Create lists on Wear OS

Try the Compose way
Jetpack Compose on Wear OS is the recommended UI toolkit for Wear OS.

Lists let users select an item from a set of choices easily on Wear OS devices.

The Wearable UI Library includes the WearableRecyclerView class, which is a RecyclerView implementation for creating lists optimized for wearable devices. You can use this interface in your wearable app by creating a new WearableRecyclerView container.

Use a WearableRecyclerView for a long list of simple items, such as an application launcher or a list of contacts. Each item might have a short string and an associated icon. Alternatively, each item might have only a string or an icon.

Note: Avoid complex layouts. Users should only need to glance at an item to understand what it is, especially with wearables' limited screen size.

By extending the existing RecyclerView class, WearableRecyclerView APIs display a vertically scrollable list of items in a straight list by default. You can also use the WearableRecyclerView APIs to opt-in for a curved layout and a circular scrolling gesture in your wearable apps.

Figure 1. Default list view on Wear OS.

This guide shows you how to use the WearableRecyclerView class to create lists in your Wear OS apps, how to opt-in for a curved layout for your scrollable items, and how to customize the appearance of the children while scrolling.

Add WearableRecyclerView to an activity using XML

The following layout adds a WearableRecyclerView to an activity:

<androidx.wear.widget.WearableRecyclerView
    xmlns:android="http://schemas.android.com/apk/res/android"
    xmlns:tools="http://schemas.android.com/tools"
    android:id="@+id/recycler_launcher_view"
    android:layout_width="match_parent"
    android:layout_height="match_parent"
    android:scrollbars="vertical" />

The following example shows the WearableRecyclerView applied to an activity:

Kotlin

class MainActivity : Activity() {

    override fun onCreate(savedInstanceState: Bundle?) {
        super.onCreate(savedInstanceState)
        setContentView(R.layout.activity_main)
    }
    ...
}

Java

public class MainActivity extends Activity {
    @Override
    public void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        setContentView(R.layout.activity_main);
    }
    ...
}

Create a curved layout

To create a curved layout for scrollable items in your wearable app, do the following:

  • Use WearableRecyclerView as your main container in the relevant XML layout.
  • Set the setEdgeItemsCenteringEnabled(boolean) method to true. This vertically centers the first and last items on the list on the screen.
  • Use the WearableRecyclerView.setLayoutManager() method to set the layout of the items on the screen.

Kotlin

wearableRecyclerView.apply {
    // To align the edge children (first and last) with the center of the screen.
    isEdgeItemsCenteringEnabled = true
    ...
    layoutManager = WearableLinearLayoutManager(this@MainActivity)
}

Java

// To align the edge children (first and last) with the center of the screen.
wearableRecyclerView.setEdgeItemsCenteringEnabled(true);
...
wearableRecyclerView.setLayoutManager(
                new WearableLinearLayoutManager(this));

If your app has specific requirements to customize the appearance of the children while scrolling—for example, scaling the icons and text while the items scroll away from the center—extend the WearableLinearLayoutManager.LayoutCallback class and override the onLayoutFinished method.

The following code snippets show an example of customizing the scrolling of items to scale farther away from the center by extending the WearableLinearLayoutManager.LayoutCallback class:

Kotlin

/** How much icons should scale, at most.  */
private const val MAX_ICON_PROGRESS = 0.65f

class CustomScrollingLayoutCallback : WearableLinearLayoutManager.LayoutCallback() {

    private var progressToCenter: Float = 0f

    override fun onLayoutFinished(child: View, parent: RecyclerView) {
        child.apply {
            // Figure out % progress from top to bottom.
            val centerOffset = height.toFloat() / 2.0f / parent.height.toFloat()
            val yRelativeToCenterOffset = y / parent.height + centerOffset

            // Normalize for center.
            progressToCenter = Math.abs(0.5f - yRelativeToCenterOffset)
            // Adjust to the maximum scale.
            progressToCenter = Math.min(progressToCenter, MAX_ICON_PROGRESS)

            scaleX = 1 - progressToCenter
            scaleY = 1 - progressToCenter
        }
    }
}

Java

public class CustomScrollingLayoutCallback extends WearableLinearLayoutManager.LayoutCallback {
    /** How much icons should scale, at most. */
    private static final float MAX_ICON_PROGRESS = 0.65f;

    private float progressToCenter;

    @Override
    public void onLayoutFinished(View child, RecyclerView parent) {

        // Figure out % progress from top to bottom.
        float centerOffset = ((float) child.getHeight() / 2.0f) / (float) parent.getHeight();
        float yRelativeToCenterOffset = (child.getY() / parent.getHeight()) + centerOffset;

        // Normalize for center.
        progressToCenter = Math.abs(0.5f - yRelativeToCenterOffset);
        // Adjust to the maximum scale.
        progressToCenter = Math.min(progressToCenter, MAX_ICON_PROGRESS);

        child.setScaleX(1 - progressToCenter);
        child.setScaleY(1 - progressToCenter);
    }
}

Kotlin

wearableRecyclerView.layoutManager =
        WearableLinearLayoutManager(this, CustomScrollingLayoutCallback())

Java

CustomScrollingLayoutCallback customScrollingLayoutCallback =
                new CustomScrollingLayoutCallback();
wearableRecyclerView.setLayoutManager(
                new WearableLinearLayoutManager(this, customScrollingLayoutCallback));