Create a view class

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A well-designed custom view is like any other well-designed class. It encapsulates a specific set of functionality with a simple interface, uses CPU and memory efficiently, and so on. In addition to being a well-designed class, a custom view must do the following:

  • Conform to Android standards.
  • Provide custom styleable attributes that work with Android XML layouts.
  • Send accessibility events.
  • Be compatible with multiple Android platforms.

The Android framework provides a set of base classes and XML tags to help you create a view that meets all of these requirements. This lesson discusses how to use the Android framework to create the core functionality of a view class.

You can find additional information in Custom view components.

Subclass a view

All the view classes defined in the Android framework extend View. Your custom view can also extend View directly, or you can save time by extending one of the existing view subclasses, such as Button.

To allow Android Studio to interact with your view, at a minimum you must provide a constructor that takes a Context and an AttributeSet object as parameters. This constructor allows the layout editor to create and edit an instance of your view.


class PieChart(context: Context, attrs: AttributeSet) : View(context, attrs)


class PieChart extends View {
    public PieChart(Context context, AttributeSet attrs) {
        super(context, attrs);

Define custom attributes

To add a built-in View to your user interface, specify it in an XML element and control its appearance and behavior with element attributes. You can also add and style custom views using XML. To enable this behavior in your custom view, do the following:

  • Define custom attributes for your view in a <declare-styleable> resource element.
  • Specify values for the attributes in your XML layout.
  • Retrieve attribute values at runtime.
  • Apply the retrieved attribute values to your view.

This section discusses how to define custom attributes and specify their values. The next section covers retrieving and applying the values at runtime.

To define custom attributes, add <declare-styleable> resources to your project. It's customary to put these resources into a res/values/attrs.xml file. Here's an example of a attrs.xml file:

   <declare-styleable name="PieChart">
       <attr name="showText" format="boolean" />
       <attr name="labelPosition" format="enum">
           <enum name="left" value="0"/>
           <enum name="right" value="1"/>

This code declares two custom attributes, showText and labelPosition, that belong to a styleable entity named PieChart. The name of the styleable entity is, by convention, the same name as the name of the class that defines the custom view. Although it's not necessary to follow this convention, many popular code editors depend on this naming convention to provide statement completion.

Once you define custom attributes, you can use them in layout XML files just like built-in attributes. The only difference is that your custom attributes belong to a different namespace. Instead of belonging to the namespace, they belong to[your package name]. For example, here's how to use the attributes defined for PieChart:

<?xml version="1.0" encoding="utf-8"?>
<LinearLayout xmlns:android=""
     custom:labelPosition="left" />

To avoid having to repeat the long namespace URI, the sample uses an xmlns directive. This directive assigns the alias custom to the namespace You can choose any alias you want for your namespace.

Notice the name of the XML tag that adds the custom view to the layout. It is the fully qualified name of the custom view class. If your view class is an inner class, further qualify it with the name of the view's outer class. For instance, the PieChart class has an inner class called PieView. To use the custom attributes from this class, you use the tag com.example.customviews.charting.PieChart$PieView.

Apply custom attributes

When a view is created from an XML layout, all the attributes in the XML tag are read from the resource bundle and passed into the view's constructor as an AttributeSet. Although it's possible to read values from the AttributeSet directly, doing so has some disadvantages:

  • Resource references within attribute values are not resolved.
  • Styles are not applied.

Instead, pass the AttributeSet to obtainStyledAttributes(). This method passes back a TypedArray array of values that are already dereferenced and styled.

The Android resource compiler does a lot of work for you to make calling obtainStyledAttributes() easier. For each <declare-styleable> resource in the res/ directory, the generated defines both an array of attribute IDs and a set of constants that define the index for each attribute in the array. You use the predefined constants to read the attributes from the TypedArray. Here's how the PieChart class reads its attributes:


init {
            0, 0).apply {

        try {
            mShowText = getBoolean(R.styleable.PieChart_showText, false)
            textPos = getInteger(R.styleable.PieChart_labelPosition, 0)
        } finally {


public PieChart(Context context, AttributeSet attrs) {
   super(context, attrs);
   TypedArray a = context.getTheme().obtainStyledAttributes(
        0, 0);

   try {
       mShowText = a.getBoolean(R.styleable.PieChart_showText, false);
       textPos = a.getInteger(R.styleable.PieChart_labelPosition, 0);
   } finally {

Note that TypedArray objects are a shared resource and must be recycled after use.

Add properties and events

Attributes are a powerful way of controlling the behavior and appearance of views, but they can only be read when the view is initialized. To provide dynamic behavior, expose a property getter and setter pair for each custom attribute. The following snippet shows how PieChart exposes a property called showText:


fun isShowText(): Boolean {
    return mShowText

fun setShowText(showText: Boolean) {
    mShowText = showText


public boolean isShowText() {
   return mShowText;

public void setShowText(boolean showText) {
   mShowText = showText;

Notice that setShowText calls invalidate() and requestLayout(). These calls are crucial to ensure that the view behaves reliably. You need to invalidate the view after any change to its properties that might change its appearance, so that the system knows it needs to be redrawn. Likewise, you need to request a new layout if a property changes in a way that might affect the size or shape of the view. Forgetting these method calls can cause hard-to-find bugs.

Custom views must also support event listeners to communicate important events. For instance, PieChart exposes a custom event called OnCurrentItemChanged to notify listeners that the user rotated the pie chart to focus on a new pie slice.

It's easy to forget to expose properties and events, especially when you're the only user of the custom view. Taking time to carefully define your view's interface reduces future maintenance costs. A good rule to follow is to always expose any property that affects the visible appearance or behavior of your custom view.

Design for accessibility

Your custom view must support a wide range of users. This includes users with disabilities that prevent them from seeing or using a touchscreen. To support users with disabilities, do the following:

  • Label your input fields using the android:contentDescription attribute.
  • Send accessibility events by calling sendAccessibilityEvent() when appropriate.
  • Support alternate controllers, such as a D-pad or trackball.

For more information about creating accessible views, see Make apps more accessible.