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I'm writing a tool that uses the annotation processor to generate source code depending on the return type of methods of an annotated class. The return type is always some subtype (interface or class) of an interface A that defines a type variable T.

interface A<T>{T m();};

I would like to find the type parameter for the method m() return value type variable T.

The return type is represented by the annotation processor as a javax.lang.model.type.TypeMirror instance. The simplest case is to return A directly.

@SomeAnnotation
class SomeClass{
    A<T> x();
}

The processor code to find out T is quite simple. (I'll cast instead of using the visitor API here to keep the code simple.)

DeclaredType type = (DeclaredType) typeMirror;
TypeMirror t =  type.getTypeArguments().get(0);

The TypeMirror of the return type is a javax.lang.model.type.DeclaredType and T is the first type argument. The result t is a javax.lang.model.type.TypeVariable for T. The same works for a concrete return type A<B> (B is some type: interface B{}). The result for t is a DeclaredType representing B.

Things start to get complicated with other result types:

interface Subtype<T> extends A<T>{}
interface Concrete extends A<B>{};
interface Multiple<B,T> extends A<T>{}
interface Bounds<T extends B> extends A<T>{}
interface Hierarchy extends Concrete{}

Subtype<B>          -> DeclaredType B
Subtype<T>          -> TypeVariable T
Concrete            -> DeclaredType B
Multiple<B,T>       -> TypeVariable T or DeclaredType B depeding on Multiple
Multiple<B,B>       -> TypeVariable B
<T extends B> A<T>  -> TypeVariable T with super class bound B
Bound<B>            -> DeclaredType B
Bound<C>    		-> DeclaredType C (subtype of B)
Hierarchy           -> TypeVariable T

Is there a way to find the correct type parameter for T without mirroring the whole java type system?

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3 Answers

 public AnnotationProcessor getProcessorFor(
    		Set<AnnotationTypeDeclaration> atds,
    		AnnotationProcessorEnvironment env) {
    	return new SomeAnnotationProcessor(env);
    }

    private static class SomeAnnotationProcessor implements AnnotationProcessor {
    	private final AnnotationProcessorEnvironment env;

    	SomeAnnotationProcessor(AnnotationProcessorEnvironment env) {
    		this.env = env;
    	}

    	public void process() {
    		for (TypeDeclaration typeDecl : env.getSpecifiedTypeDeclarations()) {
    			System.out.println("in class: " + typeDecl);
    			typeDecl.accept(getDeclarationScanner(
    					new SomeClassVisitor(), NO_OP));
    		}
    	}

    	private static class SomeClassVisitor extends SimpleDeclarationVisitor {
    		@Override
    		public void visitMethodDeclaration(
    				MethodDeclaration methodDeclaration) {
    			System.out.println("visiting method: "+methodDeclaration + " -> "+methodDeclaration.getReturnType());
    			methodDeclaration.getReturnType().accept(new SomeTypeVisitor());
    		}
    	}
    }

    private static class SomeTypeVisitor implements TypeVisitor {

    	public void visitClassType(ClassType classType) {			
    		System.out.println("classType: " + classType + " -> "+classType.getClass());    			
    	}

    	@Override
    	public void visitInterfaceType(InterfaceType interfaceType) {
    		Types types = annotationProcessorEnvironment.getTypeUtils();
    		TypeDeclaration typeDeclaration = annotationProcessorEnvironment
    				.getTypeDeclaration("A");			
    		Collection<InterfaceType> superinterfaces = interfaceType
    				.getSuperinterfaces();						
    		System.out.println("interfaceType: " + interfaceType + " -> "
    				+ superinterfaces);
    		DeclaredType typeOfA = types.getDeclaredType(typeDeclaration);
    		boolean isSubTypeOfA = types.isSubtype(interfaceType, typeOfA);			
    		if (isSubTypeOfA) {
    			findTypeVariable(types, superinterfaces, typeOfA);
    		}
    		Iterator<TypeMirror> iterator = interfaceType
    				.getActualTypeArguments().iterator();
    		while (iterator.hasNext()) {
    			TypeMirror next = iterator.next();
    			next.accept(new SomeTypeVisitor());
    		}
    	}

    	public void visitTypeVariable(TypeVariable typeVariable) {			
    		System.out.println("typeVariable: "
    				+ typeVariable.getDeclaration() + " -> "+typeVariable.getClass());    			
    	}

    	private void findTypeVariable(Types types,
    			Collection<InterfaceType> superinterfaces, DeclaredType typeOfA) {
    		for (InterfaceType superInterface : superinterfaces) {
    			TypeMirror erasure = types.getErasure(superInterface);
    			if (erasure.equals(typeOfA)) {
    				System.out.println("true, "+superInterface.getActualTypeArguments());
    			} else {
    				System.out.println("false: " + typeOfA + " =!= "
    						+ erasure);
    				findTypeVariable(types, superInterface.getSuperinterfaces(), typeOfA);
    			}
    		}
    	}


    }
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This is to simple. It will return DeclaredType Concrete for @SomeAnnotation class Something{ Concrete x(){} } and interface Concrete extends A<B>. The right result is B. The implementation has to figure out that the type argument for the type variable T in A is B for Concrete. Or simpler put, that the method return value of the method is a subtype of A<B>. The question is: What is the type parameter T in A for a given subtype of A. –  Thomas Jung Sep 9 '09 at 20:23
    
Your code is basicly the same as: DeclaredType type = (DeclaredType) typeMirror; TypeMirror t = type.getTypeArguments().get(0); from above. The visitor can only differentiate between type variable and declared type. –  Thomas Jung Sep 10 '09 at 6:26
    
hi, I updated the code. as an aside I get DeclaredType B for Hierarchy, which seems correct. –  miaubiz Sep 10 '09 at 7:07
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Have a look at http://docs.oracle.com/javase/6/docs/api/javax/lang/model/util/Types.html#asMemberOf%28javax.lang.model.type.DeclaredType,%20javax.lang.model.element.Element%29

I used it to solve this problem and contributed the solution to the WsDoc project in this pull request: https://github.com/versly/wsdoc/pull/7

I did something like this:

      Type.MethodType methodType = (Type.MethodType) processingEnv.getTypeUtils().asMemberOf(declaredTypeThatExtendsSomeGenericParent, methodToGetReturnTypeForAsExecutableElement);
      TypeMirror type = methodType.getReturnType();
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This seems to be a common question so, for those arriving from Google: there is hope.

The Dagger DI project is licensed under the Apache 2.0 License and contains some utility methods for working with types in an annotation processor.

In particular, the Util class can be viewed in full on GitHub (Util.java) and defines a method public static String typeToString(TypeMirror type). It uses a TypeVisitor and some recursive calls to build up a string representation of a type. Here is a snippet for reference:

public static void typeToString(final TypeMirror type, final StringBuilder result, final char innerClassSeparator)
{
    type.accept(new SimpleTypeVisitor6<Void, Void>()
    {
        @Override
        public Void visitDeclared(DeclaredType declaredType, Void v)
        {
            TypeElement typeElement = (TypeElement) declaredType.asElement();

            rawTypeToString(result, typeElement, innerClassSeparator);

            List<? extends TypeMirror> typeArguments = declaredType.getTypeArguments();
            if (!typeArguments.isEmpty())
            {
                result.append("<");
                for (int i = 0; i < typeArguments.size(); i++)
                {
                    if (i != 0)
                    {
                        result.append(", ");
                    }

                    // NOTE: Recursively resolve the types
                    typeToString(typeArguments.get(i), result, innerClassSeparator);
                }

                result.append(">");
            }

            return null;
        }

        @Override
        public Void visitPrimitive(PrimitiveType primitiveType, Void v) { ... }

        @Override
        public Void visitArray(ArrayType arrayType, Void v) { ... }

        @Override
        public Void visitTypeVariable(TypeVariable typeVariable, Void v) 
        {
            result.append(typeVariable.asElement().getSimpleName());
            return null;
        }

        @Override
        public Void visitError(ErrorType errorType, Void v) { ... }

        @Override
        protected Void defaultAction(TypeMirror typeMirror, Void v) { ... }
    }, null);
}

I am busy with my own project which generates class extensions. The Dagger method works for complex situations, including generic inner classes. I have the following results:

My test class with field to extend:

public class AnnotationTest
{
    ...

    public static class A
    {
        @MyAnnotation
        private Set<B<Integer>> _bs;
    }

    public static class B<T>
    {
        private T _value;
    }
}

Calling the Dagger method on the Element the processor provides for the _bs field:

accessor.type = DaggerUtils.typeToString(element.asType());

The generated source (custom, of course). Note the awesome nested generic types.

public java.util.Set<AnnotationTest.B<java.lang.Integer>> AnnotationTest.A.getBsGenerated()
{
    return this._bs;
}

EDIT: adapting the concept to extract a TypeMirror of the first generic argument, null otherwise:

public static TypeMirror getGenericType(final TypeMirror type)
{
    final TypeMirror[] result = { null };

    type.accept(new SimpleTypeVisitor6<Void, Void>()
    {
        @Override
        public Void visitDeclared(DeclaredType declaredType, Void v)
        {
            List<? extends TypeMirror> typeArguments = declaredType.getTypeArguments();
            if (!typeArguments.isEmpty())
            {
                result[0] = typeArguments.get(0);
            }
            return null;
        }
        @Override
        public Void visitPrimitive(PrimitiveType primitiveType, Void v)
        {
            return null;
        }
        @Override
        public Void visitArray(ArrayType arrayType, Void v)
        {
            return null;
        }
        @Override
        public Void visitTypeVariable(TypeVariable typeVariable, Void v)
        {
            return null;
        }
        @Override
        public Void visitError(ErrorType errorType, Void v)
        {
            return null;
        }
        @Override
        protected Void defaultAction(TypeMirror typeMirror, Void v)
        {
            throw new UnsupportedOperationException();
        }
    }, null);

    return result[0];
}
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