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I'm aware that inner classes are not recommended in Android because they hold a reference to the enclosing class. However, in Java, the outer class is only GCed when the inner class is no longer referenced. That means, in Android, provided you have a non-static reference in the outer activity class to the inner class, the inner class cannot exist longer than the outer activity class because the activity can only be destroyed if it doesn't hold a reference to the inner class anymore (at least that is what I'm inferring). So what's the problem using non-static inner classes then (since they can't obviously exist longer than the outer activity if you infer from java)? Am I missing something?


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Where did you read non-static inner classes are not recommended in Android? – Cristian Apr 11 '12 at 19:03
This is not only an android issue. For interchangeable and fast code you should avoid them except they are static and store the information they require as local fields. The problem with inner classes is that you can not set the reference to the parent class to null to get it GC'ed. The compiler has to generate access methods if the parent class members that the inner class access are private and you have one inner class per parent class instance. – Stephan Apr 11 '12 at 19:05
@Cristian scroll to the bottom of this link… it is to be avoided if you can't control the inner class life cycle. – OckhamsRazor Apr 11 '12 at 19:09

2 Answers 2

up vote 6 down vote accepted

Consider this simple example

class Leaker 
    public static Object leakedObj;

class MyActivity extends Activity
     public class MyInnerClass { ... }

     void onCreate(Bundle savedState) 
        Leaker.leakedObj = new MyInnerClass();
        //The activity now won't be GCed until Leaker.leakedObj is cleared.          

You can easily pass an inner non-static class outside the context of your activity. As long as you don't pass your inner class to objects outside of your Activity's lifecycle you should be okay. But it certainly IS possible to leak your activity via an inner class.

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thanks justin. your answer seems promising. so just to confirm- can non-static inner classes live longer than an activity if there are no other references to the inner class except for references in the outer activity only, all of which are non-static? – OckhamsRazor Apr 11 '12 at 19:24
+1 for pointing out the main problem with non-static inner-classes of Activity: an Activity can fail to be GC'd at the desired time because some third live (non-Activity-lifecycle) object somewhere else is hanging on to a reference to an instance of the inner class, which in turn hangs on to the Activity via synthetic reference. – Mike Clark Apr 11 '12 at 19:31
@OckhamsRazor, If the only references to your inner class are from the Activity (and they are all non-static), than the Activity will be collected as normal. – Justin Breitfeller Apr 11 '12 at 19:42
You can think of this is a string graph. Imagine that each reference is a string. So, the Activity has strings running to the inner-class and vice versa. Android also has a main string that is connected to the Activity. Now, once the Android cuts the activity string, both the activity and inner-class detach from the graph and can be collected. In my leak example, however, there still is a string attached to the static Leaker class from the inner-class. So, the string from Leaker->inner-class->Activity still keeps the Activity alive (which is what you don't want). – Justin Breitfeller Apr 11 '12 at 19:46
thanks mate! you really helped me out here. and mike too. – OckhamsRazor Apr 11 '12 at 20:09

I won't bother paraphrasing, because Google can explain it better.

Assuming: Parent class is Foo and inner class is Foo$Inner:

The problem is that the VM considers direct access to Foo's private members from Foo$Inner to be illegal because Foo and Foo$Inner are different classes, even though the Java language allows an inner class to access an outer class' private members. To bridge the gap, the compiler generates a couple of synthetic methods:

/*package*/ static int Foo.access$100(Foo foo) {
    return foo.mValue;
/*package*/ static void Foo.access$200(Foo foo, int value) {

The inner class code calls these static methods whenever it needs to access the mValue field or invoke the doStuff method in the outer class. What this means is that the code above really boils down to a case where you're accessing member fields through accessor methods. Earlier we talked about how accessors are slower than direct field accesses, so this is an example of a certain language idiom resulting in an "invisible" performance hit.

If you're using code like this in a performance hotspot, you can avoid the overhead by declaring fields and methods accessed by inner classes to have package access, rather than private access. Unfortunately this means the fields can be accessed directly by other classes in the same package, so you shouldn't use this in public API.


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thanks, this is cool stuff. but it still doesn't answer my question- can non-static inner classes live longer than an activity if there are no other references to the inner class except for references in the outer activity, which are non-static? – OckhamsRazor Apr 11 '12 at 19:23
@OckhamsRazor You ask "can [instances of] non-static inner classes live longer than an activity if there are no other references to [instances of] the inner class except for [non-static] references in the outer activity?" The answer is: no. – Mike Clark Apr 11 '12 at 19:25
ah, cool, thanks mike, you phrased it better. and also thats what i wanted to know. cheers! – OckhamsRazor Apr 11 '12 at 19:27
Its also important to note that with the advent of the JIT compiler the performance "penalty" here is most likely negligible. – Justin Breitfeller Apr 11 '12 at 20:23

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