docs/html/guide/topics/graphics/overview.jd - platform/frameworks/base - Git at Google

 page.title=Animation and Graphics Overview
 @jd:body

   <p>Android provides a variety of powerful APIs for applying animation to UI elements and drawing custom
   2D and 3D graphics. The sections below provide an overview of the APIs and system capabilities available
   and help you decide with approach is best for your needs.</p>

   <h3 id="animation">Animation</h3>

   <p>The Android framework provides two animation systems: property animation
   (introduced in Android 3.0) and view animation. Both animation systems are viable options,
   but the property animation system, in general, is the preferred method to use, because it
   is more flexible and offers more features. In addition to these two systems, you can utilize Drawable
   animation, which allows you to load drawable resources and display them one frame after
   another.</p>

 <dl>
 <dt><strong><a href="{@docRoot}guide/topics/graphics/prop-animation.html">Property
 Animation</a></strong></dt>
 <dd>Introduced in Android 3.0 (API level 11), the property animation system lets you
 animate properties of any object, including ones that are not rendered to the screen. The system is
 extensible and lets you animate properties of custom types as well.</dd>

 <dt><strong><a href="{@docRoot}guide/topics/graphics/view-animation.html">View
 Animation</a></strong></dt>
 <dd>View Animation is the older system and can only be used for Views. It is relatively easy to
 setup and offers enough capabilities to meet many application's needs.</dd>
 </dl>

 <dt><strong><a href="{@docRoot}guide/topics/graphics/drawable-animation.html">Drawable
 Animation</a></strong></dt>
 <dd>Drawable animation involves displaying {@link android.graphics.drawable.Drawable} resources one
 after another, like a roll of film. This method of animation is useful if you want to animate
 things that are easier to represent with Drawable resources, such as a progression of bitmaps.</dd>

 <h3 id="graphics">2D and 3D Graphics</h3>

 <p>When writing an application, it's important to consider exactly what your graphical demands will be.
 Varying graphical tasks are best accomplished with varying techniques. For example, graphics and animations
 for a rather static application should be implemented much differently than graphics and animations
 for an interactive game. Here, we'll discuss a few of the options you have for drawing graphics
 on Android and which tasks they're best suited for.
 </p>

 <dl>
 <dt><strong><a href="{@docRoot}guide/topics/graphics/2d-graphics.html">Canvas and
 Drawables</a></strong></dt>
 <dd>Android provides a set of {@link android.view.View} widgets that provide general functionality
 for a wide array of user interfaces. You can also extend these widgets to modify the way they
 look or behave. In addition, you can do your own custom 2D rendering using the various drawing
 methods contained in the {@link android.graphics.Canvas} class or create {@link
 android.graphics.drawable.Drawable} objects for things such as textured buttons or frame-by-frame
 animations.</dd>

 <dt><strong><a href="{@docRoot}guide/topics/graphics/hardware-accel.html">Hardware
 Acceleration</a></strong></dt>
 <dd>Beginning in Android 3.0, you can hardware accelerate the majority of
 the drawing done by the Canvas APIs to further increase their performance.</dd>

 <dt><strong><a href="{@docRoot}guide/topics/graphics/opengl.html">OpenGL</a></strong></dt>
 <dd>Android supports OpenGL ES 1.0 and 2.0, with Android framework APIs as well as natively
 with the Native Development Kit (NDK). Using the framework APIs is desireable when you want to add a
 few graphical enhancements to your application that are not supported with the Canvas APIs, or if
 you desire platform independence and don't demand high performance. There is a performance hit in
 using the framework APIs compared to the NDK, so for many graphic intensive applications such as
 games, using the NDK is beneficial (It is important to note though that you can still get adequate
 performance using the framework APIs. For example, the Google Body app is developed entirely
 using the framework APIs). OpenGL with the NDK is also useful if you have a lot of native
 code that you want to port over to Android. For more information about using the NDK, read the
 docs in the <code>docs/</code> directory of the <a href="{@docRoot}tools/sdk/ndk/index.html">NDK
 download.</a></dd>
 </dl>
	page.title=Animation and Graphics Overview
	@jd:body

	<p>Android provides a variety of powerful APIs for applying animation to UI elements and drawing custom
	2D and 3D graphics. The sections below provide an overview of the APIs and system capabilities available
	and help you decide with approach is best for your needs.</p>

	<h3 id="animation">Animation</h3>

	<p>The Android framework provides two animation systems: property animation
	(introduced in Android 3.0) and view animation. Both animation systems are viable options,
	but the property animation system, in general, is the preferred method to use, because it
	is more flexible and offers more features. In addition to these two systems, you can utilize Drawable
	animation, which allows you to load drawable resources and display them one frame after
	another.</p>

	<dl>
	<dt><strong><a href="{@docRoot}guide/topics/graphics/prop-animation.html">Property
	Animation</a></strong></dt>
	<dd>Introduced in Android 3.0 (API level 11), the property animation system lets you
	animate properties of any object, including ones that are not rendered to the screen. The system is
	extensible and lets you animate properties of custom types as well.</dd>

	<dt><strong><a href="{@docRoot}guide/topics/graphics/view-animation.html">View
	Animation</a></strong></dt>
	<dd>View Animation is the older system and can only be used for Views. It is relatively easy to
	setup and offers enough capabilities to meet many application's needs.</dd>
	</dl>

	<dt><strong><a href="{@docRoot}guide/topics/graphics/drawable-animation.html">Drawable
	Animation</a></strong></dt>
	<dd>Drawable animation involves displaying {@link android.graphics.drawable.Drawable} resources one
	after another, like a roll of film. This method of animation is useful if you want to animate
	things that are easier to represent with Drawable resources, such as a progression of bitmaps.</dd>

	<h3 id="graphics">2D and 3D Graphics</h3>

	<p>When writing an application, it's important to consider exactly what your graphical demands will be.
	Varying graphical tasks are best accomplished with varying techniques. For example, graphics and animations
	for a rather static application should be implemented much differently than graphics and animations
	for an interactive game. Here, we'll discuss a few of the options you have for drawing graphics
	on Android and which tasks they're best suited for.
	</p>

	<dl>
	<dt><strong><a href="{@docRoot}guide/topics/graphics/2d-graphics.html">Canvas and
	Drawables</a></strong></dt>
	<dd>Android provides a set of {@link android.view.View} widgets that provide general functionality
	for a wide array of user interfaces. You can also extend these widgets to modify the way they
	look or behave. In addition, you can do your own custom 2D rendering using the various drawing
	methods contained in the {@link android.graphics.Canvas} class or create {@link
	android.graphics.drawable.Drawable} objects for things such as textured buttons or frame-by-frame
	animations.</dd>

	<dt><strong><a href="{@docRoot}guide/topics/graphics/hardware-accel.html">Hardware
	Acceleration</a></strong></dt>
	<dd>Beginning in Android 3.0, you can hardware accelerate the majority of
	the drawing done by the Canvas APIs to further increase their performance.</dd>

	<dt><strong><a href="{@docRoot}guide/topics/graphics/opengl.html">OpenGL</a></strong></dt>
	<dd>Android supports OpenGL ES 1.0 and 2.0, with Android framework APIs as well as natively
	with the Native Development Kit (NDK). Using the framework APIs is desireable when you want to add a
	few graphical enhancements to your application that are not supported with the Canvas APIs, or if
	you desire platform independence and don't demand high performance. There is a performance hit in
	using the framework APIs compared to the NDK, so for many graphic intensive applications such as
	games, using the NDK is beneficial (It is important to note though that you can still get adequate
	performance using the framework APIs. For example, the Google Body app is developed entirely
	using the framework APIs). OpenGL with the NDK is also useful if you have a lot of native
	code that you want to port over to Android. For more information about using the NDK, read the
	docs in the <code>docs/</code> directory of the <a href="{@docRoot}tools/sdk/ndk/index.html">NDK
	download.</a></dd>
	</dl>