docs/html/training/basics/activity-lifecycle/starting.jd - platform/frameworks/base - Git at Google

 page.title=Starting an Activity
 parent.title=Managing the Activity Lifecycle
 parent.link=index.html

 trainingnavtop=true
 next.title=Pausing and Resuming an Activity
 next.link=pausing.html

 @jd:body


 <div id="tb-wrapper">
   <div id="tb">

     <h2>This lesson teaches you to</h2>
 <ol>
   <li><a href="#lifecycle-states">Understand the Lifecycle Callbacks</a></li>
   <li><a href="#launching-activity">Specify Your App's Launcher Activity</a></li>
   <li><a href="#Create">Create a New Instance</a></li>
   <li><a href="#Destroy">Destroy the Activity</a></li>
 </ol>

     <h2>You should also read</h2>
     <ul>
       <li><a href="{@docRoot}guide/components/activities.html">Activities</a></li>
     </ul>

 <h2>Try it out</h2>

 <div class="download-box">
  <a href="http://developer.android.com/shareables/training/ActivityLifecycle.zip"
 class="button">Download the demo</a>
  <p class="filename">ActivityLifecycle.zip</p>
 </div>

   </div>
 </div>

 <p>Unlike other programming paradigms in which apps are launched with a {@code main()} method, the
 Android system initiates code in an {@link android.app.Activity} instance by invoking specific
 callback methods that correspond to specific stages of its
 lifecycle. There is a sequence of callback methods that start up an activity and a sequence of
 callback methods that tear down an activity.</p>

 <p>This lesson provides an overview of the most important lifecycle methods and shows you how to
 handle the first lifecycle callback that creates a new instance of your activity.</p>


 <h2 id="lifecycle-states">Understand the Lifecycle Callbacks</h2>

 <p>During the life of an activity, the system calls a core set of lifecycle methods in
 a sequence similar to a step pyramid. That is, each stage of the
 activity lifecycle is a separate step on the pyramid. As the system creates a new activity instance,
 each callback method moves the activity state one step toward the top. The top of the pyramid is the
 point at which the activity is running in the foreground and the user can interact with it.</p>

 <p>As the user begins to leave the activity, the system calls other methods that move the activity
 state back down the pyramid in order to dismantle the activity. In some cases, the activity will
 move only part way down the pyramid and wait (such as when the user switches to another app), from
 which point the activity can move back to the top (if the user returns to the activity) and
 resume where the user left off.</p>


 <img src="{@docRoot}images/training/basics/basic-lifecycle.png" />
 <p class="img-caption"><strong>Figure 1.</strong> A simplified illustration of the Activity
 lifecycle, expressed as a step pyramid. This shows how, for every callback used to take
 the activity a step toward the Resumed state at the top, there's a callback method
 that takes the activity a step down. The activity can also return to the resumed state from the
 Paused and Stopped state.</p>


 <p>Depending on the complexity of your activity, you probably don't need to implement all the
 lifecycle methods. However, it's important that you understand each one and implement those that
 ensure your app behaves the way users expect. Implementing your activity lifecycle methods properly
 ensures your app behaves well in several ways, including that it:</p>
 <ul>
   <li>Does not crash if the user receives a phone call or switches to another app
 while using your app.</li>
   <li>Does not consume valuable system resources when the user is not actively using
 it.</li>
   <li>Does not lose the user's progress if they leave your app and return to it at a
 later time.</li>
   <li>Does not crash or lose the user's progress when the screen rotates between
 landscape and portrait orientation.</li>
 </ul>

 <!--
 <p class="table-caption"><strong>Table 1.</strong> Activity lifecycle state pairs and callback
 methods.</p>
 <table>
   <tr>
     <th scope="col">Lifecycle State</th>
     <th scope="col">Startup Method</th>
     <th scope="col">Teardown Method</th>
   </tr>
   <tr>
     <td>Created / Destroyed</td>
     <td>{@link android.app.Activity#onCreate onCreate()}</td>
     <td>{@link android.app.Activity#onDestroy()}</td>
   </tr>
   <tr>
     <td>Started / Stopped</td>
     <td>{@link android.app.Activity#onStart()}</td>
     <td>{@link android.app.Activity#onStop()}</td>
   </tr>
   <tr>
     <td>Resumed / Resumed</td>
     <td>{@link android.app.Activity#onResume()}</td>
     <td>{@link android.app.Activity#onPause()}</td>
   </tr>
 </table>
 -->

 <p>As you'll learn in the following lessons, there are several situations in which an activity
 transitions between different states that are illustrated in figure 1. However, only three of
 these states can be static. That is, the activity can exist in one of only three states for an
 extended period of time:</p>
 <dl>
   <dt>Resumed</dt>
     <dd>In this state, the activity is in the foreground and the user can interact with it.
 (Also sometimes referred to as the "running" state.)</dd>
   <dt>Paused</dt>
     <dd>In this state, the activity is partially obscured by another activity&mdash;the
 other activity that's in the foreground is semi-transparent or doesn't cover the entire screen. The
 paused activity does not receive user input and cannot execute any code.
   <dt>Stopped</dt>
     <dd>In this state, the activity is completely hidden and not visible to the user; it is
 considered to be in the background. While stopped, the activity instance and all its state
 information such as member variables is retained, but it cannot execute any code.</dd>
 </dl>

 <p>The other states (Created and Started) are transient and the system quickly moves from them to
 the next state by calling the next lifecycle callback method. That is, after the system calls
 {@link android.app.Activity#onCreate onCreate()}, it quickly calls {@link
 android.app.Activity#onStart()}, which is quickly followed by {@link
 android.app.Activity#onResume()}.</p>

 <p>That's it for the basic activity lifecycle. Now you'll start learning about some of the
 specific lifecycle behaviors.</p>


 <h2 id="launching-activity">Specify Your App's Launcher Activity</h2>

 <p>When the user selects your app icon from the Home screen, the system calls the {@link
 android.app.Activity#onCreate onCreate()} method for the {@link android.app.Activity} in your app
 that you've declared to be the "launcher" (or "main") activity. This is the activity that serves as
 the main entry point to your app's user interface.</p>

 <p>You can define which activity to use as the main activity in the Android manifest file, <a
 href="{@docRoot}guide/topics/manifest/manifest-intro.html">{@code AndroidManifest.xml}</a>, which is
 at the root of your project directory.</p>

 <p>The main activity for your app must be declared in the manifest with an <a
 href="{@docRoot}guide/topics/manifest/intent-filter-element.html">{@code
 &lt;intent-filter>}</a> that includes the {@link
 android.content.Intent#ACTION_MAIN MAIN} action and
 {@link android.content.Intent#CATEGORY_LAUNCHER LAUNCHER} category. For example:</p>

 <pre>
 &lt;activity android:name=".MainActivity" android:label="&#64;string/app_name">
     &lt;intent-filter>
         &lt;action android:name="android.intent.action.MAIN" />
         &lt;category android:name="android.intent.category.LAUNCHER" />
     &lt;/intent-filter>
 &lt;/activity>
 </pre>

 <p class="note"><strong>Note:</strong> When you create a new Android project with the Android SDK
 tools, the default project files include an {@link android.app.Activity} class that's declared in
 the manifest with this filter.</p>

 <p>If either the {@link android.content.Intent#ACTION_MAIN MAIN} action or
 {@link android.content.Intent#CATEGORY_LAUNCHER LAUNCHER} category are not declared for one of your
 activities, then your app icon will not appear in the Home screen's list of apps.</p>


 <h2 id="Create">Create a New Instance</h2>

 <p>Most apps include several different activities that allow the user to perform different actions.
 Whether an activity is the main activity that's created when the user clicks your app icon or a
 different activity that your app starts in response to a user action, the system creates
 every new instance of {@link android.app.Activity} by calling its {@link
 android.app.Activity#onCreate onCreate()} method.</p>

 <p>You must implement the {@link android.app.Activity#onCreate onCreate()} method to perform basic
 application startup logic that should happen only once for the entire life of the activity. For
 example, your implementation of {@link android.app.Activity#onCreate onCreate()} should define the
 user interface and possibly instantiate some class-scope variables.</p>

 <p>For example, the following example of the {@link android.app.Activity#onCreate onCreate()}
 method shows some code that performs some fundamental setup for the activity, such as
 declaring the user interface (defined in an XML layout file), defining member variables,
 and configuring some of the UI.</p>

 <pre>
 TextView mTextView; // Member variable for text view in the layout

 &#64;Override
 public void onCreate(Bundle savedInstanceState) {
     super.onCreate(savedInstanceState);

     // Set the user interface layout for this Activity
     // The layout file is defined in the project res/layout/main_activity.xml file
     setContentView(R.layout.main_activity);

     // Initialize member TextView so we can manipulate it later
     mTextView = (TextView) findViewById(R.id.text_message);

     // Make sure we're running on Honeycomb or higher to use ActionBar APIs
     if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.HONEYCOMB) {
         // For the main activity, make sure the app icon in the action bar
         // does not behave as a button
         ActionBar actionBar = getActionBar();
         actionBar.setHomeButtonEnabled(false);
     }
 }
 </pre>

 <p class="caution"><strong>Caution:</strong> Using the {@link android.os.Build.VERSION#SDK_INT} to
 prevent older system's from executing new APIs works in this way on Android 2.0 (API level
 5) and higher only. Older versions will encounter a runtime exception.</p>

 <p>Once the {@link android.app.Activity#onCreate onCreate()} finishes execution, the system
 calls the {@link android.app.Activity#onStart()} and {@link android.app.Activity#onResume()} methods
 in quick succession. Your activity never resides in the Created or Started states. Technically, the
 activity becomes visible to the user when {@link android.app.Activity#onStart()} is called, but
 {@link android.app.Activity#onResume()} quickly follows and the activity remains in the Resumed
 state until something occurs to change that, such as when a phone call is received, the user
 navigates to another activity, or the device screen turns off.</p>

 <p>In the other lessons that follow, you'll see how the other start up methods, {@link
 android.app.Activity#onStart()} and {@link android.app.Activity#onResume()}, are useful during your
 activity's lifecycle when used to resume the activity from the Paused or Stopped states.</p>

 <p class="note"><strong>Note:</strong> The {@link android.app.Activity#onCreate onCreate()}
 method includes a parameter called <code>savedInstanceState</code> that's discussed in the
 latter lesson about <a href="recreating.html">Recreating an Activity</a>.</p>


 <img src="{@docRoot}images/training/basics/basic-lifecycle-create.png" />
 <p class="img-caption"><strong>Figure 2.</strong> Another illustration of the activity lifecycle
 structure with an emphasis on the three main callbacks that the system calls in sequence when
 creating a new instance of the activity: {@link android.app.Activity#onCreate onCreate()}, {@link
 android.app.Activity#onStart()}, and {@link android.app.Activity#onResume()}. Once this sequence of
 callbacks complete, the activity reaches the Resumed state where users can interact with the
 activity until they switch to a different activity.</p>


 <h2 id="Destroy">Destroy the Activity</h2>

 <p>While the activity's first lifecycle callback is {@link android.app.Activity#onCreate
 onCreate()}, its very last callback is  {@link android.app.Activity#onDestroy}. The system calls
 this method on your activity as the final
 signal that your activity instance is being completely removed from the system memory.</p>

 <p>Most apps don't need to implement this method because local class references are destroyed
 with the activity and your activity should perform most cleanup during {@link
 android.app.Activity#onPause} and {@link android.app.Activity#onStop}. However, if your
 activity includes background threads that you created during {@link
 android.app.Activity#onCreate onCreate()} or other long-running resources that could
 potentially leak memory if not properly closed, you should kill them during  {@link
 android.app.Activity#onDestroy}.</p>

 <pre>
 &#64;Override
 public void onDestroy() {
     super.onDestroy();  // Always call the superclass

     // Stop method tracing that the activity started during onCreate()
     android.os.Debug.stopMethodTracing();
 }
 </pre>

 <p class="note"><strong>Note:</strong> The system calls {@link android.app.Activity#onDestroy}
 after it has already called {@link android.app.Activity#onPause} and {@link
 android.app.Activity#onStop} in all situations except one: when you call {@link
 android.app.Activity#finish()} from within the {@link android.app.Activity#onCreate onCreate()}
 method. In some cases, such as when your activity operates as a temporary decision maker to
 launch another activity, you might call {@link android.app.Activity#finish()} from within {@link
 android.app.Activity#onCreate onCreate()} to destroy the activity. In this case, the system
 immediately calls {@link android.app.Activity#onDestroy} without calling any of the other
 lifecycle methods.</p>
	page.title=Starting an Activity
	parent.title=Managing the Activity Lifecycle
	parent.link=index.html

	trainingnavtop=true
	next.title=Pausing and Resuming an Activity
	next.link=pausing.html

	@jd:body


	<div id="tb-wrapper">
	<div id="tb">

	<h2>This lesson teaches you to</h2>
	<ol>
	<li><a href="#lifecycle-states">Understand the Lifecycle Callbacks</a></li>
	<li><a href="#launching-activity">Specify Your App's Launcher Activity</a></li>
	<li><a href="#Create">Create a New Instance</a></li>
	<li><a href="#Destroy">Destroy the Activity</a></li>
	</ol>

	<h2>You should also read</h2>
	<ul>
	<li><a href="{@docRoot}guide/components/activities.html">Activities</a></li>
	</ul>

	<h2>Try it out</h2>

	<div class="download-box">
	<a href="http://developer.android.com/shareables/training/ActivityLifecycle.zip"
	class="button">Download the demo</a>
	<p class="filename">ActivityLifecycle.zip</p>
	</div>

	</div>
	</div>

	<p>Unlike other programming paradigms in which apps are launched with a {@code main()} method, the
	Android system initiates code in an {@link android.app.Activity} instance by invoking specific
	callback methods that correspond to specific stages of its
	lifecycle. There is a sequence of callback methods that start up an activity and a sequence of
	callback methods that tear down an activity.</p>

	<p>This lesson provides an overview of the most important lifecycle methods and shows you how to
	handle the first lifecycle callback that creates a new instance of your activity.</p>



	<h2 id="lifecycle-states">Understand the Lifecycle Callbacks</h2>

	<p>During the life of an activity, the system calls a core set of lifecycle methods in
	a sequence similar to a step pyramid. That is, each stage of the
	activity lifecycle is a separate step on the pyramid. As the system creates a new activity instance,
	each callback method moves the activity state one step toward the top. The top of the pyramid is the
	point at which the activity is running in the foreground and the user can interact with it.</p>

	<p>As the user begins to leave the activity, the system calls other methods that move the activity
	state back down the pyramid in order to dismantle the activity. In some cases, the activity will
	move only part way down the pyramid and wait (such as when the user switches to another app), from
	which point the activity can move back to the top (if the user returns to the activity) and
	resume where the user left off.</p>


	<img src="{@docRoot}images/training/basics/basic-lifecycle.png" />
	<p class="img-caption"><strong>Figure 1.</strong> A simplified illustration of the Activity
	lifecycle, expressed as a step pyramid. This shows how, for every callback used to take
	the activity a step toward the Resumed state at the top, there's a callback method
	that takes the activity a step down. The activity can also return to the resumed state from the
	Paused and Stopped state.</p>


	<p>Depending on the complexity of your activity, you probably don't need to implement all the
	lifecycle methods. However, it's important that you understand each one and implement those that
	ensure your app behaves the way users expect. Implementing your activity lifecycle methods properly
	ensures your app behaves well in several ways, including that it:</p>
	<ul>
	<li>Does not crash if the user receives a phone call or switches to another app
	while using your app.</li>
	<li>Does not consume valuable system resources when the user is not actively using
	it.</li>
	<li>Does not lose the user's progress if they leave your app and return to it at a
	later time.</li>
	<li>Does not crash or lose the user's progress when the screen rotates between
	landscape and portrait orientation.</li>
	</ul>

	<!--
	<p class="table-caption"><strong>Table 1.</strong> Activity lifecycle state pairs and callback
	methods.</p>
	<table>
	<tr>
	<th scope="col">Lifecycle State</th>
	<th scope="col">Startup Method</th>
	<th scope="col">Teardown Method</th>
	</tr>
	<tr>
	<td>Created / Destroyed</td>
	<td>{@link android.app.Activity#onCreate onCreate()}</td>
	<td>{@link android.app.Activity#onDestroy()}</td>
	</tr>
	<tr>
	<td>Started / Stopped</td>
	<td>{@link android.app.Activity#onStart()}</td>
	<td>{@link android.app.Activity#onStop()}</td>
	</tr>
	<tr>
	<td>Resumed / Resumed</td>
	<td>{@link android.app.Activity#onResume()}</td>
	<td>{@link android.app.Activity#onPause()}</td>
	</tr>
	</table>
	-->

	<p>As you'll learn in the following lessons, there are several situations in which an activity
	transitions between different states that are illustrated in figure 1. However, only three of
	these states can be static. That is, the activity can exist in one of only three states for an
	extended period of time:</p>
	<dl>
	<dt>Resumed</dt>
	<dd>In this state, the activity is in the foreground and the user can interact with it.
	(Also sometimes referred to as the "running" state.)</dd>
	<dt>Paused</dt>
	<dd>In this state, the activity is partially obscured by another activity—the
	other activity that's in the foreground is semi-transparent or doesn't cover the entire screen. The
	paused activity does not receive user input and cannot execute any code.
	<dt>Stopped</dt>
	<dd>In this state, the activity is completely hidden and not visible to the user; it is
	considered to be in the background. While stopped, the activity instance and all its state
	information such as member variables is retained, but it cannot execute any code.</dd>
	</dl>

	<p>The other states (Created and Started) are transient and the system quickly moves from them to
	the next state by calling the next lifecycle callback method. That is, after the system calls
	{@link android.app.Activity#onCreate onCreate()}, it quickly calls {@link
	android.app.Activity#onStart()}, which is quickly followed by {@link
	android.app.Activity#onResume()}.</p>

	<p>That's it for the basic activity lifecycle. Now you'll start learning about some of the
	specific lifecycle behaviors.</p>



	<h2 id="launching-activity">Specify Your App's Launcher Activity</h2>

	<p>When the user selects your app icon from the Home screen, the system calls the {@link
	android.app.Activity#onCreate onCreate()} method for the {@link android.app.Activity} in your app
	that you've declared to be the "launcher" (or "main") activity. This is the activity that serves as
	the main entry point to your app's user interface.</p>

	<p>You can define which activity to use as the main activity in the Android manifest file, <a
	href="{@docRoot}guide/topics/manifest/manifest-intro.html">{@code AndroidManifest.xml}</a>, which is
	at the root of your project directory.</p>

	<p>The main activity for your app must be declared in the manifest with an <a
	href="{@docRoot}guide/topics/manifest/intent-filter-element.html">{@code
	<intent-filter>}</a> that includes the {@link
	android.content.Intent#ACTION_MAIN MAIN} action and
	{@link android.content.Intent#CATEGORY_LAUNCHER LAUNCHER} category. For example:</p>

	<pre>
	<activity android:name=".MainActivity" android:label="@string/app_name">
	<intent-filter>
	<action android:name="android.intent.action.MAIN" />
	<category android:name="android.intent.category.LAUNCHER" />
	</intent-filter>
	</activity>
	</pre>

	<p class="note"><strong>Note:</strong> When you create a new Android project with the Android SDK
	tools, the default project files include an {@link android.app.Activity} class that's declared in
	the manifest with this filter.</p>

	<p>If either the {@link android.content.Intent#ACTION_MAIN MAIN} action or
	{@link android.content.Intent#CATEGORY_LAUNCHER LAUNCHER} category are not declared for one of your
	activities, then your app icon will not appear in the Home screen's list of apps.</p>



	<h2 id="Create">Create a New Instance</h2>

	<p>Most apps include several different activities that allow the user to perform different actions.
	Whether an activity is the main activity that's created when the user clicks your app icon or a
	different activity that your app starts in response to a user action, the system creates
	every new instance of {@link android.app.Activity} by calling its {@link
	android.app.Activity#onCreate onCreate()} method.</p>

	<p>You must implement the {@link android.app.Activity#onCreate onCreate()} method to perform basic
	application startup logic that should happen only once for the entire life of the activity. For
	example, your implementation of {@link android.app.Activity#onCreate onCreate()} should define the
	user interface and possibly instantiate some class-scope variables.</p>

	<p>For example, the following example of the {@link android.app.Activity#onCreate onCreate()}
	method shows some code that performs some fundamental setup for the activity, such as
	declaring the user interface (defined in an XML layout file), defining member variables,
	and configuring some of the UI.</p>

	<pre>
	TextView mTextView; // Member variable for text view in the layout

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

	// Set the user interface layout for this Activity
	// The layout file is defined in the project res/layout/main_activity.xml file
	setContentView(R.layout.main_activity);

	// Initialize member TextView so we can manipulate it later
	mTextView = (TextView) findViewById(R.id.text_message);

	// Make sure we're running on Honeycomb or higher to use ActionBar APIs
	if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.HONEYCOMB) {
	// For the main activity, make sure the app icon in the action bar
	// does not behave as a button
	ActionBar actionBar = getActionBar();
	actionBar.setHomeButtonEnabled(false);
	}
	}
	</pre>

	<p class="caution"><strong>Caution:</strong> Using the {@link android.os.Build.VERSION#SDK_INT} to
	prevent older system's from executing new APIs works in this way on Android 2.0 (API level
	5) and higher only. Older versions will encounter a runtime exception.</p>

	<p>Once the {@link android.app.Activity#onCreate onCreate()} finishes execution, the system
	calls the {@link android.app.Activity#onStart()} and {@link android.app.Activity#onResume()} methods
	in quick succession. Your activity never resides in the Created or Started states. Technically, the
	activity becomes visible to the user when {@link android.app.Activity#onStart()} is called, but
	{@link android.app.Activity#onResume()} quickly follows and the activity remains in the Resumed
	state until something occurs to change that, such as when a phone call is received, the user
	navigates to another activity, or the device screen turns off.</p>

	<p>In the other lessons that follow, you'll see how the other start up methods, {@link
	android.app.Activity#onStart()} and {@link android.app.Activity#onResume()}, are useful during your
	activity's lifecycle when used to resume the activity from the Paused or Stopped states.</p>

	<p class="note"><strong>Note:</strong> The {@link android.app.Activity#onCreate onCreate()}
	method includes a parameter called <code>savedInstanceState</code> that's discussed in the
	latter lesson about <a href="recreating.html">Recreating an Activity</a>.</p>


	<img src="{@docRoot}images/training/basics/basic-lifecycle-create.png" />
	<p class="img-caption"><strong>Figure 2.</strong> Another illustration of the activity lifecycle
	structure with an emphasis on the three main callbacks that the system calls in sequence when
	creating a new instance of the activity: {@link android.app.Activity#onCreate onCreate()}, {@link
	android.app.Activity#onStart()}, and {@link android.app.Activity#onResume()}. Once this sequence of
	callbacks complete, the activity reaches the Resumed state where users can interact with the
	activity until they switch to a different activity.</p>







	<h2 id="Destroy">Destroy the Activity</h2>

	<p>While the activity's first lifecycle callback is {@link android.app.Activity#onCreate
	onCreate()}, its very last callback is {@link android.app.Activity#onDestroy}. The system calls
	this method on your activity as the final
	signal that your activity instance is being completely removed from the system memory.</p>

	<p>Most apps don't need to implement this method because local class references are destroyed
	with the activity and your activity should perform most cleanup during {@link
	android.app.Activity#onPause} and {@link android.app.Activity#onStop}. However, if your
	activity includes background threads that you created during {@link
	android.app.Activity#onCreate onCreate()} or other long-running resources that could
	potentially leak memory if not properly closed, you should kill them during {@link
	android.app.Activity#onDestroy}.</p>

	<pre>
	@Override
	public void onDestroy() {
	super.onDestroy(); // Always call the superclass

	// Stop method tracing that the activity started during onCreate()
	android.os.Debug.stopMethodTracing();
	}
	</pre>

	<p class="note"><strong>Note:</strong> The system calls {@link android.app.Activity#onDestroy}
	after it has already called {@link android.app.Activity#onPause} and {@link
	android.app.Activity#onStop} in all situations except one: when you call {@link
	android.app.Activity#finish()} from within the {@link android.app.Activity#onCreate onCreate()}
	method. In some cases, such as when your activity operates as a temporary decision maker to
	launch another activity, you might call {@link android.app.Activity#finish()} from within {@link
	android.app.Activity#onCreate onCreate()} to destroy the activity. In this case, the system
	immediately calls {@link android.app.Activity#onDestroy} without calling any of the other
	lifecycle methods.</p>