:
git clone https://chromium.googlesource.com/chromium/tools/depot_tools.git
export PATH=$PATH:/path/to/depot_tools
- Create a folder to contain
chromium
and move to it:$ mkdir ~/chromium && cd ~/chromium
- Checkout the Chromium repo:
~/chromium$ fetch --nohooks android
. Note: This process may take a long time (an hour?) - Enter the
src
folder:$ cd src
. - Add this git repo as a remote (we are going to call it 'github'):
git remote add github https://github.com/google-ar/WebARonARCore.git
- Fetch the newly added remote:
git fetch github
- Checkout the webarcore branch from the github remote:
git checkout --track github/webarcore_57.0.2987.5
- Synchronize the dependencies with this command:
~/chromium/src$ gclient sync --disable-syntax-validation
. Note: This process may take some time too. - Create a folder where to make the final product compilation:
~/chromium/src$ mkdir -p out/build
. - Create and edit a new file
out/build/args.gn
. Copy and paste the following content in theargs.gn
file:
target_os = "android"
target_cpu = "arm64"
is_debug = false
is_component_build = true
enable_webvr = true
proprietary_codecs = false
ffmpeg_branding = "Chromium"
enable_nacl = false
remove_webcore_debug_symbols = true
- Prepare to build:
~/chromium/src$ gn args out/build
. Note: once the command is executed, the vi editor will show you the content of theargs.gn
file just edited a few steps before. Just exit by pressing ESC and typing colon andx
. - Install the build dependencies:
~/chromium/src$ build/install-build-deps-android.sh
- Synchronize the resources once again:
~/chromium/src$ gclient sync --disable-syntax-validation
- Setup the environment:
~/chromium/src$ . build/android/envsetup.sh
The line below not only compiles Chromium but also installs the final APK on to a connected device and runs it, so it is convenient that you to connect the device via USB before executing it. The project that will be built by default is the Chromium WebView project, the only one that has been modified to provide AR capabilities.
~/chromium/src$ ./build_install_run.sh
You can review the content of the script to see what it does (it is a fairly simple script) but if you would like to compile the final APK on your own you could do it by executing the following command:
~/chromium/src$ ninja -C out/build android_webview_apk
The final APK will be built in the folders ~/chromium/src/apk
and ~/chromium/src/out/build/apks
.
WebARonARCore is built of two essential technologies: ARCore and Chromium. We also extend the WebVR 1.1 API, which gives us much of what we need for augmented reality, with a few more essentials, such as motion tracking, rendering of the camera's video feed, and basic understanding of the real world. For details, see WebVR API extension for smartphone AR
- The current implementation of WebAR is built on top of the Chromium WebView flavor. This has some implementation advantages but some performance and use disadvantages. We are working on making the implementation on a full version of Chromium.
- Pausing/resuming/switching away from the app causes screen to turn black. This is a consequence of having built the implementation on top of the WebView flavor of Chromium. A proper implementation on full Chromium or a rebase to a more recent Chromium WebView version (>57.0.2987.5) might solve this problem.
- The Web Speech API is a standard web API for text to speech and speech to text conversion that is available in Chromium. As WebARonARCore is built on top of the WebView version of Chromium, does not provide this functionality by default. There is a solution though, using a polyfill we provide, but in order to use it, you need to either a) include the three.ar.js library before making any use of the Web Speech API or b) include the ARSpeechRecognition.js file also before making any reference to the Web Speech API. Only speech recognition is suspported, not speech synthesis for now.
- Add more AR-related features.
- Adapt the implementation to the WebVR 2.0 spec proposal.
- Implement the prototype on full Chromium (not on the WebView flavor) and to a newer tag version (>57.0.2987.5).
- Improve the VRPassThroughCamera rendering pipeline either making it obscure for the developer or by using regular WebGL textures and shader samplers without having to use the external image texture extension.
Apache License Version 2.0 (see the LICENSE
file inside this repo).