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| UI components |
An app playing media requires user interface components for displaying media and controlling playback. The ExoPlayer library includes a UI module that contains a number of UI components. To depend on the UI module add a dependency as shown below.
implementation 'com.google.android.exoplayer:exoplayer-ui:2.X.X'
{: .language-gradle}
The most important components are StyledPlayerControlView, StyledPlayerView,
PlayerControlView and PlayerView. The styled variants provide a more
polished user experience, however are harder to customize.
- [
StyledPlayerControlView][] and [PlayerControlView][] are views for controlling playbacks. They display standard playback controls including a play/pause button, fast-forward and rewind buttons, and a seek bar. - [
StyledPlayerView][] and [PlayerView][] are high level views for playbacks. They display video, subtitles and album art during playback, as well as playback controls using aStyledPlayerControlVieworPlayerControlViewrespectively.
All four views have a setPlayer method for attaching and detaching (by passing
null) player instances.
Player views
StyledPlayerView and PlayerView can be used for both video and audio
playbacks. They render video and subtitles in the case of video playback, and
can display artwork included as metadata in audio files. You can include them in
your layout files like any other UI component. For example, a StyledPlayerView
can be included with the following XML:
<com.google.android.exoplayer2.ui.StyledPlayerView
android:id="@+id/player_view"
android:layout_width="match_parent"
android:layout_height="match_parent"
app:show_buffering="when_playing"
app:show_shuffle_button="true"/>
{: .language-xml}
The snippet above illustrates that StyledPlayerView provides several
attributes. These attributes can be used to customize the view's behavior, as
well as its look and feel. Most of these attributes have corresponding setter
methods, which can be used to customize the view at runtime. The
[StyledPlayerView][] Javadoc lists these attributes and setter methods in
more detail. [PlayerView][] defines similar attributes.
Once the view is declared in the layout file, it can be looked up in the
onCreate method of the activity:
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
// ...
playerView = findViewById(R.id.player_view);
}
{: .language-java}
When a player has been initialized, it can be attached to the view by calling
setPlayer:
// Instantiate the player.
player = new ExoPlayer.Builder(context).build();
// Attach player to the view.
playerView.setPlayer(player);
// Set the media item to be played.
player.setMediaItem(mediaItem);
// Prepare the player.
player.prepare();
{: .language-java}
Choosing a surface type
The surface_type attribute of StyledPlayerView and PlayerView lets you set
the type of surface used for video playback. Besides the values
spherical_gl_surface_view (which is a special value for spherical video
playback) and video_decoder_gl_surface_view (which is for video rendering
using extension renderers), the allowed values are surface_view,
texture_view and none. If the view is for audio playback only, none should
be used to avoid having to create a surface, since doing so can be expensive.
If the view is for regular video playback then surface_view or texture_view
should be used. SurfaceView has a number of benefits over TextureView for
video playback:
- Significantly lower power consumption on many devices.
- More accurate frame timing, resulting in smoother video playback.
- Support for secure output when playing DRM protected content.
- The ability to render video content at the full resolution of the display on Android TV devices that upscale the UI layer.
SurfaceView should therefore be preferred over TextureView where possible.
TextureView should be used only if SurfaceView does not meet your needs. One
example is where smooth animations or scrolling of the video surface is required
prior to Android N, as described below. For this case, it's preferable to use
TextureView only when [SDK_INT][] is less than 24 (Android N) and
SurfaceView otherwise.
SurfaceView rendering wasn't properly synchronized with view animations until
Android N. On earlier releases this could result in unwanted effects when a
SurfaceView was placed into scrolling container, or when it was subjected to
animation. Such effects included the view's contents appearing to lag slightly
behind where it should be displayed, and the view turning black when subjected
to animation. To achieve smooth animation or scrolling of video prior to Android
N, it's therefore necessary to use TextureView rather than SurfaceView.
{:.info}
Some Android TV devices run their UI layer at a resolution that's lower than the
full resolution of the display, upscaling it for presentation to the user. For
example, the UI layer may be run at 1080p on an Android TV that has a 4K
display. On such devices, SurfaceView must be used to render content at the
full resolution of the display. The full resolution of the display (in its
current display mode) can be queried using [Util.getCurrentDisplayModeSize][].
The UI layer resolution can be queried using Android's [Display.getSize] API.
{:.info}
Player control views
When using StyledPlayerView, a StyledPlayerControlView is used internally to
provide playback controls. When using a PlayerView, a PlayerControlView is
used internally.
For specific use cases StyledPlayerControlView and PlayerControlView can
also be used as standalone components. They can be included in your layout file
as normal. For example:
<com.google.android.exoplayer2.ui.StyledPlayerControlView
android:id="@+id/player_control_view"
android:layout_width="match_parent"
android:layout_height="match_parent"/>
{: .language-xml}
The [StyledPlayerControlView][] and [PlayerControlView][] Javadoc list the
the available attributes and setter methods for these components. Looking them
up and attaching the player is similar to the example above:
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
// ...
playerControlView = findViewById(R.id.player_control_view);
}
private void initializePlayer() {
// Instantiate the player.
player = new ExoPlayer.Builder(context).build();
// Attach player to the view.
playerControlView.setPlayer(player);
// Set the media item to be played.
player.setMediaItem(mediaItem);
// Prepare the player.
player.prepare();
}
{: .language-java}
Customization
Where significant customization is required, we expect that app developers will implement their own UI components rather than using those provided by ExoPlayer's UI module. That said, the provided UI components do allow for customization by setting attributes (as described above), overriding drawables, overriding layout files, and by specifying custom layout files.
Overriding drawables
The drawables used by StyledPlayerControlView and PlayerControlView
(with their default layout files) can be overridden by drawables with the same
names defined in your application. See the [StyledPlayerControlView][] and
[PlayerControlView][] Javadoc for a list of drawables that can be overridden.
Note that overriding these drawables will also affect the appearance of
PlayerView and StyledPlayerView, since they use these views internally.
Overriding layout files
All of the view components inflate their layouts from corresponding layout
files, which are specified in their Javadoc. For example when a
PlayerControlView is instantiated, it inflates its layout from
exo_player_control_view.xml. To customize these layouts, an application
can define layout files with the same names in its own res/layout*
directories. These layout files will override the ones provided by the ExoPlayer
library.
As an example, suppose we want our playback controls to consist of only a
play/pause button positioned in the center of the view. We can achieve this by
creating an exo_player_control_view.xml file in the application’s
res/layout directory, containing:
<FrameLayout xmlns:android="http://schemas.android.com/apk/res/android"
android:layout_width="match_parent"
android:layout_height="match_parent">
<ImageButton android:id="@id/exo_play"
android:layout_width="100dp"
android:layout_height="100dp"
android:layout_gravity="center"
android:background="#CC000000"
style="@style/ExoMediaButton.Play"/>
<ImageButton android:id="@id/exo_pause"
android:layout_width="100dp"
android:layout_height="100dp"
android:layout_gravity="center"
android:background="#CC000000"
style="@style/ExoMediaButton.Pause"/>
</FrameLayout>
{: .language-xml}
The change in visual appearance compared to the standard controls is shown below.
{% include figure.html url="/images/overriding-layoutfiles.png" index="1" caption="Replacing the standard playback controls (left) with custom controls (right)" %}
Custom layout files
Overriding a layout file is an excellent solution for changing the layout across
the whole of an application, but what if a custom layout is required only in a
single place? To achieve this, first define a layout file as though overriding
one of the default layouts, but this time giving it a different file name, for
example custom_controls.xml. Second, use an attribute to indicate that this
layout should be used when inflating the view. For example when using
PlayerView, the layout inflated to provide the playback controls can be
specified using the controller_layout_id attribute:
<com.google.android.exoplayer2.ui.PlayerView android:id="@+id/player_view"
android:layout_width="match_parent"
android:layout_height="match_parent"
app:controller_layout_id="@layout/custom_controls"/>
{: .language-xml}
[PlayerView]: {{ site.exo_sdk }}/ui/PlayerView.html
[PlayerControlView]: {{ site.exo_sdk }}/ui/PlayerControlView.html
[StyledPlayerView]: {{ site.exo_sdk }}/ui/StyledPlayerView.html
[StyledPlayerControlView]: {{ site.exo_sdk }}/ui/StyledPlayerControlView.html
[SDK_INT]: {{ site.android_sdk }}/android/os/Build.VERSION.html#SDK_INT
[Util.getCurrentDisplayModeSize]: {{ site.exo_sdk }}/util/Util.html#getCurrentDisplayModeSize(android.content.Context)
[Display.getSize]: {{ site.android_sdk }}/android/view/Display.html#getSize(android.graphics.Point)