docs/html/resources/articles/drawable-mutations.jd - platform/frameworks/base - Gitiles

 page.title=Drawable Mutations
 parent.title=Articles
 parent.link=../browser.html?tag=article
 @jd:body

 <p>Android's drawables are extremely useful to easily build applications. A
 {@link android.graphics.drawable.Drawable Drawable} is a pluggable drawing
 container that is usually associated with a View. For instance, a
 {@link android.graphics.drawable.BitmapDrawable BitmapDrawable} is used to display
 images, a {@link android.graphics.drawable.ShapeDrawable ShapeDrawable} to draw
 shapes and gradients, and so on. You can even combine them to create complex
 renderings.</p>

 <p>Drawables allow you to easily customize the rendering of the widgets without
 subclassing them. As a matter of fact, they are so convenient that most of the
 default Android apps and widgets are built using drawables; there are about 700
 drawables used in the core Android framework. Because drawables are used so
 extensively throughout the system, Android optimizes them when they are loaded
 from resources. For instance, every time you create a
 {@link android.widget.Button Button}, a new drawable is loaded from the framework
 resources (<code>android.R.drawable.btn_default</code>). This means all buttons
 across all the apps use a different drawable instance as their background.
 However, all these drawables share a common state, called the "constant state."
 The content of this state varies according to the type of drawable you are
 using, but it usually contains all the properties that can be defined by a
 resource. In the case of a button, the constant state contains a bitmap image.
 This way, all buttons across all applications share the same bitmap, which saves
 a lot of memory.</p>

 <p>The following diagram shows what entities are
 created when you assign the same image resource as the background of
 two different views. As you can see, two drawables are created but they
 both share the same constant state, hence the same bitmap:</p>

 <img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 307px; height: 400px;" src="images/shared_states.png" alt="" id="BLOGGER_PHOTO_ID_5331437883277472082" border="0">

 <p>This state sharing feature is great to avoid wasting memory but it can cause
 problems when you try to modify the properties of a drawable. Imagine an
 application with a list of books. Each book has a star next to its name, totally
 opaque when the user marks the book as a favorite, and translucent when the book
 is not a favorite. To achieve this effect, you would probably write the
 following code in your list adapter's <code>getView()</code> method:</p>

 <pre>Book book = ...;
 TextView listItem = ...;

 listItem.setText(book.getTitle());

 Drawable star = context.getResources().getDrawable(R.drawable.star);
 if (book.isFavorite()) {
   star.setAlpha(255); // opaque
 } else {
   star.setAlpha(70); // translucent
 }</pre>

 <p>Unfortunately, this piece of code yields a rather strange result:
 all of the drawables have the same opacity:</p>

 <img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 267px; height: 400px;" src="images/all_drawables_changed.png" alt="" id="BLOGGER_PHOTO_ID_5331438978390342066" border="0">

 <p>This
 result is explained by the constant state. Even though we are getting a
 new drawable instance for each list item, the constant state remains
 the same and, in the case of BitmapDrawable, the opacity is part of the
 constant state. Thus, changing the opacity of one drawable instance
 changes the opacity of all the other instances. Even worse, working
 around this issue was not easy with Android 1.0 and 1.1.</p>

 <p>Android 1.5 and higher offers a very easy way to solve this issue
 with the new {@link android.graphics.drawable.Drawable#mutate()} method</a>.
 When you invoke this method on a drawable, the constant state of the
 drawable is duplicated to allow you to change any property without
 affecting other drawables. Note that bitmaps are still shared, even
 after mutating a drawable. The diagram below shows what happens when
 you invoke <code>mutate()</code> on a drawable:</p>

 <img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 307px; height: 400px;" src="images/mutated_states.png" alt="" id="BLOGGER_PHOTO_ID_5331440144116345074" border="0">

 <p>Let's update our previous piece of code to make use of <code>mutate()</code>:</p>

 <pre>Drawable star = context.getResources().getDrawable(R.drawable.star);
 if (book.isFavorite()) {
   star.mutate().setAlpha(255); // opaque
 } else {
   star. mutate().setAlpha(70); // translucent
 }</pre>

 <p>For convenience, <code>mutate()</code>
 returns the drawable itself, which allows to chain method calls. It
 does not however create a new drawable instance. With this new piece of
 code, our application now behaves correctly:</p>

 <img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 267px; height: 400px;" src="images/correct_drawables.png" alt="" id="BLOGGER_PHOTO_ID_5331440757515573842" border="0">
	page.title=Drawable Mutations
	parent.title=Articles
	parent.link=../browser.html?tag=article
	@jd:body

	<p>Android's drawables are extremely useful to easily build applications. A
	{@link android.graphics.drawable.Drawable Drawable} is a pluggable drawing
	container that is usually associated with a View. For instance, a
	{@link android.graphics.drawable.BitmapDrawable BitmapDrawable} is used to display
	images, a {@link android.graphics.drawable.ShapeDrawable ShapeDrawable} to draw
	shapes and gradients, and so on. You can even combine them to create complex
	renderings.</p>

	<p>Drawables allow you to easily customize the rendering of the widgets without
	subclassing them. As a matter of fact, they are so convenient that most of the
	default Android apps and widgets are built using drawables; there are about 700
	drawables used in the core Android framework. Because drawables are used so
	extensively throughout the system, Android optimizes them when they are loaded
	from resources. For instance, every time you create a
	{@link android.widget.Button Button}, a new drawable is loaded from the framework
	resources (<code>android.R.drawable.btn_default</code>). This means all buttons
	across all the apps use a different drawable instance as their background.
	However, all these drawables share a common state, called the "constant state."
	The content of this state varies according to the type of drawable you are
	using, but it usually contains all the properties that can be defined by a
	resource. In the case of a button, the constant state contains a bitmap image.
	This way, all buttons across all applications share the same bitmap, which saves
	a lot of memory.</p>

	<p>The following diagram shows what entities are
	created when you assign the same image resource as the background of
	two different views. As you can see, two drawables are created but they
	both share the same constant state, hence the same bitmap:</p>

	<img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 307px; height: 400px;" src="images/shared_states.png" alt="" id="BLOGGER_PHOTO_ID_5331437883277472082" border="0">

	<p>This state sharing feature is great to avoid wasting memory but it can cause
	problems when you try to modify the properties of a drawable. Imagine an
	application with a list of books. Each book has a star next to its name, totally
	opaque when the user marks the book as a favorite, and translucent when the book
	is not a favorite. To achieve this effect, you would probably write the
	following code in your list adapter's <code>getView()</code> method:</p>

	<pre>Book book = ...;
	TextView listItem = ...;

	listItem.setText(book.getTitle());

	Drawable star = context.getResources().getDrawable(R.drawable.star);
	if (book.isFavorite()) {
	star.setAlpha(255); // opaque
	} else {
	star.setAlpha(70); // translucent
	}</pre>

	<p>Unfortunately, this piece of code yields a rather strange result:
	all of the drawables have the same opacity:</p>

	<img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 267px; height: 400px;" src="images/all_drawables_changed.png" alt="" id="BLOGGER_PHOTO_ID_5331438978390342066" border="0">

	<p>This
	result is explained by the constant state. Even though we are getting a
	new drawable instance for each list item, the constant state remains
	the same and, in the case of BitmapDrawable, the opacity is part of the
	constant state. Thus, changing the opacity of one drawable instance
	changes the opacity of all the other instances. Even worse, working
	around this issue was not easy with Android 1.0 and 1.1.</p>

	<p>Android 1.5 and higher offers a very easy way to solve this issue
	with the new {@link android.graphics.drawable.Drawable#mutate()} method</a>.
	When you invoke this method on a drawable, the constant state of the
	drawable is duplicated to allow you to change any property without
	affecting other drawables. Note that bitmaps are still shared, even
	after mutating a drawable. The diagram below shows what happens when
	you invoke <code>mutate()</code> on a drawable:</p>

	<img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 307px; height: 400px;" src="images/mutated_states.png" alt="" id="BLOGGER_PHOTO_ID_5331440144116345074" border="0">

	<p>Let's update our previous piece of code to make use of <code>mutate()</code>:</p>

	<pre>Drawable star = context.getResources().getDrawable(R.drawable.star);
	if (book.isFavorite()) {
	star.mutate().setAlpha(255); // opaque
	} else {
	star. mutate().setAlpha(70); // translucent
	}</pre>

	<p>For convenience, <code>mutate()</code>
	returns the drawable itself, which allows to chain method calls. It
	does not however create a new drawable instance. With this new piece of
	code, our application now behaves correctly:</p>

	<img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 267px; height: 400px;" src="images/correct_drawables.png" alt="" id="BLOGGER_PHOTO_ID_5331440757515573842" border="0">