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ArpiGL

A lightweight native OpenGL ES 2.0 powered library allowing to display Points of Interest in a 3D Augmented Reality environment.

The current version 0.3.3 only has an android client library, Pull requests for the iOS version are welcome.

Screenshots

Custom Markers Custom POI Providers Custom Skybox Offline Maps

Size

The native library weights 450 KB, and requires an additional 1.4 MB of assets.
The android library bundle weighs 2.1 MB.

Android Versions support

Library supports android SDK 15 and above

Environment Setup

  1. Clone the ArpiGL project repository
  2. In your project with AndroidStudio File -> New Module -> Import .JAR/.AAR and import the .aar

Manifest attributes

Add this following permissions and features to your AndroidManifest.xml:

    <uses-feature android:glEsVersion="0x00020000" />

    <uses-feature android:name="android.hardware.sensor.gyroscope" />
    <uses-feature android:name="android.hardware.sensor.accelerometer" />

    <uses-permission android:name="android.permission.ACCESS_FINE_LOCATION" />
    <uses-permission android:name="android.permission.INTERNET" />
    <uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE" />
    <uses-permission android:name="android.permission.READ_PHONE_STATE" />
    <uses-permission android:name="android.permission.READ_EXTERNAL_STORAGE" />

Gradle dependencies

In your project build.gradle add the following dependency:

dependencies {
    compile project(':arpi-gl')
    }

App Integration

Assets install

The ArpiGl library needs resources: textures, OpenGL shaders, meshes...
Those resources are located in your library assets.
For performance purposes, those resources need to be installed on the device's storage.
The installation process takes a few seconds, and needs to be done one-time only.
To install these resources, we provided a convenient ArpiGlInstaller.
Use ArpiGlInstaller on your splashscreen when your app is launched.
N.B.: You don't need to implement anything to ensure the install process is only done once, as the checks are already built-in. Calling install() multiple times will not install multiple times.

Synchronous install:

    ArpiGlInstaller.getInstance(myAppContext).install();

Asynchronous install (recommended):

    ArpiGlInstaller.getInstance(myAppContext).installAsync(mArpiGlSetupListener);

Activity integration

  1. Create an ArpiGlFragment
  2. Create a controller for that fragment
  3. Add your tile provider
  4. Add your POI provider
    ArpiGlFragment arpiFragment = (ArpiGlFragment) getFragmentManager().findFragmentById(R.id.arpi_fragment);
    ArpiGlController arpiController = new ArpiGlController(arpiFragment);
    // Add the built-in OpenStreetMap tile provider
    arpiController.setTileProvider(new OSMTileProvider());
    // This one will download POIs from opendatasoft.com. You should make your own
    arpiController.addPoiProvider(new ODSPoiProvider());

Additional features

Skybox

The library supports custom skyboxes (for instance, to show a different skybox depending on the weather.)
To add a custom skybox, create 6 images: back.png, bottom.png, front.png, left.png, right.png, top.png and put them into your assets/arpigl/texture/cubemap/skybox/YourSkyboxName folder.
Then, in your code, enable your skybox with:

    arpiController.setSkyBox("YourSkyboxName");
    arpiController.setSkyBoxEnabled(true);

IMPORTANT

Note that the image dimensions need to be a power of two, and in PNG format. PNG transparency is not supported for skyboxes.
See the Custom Skybox sample in the sample app for more details.

Gravity Trigger

Enabling your 3D Map view can be done multiple ways. The classic way would be a button or a menu item.
For us, we thought that raising your phone up would be a nice trigger. Putting it down, would disable it.
Instead of leaving you the complexity of such a trigger, we made it easy for you:

GravitySensorTrigger visibilityTrigger = new GravitySensorTrigger(mapGLFragment);

See the Gravity Trigger sample for more details.

Custom Tile Providers

We have implemented one provider: the OpenStreetMap tile provider. However, you may have your own way of requesting tiles (Google Maps, Bing, etc...).
By implementing the TileProvider interface, you can define your own tile provider and use it instead of ours.

Custom POI Providers

When you have your own Geo API, it would not be fair to force your model to look like our POI model. Therefore, you can easily implement your own PoiProvider and provide a custom POIMapper for it.
See the Multiple PoiProviders sample for more details.

Offline Tiles

In some use cases, you may want to have offline tiles built-into your app.
In order to do so, simply put your tiles into the assets/arpigl/texture/tiles/{z}/{x}/{y}.png folder. The tiles will be loaded by default.
We use the {z}/{x}/{y}.png convention, where z is the zoom level, x and y are the tile position. Currently, only zoom level 19 is supported.
See the Offline Providers sample for more details.

Offline POIs

In some use cases, you may want to have offline pois built-into your app.
In order to do so, simply put a json descriptor file containing an array of POIs into the assets/arpigl/pois/yourFile.json. Then, simply use the AssetsStoragePoiProvider implementation in your controller.

arpiController.addPoiProvider(new AssetsStoragePoiProvider(this));

You can add any number of json files in that folder, those will be processed and concatenated at first launch.
See the Offline Providers sample for more details.

Custom Markers

When you launch the app, your 3D Markers may have different shapes, different icons and different colors.

Custom Icons

To add your own icon, simply put it into the assets/arpigl/texture/icon/yourIcon.png folder.
Then, use poi.setIcon("yourIcon.png"); in your java code.

IMPORTANT

Note that the icon image dimensions need to be a power of two, and in PNG format. PNG transparency is supported.

Custom Shapes

We built custom meshes that should do the trick for most of your uses. However, you may like to have your own shapes for your markers.
You can create your own meshes and use them anywhere into your app. N.B.: Only the Wavefront .obj format is supported. You must provide vertex positions (v) and texture mapping (vt). The library generates smooth normals at runtime, but if you provide vertex normals (vn) they will be interpreted as flat normals at rendering time. Long story short: your mesh is smooth -> do not provide normals, your mesh is flat -> provide normals

Custom Colors

Your Marker color can be easily modified using the poi.setColor("FF0000"); method.
See the CustomMarkers sample for more details

Archive support

We understand that sometimes you may have a certain number of custom assets, that take a certain size.
When the install is made, the ArpiInstaller will check for a arpigl.zip archive in the assets folder.
If it finds one, it will unzip it and process it normally.
Therefore, you can provide all your custom assets, pois, textures... in an assets/arpigl.zip archive.
The archive should respect the following data structure:

.
|
-arpigl                    # the archive should contain an arpigl folder containing your custom resources.
 ├── mesh                  # contains your custom meshes as .obj files
 ├── pois                  # contains JSON files for your offline Pois.
 └── texture               
     ├── cubemap
     │   └── skybox        # contains your skyboxes subfolders.#     skybox images (back, bottom, front...) are stored in cubemap/skybox/TheSkyboxName/{}.png.
     ├── icon              # contains texture files, in '.png' format. Dimensions must be a power of 2.
     └── tiles             # contains offline tiles.

Code Samples

The app module contains all the code samples you can dream of to get you started:

Proguard

The library has native callbacks and requires its packages not to be obfuscated. Add these lines to your proguard config:

-keep class mobi.designmyapp.arpigl.** {
    *;
}

License

The Android ArpiGl Library is OpenSource, licensed under the GNU General Public License 3.0.

Contribute

Contributions and Pull Requests are welcome. You may have awesome suggestions and we also have ideas on improvements and new features. Let us know what you want and how you may help!

Commercial use

If you want to use ArpiGl in proprietary software, or want to use a non-watermarked version for your OpenSource projects, please contact us at [email protected]

Issue Tracker

All feature requests and issues can be tracked on this Github repository.
For direct contact, you can reach us on twitter:
@DesignMyApp
@LoicOrtola