Package groovy.lang

Source Code of groovy.lang.ExpandoMetaClass

/*
* Copyright 2003-2013 the original author or 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 groovy.lang;

import java.lang.reflect.Constructor;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantReadWriteLock;

import org.codehaus.groovy.reflection.CachedClass;
import org.codehaus.groovy.reflection.MixinInMetaClass;
import org.codehaus.groovy.runtime.DefaultCachedMethodKey;
import org.codehaus.groovy.runtime.DefaultGroovyMethods;
import org.codehaus.groovy.runtime.InvokerHelper;
import org.codehaus.groovy.runtime.MetaClassHelper;
import org.codehaus.groovy.runtime.MethodKey;
import org.codehaus.groovy.runtime.callsite.CallSite;
import org.codehaus.groovy.runtime.callsite.ConstructorMetaMethodSite;
import org.codehaus.groovy.runtime.callsite.PogoMetaClassSite;
import org.codehaus.groovy.runtime.callsite.PojoMetaClassSite;
import org.codehaus.groovy.runtime.callsite.StaticMetaClassSite;
import org.codehaus.groovy.runtime.metaclass.ClosureMetaMethod;
import org.codehaus.groovy.runtime.metaclass.ClosureStaticMetaMethod;
import org.codehaus.groovy.runtime.metaclass.DefaultMetaClassInfo;
import org.codehaus.groovy.runtime.metaclass.MethodSelectionException;
import org.codehaus.groovy.runtime.metaclass.MixedInMetaClass;
import org.codehaus.groovy.runtime.metaclass.MixinInstanceMetaMethod;
import org.codehaus.groovy.runtime.metaclass.OwnedMetaClass;
import org.codehaus.groovy.runtime.metaclass.ThreadManagedMetaBeanProperty;
import org.codehaus.groovy.util.FastArray;

/**
* ExpandoMetaClass is a MetaClass that behaves like an Expando, allowing the addition or replacement
* of methods, properties and constructors on the fly.
* <p>
* Some examples of usage:
* <pre>
* // defines or replaces instance method:
* metaClass.myMethod = { args -> }
*
* // defines a new instance method
* metaClass.myMethod << { args -> }
*
* // creates multiple overloaded methods of the same name
* metaClass.myMethod << { String s -> } << { Integer i -> }
*
* // defines or replaces a static method with the 'static' qualifier
* metaClass.'static'.myMethod = { args ->  }
*
* // defines a new static method with the 'static' qualifier
* metaClass.'static'.myMethod << { args ->  }
*
* // defines a new constructor
* metaClass.constructor << { String arg -> }
*
* // defines or replaces a constructor
* metaClass.constructor = { String arg -> }
*
* // defines a new property with an initial value of "blah"
* metaClass.myProperty = "blah"
* </pre>
* <p>
* ExpandoMetaClass also supports a DSL/builder like notation to combine multiple definitions together. So instead of this:
* <pre>
* Number.metaClass.multiply = { Amount amount -> amount.times(delegate) }
* Number.metaClass.div =      { Amount amount -> amount.inverse().times(delegate) }
* </pre>
* You can also now do this:
* <pre>
* Number.metaClass {
*     multiply { Amount amount -> amount.times(delegate) }
*     div      { Amount amount -> amount.inverse().times(delegate) }
* }
* </pre>
* <p>
* ExpandoMetaClass also supports runtime mixins. While {@code @Mixin} allows you to mix in new behavior
* to classes you own and are designing, you can not easily mixin anything to types you didn't own, e.g.
* from third party libraries or from JDK library classes.
* Runtime mixins let you add a mixin on any type at runtime.
* <pre>
* interface Vehicle {
*     String getName()
* }
*
* // Category annotation style
* {@code @Category}(Vehicle) class FlyingAbility {
*     def fly() { "I'm the ${name} and I fly!" }
* }
*
* // traditional category style
* class DivingAbility {
*     static dive(Vehicle self) { "I'm the ${self.name} and I dive!" }
* }
*
* // provided by a third-party, so can't augment using Mixin annotation
* class JamesBondVehicle implements Vehicle {
*     String getName() { "James Bond's vehicle" }
* }
*
* // Can be added via metaClass, e.g.:
* // JamesBondVehicle.metaClass.mixin DivingAbility, FlyingAbility
* // Or using shorthand through DGM method on Class
* JamesBondVehicle.mixin DivingAbility, FlyingAbility
*
* assert new JamesBondVehicle().fly() ==
*        "I'm the James Bond's vehicle and I fly!"
* assert new JamesBondVehicle().dive() ==
*        "I'm the James Bond's vehicle and I dive!"
* </pre>
* As another example, consider the following class definitions:
* <pre>
* class Student {
*     List<String> schedule = []
*     def addLecture(String lecture) { schedule << lecture }
* }
*
* class Worker {
*     List<String> schedule = []
*     def addMeeting(String meeting) { schedule << meeting }
* }
* </pre>
* We can mimic a form of multiple inheritance as follows:
* <pre>
* class CollegeStudent {
*     static { mixin Student, Worker }
* }
* new CollegeStudent().with {
*     addMeeting('Performance review with Boss')
*     addLecture('Learn about Groovy Mixins')
*     println schedule
*     println mixedIn[Student].schedule
*     println mixedIn[Worker].schedule
* }
* </pre>
* Which outputs these lines when run:
* <pre>
* [Performance review with Boss]
* [Learn about Groovy Mixins]
* [Performance review with Boss]
* </pre>
* Perhaps some explanation is required here. The methods and properties of Student and Worker are
* added to CollegeStudent. Worker is added last, so for overlapping methods, its methods will
* be used, e.g. when calling <code>schedule</code>, it will be the schedule property (getSchedule method)
* from Worker that is used. The schedule property from Student will be shadowed but the <code>mixedIn</code>
* notation allows us to get to that too if we need as the last two lines show.
* <p>
* We can also be a little more dynamic and not require the CollegeStudent class to
* be defined at all, e.g.:
* <pre>
* def cs = new Object()
* cs.metaClass {
*     mixin Student, Worker
*     getSchedule {
*         mixedIn[Student].schedule + mixedIn[Worker].schedule
*     }
* }
* cs.with {
*     addMeeting('Performance review with Boss')
*     addLecture('Learn about Groovy Mixins')
*     println schedule
* }
* </pre>
* Which outputs this line when run:
* <pre>
* [Learn about Groovy Mixins, Performance review with Boss]
* </pre>
* As another example, we can also define a no dup queue by mixing in some
* Queue and Set functionality as follows:
* <pre>
* def ndq = new Object()
* ndq.metaClass {
*     mixin ArrayDeque
*     mixin HashSet
*     leftShift = { Object o ->
*         if (!mixedIn[Set].contains(o)) {
*             mixedIn[Queue].push(o)
*             mixedIn[Set].add(o)
*         }
*     }
* }
* ndq << 1
* ndq << 2
* ndq << 1
* assert ndq.size() == 2
* </pre>
* As a final example, we sometimes need to pass such mixed in classes or objects
* into Java methods which require a given static type but the ExpandoMetaClass mixin approach uses a very dynamic
* approach based on duck typing rather than static interface definitions, so doesn't by default
* produce objects matching the required static type. Luckily, there is a mixins capability
* within ExpandoMetaClass which supports the use of Groovy's common 'as StaticType' notation to produce an object
* having the correct static type so that it can be passed to the Java method call in question.
* A slightly contrived example illustrating this feature:
* <pre>
* class CustomComparator implements Comparator {
*     int compare(Object a, b) { return a.size() - b.size() }
* }
*
* class CustomCloseable implements Closeable {
*     void close() { println 'Lights out - I am closing' }
* }
*
* import static mypackage.IOUtils.closeQuietly
* import static java.util.Collections.sort
* def o = new Object()
* o.metaClass.mixin CustomComparator, CustomCloseable
* def items = ['a', 'bbb', 'cc']
* sort(items, o as Comparator)
* println items                // => [a, cc, bbb]
* closeQuietly(o as Closeable) // => Lights out - I am closing
* </pre>
* <p>
* <b>Further details</b>
* <p>
* When using the default implementations of MetaClass, methods are only allowed to be added before initialize() is called.
* In other words you create a new MetaClass, add some methods and then call initialize(). If you attempt to add new methods
* after initialize() has been called, an error will be thrown. This is to ensure that the MetaClass can operate appropriately
* in multi-threaded environments as it forces you to do all method additions at the beginning, before using the MetaClass.
* <p>
* ExpandoMetaClass differs here from the default in that it allows you to add methods after initialize has been called.
* This is done by setting the initialize flag internally to false and then add the methods. Since this is not thread
* safe it has to be done in a synchronized block. The methods to check for modification and initialization are
* therefore synchronized as well. Any method call done through this meta class will first check if the it is
* synchronized. Should this happen during a modification, then the method cannot be selected or called unless the
* modification is completed.
* <p>
*
* @author Graeme Rocher
* @since 1.5
*/
public class ExpandoMetaClass extends MetaClassImpl implements GroovyObject {

    private static final String META_CLASS = "metaClass";
    private static final String CLASS = "class";
    private static final String META_METHODS = "metaMethods";
    private static final String METHODS = "methods";
    private static final String PROPERTIES = "properties";
    public static final String STATIC_QUALIFIER = "static";
    public static final String CONSTRUCTOR = "constructor";

    private static final String CLASS_PROPERTY = "class";
    private static final String META_CLASS_PROPERTY = "metaClass";
    private static final String GROOVY_CONSTRUCTOR = "<init>";

    // These two properties are used when no ExpandoMetaClassCreationHandle is present

    private MetaClass myMetaClass;
    private boolean initialized;
    private volatile boolean modified;

    private boolean initCalled;
    private final ReentrantReadWriteLock rwl = new ReentrantReadWriteLock();
    private final Lock readLock = rwl.readLock();
    private final Lock writeLock = rwl.writeLock();
   
    private final boolean allowChangesAfterInit;
    public boolean inRegistry;
   
    private final Set<MetaMethod> inheritedMetaMethods = new HashSet<MetaMethod>();
    private final Map<String, MetaProperty> beanPropertyCache = new ConcurrentHashMap<String, MetaProperty>(16, 0.75f, 1);
    private final Map<String, MetaProperty> staticBeanPropertyCache = new ConcurrentHashMap<String, MetaProperty>(16, 0.75f, 1);
    private final Map<MethodKey, MetaMethod> expandoMethods = new ConcurrentHashMap<MethodKey, MetaMethod>(16, 0.75f, 1);

    public Collection getExpandoSubclassMethods() {
        return expandoSubclassMethods.values();
    }

    private final ConcurrentHashMap expandoSubclassMethods = new ConcurrentHashMap(16, 0.75f, 1);
    private final Map<String, MetaProperty> expandoProperties = new ConcurrentHashMap<String, MetaProperty>(16, 0.75f, 1);
    private ClosureStaticMetaMethod invokeStaticMethodMethod;
    private final Set<MixinInMetaClass> mixinClasses = new LinkedHashSet<MixinInMetaClass>();

    public ExpandoMetaClass(Class theClass, boolean register, boolean allowChangesAfterInit, MetaMethod[] add) {
        this(GroovySystem.getMetaClassRegistry(), theClass, register, allowChangesAfterInit, add);
    }
   
    public ExpandoMetaClass(MetaClassRegistry registry, Class theClass, boolean register, boolean allowChangesAfterInit, MetaMethod[] add) {
        super(registry, theClass, add);
        this.myMetaClass = InvokerHelper.getMetaClass(getClass());
        this.inRegistry = register;
        this.allowChangesAfterInit = allowChangesAfterInit;
    }
   
    /**
     * Constructs a new ExpandoMetaClass instance for the given class
     *
     * @param theClass The class that the MetaClass applies to
     */
    public ExpandoMetaClass(Class theClass) {
        this(theClass,false,false,null);
    }

    public ExpandoMetaClass(Class theClass, MetaMethod [] add) {
        this(theClass,false,false,add);
    }

    /**
     * Constructs a new ExpandoMetaClass instance for the given class optionally placing the MetaClass
     * in the MetaClassRegistry automatically
     *
     * @param theClass The class that the MetaClass applies to
     * @param register True if the MetaClass should be registered inside the MetaClassRegistry. This defaults to true and ExpandoMetaClass will effect all instances if changed
     */
    public ExpandoMetaClass(Class theClass, boolean register) {
        this(theClass,register,false,null);
    }

    public ExpandoMetaClass(Class theClass, boolean register, MetaMethod [] add) {
        this(theClass, register, false, add);
    }

    /**
     * Constructs a new ExpandoMetaClass instance for the given class optionally placing the MetaClass
     * in the MetaClassRegistry automatically
     *
     * @param theClass The class that the MetaClass applies to
     * @param register True if the MetaClass should be registered inside the MetaClassRegistry. This defaults to true and ExpandoMetaClass will effect all instances if changed
     * @param allowChangesAfterInit Should the meta class be modifiable after initialization. Default is false.
     */
    public ExpandoMetaClass(Class theClass, boolean register, boolean allowChangesAfterInit) {
        this(theClass, register, allowChangesAfterInit, null);
    }

    public MetaMethod findMixinMethod(String methodName, Class[] arguments) {
        for (MixinInMetaClass mixin : mixinClasses) {
            final CachedClass mixinClass = mixin.getMixinClass();
            MetaClass metaClass = mixinClass.classInfo.getMetaClassForClass();
            if (metaClass == null) {
                metaClass = GroovySystem.getMetaClassRegistry().getMetaClass(mixinClass.getTheClass());
            }

            MetaMethod metaMethod = metaClass.pickMethod(methodName, arguments);
            if (metaMethod == null && metaClass instanceof MetaClassImpl) {
                MetaClassImpl mc = (MetaClassImpl) metaClass;
                for (CachedClass cl = mc.getTheCachedClass().getCachedSuperClass(); cl != null; cl = cl.getCachedSuperClass()) {
                    metaMethod = mc.getMethodWithoutCaching(cl.getTheClass(), methodName, arguments, false);
                    if (metaMethod != null)
                        break;
                }
            }
            if (metaMethod != null) {
                MetaMethod method = new MixinInstanceMetaMethod(metaMethod, mixin);

                if (method.getParameterTypes().length == 1 && !method.getParameterTypes()[0].isPrimitive) {
                    MetaMethod noParam = pickMethod(methodName, new Class[0]);
                    // if the current call itself is with empty arg class array, no need to recurse with 'new Class[0]'
                    if (noParam == null && arguments.length != 0) {
                        try {
                            findMixinMethod(methodName, new Class[0]);
                        } catch (MethodSelectionException msex) {
                            /*
                             * Here we just additionally tried to find another no-arg mixin method of the same name and register that as well, if found.
                             * Safe to ignore a MethodSelectionException in this additional exercise. (GROOVY-4999)
                             */
                        }
                    }
                }

                registerInstanceMethod(method);
                return method;
            }
        }
        return null;
    }

    protected void onInvokeMethodFoundInHierarchy(MetaMethod method) {
        this.invokeMethodMethod = method;
    }

    protected void onSuperMethodFoundInHierarchy(MetaMethod method) {
        addSuperMethodIfNotOverridden(method);
    }

    protected void onSuperPropertyFoundInHierarchy(MetaBeanProperty property) {
        addMetaBeanProperty(property);
    }

    protected void onSetPropertyFoundInHierarchy(MetaMethod method) {
        this.setPropertyMethod = method;
    }

    protected void onGetPropertyFoundInHierarchy(MetaMethod method) {
        this.getPropertyMethod = method;
    }

    public boolean isModified() {
        return this.modified;
    }

    public void registerSubclassInstanceMethod(String name, Class klazz, Closure closure) {
        final List<MetaMethod> list = ClosureMetaMethod.createMethodList(name, klazz, closure);
        for (MetaMethod metaMethod : list) {
            registerSubclassInstanceMethod(metaMethod);
        }
    }

    public void registerSubclassInstanceMethod(MetaMethod metaMethod) {
        modified = true;

        final String name = metaMethod.getName();
        Object methodOrList = expandoSubclassMethods.get(name);
        if (methodOrList == null) {
            expandoSubclassMethods.put(name, metaMethod);
        } else {
            if (methodOrList instanceof MetaMethod) {
                FastArray arr = new FastArray(2);
                arr.add(methodOrList);
                arr.add(metaMethod);
                expandoSubclassMethods.put(name, arr);
            } else {
                ((FastArray) methodOrList).add(metaMethod);
            }
        }
    }

    public void addMixinClass(MixinInMetaClass mixin) {
        mixinClasses.add(mixin);
    }

    public Object castToMixedType(Object obj, Class type) {
        for (MixinInMetaClass mixin : mixinClasses) {
            if (type.isAssignableFrom(mixin.getMixinClass().getTheClass()))
                return mixin.getMixinInstance(obj);
        }
        return null;
    }

    /**
     * For simulating closures in Java
     */
    private interface Callable {
        void call();
    }

    /**
     * Call to enable global use of global use of ExpandoMetaClass within the registry. This has the advantage that
     * inheritance will function correctly, but has a higher memory usage on the JVM than normal Groovy
     */
    public static void enableGlobally() {
        DefaultMetaClassInfo.setWithoutCustomMetaclassCreationHandle(false);
        ExpandoMetaClassCreationHandle.enable();
    }

    /**
     * Call to disable the global use of ExpandoMetaClass
     */
    public static void disableGlobally() {
        DefaultMetaClassInfo.setWithoutCustomMetaclassCreationHandle(true);
        ExpandoMetaClassCreationHandle.disable();
    }

    /* (non-Javadoc)
     * @see groovy.lang.MetaClassImpl#initialize()
     */

    public void initialize() {
        try {
            writeLock.lock();
            if (!isInitialized()) {
                super.initialize();
                setInitialized(true);
                this.initCalled = true;
            }
        } finally {
            // downgrade to readlock before releasing just in case
            readLock.lock();
            writeLock.unlock();
            readLock.unlock();
        }
    }

    /**
     * Checks if the meta class is initialized.
     * @see groovy.lang.MetaClassImpl#isInitialized()
     */
    protected boolean isInitialized() {
        try {
            readLock.lock();
            return this.initialized;
        } finally {
            readLock.unlock();
        }
    }

    protected void setInitialized(boolean b) {
        this.initialized = b;
    }

    private void addSuperMethodIfNotOverridden(final MetaMethod metaMethodFromSuper) {
        performOperationOnMetaClass(new Callable() {
            public void call() {

                MetaMethod existing = null;
                try {
                    existing = pickMethod(metaMethodFromSuper.getName(), metaMethodFromSuper.getNativeParameterTypes());
                } catch ( GroovyRuntimeException e) {
                    // ignore, this happens with overlapping method definitions
                }

                if (existing == null) {
                    addMethodWithKey(metaMethodFromSuper);
                } else {
                    boolean isGroovyMethod = getMetaMethods().contains(existing);

                    if (isGroovyMethod) {
                        addMethodWithKey(metaMethodFromSuper);
                    } else if (inheritedMetaMethods.contains(existing)) {
                        inheritedMetaMethods.remove(existing);
                        addMethodWithKey(metaMethodFromSuper);
                    }
                }
            }

            private void addMethodWithKey(final MetaMethod metaMethodFromSuper) {
                inheritedMetaMethods.add(metaMethodFromSuper);
                if (metaMethodFromSuper instanceof ClosureMetaMethod) {
                    ClosureMetaMethod closureMethod = (ClosureMetaMethod)metaMethodFromSuper;
                    String name = metaMethodFromSuper.getName();
                    final Class declaringClass = metaMethodFromSuper.getDeclaringClass().getTheClass();
                    ClosureMetaMethod localMethod = ClosureMetaMethod.copy(closureMethod);
                    addMetaMethod(localMethod);

                    MethodKey key = new DefaultCachedMethodKey(declaringClass, name, localMethod.getParameterTypes(), false);

                    checkIfGroovyObjectMethod(localMethod);
                    expandoMethods.put(key, localMethod);

                }
            }
        });
    }

    /**
     * Instances of this class are returned when using the << left shift operator.
     * <p>
     * Example:
     * <p>
     * metaClass.myMethod << { String args -> }
     * <p>
     * This allows callbacks to the ExpandoMetaClass for registering appending methods
     *
     * @author Graeme Rocher
     */
    protected class ExpandoMetaProperty extends GroovyObjectSupport {

        protected String propertyName;
        protected boolean isStatic;

        protected ExpandoMetaProperty(String name) {
            this(name, false);
        }

        protected ExpandoMetaProperty(String name, boolean isStatic) {
            this.propertyName = name;
            this.isStatic = isStatic;
        }

        public String getPropertyName() {
            return this.propertyName;
        }

        public boolean isStatic() {
            return this.isStatic;
        }

        public Object leftShift(Object arg) {
            registerIfClosure(arg, false);
            return this;
        }

        private void registerIfClosure(Object arg, boolean replace) {
            if (arg instanceof Closure) {
                Closure callable = (Closure) arg;
                final List<MetaMethod> list = ClosureMetaMethod.createMethodList(propertyName, theClass, callable);
                if (list.isEmpty() && this.isStatic) {
                    Class[] paramTypes = callable.getParameterTypes();
                    registerStatic(callable, replace, paramTypes);
                    return;
                }
                for (MetaMethod method : list) {
                    Class[] paramTypes = method.getNativeParameterTypes();
                    if (this.isStatic) {
                        registerStatic(callable, replace, paramTypes);
                    } else {
                        registerInstance(method, replace, paramTypes);
                    }
                }
            }
        }

        private void registerStatic(Closure callable, boolean replace, Class[] paramTypes) {
            Method foundMethod = checkIfMethodExists(theClass, propertyName, paramTypes, true);
            if (foundMethod != null && !replace)
                throw new GroovyRuntimeException("Cannot add new static method [" + propertyName + "] for arguments [" + DefaultGroovyMethods.inspect(paramTypes) + "]. It already exists!");
            registerStaticMethod(propertyName, callable, paramTypes);
        }

        private void registerInstance(MetaMethod method, boolean replace, Class[] paramTypes) {
            Method foundMethod = checkIfMethodExists(theClass, propertyName, paramTypes, false);
            if (foundMethod != null && !replace)
                throw new GroovyRuntimeException("Cannot add new method [" + propertyName + "] for arguments [" + DefaultGroovyMethods.inspect(paramTypes) + "]. It already exists!");
            registerInstanceMethod(method);
        }

        private Method checkIfMethodExists(Class methodClass, String methodName, Class[] paramTypes, boolean staticMethod) {
            Method foundMethod = null;
            Method[] methods = methodClass.getMethods();
            for (Method method : methods) {
                if (method.getName().equals(methodName) && Modifier.isStatic(method.getModifiers()) == staticMethod) {
                    if (MetaClassHelper.parametersAreCompatible(paramTypes, method.getParameterTypes())) {
                        foundMethod = method;
                        break;
                    }
                }
            }
            return foundMethod;
        }

        /* (non-Javadoc)
           * @see groovy.lang.GroovyObjectSupport#getProperty(java.lang.String)
           */

        public Object getProperty(String property) {
            this.propertyName = property;
            return this;
        }
        /* (non-Javadoc)
           * @see groovy.lang.GroovyObjectSupport#setProperty(java.lang.String, java.lang.Object)
           */

        public void setProperty(String property, Object newValue) {
            this.propertyName = property;
            registerIfClosure(newValue, true);
        }
    }

    /* (non-Javadoc)
      * @see groovy.lang.MetaClassImpl#invokeConstructor(java.lang.Object[])
      */

    public Object invokeConstructor(Object[] arguments) {

        // TODO This is the only area where this MetaClass needs to do some interception because Groovy's current
        // MetaClass uses hard coded references to the java.lang.reflect.Constructor class so you can't simply
        // inject Constructor like you can do properties, methods and fields. When Groovy's MetaClassImpl is
        // refactored we can fix this
        Class[] argClasses = MetaClassHelper.convertToTypeArray(arguments);
        MetaMethod method = pickMethod(GROOVY_CONSTRUCTOR, argClasses);
        if (method != null && method.getParameterTypes().length == arguments.length) {
            return method.invoke(theClass, arguments);
        }
        return super.invokeConstructor(arguments);
    }

    /**
     * Handles the ability to use the left shift operator to append new constructors
     *
     * @author Graeme Rocher
     */
    protected class ExpandoMetaConstructor extends GroovyObjectSupport {
        public Object leftShift(Closure c) {
            if (c != null) {
                final List<MetaMethod> list = ClosureMetaMethod.createMethodList(GROOVY_CONSTRUCTOR, theClass, c);
                for (MetaMethod method : list) {
                    Class[] paramTypes = method.getNativeParameterTypes();
                    Constructor ctor = retrieveConstructor(paramTypes);
                    if (ctor != null)
                        throw new GroovyRuntimeException("Cannot add new constructor for arguments [" + DefaultGroovyMethods.inspect(paramTypes) + "]. It already exists!");

                    registerInstanceMethod(method);
                }
            }

            return this;
        }
    }

    /* (non-Javadoc)
      * @see groovy.lang.GroovyObject#getMetaClass()
      */

    public MetaClass getMetaClass() {
        return myMetaClass;
    }

    /* (non-Javadoc)
      * @see groovy.lang.GroovyObject#getProperty(java.lang.String)
      */

    public Object getProperty(String property) {
        if (isValidExpandoProperty(property)) {
            if (property.equals(STATIC_QUALIFIER)) {
                return new ExpandoMetaProperty(property, true);
            } else if (property.equals(CONSTRUCTOR)) {
                return new ExpandoMetaConstructor();
            } else {
                if (myMetaClass.hasProperty(this, property) == null)
                    return new ExpandoMetaProperty(property);
                else
                    return myMetaClass.getProperty(this, property);
            }
        } else {
            return myMetaClass.getProperty(this, property);
        }
    }

    public static boolean isValidExpandoProperty(String property) {
        return !(property.equals(META_CLASS) || property.equals(CLASS) || property.equals(META_METHODS) || property.equals(METHODS) || property.equals(PROPERTIES));
    }

    /* (non-Javadoc)
      * @see groovy.lang.GroovyObject#invokeMethod(java.lang.String, java.lang.Object)
      */

    public Object invokeMethod(String name, Object args) {
        final Object[] argsArr = args instanceof Object[] ? (Object[]) args : new Object[]{args};
        MetaMethod metaMethod = myMetaClass.getMetaMethod(name, argsArr);
        if (metaMethod != null) {
            // we have to use doMethodInvoke here instead of simply invoke,
            // because getMetaMethod may provide a method that can not be called
            // without further argument transformation, which is done only in
            // doMethodInvoke
            return metaMethod.doMethodInvoke(this, argsArr);
        }

        if (argsArr.length == 2 && argsArr[0] instanceof Class && argsArr[1] instanceof Closure) {
            if (argsArr[0] == theClass)
                registerInstanceMethod(name, (Closure) argsArr[1]);
            else {
                registerSubclassInstanceMethod(name, (Class) argsArr[0], (Closure) argsArr[1]);
            }
            return null;
        }

        if (argsArr.length == 1 && argsArr[0] instanceof Closure) {
            registerInstanceMethod(name, (Closure) argsArr[0]);
            return null;
        }

        throw new MissingMethodException(name, getClass(), argsArr);
    }

    /* (non-Javadoc)
      * @see groovy.lang.GroovyObject#setMetaClass(groovy.lang.MetaClass)
      */

    public void setMetaClass(MetaClass metaClass) {
        this.myMetaClass = metaClass;
    }

    /* (non-Javadoc)
      * @see groovy.lang.GroovyObject#setProperty(java.lang.String, java.lang.Object)
      */

    public void setProperty(String property, Object newValue) {
        if (newValue instanceof Closure) {
            if (property.equals(CONSTRUCTOR)) {
                property = GROOVY_CONSTRUCTOR;
            }
            Closure callable = (Closure) newValue;
            final List<MetaMethod> list = ClosureMetaMethod.createMethodList(property, theClass, callable);
            for (MetaMethod method : list) {
                // here we don't care if the method exists or not we assume the
                // developer is responsible and wants to override methods where necessary
                registerInstanceMethod(method);
            }
        } else {
            registerBeanProperty(property, newValue);
        }
    }

    public ExpandoMetaClass define(Closure closure) {
        final DefiningClosure definer = new DefiningClosure();
        Object delegate = closure.getDelegate();
        closure.setDelegate(definer);
        closure.setResolveStrategy(Closure.DELEGATE_ONLY);
        closure.call((Object)null);
        closure.setDelegate(delegate);
        closure.setResolveStrategy(Closure.DELEGATE_FIRST);
        definer.definition = false;
        return this;
    }

    protected synchronized void performOperationOnMetaClass(Callable c) {
        try {
            writeLock.lock();
            if (allowChangesAfterInit) {
                setInitialized(false);
            }
            c.call();
        }
        finally {
            if (initCalled) {
                setInitialized(true);
            }
            // downgrade to readlock before releasing just in case
            readLock.lock();
            writeLock.unlock();
            readLock.unlock();
        }
    }
   
    protected void checkInitalised() {
        try {
            readLock.lock();
            super.checkInitalised();
        } finally {
            readLock.unlock();
        }
    }

    /**
     * Registers a new bean property
     *
     * @param property The property name
     * @param newValue The properties initial value
     */
    public void registerBeanProperty(final String property, final Object newValue) {
        performOperationOnMetaClass(new Callable() {
            public void call() {
                Class type = newValue == null ? Object.class : newValue.getClass();

                MetaBeanProperty mbp = newValue instanceof MetaBeanProperty ? (MetaBeanProperty) newValue : new ThreadManagedMetaBeanProperty(theClass, property, type, newValue);

                final MetaMethod getter = mbp.getGetter();
                final MethodKey getterKey = new DefaultCachedMethodKey(theClass, getter.getName(), CachedClass.EMPTY_ARRAY, false);
                final MetaMethod setter = mbp.getSetter();
                final MethodKey setterKey = new DefaultCachedMethodKey(theClass, setter.getName(), setter.getParameterTypes(), false);
                addMetaMethod(getter);
                addMetaMethod(setter);

                expandoMethods.put(setterKey, setter);
                expandoMethods.put(getterKey, getter);
                expandoProperties.put(mbp.getName(), mbp);

                addMetaBeanProperty(mbp);
                performRegistryCallbacks();
            }

        });
    }

    /**
     * Registers a new instance method for the given method name and closure on this MetaClass
     *
     * @param metaMethod
     */
    public void registerInstanceMethod(final MetaMethod metaMethod) {
        final boolean inited = this.initCalled;
        performOperationOnMetaClass(new Callable() {
            public void call() {
                String methodName = metaMethod.getName();
                checkIfGroovyObjectMethod(metaMethod);
                MethodKey key = new DefaultCachedMethodKey(theClass, methodName, metaMethod.getParameterTypes(), false);

                if (isInitialized()) {
                    throw new RuntimeException("Already initialized, cannot add new method: " + metaMethod);
                }
                // we always adds meta methods to class itself
                addMetaMethodToIndex(metaMethod, metaMethodIndex.getHeader(theClass));

                dropMethodCache(methodName);
                expandoMethods.put(key, metaMethod);

                if (inited && isGetter(methodName, metaMethod.getParameterTypes())) {
                    String propertyName = getPropertyForGetter(methodName);
                    registerBeanPropertyForMethod(metaMethod, propertyName, true, false);

                } else if (inited && isSetter(methodName, metaMethod.getParameterTypes())) {
                    String propertyName = getPropertyForSetter(methodName);
                    registerBeanPropertyForMethod(metaMethod, propertyName, false, false);
                }
                performRegistryCallbacks();
            }

        });
    }

    public void registerInstanceMethod(String name, Closure closure) {
        final List<MetaMethod> list = ClosureMetaMethod.createMethodList(name, theClass, closure);
        for (MetaMethod method : list) {
            registerInstanceMethod(method);
        }
    }

    /**
     * Overrides the behavior of parent getMethods() method to make MetaClass aware of added Expando methods
     *
     * @return A list of MetaMethods
     * @see MetaObjectProtocol#getMethods()
     */
    public List<MetaMethod> getMethods() {
        List<MetaMethod> methodList = new ArrayList<MetaMethod>();
        methodList.addAll(this.expandoMethods.values());
        methodList.addAll(super.getMethods());
        return methodList;
    }

    public List<MetaProperty> getProperties() {
        List<MetaProperty> propertyList = new ArrayList<MetaProperty>();
        propertyList.addAll(super.getProperties());
        return propertyList;
    }


    private void performRegistryCallbacks() {
        MetaClassRegistry registry = GroovySystem.getMetaClassRegistry();
        incVersion();
        if (!modified) {
            modified = true;
            // Implementation note: By default Groovy uses soft references to store MetaClass
            // this insures the registry doesn't grow and get out of hand. By doing this we're
            // saying this this EMC will be a hard reference in the registry. As we're only
            // going have a small number of classes that have modified EMC this is ok
            if (inRegistry) {
                MetaClass currMetaClass = registry.getMetaClass(theClass);
                if (!(currMetaClass instanceof ExpandoMetaClass) && currMetaClass instanceof AdaptingMetaClass) {
                    ((AdaptingMetaClass) currMetaClass).setAdaptee(this);
                } else {
                    registry.setMetaClass(theClass, this);
                }
            }

        }
    }

    private void registerBeanPropertyForMethod(MetaMethod metaMethod, String propertyName, boolean getter, boolean isStatic) {
        Map<String, MetaProperty> propertyCache = isStatic ? staticBeanPropertyCache : beanPropertyCache;
        MetaBeanProperty beanProperty = (MetaBeanProperty) propertyCache.get(propertyName);
        if (beanProperty == null) {
            if (getter)
                beanProperty = new MetaBeanProperty(propertyName, Object.class, metaMethod, null);
            else
                beanProperty = new MetaBeanProperty(propertyName, Object.class, null, metaMethod);

            propertyCache.put(propertyName, beanProperty);
        } else {
            if (getter) {
                MetaMethod setterMethod = beanProperty.getSetter();
                Class type = setterMethod != null ? setterMethod.getParameterTypes()[0].getTheClass() : Object.class;
                beanProperty = new MetaBeanProperty(propertyName, type, metaMethod, setterMethod);
                propertyCache.put(propertyName, beanProperty);
            } else {
                MetaMethod getterMethod = beanProperty.getGetter();
                beanProperty = new MetaBeanProperty(propertyName, metaMethod.getParameterTypes()[0].getTheClass(), getterMethod, metaMethod);
                propertyCache.put(propertyName, beanProperty);
            }
        }
        expandoProperties.put(beanProperty.getName(), beanProperty);
        addMetaBeanProperty(beanProperty);
    }

    protected void registerStaticMethod(final String name, final Closure callable) {
        registerStaticMethod(name, callable, null);
    }

    /**
     * Registers a new static method for the given method name and closure on this MetaClass
     *
     * @param name     The method name
     * @param callable The callable Closure
     */
    protected void registerStaticMethod(final String name, final Closure callable, final Class[] paramTypes) {
        performOperationOnMetaClass(new Callable() {
            public void call() {
                String methodName;
                if (name.equals(METHOD_MISSING))
                    methodName = STATIC_METHOD_MISSING;
                else if (name.equals(PROPERTY_MISSING))
                    methodName = STATIC_PROPERTY_MISSING;
                else
                    methodName = name;

                ClosureStaticMetaMethod metaMethod = null;

                if (paramTypes != null) {
                    metaMethod = new ClosureStaticMetaMethod(methodName, theClass, callable, paramTypes);
                } else {
                    metaMethod = new ClosureStaticMetaMethod(methodName, theClass, callable);
                }

                if (methodName.equals(INVOKE_METHOD_METHOD) && callable.getParameterTypes().length == 2) {
                    invokeStaticMethodMethod = metaMethod;
                } else {
                    if (methodName.equals(METHOD_MISSING)) {
                        methodName = STATIC_METHOD_MISSING;
                    }
                    MethodKey key = new DefaultCachedMethodKey(theClass, methodName, metaMethod.getParameterTypes(), false);

                    addMetaMethod(metaMethod);
                    dropStaticMethodCache(methodName);
//                    cacheStaticMethod(key,metaMethod);

                    if (isGetter(methodName, metaMethod.getParameterTypes())) {
                        String propertyName = getPropertyForGetter(methodName);
                        registerBeanPropertyForMethod(metaMethod, propertyName, true, true);

                    } else if (isSetter(methodName, metaMethod.getParameterTypes())) {
                        String propertyName = getPropertyForSetter(methodName);
                        registerBeanPropertyForMethod(metaMethod, propertyName, false, true);
                    }
                    performRegistryCallbacks();
                    expandoMethods.put(key, metaMethod);
                }
            }

        });
    }

    protected Object getSubclassMetaMethods(String methodName) {
        if (!isModified())
            return null;

        return expandoSubclassMethods.get(methodName);
    }

    /**
     * @return The Java class enhanced by this MetaClass
     */
    public Class getJavaClass() {
        return theClass;
    }

    /**
     * Called from ExpandoMetaClassCreationHandle in the registry if it exists to
     * set up inheritance handling
     *
     * @param modifiedSuperExpandos A list of modified super ExpandoMetaClass
     */
    public void refreshInheritedMethods(Set modifiedSuperExpandos) {
        for (Iterator i = modifiedSuperExpandos.iterator(); i.hasNext();) {
            ExpandoMetaClass superExpando = (ExpandoMetaClass) i.next();
            if (superExpando != this) {
                refreshInheritedMethods(superExpando);
            }
        }
    }

    private void refreshInheritedMethods(ExpandoMetaClass superExpando) {
        List<MetaMethod> metaMethods = superExpando.getExpandoMethods();
        for (MetaMethod metaMethod : metaMethods) {
            if (metaMethod.isStatic()) {
                if (superExpando.getTheClass() != getTheClass())
                    continue; // don't inherit static methods except our own
                registerStaticMethod(metaMethod.getName(), (Closure) ((ClosureStaticMetaMethod) metaMethod).getClosure().clone());
            } else
                addSuperMethodIfNotOverridden(metaMethod);
        }
        Collection<MetaProperty> metaProperties = superExpando.getExpandoProperties();
        for (Object metaProperty : metaProperties) {
            MetaBeanProperty property = (MetaBeanProperty) metaProperty;
            expandoProperties.put(property.getName(), property);
            addMetaBeanProperty(property);
        }
    }


    /**
     * Returns a list of expando MetaMethod instances added to this ExpandoMetaClass
     *
     * @return the expandoMethods
     */
    public List<MetaMethod> getExpandoMethods() {
        return Collections.unmodifiableList(DefaultGroovyMethods.toList(expandoMethods.values()));
    }


    /**
     * Returns a list of MetaBeanProperty instances added to this ExpandoMetaClass
     *
     * @return the expandoProperties
     */
    public Collection<MetaProperty> getExpandoProperties() {
        return Collections.unmodifiableCollection(expandoProperties.values());
    }

    /**
     * Overrides default implementation just in case invokeMethod has been overridden by ExpandoMetaClass
     *
     * @see groovy.lang.MetaClassImpl#invokeMethod(Class, Object, String, Object[], boolean, boolean)
     */
    public Object invokeMethod(Class sender, Object object, String methodName, Object[] originalArguments, boolean isCallToSuper, boolean fromInsideClass) {
        if (invokeMethodMethod != null) {
            MetaClassHelper.unwrap(originalArguments);
            return invokeMethodMethod.invoke(object, new Object[]{methodName, originalArguments});
        }
        return super.invokeMethod(sender, object, methodName, originalArguments, isCallToSuper, fromInsideClass);
    }

    /**
     * Overrides default implementation just in case a static invoke method has been set on ExpandoMetaClass
     *
     * @see MetaClassImpl#invokeStaticMethod(Object, String, Object[])
     */
    public Object invokeStaticMethod(Object object, String methodName, Object[] arguments) {
        if (invokeStaticMethodMethod != null) {
            MetaClassHelper.unwrap(arguments);
            return invokeStaticMethodMethod.invoke(object, new Object[]{methodName, arguments});
        }
        return super.invokeStaticMethod(object, methodName, arguments);
    }

    /**
     * Overrides default implementation just in case getProperty method has been overridden by ExpandoMetaClass
     *
     * @see MetaClassImpl#getProperty(Class, Object, String, boolean, boolean)
     */
    public Object getProperty(Class sender, Object object, String name, boolean useSuper, boolean fromInsideClass) {
        if (hasOverrideGetProperty(name) && getJavaClass().isInstance(object)) {
            return getPropertyMethod.invoke(object, new Object[]{name});
        }

        if ("mixedIn".equals(name)) {
            return new MixedInAccessor(object, mixinClasses);
        }

        return super.getProperty(sender, object, name, useSuper, fromInsideClass);
    }

    /**
     * Overrides default implementation just in case getProperty method has been overridden by ExpandoMetaClass
     *
     * @see MetaClassImpl#getProperty(Object, String)
     */
    public Object getProperty(Object object, String name) {
        if (hasOverrideGetProperty(name) && getJavaClass().isInstance(object)) {
            return getPropertyMethod.invoke(object, new Object[]{name});
        }
        return super.getProperty(object, name);
    }

    private boolean hasOverrideGetProperty(String name) {
        return getPropertyMethod != null && !name.equals(META_CLASS_PROPERTY) && !name.equals(CLASS_PROPERTY);
    }

    /**
     * Overrides default implementation just in case setProperty method has been overridden by ExpandoMetaClass
     *
     * @see MetaClassImpl#setProperty(Class, Object, String, Object, boolean, boolean)
     */

    public void setProperty(Class sender, Object object, String name, Object newValue, boolean useSuper, boolean fromInsideClass) {
        if (setPropertyMethod != null && !name.equals(META_CLASS_PROPERTY) && getJavaClass().isInstance(object)) {
            setPropertyMethod.invoke(object, new Object[]{name, newValue});
            return;
        }
        super.setProperty(sender, object, name, newValue, useSuper, fromInsideClass);
    }

    /**
     * Looks up an existing MetaProperty by name
     *
     * @param name The name of the MetaProperty
     * @return The MetaProperty or null if it doesn't exist
     */
    public MetaProperty getMetaProperty(String name) {
        MetaProperty mp = (MetaProperty) this.expandoProperties.get(name);
        if (mp != null) return mp;
        return super.getMetaProperty(name);
    }

    /**
     * Returns true if the MetaClass has the given property
     *
     * @param name The name of the MetaProperty
     * @return True it exists as a MetaProperty
     */
    public boolean hasMetaProperty(String name) {
        return getMetaProperty(name) != null;
    }

    /**
     * Checks whether a MetaMethod for the given name and arguments exists
     *
     * @param name The name of the MetaMethod
     * @param args The arguments to the meta method
     * @return True if the method exists otherwise null
     */
    public boolean hasMetaMethod(String name, Class[] args) {
        return super.pickMethod(name, args) != null;
    }

    /**
     * Determine if this method name suffix is a legitimate bean property name.
     * Either the first or second letter must be upperCase for that to be true.
     */
    private static boolean isPropertyName(String name) {
        return ((name.length() > 0) && Character.isUpperCase(name.charAt(0))) || ((name.length() > 1) && Character.isUpperCase(name.charAt(1)));
    }

    /**
     * Returns true if the name of the method specified and the number of arguments make it a javabean property
     *
     * @param name True if its a Javabean property
     * @param args The arguments
     * @return True if it is a javabean property method
     */
    private boolean isGetter(String name, CachedClass[] args) {
        if (name == null || name.length() == 0 || args == null) return false;
        if (args.length != 0) return false;

        if (name.startsWith("get")) {
            name = name.substring(3);
            return isPropertyName(name);
        } else if (name.startsWith("is")) {
            name = name.substring(2);
            return isPropertyName(name);
        }
        return false;
    }

    /**
     * Returns a property name equivalent for the given getter name or null if it is not a getter
     *
     * @param getterName The getter name
     * @return The property name equivalent
     */
    private String getPropertyForGetter(String getterName) {
        if (getterName == null || getterName.length() == 0) return null;

        if (getterName.startsWith("get")) {
            String prop = getterName.substring(3);
            return MetaClassHelper.convertPropertyName(prop);
        } else if (getterName.startsWith("is")) {
            String prop = getterName.substring(2);
            return MetaClassHelper.convertPropertyName(prop);
        }
        return null;
    }

    /**
     * Returns a property name equivalent for the given setter name or null if it is not a getter
     *
     * @param setterName The setter name
     * @return The property name equivalent
     */
    public String getPropertyForSetter(String setterName) {
        if (setterName == null || setterName.length() == 0) return null;

        if (setterName.startsWith("set")) {
            String prop = setterName.substring(3);
            return MetaClassHelper.convertPropertyName(prop);
        }
        return null;
    }

    public boolean isSetter(String name, CachedClass[] args) {
        if (name == null || name.length() == 0 || args == null) return false;

        if (name.startsWith("set")) {
            if (args.length != 1) return false;
            name = name.substring(3);
            return isPropertyName(name);
        }

        return false;
    }

    public CallSite createPojoCallSite(CallSite site, Object receiver, Object[] args) {
        if (invokeMethodMethod != null)
            return new PojoMetaClassSite(site, this);

        return super.createPojoCallSite(site, receiver, args);
    }

    public CallSite createStaticSite(CallSite site, Object[] args) {
        if (invokeStaticMethodMethod != null)
            return new StaticMetaClassSite(site, this);

        return super.createStaticSite(site, args);
    }

    public CallSite createPogoCallSite(CallSite site, Object[] args) {
        if (invokeMethodMethod != null)
            return new PogoMetaClassSite(site, this);
        return super.createPogoCallSite(site, args);
    }

    public CallSite createPogoCallCurrentSite(CallSite site, Class sender, String name, Object[] args) {
        if (invokeMethodMethod != null)
            return new PogoMetaClassSite(site, this);
        return super.createPogoCallCurrentSite(site, sender, args);
    }
   
    @Override
    public MetaMethod retrieveConstructor(Object[] args) {
        Class[] params = MetaClassHelper.convertToTypeArray(args);
        MetaMethod method = pickMethod(GROOVY_CONSTRUCTOR, params);
        if (method!=null) return method;
        return super.retrieveConstructor(args);
    }

    public CallSite createConstructorSite(CallSite site, Object[] args) {
        Class[] params = MetaClassHelper.convertToTypeArray(args);
        MetaMethod method = pickMethod(GROOVY_CONSTRUCTOR, params);
        if (method != null && method.getParameterTypes().length == args.length) {
            if (method.getDeclaringClass().getTheClass().equals(getTheClass())) {
                return new ConstructorMetaMethodSite(site, this, method, params);
            }
        }

        return super.createConstructorSite(site, args);
    }

    private class SubClassDefiningClosure extends GroovyObjectSupport {
        private final Class klazz;

        public SubClassDefiningClosure(Class klazz) {
            this.klazz = klazz;
        }

        public Object invokeMethod(String name, Object obj) {
            if (obj instanceof Object[]) {
                Object args[] = (Object[]) obj;
                if (args.length == 1 && args[0] instanceof Closure) {
                    registerSubclassInstanceMethod(name, klazz, (Closure) args[0]);
                    return null;
                }
            }

            throw new MissingMethodException(name, getClass(), new Object[]{obj});
        }
    }

    private class DefiningClosure extends GroovyObjectSupport {
        boolean definition = true;

        public void mixin(Class category) {
            mixin(Collections.singletonList(category));
        }

        public void mixin(List categories) {
            DefaultGroovyMethods.mixin(ExpandoMetaClass.this, categories);
        }

        public void mixin(Class[] categories) {
            DefaultGroovyMethods.mixin(ExpandoMetaClass.this, categories);
        }

        public void define(Class subClass, Closure closure) {
            final SubClassDefiningClosure definer = new SubClassDefiningClosure(subClass);
            closure.setDelegate(definer);
            closure.setResolveStrategy(Closure.DELEGATE_FIRST);
            closure.call((Object)null);
        }

        public Object invokeMethod(String name, Object obj) {
            try {
                return getMetaClass().invokeMethod(this, name, obj);
            }
            catch (MissingMethodException mme) {
                if (obj instanceof Object[]) {
                    if (STATIC_QUALIFIER.equals(name)) {
                        final StaticDefiningClosure staticDef = new StaticDefiningClosure();
                        Closure c = (Closure) ((Object[]) obj)[0];
                        c.setDelegate(staticDef);
                        c.setResolveStrategy(Closure.DELEGATE_ONLY);
                        c.call((Object)null);
                        return null;
                    }
                    Object args[] = (Object[]) obj;
                    if (args.length == 1 && args[0] instanceof Closure) {
                        registerInstanceMethod(name, (Closure) args[0]);
                    } else if (args.length == 2 && args[0] instanceof Class && args[1] instanceof Closure)
                        registerSubclassInstanceMethod(name, (Class) args[0], (Closure) args[1]);
                    else
                        ExpandoMetaClass.this.setProperty(name, ((Object[]) obj)[0]);

                    return null;
                }

                throw mme;
            }
        }

        public void setProperty(String property, Object newValue) {
            ExpandoMetaClass.this.setProperty(property, newValue);
        }

        public Object getProperty(String property) {
            if (STATIC_QUALIFIER.equals(property))
                return new StaticDefiningClosure();

            if (definition)
                return new ExpandoMetaProperty(property);
            else
                throw new MissingPropertyException(property, getClass());
        }
    }

    private class StaticDefiningClosure extends ExpandoMetaProperty {
        protected StaticDefiningClosure() {
            super(STATIC_QUALIFIER, true);
        }

        public Object invokeMethod(String name, Object obj) {
            if (obj instanceof Object[]) {
                final Object[] args = (Object[]) obj;
                if (args.length == 1 && args[0] instanceof Closure) {
                    registerStaticMethod(name, (Closure) args[0]);
                    return null;
                }
            }

            throw new MissingMethodException(name, getClass(), obj instanceof Object[] ? (Object[]) obj : new Object[]{obj});
        }
    }

    private static class MixedInAccessor {
        private final Object object;
        private final Set<MixinInMetaClass> mixinClasses;

        public MixedInAccessor(Object object, Set<MixinInMetaClass> mixinClasses) {
            this.object = object;
            this.mixinClasses = mixinClasses;
        }

        public Object getAt(Class key) {
            if (key.isAssignableFrom(object.getClass())) {
                return new GroovyObjectSupport() {
                    {
                        final MetaClass ownMetaClass = InvokerHelper.getMetaClass(object.getClass());
                        setMetaClass(new OwnedMetaClass(ownMetaClass) {
                            protected Object getOwner() {
                                return object;
                            }

                            protected MetaClass getOwnerMetaClass(Object owner) {
                                return getAdaptee();
                            }
                        });
                    }
                };
            }

            for (final MixinInMetaClass mixin : mixinClasses) {
                if (key.isAssignableFrom(mixin.getMixinClass().getTheClass())) {
                    return new GroovyObjectSupport() {
                        {
                            final Object mixedInInstance = mixin.getMixinInstance(object);
                            setMetaClass(new OwnedMetaClass(InvokerHelper.getMetaClass(mixedInInstance)) {
                                @Override
                                protected Object getOwner() {
                                    return mixedInInstance;
                                }

                                @Override
                                protected MetaClass getOwnerMetaClass(Object owner) {
                                    return ((MixedInMetaClass) getAdaptee()).getAdaptee();
                                }
                            });
                        }
                    };
                }
            }

            throw new RuntimeException("Class " + key + " isn't mixed in " + object.getClass());
        }

        public void putAt(Class key, Object value) {
            for (MixinInMetaClass mixin : mixinClasses)
                if (mixin.getMixinClass().getTheClass() == key) {
                    mixin.setMixinInstance(object, value);
                    return;
                }

            throw new RuntimeException("Class " + key + " isn't mixed in " + object.getClass());
        }
    }
}
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