Share via


Limitations

Since applications on Android require generating Java proxy types during the build process, it is not possible to generate all code at runtime.

These are the Xamarin.Android limitations compared to desktop Mono:

Limited Dynamic Language Support

Android callable wrappers are needed any time the Android runtime needs to invoke managed code. Android callable wrappers are generated at compile time, based on static analysis of IL. The net result of this: you cannot use dynamic languages (IronPython, IronRuby, etc.) in any scenario where subclassing of Java types is required (including indirect subclassing), as there's no way of extracting these dynamic types at compile time to generate the necessary Android callable wrappers.

Limited Java Generation Support

Android Callable Wrappers need to be generated in order for Java code to call managed code. By default, Android callable wrappers will only contain (certain) declared constructors and methods which override a virtual Java method (i.e. it has RegisterAttribute) or implement a Java interface method (interface likewise has Attribute).

Prior to the 4.1 release, no additional methods could be declared. With the 4.1 release, the Export and ExportField custom attributes can be used to declare Java methods and fields within the Android Callable Wrapper.

Missing constructors

Constructors remain tricky, unless ExportAttribute is used. The algorithm for generating Android callable wrapper constructors is that a Java constructor will be emitted if:

  1. There is a Java mapping for all the parameter types
  2. The base class declares the same constructor – This is required because the Android callable wrapper must invoke the corresponding base class constructor; no default arguments can be used (as there's no easy way to determine what values should be used within Java).

For example, consider the following class:

[Service]
class MyIntentService : IntentService {
    public MyIntentService (): base ("value")
    {
    }
}

While this looks perfectly logical, the resulting Android callable wrapper in Release builds will not contain a default constructor. Consequently, if you attempt to start this service (e.g. Context.StartService, it will fail:

E/AndroidRuntime(31766): FATAL EXCEPTION: main
E/AndroidRuntime(31766): java.lang.RuntimeException: Unable to instantiate service example.MyIntentService: java.lang.InstantiationException: can't instantiate class example.MyIntentService; no empty constructor
E/AndroidRuntime(31766):        at android.app.ActivityThread.handleCreateService(ActivityThread.java:2347)
E/AndroidRuntime(31766):        at android.app.ActivityThread.access$1600(ActivityThread.java:130)
E/AndroidRuntime(31766):        at android.app.ActivityThread$H.handleMessage(ActivityThread.java:1277)
E/AndroidRuntime(31766):        at android.os.Handler.dispatchMessage(Handler.java:99)
E/AndroidRuntime(31766):        at android.os.Looper.loop(Looper.java:137)
E/AndroidRuntime(31766):        at android.app.ActivityThread.main(ActivityThread.java:4745)
E/AndroidRuntime(31766):        at java.lang.reflect.Method.invokeNative(Native Method)
E/AndroidRuntime(31766):        at java.lang.reflect.Method.invoke(Method.java:511)
E/AndroidRuntime(31766):        at com.android.internal.os.ZygoteInit$MethodAndArgsCaller.run(ZygoteInit.java:786)
E/AndroidRuntime(31766):        at com.android.internal.os.ZygoteInit.main(ZygoteInit.java:553)
E/AndroidRuntime(31766):        at dalvik.system.NativeStart.main(Native Method)
E/AndroidRuntime(31766): Caused by: java.lang.InstantiationException: can't instantiate class example.MyIntentService; no empty constructor
E/AndroidRuntime(31766):        at java.lang.Class.newInstanceImpl(Native Method)
E/AndroidRuntime(31766):        at java.lang.Class.newInstance(Class.java:1319)
E/AndroidRuntime(31766):        at android.app.ActivityThread.handleCreateService(ActivityThread.java:2344)
E/AndroidRuntime(31766):        ... 10 more

The workaround is to declare a default constructor, adorn it with the ExportAttribute, and set the ExportAttribute.SuperStringArgument:

[Service]
class MyIntentService : IntentService {
    [Export (SuperArgumentsString = "\"value\"")]
    public MyIntentService (): base("value")
    {
    }

    // ...
}

Generic C# classes

Generic C# classes are only partially supported. The following limitations exist:

  • Generic types may not use [Export] or [ExportField]. Attempting to do so will generate an XA4207 error.

    public abstract class Parcelable<T> : Java.Lang.Object, IParcelable
    {
        // Invalid; generates XA4207
        [ExportField ("CREATOR")]
        public static IParcelableCreator CreateCreator ()
        {
            ...
    }
    
  • Generic methods may not use [Export] or [ExportField]:

    public class Example : Java.Lang.Object
    {
    
        // Invalid; generates XA4207
        [Export]
        public static void Method<T>(T value)
        {
            ...
        }
    }
    
  • [ExportField] may not be used on methods which return void:

    public class Example : Java.Lang.Object
    {
        // Invalid; generates XA4208
        [ExportField ("CREATOR")]
        public static void CreateSomething ()
        {
        }
    }
    
  • Instances of Generic types must not be created from Java code. They can only safely be created from managed code:

    [Activity (Label="Die!", MainLauncher=true)]
    public class BadGenericActivity<T> : Activity
    {
        protected override void OnCreate (Bundle bundle)
        {
            base.OnCreate (bundle);
        }
    }
    

Partial Java Generics Support

The Java generics binding support is limited. Particularly, members in a generic instance class that is derived from another generic (non-instantiated) class are left exposed as Java.Lang.Object. For example, Android.Content.Intent.GetParcelableExtra method returns Java.Lang.Object. This is due to erased Java generics. We have some classes that do not apply this limitation, but they are manually adjusted.