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Flic Logo Black

javadoc

Flic2 lib for Android

The official library for Flic2 on Android.

The library is hosted at JitPack and can be included in your Android app by entering the following in your build.gradle file:

dependencies {
    implementation 'com.github.50ButtonsEach:flic2lib-android:1.+'
}

If you have not already done so, include the JitPack repository in your root build.gradle file:

allprojects {
    repositories {
        ...
        maven { url 'https://jitpack.io' }
    }
}

License

See License.txt.

API documentation

See javadoc.

Tutorial

First you need to add the library to your project, by following the instructions above.

All imported classes are in the package io.flic.flic2libandroid. There are two classes of particular interest, Flic2Manager and Flic2Button. The singleton class Flic2Manager keeps track of all the buttons and Flic2Button represents a single button.

The manager must first be initialized with the application's Context as well as a Handler, that defines which thread the library will run on, including all callbacks. To do that, it's recommended to initialize the manager in the Application class of your app. If you don't already have one, make a subclass of Application and specify it in your Android manifest:

public class Flic2SampleApplication extends Application {
    @Override
    public void onCreate() {
        super.onCreate();

        // Initialize the Flic2 manager to run on the same thread as the current thread (the main thread)
        Flic2Manager manager = Flic2Manager.initAndGetInstance(getApplicationContext(), new Handler());

        // use manager later on
    }
}
<manifest xmlns:android="http://schemas.android.com/apk/res/android"
    package="flic.io.flic2androidsample">
    <application
        android:name=".Flic2SampleApplication"
        ...>

        ...
    </application>
</manifest>

Once the manager is initialized, it can always be retrieved again using Flic2Manager.getInstance().

Scanning for new buttons

To be able to scan for new buttons, the method startScan of the manager is used. It will automatically scan, connect and pair a button. The progress is delivered using callbacks. If everything succeeds, you will be given a new Flic2Button object.

Flic2Manager.getInstance().startScan(new Flic2ScanCallback() {
    @Override
    public void onDiscoveredAlreadyPairedButton(Flic2Button button) {
        // Found an already paired button. Try another button.
    }

    @Override
    public void onDiscovered(String bdAddr) {
        // Found Flic2, now connecting...
    }

    @Override
    public void onConnected() {
        // Connected. Now pairing...
    }

    @Override
    public void onAskToAcceptPairRequest() {
        // Inform the user to press "Pair & Connect" in the system dialog that appears.
    }

    @Override
    public void onComplete(int result, int subCode, Flic2Button button) {
        if (result == Flic2ScanCallback.RESULT_SUCCESS) {
            // Success!
            // The button object can now be used
        } else {
            // Failed
        }
    }
});

If the scan times out or otherwise fails for some reason, onComplete will be called with an error code as result, defined in Flic2ScanCallback or Flic2ButtonListener.

Before scanning however, we need to acquire some runtime permission by asking the user. This is due to a requirement of the Android platform in order to scan for/connect to Bluetooth Low Energy devices. If targeting and running on Android 12 or higher, Manifest.permission.BLUETOOTH_SCAN and Manifest.permission.BLUETOOTH_CONNECT are required. Otherwise Manifest.permission.ACCESS_FINE_LOCATION is required. In your activity, use the following code:

if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.M) {
    if (Build.VERSION.SDK_INT < 31 || getApplicationInfo().targetSdkVersion < 31) {
        if (ContextCompat.checkSelfPermission(this, Manifest.permission.ACCESS_FINE_LOCATION) != PackageManager.PERMISSION_GRANTED) {
            ActivityCompat.requestPermissions(this, new String[]{Manifest.permission.ACCESS_FINE_LOCATION}, 1);
            return;
        }
    } else {
        if (ContextCompat.checkSelfPermission(this, Manifest.permission.BLUETOOTH_SCAN) != PackageManager.PERMISSION_GRANTED ||
            ContextCompat.checkSelfPermission(this, Manifest.permission.BLUETOOTH_CONNECT) != PackageManager.PERMISSION_GRANTED)
        {
            ActivityCompat.requestPermissions(this, new String[]{Manifest.permission.BLUETOOTH_SCAN, Manifest.permission.BLUETOOTH_CONNECT}, 1);
            return;
        }
    }
}
// if this line is reached, the permission was already granted and we can now start scan

The requestPermissions call will open a popup where the user must press Allow. Android will then call the activity's onRequestPermissionsResult method, so we need to implement that:

@Override
public void onRequestPermissionsResult(int requestCode, @NonNull String[] permissions, @NonNull int[] grantResults) {
    super.onRequestPermissionsResult(requestCode, permissions, grantResults);
    if (requestCode == 1) {
        if (Build.VERSION.SDK_INT < 31 || getApplicationInfo().targetSdkVersion < 31) {
            if (grantResults.length > 0 && grantResults[0] == PackageManager.PERMISSION_GRANTED) {
                // now startScan can be safely called
            } else {
                Toast.makeText(getApplicationContext(), "Scanning needs Location permission, which you have rejected", Toast.LENGTH_SHORT).show();
            }
        } else {
            if (grantResults.length >= 2 && grantResults[0] == PackageManager.PERMISSION_GRANTED && grantResults[1] == PackageManager.PERMISSION_GRANTED) {
                // now startScan can be safely called
            } else {
                Toast.makeText(getApplicationContext(), "Scanning needs permissions for finding nearby devices, which you have rejected", Toast.LENGTH_SHORT).show();
            }
        }
    }
}

If the permissions are not granted when calling startScan on the manager, an SecurityException will be thrown.

Interacting with buttons

Once we have a Flic2Button object, we can start listen to events. Events are delivered to a Flic2ButtonListener object that you should extend and override the desired methods. Each button object can have multiple listener objects and they are added and removed by the addListener and removeListener methods, respectively.

The Flic2ButtonListener can both be used to detect connectivity change events as well as different kinds of click events. For example, to show a toast when the button is pressed:

button.addListener(new Flic2ButtonListener() {
    @Override
    public void onButtonUpOrDown(Flic2Button button, boolean wasQueued, boolean lastQueued, long timestamp, boolean isUp, boolean isDown) {
        if (isDown) {
            Toast.makeText(getApplicationContext(), "Button " + button + " was pressed", Toast.LENGTH_SHORT).show();
        }
    }
});

There are other kinds of listeners if you instead want to distinguish click, double click and hold. See the API documentation for more information.

If the button was pressed while it was disconnected, the button events will be sent when it later connects (the latest that could fit on the internal memory). Sometimes it's not desired to get old events. In that case the formula wasQueued && button.getReadyTimestamp() - timestamp > 15000 can be used in the event callback to detect if the event was older than 15 seconds.

The button's desired connectivity state is set using the methods connect and disconnectOrAbortPendingConnection. Once connect is called, the library will try to make sure the button is connected whenever it is in range and Bluetooth is turned on. If the connection gets dropped for any reason, or Bluetooth is toggled off and on, the library will automatically attempt to re-establish the connection. When you want the button to stay disconnected, call disconnectOrAbortPendingConnection.

The button listener has the events onConnected, onReady and onDisconnected that are called when the connectivity state changes. The onConnected and onDisconnected callbacks represent the Bluetooth connectivity, while onReady is called shortly after onConnected when the library has completed some initial transactions, such as configuring the communication channel and verified the pairing.

The callback onUnpaired should also be implemented, which will be called if the button has been factory reset. From that point the button is removed and detached from the library, and the button object cannot be used anymore. To add it back, the user must re-scan the button.

To get a list of all paired buttons (usually at application startup), use the method getButtons on the manager object. All paired buttons are saved to disk in an internal database file, so the pairings remain even if the Android device is restarted. When the application starts, the buttons are always in the disconnected state, and you need to explicitly call connect on the buttons you want connected. With a newly paired button (as delivered by onComplete) however, you don't need to call connect since it is already connected at that point.

API versioning and manifest permissions

The way Android handles Bluetooth permissions has changed in API 31 (Android 12). Previously, ACCESS_FINE_LOCATION (runtime permission) was required to scan new Bluetooth devices and BLUETOOTH and BLUETOOTH_ADMIN (install-time permissions) were required to pair and connect to devices. The BLUETOOTH and BLUETOOTH_ADMIN permissions are entirely removed in API 31 and have been replaced by BLUETOOTH_CONNECT. The ACCESS_FINE_LOCATION permission is not used for Bluetooth scanning anymore but is still used for GPS for example.

This library will automatically insert the required permissions into the application's manifest so that it works on both older devices as well as those running Android 12 or higher. Unfortunately, the XML structure is not expressive enough to automatically handle situations when your app has different requirements, such as scanning for Bluetooth "beacons" or using location permissions for other situations. Therefore you might need to change the manifest as described below.

The options below need the xmlns:tools="http://schemas.android.com/tools" attribute added to the <manifest> tag in order to work. Please note that the tools:remove attribute in the code snippets below is essential and must be present, since this attribute overrides the default value set by this library.

When the app also uses Bluetooth scanning for location purposes (such as scanning for Bluetooth "beacons"), add the following line directly inside the <manifest> tag:

<uses-permission android:name="android.permission.BLUETOOTH_SCAN" tools:remove="android:usesPermissionFlags" />

When the app needs the ACCESS_FINE_LOCATION permission for any purpose other than Bluetooth scanning, add the following line directly inside the <manifest> tag:

<uses-permission android:name="android.permission.ACCESS_FINE_LOCATION" tools:remove="maxSdkVersion" />

Upgrading to or using API 31 (Android 12)

When targeting API 31 or later, in order to connect to Bluetooth devices (such as Flic 2), the runtime permission BLUETOOTH_CONNECT must have been granted. If this permission is not granted, the connect method on a Flic2Button will throw a SecurityException. This can happen in particular when the app is updated when previously targeting API 30 or lower, or when the user revokes the app's permission in the system settings. The possibility of these situations must be taken into account when upgrading the target API for your app. One idea is to show a dialog on app startup if the BLUETOOTH_CONNECT permission is not granted, and ask the user to grant it at that point.

Background execution

It is common that apps using Flic buttons want to be able to receive button events even when the app is not visible on the screen, or the screen is turned off. Usually Android kills the app process after inactivity or when it wants to reclaim memory. The official way of avoiding the process to be killed is to use a Foreground Service. A foreground service can be written like this:

public class Flic2SampleService extends Service {
    private static final int SERVICE_NOTIFICATION_ID = 123;
    private final String NOTIFICATION_CHANNEL_ID = "Notification_Channel_Flic2SampleService";
    private final CharSequence NOTIFICATION_CHANNEL_NAME = "Flic2Sample";

    @Override
    public void onCreate() {
        super.onCreate();

        Intent notificationIntent = new Intent(this, MainActivity.class);
        PendingIntent contentIntent = PendingIntent.getActivity(this, 0, notificationIntent, PendingIntent.FLAG_CANCEL_CURRENT | PendingIntent.FLAG_IMMUTABLE);

        if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.O) {
            NotificationChannel mChannel = new NotificationChannel(NOTIFICATION_CHANNEL_ID, NOTIFICATION_CHANNEL_NAME, NotificationManager.IMPORTANCE_LOW);
            NotificationManager notificationManager = (NotificationManager) this.getSystemService(Context.NOTIFICATION_SERVICE);
            notificationManager.createNotificationChannel(mChannel);
        }

        Notification notification = new NotificationCompat.Builder(this.getApplicationContext(), NOTIFICATION_CHANNEL_ID)
                .setContentTitle("Flic2Sample")
                .setContentText("Flic2Sample")
                .setSmallIcon(R.mipmap.ic_launcher)
                .setContentIntent(contentIntent)
                .setOngoing(true)
                .build();
        startForeground(SERVICE_NOTIFICATION_ID, notification);
    }

    @Override
    public IBinder onBind(Intent intent) {
        throw new UnsupportedOperationException("Not implemented");
    }
}

If we want the foreground service to always run as soon as the application starts, we can start it in the onCreate method of our Application class:

// To prevent the application process from being killed while the app is running in the background, start a Foreground Service
ContextCompat.startForegroundService(getApplicationContext(), new Intent(getApplicationContext(), Flic2SampleService.class));

It also needs to be added to the manifest, inside the <application> section:

<service
    android:name=".Flic2SampleService"
    android:enabled="true"
    android:exported="false">
</service>

Also a permission needs to be added directly inside the <manifest> tag:

<uses-permission android:name="android.permission.FOREGROUND_SERVICE" />

Note that the service class itself doesn't need to do anything. As long as it is running it will keep the rest of the process, including the Flic2 library, to stay alive.

Another idea would be to only run your Foreground Service when you have at least one button you want to stay connected, but requires slightly more code.

In order to automatically start the application after boot of the device, as well as when the app has been updated, we need to implement two broadcast receivers. In the service class (or anywhere else appropriate), implement the following to handlers:

public static class BootUpReceiver extends BroadcastReceiver {
    @Override
    public void onReceive(Context context, Intent intent) {
        // The Application class's onCreate has already been called at this point, which is what we want
    }
}

public static class UpdateReceiver extends BroadcastReceiver {
    @Override
    public void onReceive(Context context, Intent intent) {
        // The Application class's onCreate has already been called at this point, which is what we want
    }
}

And register the receivers in the manifest inside the <application> tag:

<receiver
    android:name=".Flic2SampleService$BootUpReceiver"
    android:enabled="true"
    android:exported="false"
    android:permission="android.permission.RECEIVE_BOOT_COMPLETED">
    <intent-filter>
        <action android:name="android.intent.action.BOOT_COMPLETED" />
        <category android:name="android.intent.category.DEFAULT" />
    </intent-filter>
</receiver>

<receiver
    android:name=".Flic2SampleService$UpdateReceiver"
    android:enabled="true"
    android:exported="false">
    <intent-filter>
        <action android:name="android.intent.action.PACKAGE_REPLACED" />
        <data
            android:path="[YOUR PACKAGE NAME HERE]"
            android:scheme="package" />
        <category android:name="android.intent.category.LAUNCHER" />
    </intent-filter>
</receiver>

We also need to declare the permission directly inside the <manifest> tag:

<uses-permission android:name="android.permission.RECEIVE_BOOT_COMPLETED" />

The receivers don't need to do anything, since their only intention is to start the app process. When the app process starts, the Application class's onCreate method is always called first before any other components are created.