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package jdk.javadoc.internal.doclets.toolkit.util;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeSet;
import javax.lang.model.element.Element;
import javax.lang.model.element.TypeElement;
import javax.lang.model.type.TypeMirror;
import jdk.javadoc.doclet.DocletEnvironment;
import jdk.javadoc.internal.doclets.toolkit.BaseConfiguration;
import jdk.javadoc.internal.doclets.toolkit.Messages;
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 Also: - HashMap
- List
/**
* Build Class Hierarchy for all the Classes. This class builds the Class
* Tree and the Interface Tree separately.
*
* <p><b>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.</b>
*
* @see java.util.HashMap
* @see java.util.List
*/
public class ClassTree {
List of base classes. Used to get the mapped listing of sub-classes.
/**
* List of base classes. Used to get the mapped listing of sub-classes.
*/
private final SortedSet<TypeElement> baseClasses;
Mapping for each Class with their sub classes
/**
* Mapping for each Class with their sub classes
*/
private final Map<TypeElement, SortedSet<TypeElement>> subClasses = new HashMap<>();
List of base-interfaces. Contains set of all the interfaces who do not
have super-interfaces. Can be used to get the mapped listing of
sub-interfaces.
/**
* List of base-interfaces. Contains set of all the interfaces who do not
* have super-interfaces. Can be used to get the mapped listing of
* sub-interfaces.
*/
private final SortedSet<TypeElement> baseInterfaces;
Mapping for each Interface with their SubInterfaces
/**
* Mapping for each Interface with their SubInterfaces
*/
private final Map<TypeElement, SortedSet<TypeElement>> subInterfaces = new HashMap<>();
private final SortedSet<TypeElement> baseEnums;
private final Map<TypeElement, SortedSet<TypeElement>> subEnums = new HashMap<>();
private final SortedSet<TypeElement> baseAnnotationTypes;
private final Map<TypeElement, SortedSet<TypeElement>> subAnnotationTypes = new HashMap<>();
Mapping for each Interface with classes who implement it.
/**
* Mapping for each Interface with classes who implement it.
*/
private final Map<TypeElement, SortedSet<TypeElement>> implementingClasses = new HashMap<>();
private final BaseConfiguration configuration;
private final Utils utils;
private final Comparator<Element> comparator;
Constructor. Build the Tree using the Root of this Javadoc run.
Params: - configuration – the configuration of the doclet.
- noDeprecated – Don't add deprecated classes in the class tree, if
true.
/**
* 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(BaseConfiguration configuration, boolean noDeprecated) {
this.configuration = configuration;
this.utils = configuration.utils;
Messages messages = configuration.getMessages();
messages.notice("doclet.Building_Tree");
comparator = utils.makeClassUseComparator();
baseAnnotationTypes = new TreeSet<>(comparator);
baseEnums = new TreeSet<>(comparator);
baseClasses = new TreeSet<>(comparator);
baseInterfaces = new TreeSet<>(comparator);
buildTree(configuration.getIncludedTypeElements());
}
Constructor. Build the Tree using the Root of this Javadoc run.
Params: - docEnv – the DocletEnvironment.
- configuration – The current configuration of the doclet.
/**
* Constructor. Build the Tree using the Root of this Javadoc run.
*
* @param docEnv the DocletEnvironment.
* @param configuration The current configuration of the doclet.
*/
public ClassTree(DocletEnvironment docEnv, BaseConfiguration configuration) {
this.configuration = configuration;
this.utils = configuration.utils;
comparator = utils.makeClassUseComparator();
baseAnnotationTypes = new TreeSet<>(comparator);
baseEnums = new TreeSet<>(comparator);
baseClasses = new TreeSet<>(comparator);
baseInterfaces = new TreeSet<>(comparator);
buildTree(configuration.getIncludedTypeElements());
}
Constructor. Build the tree for the given array of classes.
Params: - classesSet – a set of classes
- configuration – The current configuration of the doclet.
/**
* Constructor. Build the tree for the given array of classes.
*
* @param classesSet a set of classes
* @param configuration The current configuration of the doclet.
*/
public ClassTree(SortedSet<TypeElement>classesSet, BaseConfiguration configuration) {
this.configuration = configuration;
this.utils = configuration.utils;
comparator = utils.makeClassUseComparator();
baseAnnotationTypes = new TreeSet<>(comparator);
baseEnums = new TreeSet<>(comparator);
baseClasses = new TreeSet<>(comparator);
baseInterfaces = new TreeSet<>(comparator);
buildTree(classesSet);
}
Generate mapping for the sub-classes for every class in this run.
Return the sub-class set 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.
Params: - classes – all the classes in this run.
/**
* Generate mapping for the sub-classes for every class in this run.
* Return the sub-class set 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.
*/
private void buildTree(Iterable<TypeElement> classes) {
for (TypeElement aClass : classes) {
// 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 &&
(utils.isDeprecated(aClass) ||
utils.isDeprecated(utils.containingPackage(aClass)))) {
continue;
}
if (utils.hasHiddenTag(aClass)) {
continue;
}
if (utils.isEnum(aClass)) {
processType(aClass, configuration, baseEnums, subEnums);
} else if (utils.isClass(aClass)) {
processType(aClass, configuration, baseClasses, subClasses);
} else if (utils.isInterface(aClass)) {
processInterface(aClass);
} else if (utils.isAnnotationType(aClass)) {
processType(aClass, configuration, baseAnnotationTypes,
subAnnotationTypes);
}
}
}
For the class passed map it to its 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 set
Recurse till hits java.lang.Object Null SuperClass.
Params: - typeElement – for which sub class mapping is to be generated.
- configuration – the current configuration of the doclet.
/**
* For the class passed map it to its 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 set
* Recurse till hits java.lang.Object Null SuperClass.
*
* @param typeElement for which sub class mapping is to be generated.
* @param configuration the current configuration of the doclet.
*/
private void processType(TypeElement typeElement, BaseConfiguration configuration,
Collection<TypeElement> bases, Map<TypeElement, SortedSet<TypeElement>> subs) {
TypeElement superclass = utils.getFirstVisibleSuperClassAsTypeElement(typeElement);
if (superclass != null) {
if (!add(subs, superclass, typeElement)) {
return;
} else {
processType(superclass, configuration, bases, subs);
}
} else { // typeElement is java.lang.Object, add it once to the set
if (!bases.contains(typeElement)) {
bases.add(typeElement);
}
}
Set<TypeMirror> intfacs = utils.getAllInterfaces(typeElement);
for (TypeMirror intfac : intfacs) {
add(implementingClasses, utils.asTypeElement(intfac), typeElement);
}
}
For the interface passed get the interfaces which it extends, and then
put this interface in the sub-interface set of those interfaces. Do it
recursively. If a interface doesn't have super-interface just attach
that interface in the set of all the baseInterfaces.
Params: - typeElement – Interface under consideration.
/**
* For the interface passed get the interfaces which it extends, and then
* put this interface in the sub-interface set of those interfaces. Do it
* recursively. If a interface doesn't have super-interface just attach
* that interface in the set of all the baseInterfaces.
*
* @param typeElement Interface under consideration.
*/
private void processInterface(TypeElement typeElement) {
List<? extends TypeMirror> intfacs = typeElement.getInterfaces();
if (!intfacs.isEmpty()) {
for (TypeMirror intfac : intfacs) {
if (!add(subInterfaces, utils.asTypeElement(intfac), typeElement)) {
return;
} else {
processInterface(utils.asTypeElement(intfac)); // Recurse
}
}
} else {
// we need to add all the interfaces who do not have
// super-interfaces to baseInterfaces set to traverse them
if (!baseInterfaces.contains(typeElement)) {
baseInterfaces.add(typeElement);
}
}
}
Adjust the Class Tree. Add the class interface in to it's super classes
or super interface's sub-interface set.
Params: - map – the entire map.
- superclass – java.lang.Object or the super-interface.
- typeElement – sub-interface to be mapped.
@returns boolean true if class added, false if class already processed.
/**
* Adjust the Class Tree. Add the class interface in to it's super classes
* or super interface's sub-interface set.
*
* @param map the entire map.
* @param superclass java.lang.Object or the super-interface.
* @param typeElement sub-interface to be mapped.
* @returns boolean true if class added, false if class already processed.
*/
private boolean add(Map<TypeElement, SortedSet<TypeElement>> map, TypeElement superclass, TypeElement typeElement) {
SortedSet<TypeElement> sset = map.computeIfAbsent(superclass, s -> new TreeSet<>(comparator));
if (sset.contains(typeElement)) {
return false;
} else {
sset.add(typeElement);
}
return true;
}
From the map return the set of sub-classes or sub-interfaces. If set
is null create a new one and return it.
Params: - map – The entire map.
- typeElement – class for which the sub-class set is requested.
@returns a list of sub classes.
/**
* From the map return the set of sub-classes or sub-interfaces. If set
* is null create a new one and return it.
*
* @param map The entire map.
* @param typeElement class for which the sub-class set is requested.
* @returns a list of sub classes.
*/
private SortedSet<TypeElement> get(Map<TypeElement, SortedSet<TypeElement>> map, TypeElement typeElement) {
return map.computeIfAbsent(typeElement, t -> new TreeSet<>(comparator));
}
Return the sub-class set for the class passed.
Params: - typeElement – class whose sub-class set is required.
/**
* Return the sub-class set for the class passed.
*
* @param typeElement class whose sub-class set is required.
*/
public SortedSet<TypeElement> subClasses(TypeElement typeElement) {
return get(subClasses, typeElement);
}
Return the sub-interface set for the interface passed.
Params: - typeElement – interface whose sub-interface set is required.
/**
* Return the sub-interface set for the interface passed.
*
* @param typeElement interface whose sub-interface set is required.
*/
public SortedSet<TypeElement> subInterfaces(TypeElement typeElement) {
return get(subInterfaces, typeElement);
}
Return the set of classes which implement the interface passed.
Params: - typeElement – interface whose implementing-classes set is required.
/**
* Return the set of classes which implement the interface passed.
*
* @param typeElement interface whose implementing-classes set is required.
*/
public SortedSet<TypeElement> implementingClasses(TypeElement typeElement) {
SortedSet<TypeElement> result = get(implementingClasses, typeElement);
SortedSet<TypeElement> intfcs = allSubClasses(typeElement, false);
// If class x implements a subinterface of typeElement, then it follows
// that class x implements typeElement.
Iterator<TypeElement> subInterfacesIter = intfcs.iterator();
while (subInterfacesIter.hasNext()) {
Iterator<TypeElement> implementingClassesIter
= implementingClasses(subInterfacesIter.next()).iterator();
while (implementingClassesIter.hasNext()) {
TypeElement c = implementingClassesIter.next();
if (!result.contains(c)) {
result.add(c);
}
}
}
return result;
}
Return the sub-class/interface set for the class/interface passed.
Params: - typeElement – class/interface whose sub-class/interface set is required.
- isEnum – true if the subClasses should be forced to come from the
enum tree.
/**
* Return the sub-class/interface set for the class/interface passed.
*
* @param typeElement class/interface whose sub-class/interface set is required.
* @param isEnum true if the subClasses should be forced to come from the
* enum tree.
*/
public SortedSet<TypeElement> directSubClasses(TypeElement typeElement, boolean isEnum) {
return directSubClasses0(typeElement, isEnum);
}
private SortedSet<TypeElement> directSubClasses0(TypeElement typeElement, boolean isEnum) {
if (isEnum) {
return get(subEnums, typeElement);
} else if (utils.isAnnotationType(typeElement)) {
return get(subAnnotationTypes, typeElement);
} else if (utils.isInterface(typeElement)) {
return get(subInterfaces, typeElement);
} else if (utils.isClass(typeElement)) {
return get(subClasses, typeElement);
} else {
return Collections.emptySortedSet();
}
}
Return a set of all direct or indirect, sub-classes and subInterfaces
of the TypeElement argument.
Params: - typeElement – TypeElement whose sub-classes or sub-interfaces are requested.
- isEnum – true if the subClasses should be forced to come from the
enum tree.
/**
* Return a set of all direct or indirect, sub-classes and subInterfaces
* of the TypeElement argument.
*
* @param typeElement TypeElement whose sub-classes or sub-interfaces are requested.
* @param isEnum true if the subClasses should be forced to come from the
* enum tree.
*/
public SortedSet<TypeElement> allSubClasses(TypeElement typeElement, boolean isEnum) {
// new entries added to the set are searched as well, this is
// really a work queue.
List<TypeElement> list = new ArrayList<>(directSubClasses(typeElement, isEnum));
for (int i = 0; i < list.size(); i++) {
TypeElement te = list.get(i);
SortedSet<TypeElement> tset = directSubClasses0(te, isEnum);
for (TypeElement tte : tset) {
if (!list.contains(tte)) {
list.add(tte);
}
}
}
SortedSet<TypeElement> out = new TreeSet<>(comparator);
out.addAll(list);
return out;
}
Return a set of base classes. This will have only one element namely
the TypeElement for java.lang.Object, since this is the base class for all
classes.
/**
* Return a set of base classes. This will have only one element namely
* the TypeElement for java.lang.Object, since this is the base class for all
* classes.
*/
public SortedSet<TypeElement> baseClasses() {
return baseClasses;
}
Return the set of base interfaces. This is the set of interfaces
which do not have super-interface.
/**
* Return the set of base interfaces. This is the set of interfaces
* which do not have super-interface.
*/
public SortedSet<TypeElement> baseInterfaces() {
return baseInterfaces;
}
Return the set of base enums. This is the set of enums
which do not have super-enums.
/**
* Return the set of base enums. This is the set of enums
* which do not have super-enums.
*/
public SortedSet<TypeElement> baseEnums() {
return baseEnums;
}
Return the set of base annotation types. This is the set
of annotation types which do not have super-annotation types.
/**
* Return the set of base annotation types. This is the set
* of annotation types which do not have super-annotation types.
*/
public SortedSet<TypeElement> baseAnnotationTypes() {
return baseAnnotationTypes;
}
}