Java Bindings Metadata

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last updated: 2016-06

C# code in Xamarin.Android calls Java libraries through bindings, which are a mechanism that abstracts the low-level details that are specified in Java Native Interface (JNI). Xamarin.Android provides a tool that generates these bindings. This tooling lets the developer control how a binding is created by using metadata, which allows procedures such as modifying namespaces and renaming members. This document discusses how metadata works, summarizes the attributes that metadata supports, and explains how to resolve binding problems by modifying this metadata.


A Xamarin.Android Java Binding Library tries to automate much of the work necessary for binding an existing Android library with the help of a tool sometimes known as the Bindings Generator. When binding a Java library, Xamarin.Android will inspect the Java classes and generate a list of all the packages, types, and members which to be bound. This list of APIs is stored in an XML file that can be found at {project directory}\obj\Release\api.xml for a RELEASE build and at {project directory}\obj\Debug\api.xml for a DEBUG build.

The Bindings Generator will use the api.xml file as a guideline for generating the necessary C# wrapper classes. The contents of this XML file are a variation of Google's Android Open Source Project format. The following snippet is an example of the contents of api.xml:

    <package name="android">
        <class abstract="false" deprecated="not deprecated" extends="java.lang.Object"
            <constructor deprecated="not deprecated" final="false"
                name="Manifest" static="false" type="android.Manifest"

In this example, api.xml declares a class in the android package named Manifest that extends the java.lang.Object.

In many cases, human assistance is required to make the Java API feel more ".NET like" or to correct issues that prevent the binding assembly from compiling. For example, it may be necessary to change Java package names to .NET namespaces, rename a class, or change the return type of a method.

These changes are not achieved by modifying api.xml directly. Instead, changes are recorded in special XML files that are provided by the Java Binding Library template. When compiling the Xamarin.Android binding assembly, the Bindings Generator will be influenced by these mapping files when creating the binding assembly

These XML mapping files may be found in the Transforms folder of the project:

  • MetaData.xml – Allows changes to be made to the final API, such as changing the namespace of the generated binding.

  • EnumFields.xml – Contains the mapping between Java int constants and C# enums .

  • EnumMethods.xml – Allows changing method parameters and return types from Java int constants to C# enums .

The MetaData.xml file is the most import of these files as it allows general-purpose changes to the binding such as:

  • Renaming namespaces, classes, methods, or fields so they follow .NET conventions.

  • Removing namespaces, classes, methods, or fields that aren't needed.

  • Moving classes to different namespaces.

  • Adding additional support classes to make the design of the binding follow .NET framework patterns.

Lets move on to discuss Metadata.xml in more detail.

Metadata.xml Transform File

As we've already learned, the file Metadata.xml is used by the Bindings Generator to influence the creation of the binding assembly. The metadata format uses XPath syntax and is nearly identical to the GAPI Metadata described in GAPI Metadata guide. This implementation is almost a complete implementation of XPath 1.0 and thus supports items in the 1.0 standard. This file is a powerful XPath based mechanism to change, add, hide, or move any element or attribute in the API file. All of the rule elements in the metadata spec include a path attribute to identify the node to which the rule is to be applied. The rules are applied in the following order:

  • add-node – Appends a child node to the node specified by the path attribute.
  • attr – Sets the value of an attribute of the element specified by the path attribute.
  • remove-node – Removes nodes matching a specified XPath.

The following is an example of a Metadata.xml file:

    <!-- Normalize the namespace for .NET -->
    <attr path="/api/package[@name='']" 

    <!-- Don't  need these packages for the Xamarin binding/public API --> 
    <remove-node path="/api/package[@name='']" />
    <remove-node path="/api/package[@name='']" />

    <!-- Change a parameter name from the generic p0 to a more meaningful one. -->
    <attr path="/api/package[@name='']/class[@name='JobManager']/method[@name='forceApi']/parameter[@name='p0']" 

The following table lists some of the more commonly used XPath elements for the Java API's:

Common Path Description
interface Used to locate a Java interface. e.g. /interface[@name='AuthListener'].
class Used to locate a class . e.g. /class[@name='MapView'].
method Used to locate a method on a Java class or interface. e.g. /class[@name='MapView']/method[@name='setTitleSource'].
parameter Identify a parameter for a method. e.g. /parameter[@name='p0']

Adding Types

The add-node element will tell the Xamarin.Android binding project to add a new wrapper class to api.xml. For example, the following snippet will direct the Binding Generator to create a class with a constructor and a single field:

<add-node path="/api/package[@name='org.alljoyn.bus']">
    <class abstract="false" deprecated="not deprecated" final="false" name="AuthListener.AuthRequest" static="true" visibility="public" extends="java.lang.Object">
        <constructor deprecated="not deprecated" final="false" name="AuthListener.AuthRequest" static="false" type="org.alljoyn.bus.AuthListener.AuthRequest" visibility="public" />
        <field name="p0" type="org.alljoyn.bus.AuthListener.Credentials" />

Removing Types

It is possible to instruct the Xamarin.Android Bindings Generator to ignore a Java type and not bind it. This is done by adding a remove-node XML element to the metadata.xml file:

<remove-node path="/api/package[@name='{package_name}']/class[@name='{name}']" />

Renaming Members

Renaming members cannot be done by directly editing the api.xml file because Xamarin.Android requires the original Java Native Interface (JNI) names. Therefore, the //class/@name attribute cannot be altered; if it is, the binding will not work.

Consider the case where we want to rename a type, android.Manifest. To accomplish this, we might try to directly edit api.xml and rename the class like so:

<attr path="/api/package[@name='android']/class[@name='Manifest']" 

This will result in the Bindings Generator creating the following C# code for the wrapper class:

[Register ("android/NewName")]
public class NewName : Java.Lang.Object { ... }

Notice that the wrapper class has been renamed to NewName, while the original Java type is still Manifest. It is no longer possible for the Xamarin.Android binding class to access any methods on android.Manifest; the wrapper class is bound to a non-existent Java type.

To properly change the managed name of a wrapped type (or method), it is necessary to set the managedName attribute as shown in this example:

<attr path="/api/package[@name='android']/class[@name='Manifest']" 

Renaming EventArg Wrapper Classes

When the Xamarin.Android binding generator identifies an onXXX setter method for a listener type, a C# event and EventArgs subclass will be generated to support a .NET flavoured API for the Java-based listener pattern. As an example, consider the following Java class and method: listener);

Xamarin.Android will drop the prefix on from the setter method and instead use 2DSignNextManuever as the basis for the name of the EventArgs subclass. The subclass will be named something similar to:


This is not a legal C# class name. To correct this problem, the binding author must use the argsType attribute and provide a valid C# name for the EventArgs subclass:

<attr path="/api/package[@name='']/

Supported Attributes

The following sections describe some of the attributes for transforming Java APIs.


This attribute is placed on setter methods to name the EventArg subclass that will be generated to support Java listeners. This is described in more detail below in the section Renaming EventArg Wrapper Classes later on in this guide.


Specifies a name for an event. If empty, it inhibits event generation. This is described in more detail in the section title Renaming EventArg Wrapper Classes.


This is used to change the name of a package, class, method, or parameter. For example to change the name of the Java class MyClass to NewClassName:

<attr path="/api/package[@name='']/class[@name='MyClass']" 

The next example illustrates an XPath expression for renaming the method java.lang.object.toString to Java.Lang.Object.NewManagedName:

<attr path="/api/package[@name='java.lang']/class[@name='Object']/method[@name='toString']" 


managedType is used to change the return type of a method. In some situations the Bindings Generator will incorrectly infer the return type of a Java method, which will result in a compile time error. One possible solution in this situation is to change the return type of the method.

For example, the Bindings Generator believes that the Java method de.neom.neoreadersdk.resolution.compareTo() should return an int, which results in the error message Error CS0535: `DE.Neom.Neoreadersdk.Resolution' does not implement interface member `Java.Lang.IComparable.CompareTo(Java.Lang.Object)'. The following snippet demonstrates how to change the return type of the generated C# method from an int to a Java.Lang.Object:

<attr path="/api/package[@name='de.neom.neoreadersdk']/class[@name='Resolution']/method[@name='compareTo' 
    and count(parameter)=1
    and parameter[1][@type='de.neom.neoreadersdk.Resolution']]/parameter[1]" 


Changes the return type of a method. This does not change the return attribute (as changes to return attributes can result in incompatible changes to the JNI signature). In the following example, the return type of the append method is changed from SpannableStringBuilder to IAppendable (recall that C# does not support covariant return types):

<attr path="/api/package[@name='android.text']/


Tools that obfuscate Java libraries may interfere with the Xamarin.Android Binding Generator and its ability to generate C# wrapper classes. Characteristics of obfuscated classes include:

  • The class name includes a $, i.e. a$.class
  • The class name is entirely compromised of lower case characters, i.e. a.class

This snippet is an example of how to generate an "un-obfuscated" C# type:

<attr path="/api/package[@name='{package_name}']/class[@name='{name}']" 


This attribute can be used to change the name of a managed property.

A specialized case of using propertyName involves the situation where a Java class has only a getter method for a field. In this situation the Binding Generator would want to create a write-only property, something that is discouraged in .NET. The following snippet shows how to "remove" the .NET properties by setting the propertyName to an empty string:

<attr path="/api/package[@name='org.java_websocket.handshake']/class[@name='HandshakeImpl1Client']/method[@name='setResourceDescriptor' 
    and count(parameter)=1 
    and parameter[1][@type='java.lang.String']]" 
<attr path="/api/package[@name='org.java_websocket.handshake']/class[@name='HandshakeImpl1Client']/method[@name='getResourceDescriptor' 
    and count(parameter)=0]" 

Note that the setter and getter methods will still be created by the Bindings Generator.


Specifies which parameter of a method should be the sender parameter when the method is mapped to an event. The value can be true or false. For example:

<attr path="/api/package[@name='']/
    name="sender">true</ attr>


This attribute is used to change the visibility of a class, method, or property. For example, it may be necessary to promote a protected Java method so that it's corresponding C# wrapper is public:

<!-- Change the visibility of a class -->
<attr path="/api/package[@name='namespace']/class[@name='ClassName']" name="visibility">public</attr>

<!-- Change the visibility of a method --> 
<attr path="/api/package[@name='namespace']/class[@name='ClassName']/method[@name='MethodName']" name="visibility">public</attr>

EnumFields.xml and EnumMethods.xml

There are cases where Android libraries use integer constants to represent states that are passed to properties or methods of the libraries. In many cases, it is useful to bind these integer constants to enums in C#. To facilitate this mapping, use the EnumFields.xml and EnumMethods.xml files in your binding project.

Defining an Enum using EnumFields.xml

The EnumFields.xml file contains the mapping between Java int constants and C# enums. Let's take the following example of a C# enum being created for a set of int constants:

<mapping jni-class="com/skobbler/ngx/map/realreach/SKRealReachSettings" clr-enum-type="Skobbler.Ngx.Map.RealReach.SKMeasurementUnit">
    <field jni-name="UNIT_SECOND" clr-name="Second" value="0" />
    <field jni-name="UNIT_METER" clr-name="Meter" value="1" />
    <field jni-name="UNIT_MILIWATT_HOURS" clr-name="MilliwattHour" value="2" />

Here we have taken the Java class SKRealReachSettings and defined a C# enum called SKRealReachSettings in the namespace Skobbler.Ngx.Map.RealReach. The field entries defines the name of the Java constant (example UNIT_SECOND), the name of the enum entry (example Second), and the integer value represented by both entities (example 0).

Defining Getter/Setter Methods using EnumMethods.xml

The EnumMethods.xml file allows changing method parameters and return types from Java int constants to C# enums. In other words, it maps the reading and writing of C# enums (defined in the EnumFields.xml file) to Java int constant get and set methods.

Given the SKRealReachSettings enum defined above, the following EnumMethods.xml file would define the getter/setter for this enum:

<mapping jni-class="com/skobbler/ngx/map/realreach/SKRealReachSettings">
    <method jni-name="getMeasurementUnit" parameter="return" clr-enum-type="Skobbler.Ngx.Map.RealReach.SKMeasurementUnit" />
    <method jni-name="setMeasurementUnit" parameter="measurementUnit" clr-enum-type="Skobbler.Ngx.Map.RealReach.SKMeasurementUnit" />

The first method line maps the return value of the Java getMeasurementUnit method to the SKRealReachSettings enum. The second method line maps the first parameter of the setMeasurementUnit to the same enum.

With all of these changes in place, you can use the follow code in Xamarin.Android to set the MeasurementUnit:

realReachSettings.MeasurementUnit = SKMeasurementUnit.Second;


This article discussed how Xamarin.Android uses metadata to transform an API definition from the Google AOSP format. After covering the changes that are possible using Metadata.xml, it examined the limitations encountered when renaming members and it presented the list of supported XML attributes, describing when each attribute should be used.

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