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/*
 * Copyright (c) 1998, 2013, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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package com.sun.tools.oldlets.internal.toolkit.util;

import com.sun.javadoc.Type;
import com.sun.javadoc.ClassDoc;
import com.sun.javadoc.RootDoc;
import java.util.*;

import com.sun.tools.oldlets.internal.toolkit.*;

/**
 * Build Class Hierarchy for all the Classes. This class builds the Class
 * Tree and the Interface Tree separately.
 *
 *  

This is NOT part of any supported API. * If you write code that depends on this, you do so at your own risk. * This code and its internal interfaces are subject to change or * deletion without notice. * * @see java.util.HashMap * @see java.util.List * @see com.sun.javadoc.Type * @see com.sun.javadoc.ClassDoc * @author Atul M Dambalkar */ public class ClassTree { /** * List of baseclasses. Contains only java.lang.Object. Can be used to get * the mapped listing of sub-classes. */ private List baseclasses = new ArrayList(); /** * Mapping for each Class with their SubClasses */ private Map> subclasses = new HashMap>(); /** * List of base-interfaces. Contains list of all the interfaces who do not * have super-interfaces. Can be used to get the mapped listing of * sub-interfaces. */ private List baseinterfaces = new ArrayList(); /** * Mapping for each Interface with their SubInterfaces */ private Map> subinterfaces = new HashMap>(); private List baseEnums = new ArrayList(); private Map> subEnums = new HashMap>(); private List baseAnnotationTypes = new ArrayList(); private Map> subAnnotationTypes = new HashMap>(); /** * Mapping for each Interface with classes who implement it. */ private Map> implementingclasses = new HashMap>(); /** * Constructor. Build the Tree using the Root of this Javadoc run. * * @param configuration the configuration of the doclet. * @param noDeprecated Don't add deprecated classes in the class tree, if * true. */ public ClassTree(Configuration configuration, boolean noDeprecated) { configuration.message.notice("doclet.Building_Tree"); buildTree(configuration.root.classes(), configuration); } /** * Constructor. Build the Tree using the Root of this Javadoc run. * * @param root Root of the Document. * @param configuration The curren configuration of the doclet. */ public ClassTree(RootDoc root, Configuration configuration) { buildTree(root.classes(), configuration); } /** * Constructor. Build the tree for the given array of classes. * * @param classes Array of classes. * @param configuration The curren configuration of the doclet. */ public ClassTree(ClassDoc[] classes, Configuration configuration) { buildTree(classes, configuration); } /** * Generate mapping for the sub-classes for every class in this run. * Return the sub-class list for java.lang.Object which will be having * sub-class listing for itself and also for each sub-class itself will * have their own sub-class lists. * * @param classes all the classes in this run. * @param configuration the current configuration of the doclet. */ private void buildTree(ClassDoc[] classes, Configuration configuration) { for (int i = 0; i < classes.length; i++) { // In the tree page (e.g overview-tree.html) do not include // information of classes which are deprecated or are a part of a // deprecated package. if (configuration.nodeprecated && (Util.isDeprecated(classes[i]) || Util.isDeprecated(classes[i].containingPackage()))) { continue; } if (configuration.javafx && classes[i].tags("treatAsPrivate").length > 0) { continue; } if (classes[i].isEnum()) { processType(classes[i], configuration, baseEnums, subEnums); } else if (classes[i].isClass()) { processType(classes[i], configuration, baseclasses, subclasses); } else if (classes[i].isInterface()) { processInterface(classes[i]); List list = implementingclasses.get(classes[i]); if (list != null) { Collections.sort(list); } } else if (classes[i].isAnnotationType()) { processType(classes[i], configuration, baseAnnotationTypes, subAnnotationTypes); } } Collections.sort(baseinterfaces); for (Iterator> it = subinterfaces.values().iterator(); it.hasNext(); ) { Collections.sort(it.next()); } for (Iterator> it = subclasses.values().iterator(); it.hasNext(); ) { Collections.sort(it.next()); } } /** * For the class passed map it to it's own sub-class listing. * For the Class passed, get the super class, * if superclass is non null, (it is not "java.lang.Object") * get the "value" from the hashmap for this key Class * if entry not found create one and get that. * add this Class as a sub class in the list * Recurse till hits java.lang.Object Null SuperClass. * * @param cd class for which sub-class mapping to be generated. * @param configuration the current configurtation of the doclet. */ private void processType(ClassDoc cd, Configuration configuration, List bases, Map> subs) { ClassDoc superclass = Util.getFirstVisibleSuperClassCD(cd, configuration); if (superclass != null) { if (!add(subs, superclass, cd)) { return; } else { processType(superclass, configuration, bases, subs); } } else { // cd is java.lang.Object, add it once to the list if (!bases.contains(cd)) { bases.add(cd); } } List intfacs = Util.getAllInterfaces(cd, configuration); for (Iterator iter = intfacs.iterator(); iter.hasNext();) { add(implementingclasses, iter.next().asClassDoc(), cd); } } /** * For the interface passed get the interfaces which it extends, and then * put this interface in the sub-interface list of those interfaces. Do it * recursively. If a interface doesn't have super-interface just attach * that interface in the list of all the baseinterfaces. * * @param cd Interface under consideration. */ private void processInterface(ClassDoc cd) { ClassDoc[] intfacs = cd.interfaces(); if (intfacs.length > 0) { for (int i = 0; i < intfacs.length; i++) { if (!add(subinterfaces, intfacs[i], cd)) { return; } else { processInterface(intfacs[i]); // Recurse } } } else { // we need to add all the interfaces who do not have // super-interfaces to baseinterfaces list to traverse them if (!baseinterfaces.contains(cd)) { baseinterfaces.add(cd); } } } /** * Adjust the Class Tree. Add the class interface in to it's super-class' * or super-interface's sub-interface list. * * @param map the entire map. * @param superclass java.lang.Object or the super-interface. * @param cd sub-interface to be mapped. * @returns boolean true if class added, false if class already processed. */ private boolean add(Map> map, ClassDoc superclass, ClassDoc cd) { List list = map.get(superclass); if (list == null) { list = new ArrayList(); map.put(superclass, list); } if (list.contains(cd)) { return false; } else { list.add(cd); } return true; } /** * From the map return the list of sub-classes or sub-interfaces. If list * is null create a new one and return it. * * @param map The entire map. * @param cd class for which the sub-class list is requested. * @returns List Sub-Class list for the class passed. */ private List get(Map> map, ClassDoc cd) { List list = map.get(cd); if (list == null) { return new ArrayList(); } return list; } /** * Return the sub-class list for the class passed. * * @param cd class whose sub-class list is required. */ public List subclasses(ClassDoc cd) { return get(subclasses, cd); } /** * Return the sub-interface list for the interface passed. * * @param cd interface whose sub-interface list is required. */ public List subinterfaces(ClassDoc cd) { return get(subinterfaces, cd); } /** * Return the list of classes which implement the interface passed. * * @param cd interface whose implementing-classes list is required. */ public List implementingclasses(ClassDoc cd) { List result = get(implementingclasses, cd); List subinterfaces = allSubs(cd, false); //If class x implements a subinterface of cd, then it follows //that class x implements cd. Iterator implementingClassesIter, subInterfacesIter = subinterfaces.listIterator(); ClassDoc c; while(subInterfacesIter.hasNext()){ implementingClassesIter = implementingclasses( subInterfacesIter.next()).listIterator(); while(implementingClassesIter.hasNext()){ c = implementingClassesIter.next(); if(! result.contains(c)){ result.add(c); } } } Collections.sort(result); return result; } /** * Return the sub-class/interface list for the class/interface passed. * * @param cd class/interface whose sub-class/interface list is required. * @param isEnum true if the subclasses should be forced to come from the * enum tree. */ public List subs(ClassDoc cd, boolean isEnum) { if (isEnum) { return get(subEnums, cd); } else if (cd.isAnnotationType()) { return get(subAnnotationTypes, cd); } else if (cd.isInterface()) { return get(subinterfaces, cd); } else if (cd.isClass()) { return get(subclasses, cd); } else { return null; } } /** * Return a list of all direct or indirect, sub-classes and subinterfaces * of the ClassDoc argument. * * @param cd ClassDoc whose sub-classes or sub-interfaces are requested. * @param isEnum true if the subclasses should be forced to come from the * enum tree. */ public List allSubs(ClassDoc cd, boolean isEnum) { List list = subs(cd, isEnum); for (int i = 0; i < list.size(); i++) { cd = list.get(i); List tlist = subs(cd, isEnum); for (int j = 0; j < tlist.size(); j++) { ClassDoc tcd = tlist.get(j); if (!list.contains(tcd)) { list.add(tcd); } } } Collections.sort(list); return list; } /** * Return the base-classes list. This will have only one element namely * thw classdoc for java.lang.Object, since this is the base class for all * classes. */ public List baseclasses() { return baseclasses; } /** * Return the list of base interfaces. This is the list of interfaces * which do not have super-interface. */ public List baseinterfaces() { return baseinterfaces; } /** * Return the list of base enums. This is the list of enums * which do not have super-enums. */ public List baseEnums() { return baseEnums; } /** * Return the list of base annotation types. This is the list of * annotation types which do not have super-annotation types. */ public List baseAnnotationTypes() { return baseAnnotationTypes; } }





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