guava/src/com/google/common/reflect/Invokable.java - platform/external/guava - Git at Google

 /*
  * Copyright (C) 2012 The Guava Authors
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  * http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package com.google.common.reflect;

 import static com.google.common.base.Preconditions.checkNotNull;

 import com.google.common.annotations.Beta;
 import com.google.common.collect.ImmutableList;

 import java.lang.annotation.Annotation;
 import java.lang.reflect.AccessibleObject;
 import java.lang.reflect.Constructor;
 import java.lang.reflect.GenericDeclaration;
 import java.lang.reflect.InvocationTargetException;
 import java.lang.reflect.Member;
 import java.lang.reflect.Method;
 import java.lang.reflect.Modifier;
 import java.lang.reflect.Type;
 import java.lang.reflect.TypeVariable;
 import java.util.Arrays;

 import javax.annotation.Nullable;

 /**
  * Wrapper around either a {@link Method} or a {@link Constructor}.
  * Convenience API is provided to make common reflective operation easier to deal with,
  * such as {@link #isPublic}, {@link #getParameters} etc.
  *
  * <p>In addition to convenience methods, {@link TypeToken#method} and {@link
  * TypeToken#constructor} will resolve the type parameters of the method or constructor in the
  * context of the owner type, which may be a subtype of the declaring class. For example:
  *
  * <pre>   {@code
  *   Method getMethod = List.class.getMethod("get", int.class);
  *   Invokable<List<String>, ?> invokable = new TypeToken<List<String>>() {}.method(getMethod);
  *   assertEquals(TypeToken.of(String.class), invokable.getReturnType()); // Not Object.class!
  *   assertEquals(new TypeToken<List<String>>() {}, invokable.getOwnerType());}</pre>
  *
  * @param <T> the type that owns this method or constructor.
  * @param <R> the return type of (or supertype thereof) the method or the declaring type of the
  *            constructor.
  * @author Ben Yu
  * @since 14.0
  */
 @Beta
 public abstract class Invokable<T, R> extends Element implements GenericDeclaration {

   <M extends AccessibleObject & Member> Invokable(M member) {
     super(member);
   }

   /** Returns {@link Invokable} of {@code method}. */
   public static Invokable<?, Object> from(Method method) {
     return new MethodInvokable<Object>(method);
   }

   /** Returns {@link Invokable} of {@code constructor}. */
   public static <T> Invokable<T, T> from(Constructor<T> constructor) {
     return new ConstructorInvokable<T>(constructor);
   }

   /**
    * Returns {@code true} if this is an overridable method. Constructors, private, static or final
    * methods, or methods declared by final classes are not overridable.
    */
   public abstract boolean isOverridable();

   /** Returns {@code true} if this was declared to take a variable number of arguments. */
   public abstract boolean isVarArgs();

   /**
    * Invokes with {@code receiver} as 'this' and {@code args} passed to the underlying method
    * and returns the return value; or calls the underlying constructor with {@code args} and returns
    * the constructed instance.
    *
    * @throws IllegalAccessException if this {@code Constructor} object enforces Java language
    *         access control and the underlying method or constructor is inaccessible.
    * @throws IllegalArgumentException if the number of actual and formal parameters differ;
    *         if an unwrapping conversion for primitive arguments fails; or if, after possible
    *         unwrapping, a parameter value cannot be converted to the corresponding formal
    *         parameter type by a method invocation conversion.
    * @throws InvocationTargetException if the underlying method or constructor throws an exception.
    */
   // All subclasses are owned by us and we'll make sure to get the R type right.
   @SuppressWarnings("unchecked")
   public final R invoke(@Nullable T receiver, Object... args)
       throws InvocationTargetException, IllegalAccessException {
     return (R) invokeInternal(receiver, checkNotNull(args));
   }

   /** Returns the return type of this {@code Invokable}. */
   // All subclasses are owned by us and we'll make sure to get the R type right.
   @SuppressWarnings("unchecked")
   public final TypeToken<? extends R> getReturnType() {
     return (TypeToken<? extends R>) TypeToken.of(getGenericReturnType());
   }

   /**
    * Returns all declared parameters of this {@code Invokable}. Note that if this is a constructor
    * of a non-static inner class, unlike {@link Constructor#getParameterTypes}, the hidden
    * {@code this} parameter of the enclosing class is excluded from the returned parameters.
    */
   public final ImmutableList<Parameter> getParameters() {
     Type[] parameterTypes = getGenericParameterTypes();
     Annotation[][] annotations = getParameterAnnotations();
     ImmutableList.Builder<Parameter> builder = ImmutableList.builder();
     for (int i = 0; i < parameterTypes.length; i++) {
       builder.add(new Parameter(
           this, i, TypeToken.of(parameterTypes[i]), annotations[i]));
     }
     return builder.build();
   }

   /** Returns all declared exception types of this {@code Invokable}. */
   public final ImmutableList<TypeToken<? extends Throwable>> getExceptionTypes() {
     ImmutableList.Builder<TypeToken<? extends Throwable>> builder = ImmutableList.builder();
     for (Type type : getGenericExceptionTypes()) {
        // getGenericExceptionTypes() will never return a type that's not exception
       @SuppressWarnings("unchecked")
       TypeToken<? extends Throwable> exceptionType = (TypeToken<? extends Throwable>)
           TypeToken.of(type);
       builder.add(exceptionType);
     }
     return builder.build();
   }

   /**
    * Explicitly specifies the return type of this {@code Invokable}. For example:
    * <pre>   {@code
    *   Method factoryMethod = Person.class.getMethod("create");
    *   Invokable<?, Person> factory = Invokable.of(getNameMethod).returning(Person.class);}</pre>
    */
   public final <R1 extends R> Invokable<T, R1> returning(Class<R1> returnType) {
     return returning(TypeToken.of(returnType));
   }

   /** Explicitly specifies the return type of this {@code Invokable}. */
   public final <R1 extends R> Invokable<T, R1> returning(TypeToken<R1> returnType) {
     if (!returnType.isAssignableFrom(getReturnType())) {
       throw new IllegalArgumentException(
           "Invokable is known to return " + getReturnType() + ", not " + returnType);
     }
     @SuppressWarnings("unchecked") // guarded by previous check
     Invokable<T, R1> specialized = (Invokable<T, R1>) this;
     return specialized;
   }

   @SuppressWarnings("unchecked") // The declaring class is T's raw class, or one of its supertypes.
   @Override public final Class<? super T> getDeclaringClass() {
     return (Class<? super T>) super.getDeclaringClass();
   }

   /** Returns the type of {@code T}. */
   // Overridden in TypeToken#method() and TypeToken#constructor()
   @SuppressWarnings("unchecked") // The declaring class is T.
   @Override public TypeToken<T> getOwnerType() {
     return (TypeToken<T>) TypeToken.of(getDeclaringClass());
   }

   abstract Object invokeInternal(@Nullable Object receiver, Object[] args)
       throws InvocationTargetException, IllegalAccessException;

   abstract Type[] getGenericParameterTypes();

   /** This should never return a type that's not a subtype of Throwable. */
   abstract Type[] getGenericExceptionTypes();

   abstract Annotation[][] getParameterAnnotations();

   abstract Type getGenericReturnType();

   static class MethodInvokable<T> extends Invokable<T, Object> {

     final Method method;

     MethodInvokable(Method method) {
       super(method);
       this.method = method;
     }

     @Override final Object invokeInternal(@Nullable Object receiver, Object[] args)
         throws InvocationTargetException, IllegalAccessException {
       return method.invoke(receiver, args);
     }

     @Override Type getGenericReturnType() {
       return method.getGenericReturnType();
     }

     @Override Type[] getGenericParameterTypes() {
       return method.getGenericParameterTypes();
     }

     @Override Type[] getGenericExceptionTypes() {
       return method.getGenericExceptionTypes();
     }

     @Override final Annotation[][] getParameterAnnotations() {
       return method.getParameterAnnotations();
     }

     @Override public final TypeVariable<?>[] getTypeParameters() {
       return method.getTypeParameters();
     }

     @Override public final boolean isOverridable() {
       return  !(isFinal() || isPrivate() || isStatic()
           || Modifier.isFinal(getDeclaringClass().getModifiers()));
     }

     @Override public final boolean isVarArgs() {
       return method.isVarArgs();
     }
   }

   static class ConstructorInvokable<T> extends Invokable<T, T> {

     final Constructor<?> constructor;

     ConstructorInvokable(Constructor<?> constructor) {
       super(constructor);
       this.constructor = constructor;
     }

     @Override final Object invokeInternal(@Nullable Object receiver, Object[] args)
         throws InvocationTargetException, IllegalAccessException {
       try {
         return constructor.newInstance(args);
       } catch (InstantiationException e) {
         throw new RuntimeException(constructor + " failed.", e);
       }
     }

     /** If the class is parameterized, such as ArrayList, this returns ArrayList<E>. */
     @Override Type getGenericReturnType() {
       Class<?> declaringClass = getDeclaringClass();
       TypeVariable<?>[] typeParams = declaringClass.getTypeParameters();
       if (typeParams.length > 0) {
         return Types.newParameterizedType(declaringClass, typeParams);
       } else {
         return declaringClass;
       }
     }

     @Override Type[] getGenericParameterTypes() {
       Type[] types = constructor.getGenericParameterTypes();
       if (types.length > 0 && mayNeedHiddenThis()) {
         Class<?>[] rawParamTypes = constructor.getParameterTypes();
         if (types.length == rawParamTypes.length
             && rawParamTypes[0] == getDeclaringClass().getEnclosingClass()) {
           // first parameter is the hidden 'this'
           return copyOfRange(types, 1, types.length);
         }
       }
       return types;
     }

     private static Type[] copyOfRange(Type[] array, int start, int end) {
       int length = end - start;
       Type[] newArray = new Type[length];
       System.arraycopy(array, start, newArray, 0, length);
       return newArray;
     }

     @Override Type[] getGenericExceptionTypes() {
       return constructor.getGenericExceptionTypes();
     }

     @Override final Annotation[][] getParameterAnnotations() {
       return constructor.getParameterAnnotations();
     }

     /**
      * {@inheritDoc}
      *
      * {@code [<E>]} will be returned for ArrayList's constructor. When both the class and the
      * constructor have type parameters, the class parameters are prepended before those of the
      * constructor's. This is an arbitrary rule since no existing language spec mandates one way or
      * the other. From the declaration syntax, the class type parameter appears first, but the
      * call syntax may show up in opposite order such as {@code new <A>Foo<B>()}.
      */
     @Override public final TypeVariable<?>[] getTypeParameters() {
       TypeVariable<?>[] declaredByClass = getDeclaringClass().getTypeParameters();
       TypeVariable<?>[] declaredByConstructor = constructor.getTypeParameters();
       TypeVariable<?>[] result =
           new TypeVariable<?>[declaredByClass.length + declaredByConstructor.length];
       System.arraycopy(declaredByClass, 0, result, 0, declaredByClass.length);
       System.arraycopy(
           declaredByConstructor, 0,
           result, declaredByClass.length,
           declaredByConstructor.length);
       return result;
     }

     @Override public final boolean isOverridable() {
       return false;
     }

     @Override public final boolean isVarArgs() {
       return constructor.isVarArgs();
     }

     private boolean mayNeedHiddenThis() {
       Class<?> declaringClass = constructor.getDeclaringClass();
       if (declaringClass.getEnclosingConstructor() != null) {
         // Enclosed in a constructor, needs hidden this
         return true;
       }
       Method enclosingMethod = declaringClass.getEnclosingMethod();
       if (enclosingMethod != null) {
         // Enclosed in a method, if it's not static, must need hidden this.
         return !Modifier.isStatic(enclosingMethod.getModifiers());
       } else {
         // Strictly, this doesn't necessarily indicate a hidden 'this' in the case of
         // static initializer. But there seems no way to tell in that case. :(
         // This may cause issues when an anonymous class is created inside a static initializer,
         // and the class's constructor's first parameter happens to be the enclosing class.
         // In such case, we may mistakenly think that the class is within a non-static context
         // and the first parameter is the hidden 'this'.
         return declaringClass.getEnclosingClass() != null
             && !Modifier.isStatic(declaringClass.getModifiers());
       }
     }
   }
 }
	/*
	* Copyright (C) 2012 The Guava Authors
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package com.google.common.reflect;

	import static com.google.common.base.Preconditions.checkNotNull;

	import com.google.common.annotations.Beta;
	import com.google.common.collect.ImmutableList;

	import java.lang.annotation.Annotation;
	import java.lang.reflect.AccessibleObject;
	import java.lang.reflect.Constructor;
	import java.lang.reflect.GenericDeclaration;
	import java.lang.reflect.InvocationTargetException;
	import java.lang.reflect.Member;
	import java.lang.reflect.Method;
	import java.lang.reflect.Modifier;
	import java.lang.reflect.Type;
	import java.lang.reflect.TypeVariable;
	import java.util.Arrays;

	import javax.annotation.Nullable;

	/**
	* Wrapper around either a {@link Method} or a {@link Constructor}.
	* Convenience API is provided to make common reflective operation easier to deal with,
	* such as {@link #isPublic}, {@link #getParameters} etc.
	*
	* <p>In addition to convenience methods, {@link TypeToken#method} and {@link
	* TypeToken#constructor} will resolve the type parameters of the method or constructor in the
	* context of the owner type, which may be a subtype of the declaring class. For example:
	*
	* <pre> {@code
	* Method getMethod = List.class.getMethod("get", int.class);
	* Invokable<List<String>, ?> invokable = new TypeToken<List<String>>() {}.method(getMethod);
	* assertEquals(TypeToken.of(String.class), invokable.getReturnType()); // Not Object.class!
	* assertEquals(new TypeToken<List<String>>() {}, invokable.getOwnerType());}</pre>
	*
	* @param <T> the type that owns this method or constructor.
	* @param <R> the return type of (or supertype thereof) the method or the declaring type of the
	* constructor.
	* @author Ben Yu
	* @since 14.0
	*/
	@Beta
	public abstract class Invokable<T, R> extends Element implements GenericDeclaration {

	<M extends AccessibleObject & Member> Invokable(M member) {
	super(member);
	}

	/** Returns {@link Invokable} of {@code method}. */
	public static Invokable<?, Object> from(Method method) {
	return new MethodInvokable<Object>(method);
	}

	/** Returns {@link Invokable} of {@code constructor}. */
	public static <T> Invokable<T, T> from(Constructor<T> constructor) {
	return new ConstructorInvokable<T>(constructor);
	}

	/**
	* Returns {@code true} if this is an overridable method. Constructors, private, static or final
	* methods, or methods declared by final classes are not overridable.
	*/
	public abstract boolean isOverridable();

	/** Returns {@code true} if this was declared to take a variable number of arguments. */
	public abstract boolean isVarArgs();

	/**
	* Invokes with {@code receiver} as 'this' and {@code args} passed to the underlying method
	* and returns the return value; or calls the underlying constructor with {@code args} and returns
	* the constructed instance.
	*
	* @throws IllegalAccessException if this {@code Constructor} object enforces Java language
	* access control and the underlying method or constructor is inaccessible.
	* @throws IllegalArgumentException if the number of actual and formal parameters differ;
	* if an unwrapping conversion for primitive arguments fails; or if, after possible
	* unwrapping, a parameter value cannot be converted to the corresponding formal
	* parameter type by a method invocation conversion.
	* @throws InvocationTargetException if the underlying method or constructor throws an exception.
	*/
	// All subclasses are owned by us and we'll make sure to get the R type right.
	@SuppressWarnings("unchecked")
	public final R invoke(@Nullable T receiver, Object... args)
	throws InvocationTargetException, IllegalAccessException {
	return (R) invokeInternal(receiver, checkNotNull(args));
	}

	/** Returns the return type of this {@code Invokable}. */
	// All subclasses are owned by us and we'll make sure to get the R type right.
	@SuppressWarnings("unchecked")
	public final TypeToken<? extends R> getReturnType() {
	return (TypeToken<? extends R>) TypeToken.of(getGenericReturnType());
	}

	/**
	* Returns all declared parameters of this {@code Invokable}. Note that if this is a constructor
	* of a non-static inner class, unlike {@link Constructor#getParameterTypes}, the hidden
	* {@code this} parameter of the enclosing class is excluded from the returned parameters.
	*/
	public final ImmutableList<Parameter> getParameters() {
	Type[] parameterTypes = getGenericParameterTypes();
	Annotation[][] annotations = getParameterAnnotations();
	ImmutableList.Builder<Parameter> builder = ImmutableList.builder();
	for (int i = 0; i < parameterTypes.length; i++) {
	builder.add(new Parameter(
	this, i, TypeToken.of(parameterTypes[i]), annotations[i]));
	}
	return builder.build();
	}

	/** Returns all declared exception types of this {@code Invokable}. */
	public final ImmutableList<TypeToken<? extends Throwable>> getExceptionTypes() {
	ImmutableList.Builder<TypeToken<? extends Throwable>> builder = ImmutableList.builder();
	for (Type type : getGenericExceptionTypes()) {
	// getGenericExceptionTypes() will never return a type that's not exception
	@SuppressWarnings("unchecked")
	TypeToken<? extends Throwable> exceptionType = (TypeToken<? extends Throwable>)
	TypeToken.of(type);
	builder.add(exceptionType);
	}
	return builder.build();
	}

	/**
	* Explicitly specifies the return type of this {@code Invokable}. For example:
	* <pre> {@code
	* Method factoryMethod = Person.class.getMethod("create");
	* Invokable<?, Person> factory = Invokable.of(getNameMethod).returning(Person.class);}</pre>
	*/
	public final <R1 extends R> Invokable<T, R1> returning(Class<R1> returnType) {
	return returning(TypeToken.of(returnType));
	}

	/** Explicitly specifies the return type of this {@code Invokable}. */
	public final <R1 extends R> Invokable<T, R1> returning(TypeToken<R1> returnType) {
	if (!returnType.isAssignableFrom(getReturnType())) {
	throw new IllegalArgumentException(
	"Invokable is known to return " + getReturnType() + ", not " + returnType);
	}
	@SuppressWarnings("unchecked") // guarded by previous check
	Invokable<T, R1> specialized = (Invokable<T, R1>) this;
	return specialized;
	}

	@SuppressWarnings("unchecked") // The declaring class is T's raw class, or one of its supertypes.
	@Override public final Class<? super T> getDeclaringClass() {
	return (Class<? super T>) super.getDeclaringClass();
	}

	/** Returns the type of {@code T}. */
	// Overridden in TypeToken#method() and TypeToken#constructor()
	@SuppressWarnings("unchecked") // The declaring class is T.
	@Override public TypeToken<T> getOwnerType() {
	return (TypeToken<T>) TypeToken.of(getDeclaringClass());
	}

	abstract Object invokeInternal(@Nullable Object receiver, Object[] args)
	throws InvocationTargetException, IllegalAccessException;

	abstract Type[] getGenericParameterTypes();

	/** This should never return a type that's not a subtype of Throwable. */
	abstract Type[] getGenericExceptionTypes();

	abstract Annotation[][] getParameterAnnotations();

	abstract Type getGenericReturnType();

	static class MethodInvokable<T> extends Invokable<T, Object> {

	final Method method;

	MethodInvokable(Method method) {
	super(method);
	this.method = method;
	}

	@Override final Object invokeInternal(@Nullable Object receiver, Object[] args)
	throws InvocationTargetException, IllegalAccessException {
	return method.invoke(receiver, args);
	}

	@Override Type getGenericReturnType() {
	return method.getGenericReturnType();
	}

	@Override Type[] getGenericParameterTypes() {
	return method.getGenericParameterTypes();
	}

	@Override Type[] getGenericExceptionTypes() {
	return method.getGenericExceptionTypes();
	}

	@Override final Annotation[][] getParameterAnnotations() {
	return method.getParameterAnnotations();
	}

	@Override public final TypeVariable<?>[] getTypeParameters() {
	return method.getTypeParameters();
	}

	@Override public final boolean isOverridable() {
	return !(isFinal() \|\| isPrivate() \|\| isStatic()
	\|\| Modifier.isFinal(getDeclaringClass().getModifiers()));
	}

	@Override public final boolean isVarArgs() {
	return method.isVarArgs();
	}
	}

	static class ConstructorInvokable<T> extends Invokable<T, T> {

	final Constructor<?> constructor;

	ConstructorInvokable(Constructor<?> constructor) {
	super(constructor);
	this.constructor = constructor;
	}

	@Override final Object invokeInternal(@Nullable Object receiver, Object[] args)
	throws InvocationTargetException, IllegalAccessException {
	try {
	return constructor.newInstance(args);
	} catch (InstantiationException e) {
	throw new RuntimeException(constructor + " failed.", e);
	}
	}

	/** If the class is parameterized, such as ArrayList, this returns ArrayList<E>. */
	@Override Type getGenericReturnType() {
	Class<?> declaringClass = getDeclaringClass();
	TypeVariable<?>[] typeParams = declaringClass.getTypeParameters();
	if (typeParams.length > 0) {
	return Types.newParameterizedType(declaringClass, typeParams);
	} else {
	return declaringClass;
	}
	}

	@Override Type[] getGenericParameterTypes() {
	Type[] types = constructor.getGenericParameterTypes();
	if (types.length > 0 && mayNeedHiddenThis()) {
	Class<?>[] rawParamTypes = constructor.getParameterTypes();
	if (types.length == rawParamTypes.length
	&& rawParamTypes[0] == getDeclaringClass().getEnclosingClass()) {
	// first parameter is the hidden 'this'
	return copyOfRange(types, 1, types.length);
	}
	}
	return types;
	}

	private static Type[] copyOfRange(Type[] array, int start, int end) {
	int length = end - start;
	Type[] newArray = new Type[length];
	System.arraycopy(array, start, newArray, 0, length);
	return newArray;
	}

	@Override Type[] getGenericExceptionTypes() {
	return constructor.getGenericExceptionTypes();
	}

	@Override final Annotation[][] getParameterAnnotations() {
	return constructor.getParameterAnnotations();
	}

	/**
	* {@inheritDoc}
	*
	* {@code [<E>]} will be returned for ArrayList's constructor. When both the class and the
	* constructor have type parameters, the class parameters are prepended before those of the
	* constructor's. This is an arbitrary rule since no existing language spec mandates one way or
	* the other. From the declaration syntax, the class type parameter appears first, but the
	* call syntax may show up in opposite order such as {@code new <A>Foo<B>()}.
	*/
	@Override public final TypeVariable<?>[] getTypeParameters() {
	TypeVariable<?>[] declaredByClass = getDeclaringClass().getTypeParameters();
	TypeVariable<?>[] declaredByConstructor = constructor.getTypeParameters();
	TypeVariable<?>[] result =
	new TypeVariable<?>[declaredByClass.length + declaredByConstructor.length];
	System.arraycopy(declaredByClass, 0, result, 0, declaredByClass.length);
	System.arraycopy(
	declaredByConstructor, 0,
	result, declaredByClass.length,
	declaredByConstructor.length);
	return result;
	}

	@Override public final boolean isOverridable() {
	return false;
	}

	@Override public final boolean isVarArgs() {
	return constructor.isVarArgs();
	}

	private boolean mayNeedHiddenThis() {
	Class<?> declaringClass = constructor.getDeclaringClass();
	if (declaringClass.getEnclosingConstructor() != null) {
	// Enclosed in a constructor, needs hidden this
	return true;
	}
	Method enclosingMethod = declaringClass.getEnclosingMethod();
	if (enclosingMethod != null) {
	// Enclosed in a method, if it's not static, must need hidden this.
	return !Modifier.isStatic(enclosingMethod.getModifiers());
	} else {
	// Strictly, this doesn't necessarily indicate a hidden 'this' in the case of
	// static initializer. But there seems no way to tell in that case. :(
	// This may cause issues when an anonymous class is created inside a static initializer,
	// and the class's constructor's first parameter happens to be the enclosing class.
	// In such case, we may mistakenly think that the class is within a non-static context
	// and the first parameter is the hidden 'this'.
	return declaringClass.getEnclosingClass() != null
	&& !Modifier.isStatic(declaringClass.getModifiers());
	}
	}
	}
	}