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/*
 * 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.util;

import groovy.lang.Binding;
import groovy.lang.Closure;
import groovy.lang.DelegatingMetaClass;
import groovy.lang.GroovyClassLoader;
import groovy.lang.MetaClass;
import groovy.lang.MissingMethodException;
import groovy.lang.MissingPropertyException;
import groovy.lang.Reference;
import groovy.lang.Script;
import org.codehaus.groovy.runtime.InvokerHelper;
import org.codehaus.groovy.runtime.MetaClassHelper;
import org.codehaus.groovy.runtime.metaclass.MissingMethodExceptionNoStack;

import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.*;
import java.util.logging.Level;
import java.util.logging.Logger;

/**
 * Mix of BuilderSupport and SwingBuilder's factory support.
 *
 * Warning: this implementation is not thread safe and should not be used
 * across threads in a multi-threaded environment.  A locking mechanism
 * should be implemented by the subclass if use is expected across
 * multiple threads.
 *
 * @author James Strachan
 * @author Andres Almiray
 * @author Danno Ferrin
 */
public abstract class FactoryBuilderSupport extends Binding {
    public static final String CURRENT_FACTORY = "_CURRENT_FACTORY_";
    public static final String PARENT_FACTORY = "_PARENT_FACTORY_";
    public static final String PARENT_NODE = "_PARENT_NODE_";
    public static final String CURRENT_NODE = "_CURRENT_NODE_";
    public static final String PARENT_CONTEXT = "_PARENT_CONTEXT_";
    public static final String PARENT_NAME = "_PARENT_NAME_";
    public static final String CURRENT_NAME = "_CURRENT_NAME_";
    public static final String OWNER = "owner";
    public static final String PARENT_BUILDER = "_PARENT_BUILDER_";
    public static final String CURRENT_BUILDER = "_CURRENT_BUILDER_";
    public static final String CHILD_BUILDER = "_CHILD_BUILDER_";
    public static final String SCRIPT_CLASS_NAME = "_SCRIPT_CLASS_NAME_";
    private static final Logger LOG = Logger.getLogger(FactoryBuilderSupport.class.getName());
    private static final Comparator METHOD_COMPARATOR = new Comparator() {
        public int compare(final Method o1, final Method o2) {
            int cmp = o1.getName().compareTo(o2.getName());
            if (cmp != 0) return cmp;
            cmp = o1.getParameterTypes().length - o1.getParameterTypes().length;
            return cmp;
        }
    };

    /**
     * Throws an exception if value is null.
     *
     * @param value the node's value
     * @param name  the node's name
     */
    public static void checkValueIsNull(Object value, Object name) {
        if (value != null) {
            throw new RuntimeException("'" + name + "' elements do not accept a value argument.");
        }
    }

    /**
     * Checks type of value against builder type
     *
     * @param value the node's value
     * @param name  the node's name
     * @param type  a Class that may be assignable to the value's class
     * @return true if type is assignable to the value's class, false if value
     *         is null.
     */
    public static boolean checkValueIsType(Object value, Object name, Class type) {
        if (value != null) {
            if (type.isAssignableFrom(value.getClass())) {
                return true;
            } else {
                throw new RuntimeException("The value argument of '" + name + "' must be of type "
                        + type.getName() + ". Found: " + value.getClass());
            }
        } else {
            return false;
        }
    }

    /**
     * Checks values against factory's type
     *
     * @param value the node's value
     * @param name  the node's name
     * @param type  a Class that may be assignable to the value's class
     * @return Returns true if type is assignable to the value's class, false if value is
     *         null or a String.
     */
    public static boolean checkValueIsTypeNotString(Object value, Object name, Class type) {
        if (value != null) {
            if (type.isAssignableFrom(value.getClass())) {
                return true;
            } else if (value instanceof String) {
                return false;
            } else {
                throw new RuntimeException("The value argument of '" + name + "' must be of type "
                        + type.getName() + " or a String. Found: " + value.getClass());
            }
        } else {
            return false;
        }
    }

    private ThreadLocal>> contexts = new ThreadLocal>>();
    protected LinkedList attributeDelegates = new LinkedList(); //
    private List disposalClosures = new ArrayList(); // because of reverse iteration use ArrayList
    private Map factories = new HashMap();
    private Closure nameMappingClosure;
    private ThreadLocal localProxyBuilder = new ThreadLocal();
    private FactoryBuilderSupport globalProxyBuilder;
    protected LinkedList preInstantiateDelegates = new LinkedList();
    protected LinkedList postInstantiateDelegates = new LinkedList();
    protected LinkedList postNodeCompletionDelegates = new LinkedList();
    protected Closure methodMissingDelegate;
    protected Closure propertyMissingDelegate;
    protected Map explicitProperties = new HashMap();
    protected Map explicitMethods = new HashMap();
    protected Map> registrationGroup = new HashMap>();
    protected String registrationGroupName = ""; // use binding to store?

    protected boolean autoRegistrationRunning = false;
    protected boolean autoRegistrationComplete = false;

    public FactoryBuilderSupport() {
        this(false);
    }

    public FactoryBuilderSupport(boolean init) {
        globalProxyBuilder = this;
        registrationGroup.put(registrationGroupName, new TreeSet());
        if (init) {
            autoRegisterNodes();
        }
    }

    private Set getRegistrationGroup(String name) {
        Set group = registrationGroup.get(name);
        if (group == null ) {
            group = new TreeSet();
            registrationGroup.put(name, group);
        }
        return group;
    }

    /**
     * Ask the nodes to be registered
     */
    public void autoRegisterNodes() {
        // if java did atomic blocks, this would be one
        synchronized (this) {
            if (autoRegistrationRunning || autoRegistrationComplete) {
                // registration already done or in process, abort
                return;
            }
        }
        autoRegistrationRunning = true;
        try {
            callAutoRegisterMethods(getClass());
        } finally {
            autoRegistrationComplete = true;
            autoRegistrationRunning = false;
        }
    }

    private void callAutoRegisterMethods(Class declaredClass) {
        if (declaredClass == null) {
            return;
        }
        callAutoRegisterMethods(declaredClass.getSuperclass());

        Method[] declaredMethods = declaredClass.getDeclaredMethods();
        Arrays.sort(declaredMethods, METHOD_COMPARATOR);
        for (Method method : declaredMethods) {
            if (method.getName().startsWith("register") && method.getParameterTypes().length == 0) {
                registrationGroupName = method.getName().substring("register".length());
                registrationGroup.put(registrationGroupName, new TreeSet());
                try {
                    if (Modifier.isPublic(method.getModifiers())) {
                        method.invoke(this);
                    }
                } catch (IllegalAccessException e) {
                    throw new RuntimeException("Could not init " + getClass().getName() + " because of an access error in " + declaredClass.getName() + "." + method.getName(), e);
                } catch (InvocationTargetException e) {
                    throw new RuntimeException("Could not init " + getClass().getName() + " because of an exception in " + declaredClass.getName() + "." + method.getName(), e);
                } finally {
                    registrationGroupName = "";
                }
            }
        }
    }

    /**
     * @param name the name of the variable to lookup
     * @return the variable value
     */
    public Object getVariable(String name) {
        try {
            return getProxyBuilder().doGetVariable(name);
        } catch(MissingPropertyException mpe) {
            if(mpe.getProperty().equals(name) && propertyMissingDelegate != null) {
                return propertyMissingDelegate.call(new Object[]{name});
            }
            throw mpe;
        }
    }

    private Object doGetVariable(String name) {
        return super.getVariable(name);
    }

    /**
     * Sets the value of the given variable
     *
     * @param name  the name of the variable to set
     * @param value the new value for the given variable
     */
    public void setVariable(String name, Object value) {
        getProxyBuilder().doSetVariable(name, value);
    }

    private void doSetVariable(String name, Object value) {
        super.setVariable(name, value);
    }

    public Map getVariables() {
        return getProxyBuilder().doGetVariables();
    }

    private Map doGetVariables() {
        return super.getVariables();
    }

    /**
     * Overloaded to make variables appear as bean properties or via the subscript operator
     */
    public Object getProperty(String property) {
        try {
            return getProxyBuilder().doGetProperty(property);
        } catch (MissingPropertyException mpe) {
            if ((getContext() != null) && (getContext().containsKey(property))) {
                return getContext().get(property);
            } else {
                try {
                    return getMetaClass().getProperty(this, property);
                } catch(MissingPropertyException mpe2) {
                    if(mpe2.getProperty().equals(property) && propertyMissingDelegate != null) {
                        return propertyMissingDelegate.call(new Object[]{property});
                    }
                    throw mpe2;
                }
            }
        }
    }

    private Object doGetProperty(String property) {
        Closure[] accessors = resolveExplicitProperty(property);
        if (accessors != null) {
            if (accessors[0] == null) {
                // write only property
                throw new MissingPropertyException(property + " is declared as write only");
            } else {
                return accessors[0].call();
            }
        } else {
            return super.getProperty(property);
        }
    }

    /**
     * Overloaded to make variables appear as bean properties or via the subscript operator
     */
    public void setProperty(String property, Object newValue) {
        getProxyBuilder().doSetProperty(property, newValue);
    }

    private void doSetProperty(String property, Object newValue) {
        Closure[] accessors = resolveExplicitProperty(property);
        if (accessors != null) {
            if (accessors[1] == null) {
                // read only property
                throw new MissingPropertyException(property + " is declared as read only");
            } else {
                accessors[1].call(newValue);
            }
        } else {
            super.setProperty(property, newValue);
        }
    }

    /**
     * @return the factory map (Unmodifiable Map).
     */
    public Map getFactories() {
        return Collections.unmodifiableMap(getProxyBuilder().factories);
    }

    /**
     * @return the explicit methods map (Unmodifiable Map).
     */
    public Map getExplicitMethods() {
        return Collections.unmodifiableMap(getProxyBuilder().explicitMethods);
    }

    /**
     * @return the explicit properties map (Unmodifiable Map).
     */
    public Map getExplicitProperties() {
        return Collections.unmodifiableMap(getProxyBuilder().explicitProperties);
    }

    /**
     * @return the factory map (Unmodifiable Map).
     */
    public Map getLocalFactories() {
        return Collections.unmodifiableMap(factories);
    }

    /**
     * @return the explicit methods map (Unmodifiable Map).
     */
    public Map getLocalExplicitMethods() {
        return Collections.unmodifiableMap(explicitMethods);
    }

    /**
     * @return the explicit properties map (Unmodifiable Map).
     */
    public Map getLocalExplicitProperties() {
        return Collections.unmodifiableMap(explicitProperties);
    }

    public Set getRegistrationGroups() {
        return Collections.unmodifiableSet(registrationGroup.keySet());
    }

    public Set getRegistrationGroupItems(String group) {
        Set groupSet = registrationGroup.get(group);
        if (groupSet != null) {
            return Collections.unmodifiableSet(groupSet);
        } else {
            return Collections.emptySet();
        }
    }

    public List getAttributeDelegates() {
        return Collections.unmodifiableList(attributeDelegates);
    }

    public List getPreInstantiateDelegates() {
        return Collections.unmodifiableList(preInstantiateDelegates);
    }

    public List getPostInstantiateDelegates() {
        return Collections.unmodifiableList(postInstantiateDelegates);
    }

    public List getPostNodeCompletionDelegates() {
        return Collections.unmodifiableList(postNodeCompletionDelegates);
    }

    public Closure getMethodMissingDelegate() {
        return methodMissingDelegate;
    }

    public void setMethodMissingDelegate(Closure delegate) {
        methodMissingDelegate = delegate;
    }

    public Closure getPropertyMissingDelegate() {
        return propertyMissingDelegate;
    }

    public void setPropertyMissingDelegate(Closure delegate) {
        propertyMissingDelegate = delegate;
    }

    /**
     * @return the context of the current node.
     */
    public Map getContext() {
        LinkedList> contexts = getProxyBuilder().contexts.get();
        if (contexts != null && !contexts.isEmpty()) {
            return contexts.getFirst();
        }
        return null;
    }

    /**
     * @return the current node being built.
     */
    public Object getCurrent() {
        return getContextAttribute(CURRENT_NODE);
    }

    /**
     * @return the factory that built the current node.
     */
    public Factory getCurrentFactory() {
        return (Factory) getContextAttribute(CURRENT_FACTORY);
    }

    /**
     * @return the factory of the parent of the current node.
     */
    public String getCurrentName() {
        return (String) getContextAttribute(CURRENT_NAME);
    }

    /**
     * @return the builder that built the current node.
     */
    public FactoryBuilderSupport getCurrentBuilder() {
        return (FactoryBuilderSupport) getContextAttribute(CURRENT_BUILDER);
    }

    /**
     * @return the node of the parent of the current node.
     */
    public Object getParentNode() {
        return getContextAttribute(PARENT_NODE);
    }

    /**
     * @return the factory of the parent of the current node.
     */
    public Factory getParentFactory() {
        return (Factory) getContextAttribute(PARENT_FACTORY);
    }

    /**
     * @return the context of the parent of the current node.
     */
    public Map getParentContext() {
        return (Map) getContextAttribute(PARENT_CONTEXT);
    }

    /**
     * @return the name of the parent of the current node.
     */
    public String getParentName() {
        return (String) getContextAttribute(PARENT_NAME);
    }

    public FactoryBuilderSupport getChildBuilder() {
        return (FactoryBuilderSupport) getContextAttribute(CHILD_BUILDER);
    }

    public Object getContextAttribute(String key) {
        Map context = getContext();
        if (context != null) {
            return context.get(key);
        }
        return null;
    }

    /**
     * Convenience method when no arguments are required
     *
     * @param methodName the name of the method to invoke
     * @return the result of the call
     */
    public Object invokeMethod(String methodName) {
        return getProxyBuilder().invokeMethod(methodName, null);
    }

    public Object invokeMethod(String methodName, Object args) {
        Object name = getProxyBuilder().getName(methodName);
        Object result;
        Object previousContext = getProxyBuilder().getContext();
        try {
            result = getProxyBuilder().doInvokeMethod(methodName, name, args);
        } catch (RuntimeException e) {
            // remove contexts created after we started
            if (getContexts().contains(previousContext)) {
                Map context = getProxyBuilder().getContext();
                while (context != null && context != previousContext) {
                    getProxyBuilder().popContext();
                    context = getProxyBuilder().getContext();
                }
            }
            throw e;
        }
        return result;
    }

    /**
     * Add an attribute delegate so it can intercept attributes being set.
     * Attribute delegates are fired in a FILO pattern, so that nested delegates
     * get first crack.
     *
     * @param attrDelegate the closure to be called
     * @return attrDelegate
     */
    public Closure addAttributeDelegate(Closure attrDelegate) {
        getProxyBuilder().attributeDelegates.addFirst(attrDelegate);
        return attrDelegate;
    }

    /**
     * Remove the most recently added instance of the attribute delegate.
     *
     * @param attrDelegate the instance of the closure to be removed
     */
    public void removeAttributeDelegate(Closure attrDelegate) {
        getProxyBuilder().attributeDelegates.remove(attrDelegate);
    }

    /**
     * Add a preInstantiate delegate so it can intercept nodes before they are
     * created. PreInstantiate delegates are fired in a FILO pattern, so that
     * nested delegates get first crack.
     *
     * @param delegate the closure to invoke
     * @return delegate
     */
    public Closure addPreInstantiateDelegate(Closure delegate) {
        getProxyBuilder().preInstantiateDelegates.addFirst(delegate);
        return delegate;
    }

    /**
     * Remove the most recently added instance of the preInstantiate delegate.
     *
     * @param delegate the closure to invoke
     */
    public void removePreInstantiateDelegate(Closure delegate) {
        getProxyBuilder().preInstantiateDelegates.remove(delegate);
    }

    /**
     * Add a postInstantiate delegate so it can intercept nodes after they are
     * created. PostInstantiate delegates are fired in a FILO pattern, so that
     * nested delegates get first crack.
     *
     * @param delegate the closure to invoke
     * @return delegate
     */
    public Closure addPostInstantiateDelegate(Closure delegate) {
        getProxyBuilder().postInstantiateDelegates.addFirst(delegate);
        return delegate;
    }

    /**
     * Remove the most recently added instance of the postInstantiate delegate.
     *
     * @param delegate the closure to invoke
     */
    public void removePostInstantiateDelegate(Closure delegate) {
        getProxyBuilder().postInstantiateDelegates.remove(delegate);
    }

    /**
     * Add a nodeCompletion delegate so it can intercept nodes after they done
     * with building. NodeCompletion delegates are fired in a FILO pattern, so
     * that nested delegates get first crack.
     *
     * @param delegate the closure to invoke
     * @return delegate
     */
    public Closure addPostNodeCompletionDelegate(Closure delegate) {
        getProxyBuilder().postNodeCompletionDelegates.addFirst(delegate);
        return delegate;
    }

    /**
     * Remove the most recently added instance of the nodeCompletion delegate.
     *
     * @param delegate the closure to be removed
     */
    public void removePostNodeCompletionDelegate(Closure delegate) {
        getProxyBuilder().postNodeCompletionDelegates.remove(delegate);
    }

    public void registerExplicitProperty(String name, Closure getter, Closure setter) {
        registerExplicitProperty(name, registrationGroupName, getter, setter);
    }

    public void registerExplicitProperty(String name, String groupName, Closure getter, Closure setter) {
        // set the delegate to FBS so the closure closes over the builder
        if (getter != null) getter.setDelegate(this);
        if (setter != null) setter.setDelegate(this);
        explicitProperties.put(name, new Closure[]{getter, setter});
        String methodNameBase = MetaClassHelper.capitalize(name);
        if (getter != null) {
            getRegistrationGroup(groupName).add("get" + methodNameBase);
        }
        if (setter != null) {
            getRegistrationGroup(groupName).add("set" + methodNameBase);
        }
    }

    public void registerExplicitMethod(String name, Closure closure) {
        registerExplicitMethod(name, registrationGroupName, closure);
    }

    public void registerExplicitMethod(String name, String groupName, Closure closure) {
        // set the delegate to FBS so the closure closes over the builder
        closure.setDelegate(this);
        explicitMethods.put(name, closure);
        getRegistrationGroup(groupName).add(name);
    }

    /**
     * Registers a factory for a JavaBean.
* The JavaBean class should have a no-args constructor. * * @param theName name of the node * @param beanClass the factory to handle the name */ public void registerBeanFactory(String theName, Class beanClass) { registerBeanFactory(theName, registrationGroupName, beanClass); } /** * Registers a factory for a JavaBean.
* The JavaBean class should have a no-args constructor. * * @param theName name of the node * @param groupName thr group to register this node in * @param beanClass the factory to handle the name */ public void registerBeanFactory(String theName, String groupName, final Class beanClass) { getProxyBuilder().registerFactory(theName, new AbstractFactory() { public Object newInstance(FactoryBuilderSupport builder, Object name, Object value, Map properties) throws InstantiationException, IllegalAccessException { if (checkValueIsTypeNotString(value, name, beanClass)) { return value; } else { return beanClass.newInstance(); } } }); getRegistrationGroup(groupName).add(theName); } /** * Registers a factory for a node name. * * @param name the name of the node * @param factory the factory to return the values */ public void registerFactory(String name, Factory factory) { registerFactory(name, registrationGroupName, factory); } /** * Registers a factory for a node name. * * @param name the name of the node * @param groupName thr group to register this node in * @param factory the factory to return the values */ public void registerFactory(String name, String groupName, Factory factory) { getProxyBuilder().factories.put(name, factory); getRegistrationGroup(groupName).add(name); factory.onFactoryRegistration(this, name, groupName); } /** * This method is responsible for instantiating a node and configure its * properties. * * @param name the name of the node * @param attributes the attributes for the node * @param value the value arguments for the node * @return the object return from the factory */ protected Object createNode(Object name, Map attributes, Object value) { Object node; Factory factory = getProxyBuilder().resolveFactory(name, attributes, value); if (factory == null) { LOG.log(Level.WARNING, "Could not find match for name '" + name + "'"); throw new MissingMethodExceptionNoStack((String) name, Object.class, new Object[]{attributes, value}); //return null; } getProxyBuilder().getContext().put(CURRENT_FACTORY, factory); getProxyBuilder().getContext().put(CURRENT_NAME, String.valueOf(name)); getProxyBuilder().preInstantiate(name, attributes, value); try { node = factory.newInstance(getProxyBuilder().getChildBuilder(), name, value, attributes); if (node == null) { LOG.log(Level.WARNING, "Factory for name '" + name + "' returned null"); return null; } if (LOG.isLoggable(Level.FINE)) { LOG.fine("For name: " + name + " created node: " + node); } } catch (Exception e) { throw new RuntimeException("Failed to create component for '" + name + "' reason: " + e, e); } getProxyBuilder().postInstantiate(name, attributes, node); getProxyBuilder().handleNodeAttributes(node, attributes); return node; } /** * This is a hook for subclasses to plugin a custom strategy for mapping * names to factories. * * @param name the name of the factory * @param attributes the attributes from the node * @param value value arguments from te node * @return the Factory associated with name.
*/ protected Factory resolveFactory(Object name, Map attributes, Object value) { getProxyBuilder().getContext().put(CHILD_BUILDER, getProxyBuilder()); return getProxyBuilder().getFactories().get(name); } /** * This is a hook for subclasses to plugin a custom strategy for mapping * names to explicit methods. * * @param methodName the name of the explicit method * @param args the arguments for the method * @return the closure for the matched explicit method.
*/ @SuppressWarnings({"UnusedDeclaration"}) protected Closure resolveExplicitMethod(String methodName, Object args) { return getExplicitMethods().get(methodName); } /** * This is a hook for subclasses to plugin a custom strategy for mapping * names to property methods. * * @param propertyName the name of the explicit method * @return the get and set closures (in that order) for the matched explicit property.
*/ protected Closure[] resolveExplicitProperty(String propertyName) { return getExplicitProperties().get(propertyName); } /** * This method is the workhorse of the builder. * * @param methodName the name of the method being invoked * @param name the name of the node * @param args the arguments passed into the node * @return the object from the factory */ private Object doInvokeMethod(String methodName, Object name, Object args) { Reference explicitResult = new Reference(); if (checkExplicitMethod(methodName, args, explicitResult)) { return explicitResult.get(); } else { try { return dispathNodeCall(name, args); } catch(MissingMethodException mme) { if(mme.getMethod().equals(methodName) && methodMissingDelegate != null) { return methodMissingDelegate.call(new Object[]{methodName, args}); } throw mme; } } } protected boolean checkExplicitMethod(String methodName, Object args, Reference result) { Closure explicitMethod = resolveExplicitMethod(methodName, args); if (explicitMethod != null) { if (args instanceof Object[]) { result.set(explicitMethod.call((Object[]) args)); } else { //todo push through InvokerHelper.asList? result.set(explicitMethod.call(args)); } return true; } else { return false; } } protected Object dispathNodeCall(Object name, Object args) { Object node; Closure closure = null; List list = InvokerHelper.asList(args); final boolean needToPopContext; if (getProxyBuilder().getContexts().isEmpty()) { // should be called on first build method only getProxyBuilder().newContext(); needToPopContext = true; } else { needToPopContext = false; } try { Map namedArgs = Collections.EMPTY_MAP; // the arguments come in like [named_args?, args..., closure?] // so peel off a hashmap from the front, and a closure from the // end and presume that is what they meant, since there is // no way to distinguish node(a:b,c,d) {..} from // node([a:b],[c,d], {..}), i.e. the user can deliberately confuse // the builder and there is nothing we can really do to prevent // that if ((list.size() > 0) && (list.get(0) instanceof LinkedHashMap)) { namedArgs = (Map) list.get(0); list = list.subList(1, list.size()); } if ((list.size() > 0) && (list.get(list.size() - 1) instanceof Closure)) { closure = (Closure) list.get(list.size() - 1); list = list.subList(0, list.size() - 1); } Object arg; if (list.size() == 0) { arg = null; } else if (list.size() == 1) { arg = list.get(0); } else { arg = list; } node = getProxyBuilder().createNode(name, namedArgs, arg); Object current = getProxyBuilder().getCurrent(); if (current != null) { getProxyBuilder().setParent(current, node); } if (closure != null) { Factory parentFactory = getProxyBuilder().getCurrentFactory(); if (parentFactory.isLeaf()) { throw new RuntimeException("'" + name + "' doesn't support nesting."); } boolean processContent = true; if (parentFactory.isHandlesNodeChildren()) { processContent = parentFactory.onNodeChildren(this, node, closure); } if (processContent) { // push new node on stack String parentName = getProxyBuilder().getCurrentName(); Map parentContext = getProxyBuilder().getContext(); getProxyBuilder().newContext(); try { getProxyBuilder().getContext().put(OWNER, closure.getOwner()); getProxyBuilder().getContext().put(CURRENT_NODE, node); getProxyBuilder().getContext().put(PARENT_FACTORY, parentFactory); getProxyBuilder().getContext().put(PARENT_NODE, current); getProxyBuilder().getContext().put(PARENT_CONTEXT, parentContext); getProxyBuilder().getContext().put(PARENT_NAME, parentName); getProxyBuilder().getContext().put(PARENT_BUILDER, parentContext.get(CURRENT_BUILDER)); getProxyBuilder().getContext().put(CURRENT_BUILDER, parentContext.get(CHILD_BUILDER)); // lets register the builder as the delegate getProxyBuilder().setClosureDelegate(closure, node); closure.call(); } finally { getProxyBuilder().popContext(); } } } getProxyBuilder().nodeCompleted(current, node); node = getProxyBuilder().postNodeCompletion(current, node); } finally { if (needToPopContext) { // pop the first context getProxyBuilder().popContext(); } } return node; } /** * A hook to allow names to be converted into some other object such as a * QName in XML or ObjectName in JMX. * * @param methodName the name of the desired method * @return the object representing the name */ public Object getName(String methodName) { if (getProxyBuilder().nameMappingClosure != null) { return getProxyBuilder().nameMappingClosure.call(methodName); } return methodName; } /** * Proxy builders are useful for changing the building context, thus * enabling mix & match builders. * * @return the current builder that serves as a proxy.
*/ protected FactoryBuilderSupport getProxyBuilder() { FactoryBuilderSupport proxy = localProxyBuilder.get(); if (proxy == null) { return globalProxyBuilder; } else { return proxy; } } /** * Sets the builder to be used as a proxy. * * @param proxyBuilder the new proxy */ protected void setProxyBuilder(FactoryBuilderSupport proxyBuilder) { globalProxyBuilder = proxyBuilder; } public Closure getNameMappingClosure() { return nameMappingClosure; } public void setNameMappingClosure(Closure nameMappingClosure) { this.nameMappingClosure = nameMappingClosure; } /** * Assigns any existing properties to the node.
* It will call attributeDelegates before passing control to the factory * that built the node. * * @param node the object returned by tne node factory * @param attributes the attributes for the node */ protected void handleNodeAttributes(Object node, Map attributes) { // first, short circuit if (node == null) { return; } for (Closure attrDelegate : getProxyBuilder().getAttributeDelegates()) { FactoryBuilderSupport builder = this; if (attrDelegate.getOwner() instanceof FactoryBuilderSupport) { builder = (FactoryBuilderSupport) attrDelegate.getOwner(); } else if (attrDelegate.getDelegate() instanceof FactoryBuilderSupport) { builder = (FactoryBuilderSupport) attrDelegate.getDelegate(); } attrDelegate.call(new Object[]{builder, node, attributes}); } if (getProxyBuilder().getCurrentFactory().onHandleNodeAttributes(getProxyBuilder().getChildBuilder(), node, attributes)) { getProxyBuilder().setNodeAttributes(node, attributes); } } /** * Pushes a new context on the stack. */ protected void newContext() { getContexts().addFirst(new HashMap()); } /** * A hook to allow nodes to be processed once they have had all of their * children applied. * * @param node the current node being processed * @param parent the parent of the node being processed */ protected void nodeCompleted(Object parent, Object node) { getProxyBuilder().getCurrentFactory().onNodeCompleted(getProxyBuilder().getChildBuilder(), parent, node); } /** * Removes the last context from the stack. * * @return the contet just removed */ protected Map popContext() { if (!getProxyBuilder().getContexts().isEmpty()) { return getProxyBuilder().getContexts().removeFirst(); } return null; } /** * A hook after the factory creates the node and before attributes are set.
* It will call any registered postInstantiateDelegates, if you override * this method be sure to call this impl somewhere in your code. * * @param name the name of the node * @param attributes the attributes for the node * @param node the object created by the node factory */ protected void postInstantiate(Object name, Map attributes, Object node) { for (Closure postInstantiateDelegate : getProxyBuilder().getPostInstantiateDelegates()) { (postInstantiateDelegate).call(new Object[]{this, attributes, node}); } } /** * A hook to allow nodes to be processed once they have had all of their * children applied and allows the actual node object that represents the * Markup element to be changed.
* It will call any registered postNodeCompletionDelegates, if you override * this method be sure to call this impl at the end of your code. * * @param node the current node being processed * @param parent the parent of the node being processed * @return the node, possibly new, that represents the markup element */ protected Object postNodeCompletion(Object parent, Object node) { for (Closure postNodeCompletionDelegate : getProxyBuilder().getPostNodeCompletionDelegates()) { (postNodeCompletionDelegate).call(new Object[]{this, parent, node}); } return node; } /** * A hook before the factory creates the node.
* It will call any registered preInstantiateDelegates, if you override this * method be sure to call this impl somewhere in your code. * * @param name the name of the node * @param attributes the attributes of the node * @param value the value argument(s) of the node */ protected void preInstantiate(Object name, Map attributes, Object value) { for (Closure preInstantiateDelegate : getProxyBuilder().getPreInstantiateDelegates()) { (preInstantiateDelegate).call(new Object[]{this, attributes, value}); } } /** * Clears the context stack. */ protected void reset() { getProxyBuilder().getContexts().clear(); } /** * A strategy method to allow derived builders to use builder-trees and * switch in different kinds of builders. This method should call the * setDelegate() method on the closure which by default passes in this but * if node is-a builder we could pass that in instead (or do something wacky * too) * * @param closure the closure on which to call setDelegate() * @param node the node value that we've just created, which could be a * builder */ @SuppressWarnings({"UnusedDeclaration"}) protected void setClosureDelegate(Closure closure, Object node) { closure.setDelegate(this); } /** * Maps attributes key/values to properties on node. * * @param node the object from the node * @param attributes the attributes to be set */ protected void setNodeAttributes(Object node, Map attributes) { // set the properties //noinspection unchecked for (Map.Entry entry : (Set) attributes.entrySet()) { String property = entry.getKey().toString(); Object value = entry.getValue(); InvokerHelper.setProperty(node, property, value); } } /** * Strategy method to establish parent/child relationships. * * @param parent the object from the parent node * @param child the object from the child node */ protected void setParent(Object parent, Object child) { getProxyBuilder().getCurrentFactory().setParent(getProxyBuilder().getChildBuilder(), parent, child); Factory parentFactory = getProxyBuilder().getParentFactory(); if (parentFactory != null) { parentFactory.setChild(getProxyBuilder().getCurrentBuilder(), parent, child); } } /** * @return the stack of available contexts. */ protected LinkedList> getContexts() { LinkedList> contexts = getProxyBuilder().contexts.get(); if (contexts == null) { contexts = new LinkedList>(); getProxyBuilder().contexts.set(contexts); } return contexts; } /** * Stores the thread local states in a Map that can be passed across threads * @return the map */ protected Map getContinuationData() { Map data = new HashMap(); data.put("proxyBuilder", localProxyBuilder.get()); data.put("contexts", contexts.get()); return data; } /** * Restores the state of the current builder to the same state as an older build. * * Caution, this will destroy rather than merge the current build context if there is any, * @param data the data retrieved from a compatible getContinuationData call */ protected void restoreFromContinuationData(Map data) { //noinspection unchecked localProxyBuilder.set((FactoryBuilderSupport) data.get("proxyBuilder")); //noinspection unchecked contexts.set((LinkedList>) data.get("contexts")); } public Object build(Class viewClass) { if (Script.class.isAssignableFrom(viewClass)) { Script script = InvokerHelper.createScript(viewClass, this); return build(script); } else { throw new RuntimeException("Only scripts can be executed via build(Class)"); } } public Object build(Script script) { // this used to be synchronized, but we also used to remove the // metaclass. Since adding the metaclass is now a side effect, we // don't need to ensure the meta-class won't be observed and don't // need to hide the side effect. MetaClass scriptMetaClass = script.getMetaClass(); script.setMetaClass(new FactoryInterceptorMetaClass(scriptMetaClass, this)); script.setBinding(this); Object oldScriptName = getProxyBuilder().getVariables().get(SCRIPT_CLASS_NAME); try { getProxyBuilder().setVariable(SCRIPT_CLASS_NAME, script.getClass().getName()); return script.run(); } finally { if(oldScriptName != null) { getProxyBuilder().setVariable(SCRIPT_CLASS_NAME, oldScriptName); } else { getProxyBuilder().getVariables().remove(SCRIPT_CLASS_NAME); } } } public Object build(final String script, GroovyClassLoader loader) { return build(loader.parseClass(script)); } /** * Switches the builder's proxyBuilder during the execution of a closure.
* This is useful to temporary change the building context to another builder * without the need for a contrived setup. It will also take care of restoring * the previous proxyBuilder when the execution finishes, even if an exception * was thrown from inside the closure. * * @param builder the temporary builder to switch to as proxyBuilder. * @param closure the closure to be executed under the temporary builder. * @return the execution result of the closure. * @throws RuntimeException - any exception the closure might have thrown during * execution. */ public Object withBuilder(FactoryBuilderSupport builder, Closure closure) { if (builder == null || closure == null) { return null; } Object result = null; Object previousContext = getProxyBuilder().getContext(); FactoryBuilderSupport previousProxyBuilder = localProxyBuilder.get(); try { localProxyBuilder.set(builder); closure.setDelegate(builder); result = closure.call(); } catch (RuntimeException e) { // remove contexts created after we started localProxyBuilder.set(previousProxyBuilder); if (getProxyBuilder().getContexts().contains(previousContext)) { Map context = getProxyBuilder().getContext(); while (context != null && context != previousContext) { getProxyBuilder().popContext(); context = getProxyBuilder().getContext(); } } throw e; } finally { localProxyBuilder.set(previousProxyBuilder); } return result; } /** * Switches the builder's proxyBuilder during the execution of a closure.
* This is useful to temporary change the building context to another builder * without the need for a contrived setup. It will also take care of restoring * the previous proxyBuilder when the execution finishes, even if an exception * was thrown from inside the closure. Additionally it will use the closure's * result as the value for the node identified by 'name'. * * @param builder the temporary builder to switch to as proxyBuilder. * @param name the node to build on the 'parent' builder. * @param closure the closure to be executed under the temporary builder. * @return a node that responds to value of name with the closure's result as its * value. * @throws RuntimeException - any exception the closure might have thrown during * execution. */ public Object withBuilder(FactoryBuilderSupport builder, String name, Closure closure) { if (name == null) { return null; } Object result = getProxyBuilder().withBuilder(builder, closure); return getProxyBuilder().invokeMethod(name, new Object[]{result}); } /** * Switches the builder's proxyBuilder during the execution of a closure.
* This is useful to temporary change the building context to another builder * without the need for a contrived setup. It will also take care of restoring * the previous proxyBuilder when the execution finishes, even if an exception * was thrown from inside the closure. Additionally it will use the closure's * result as the value for the node identified by 'name' and assign any attributes * that might have been set. * * @param attributes additional properties for the node on the parent builder. * @param builder the temporary builder to switch to as proxyBuilder. * @param name the node to build on the 'parent' builder. * @param closure the closure to be executed under the temporary builder. * @return a node that responds to value of name with the closure's result as its * value. * @throws RuntimeException - any exception the closure might have thrown during * execution. */ public Object withBuilder(Map attributes, FactoryBuilderSupport builder, String name, Closure closure) { if (name == null) { return null; } Object result = getProxyBuilder().withBuilder(builder, closure); return getProxyBuilder().invokeMethod(name, new Object[]{attributes, result}); } public void addDisposalClosure(Closure closure) { disposalClosures.add(closure); } public void dispose() { for (int i = disposalClosures.size() - 1; i >= 0; i--) { disposalClosures.get(i).call(); } } } class FactoryInterceptorMetaClass extends DelegatingMetaClass { FactoryBuilderSupport builder; public FactoryInterceptorMetaClass(MetaClass delegate, FactoryBuilderSupport builder) { super(delegate); this.builder = builder; } public Object invokeMethod(Object object, String methodName, Object arguments) { try { return delegate.invokeMethod(object, methodName, arguments); } catch (MissingMethodException mme) { // attempt builder resolution try { if (builder.getMetaClass().respondsTo(builder, methodName).isEmpty()) { // dispatch to factories if it is not a literal method return builder.invokeMethod(methodName, arguments); } else { return InvokerHelper.invokeMethod(builder, methodName, arguments); } } catch (MissingMethodException mme2) { // chain secondary exception Throwable root = mme; while (root.getCause() != null) { root = root.getCause(); } root.initCause(mme2); // throw original throw mme; } } } public Object invokeMethod(Object object, String methodName, Object[] arguments) { try { return delegate.invokeMethod(object, methodName, arguments); } catch (MissingMethodException mme) { // attempt builder resolution try { if (builder.getMetaClass().respondsTo(builder, methodName).isEmpty()) { // dispatch to factories if it is not a literal method return builder.invokeMethod(methodName, arguments); } else { return InvokerHelper.invokeMethod(builder, methodName, arguments); } } catch (MissingMethodException mme2) { // chain secondary exception Throwable root = mme; while (root.getCause() != null) { root = root.getCause(); } root.initCause(mme2); // throw original throw mme; } } } }




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