/* * Copyright (c) 1999, 2019, 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 * or visit www.oracle.com if you need additional information or have any * questions. */ package jdk.javadoc.internal.doclets.toolkit.util; import java.lang.annotation.Documented; import java.lang.ref.SoftReference; import java.net.URI; import java.text.CollationKey; import java.text.Collator; import java.text.ParseException; import java.text.RuleBasedCollator; import java.util.*; import java.util.AbstractMap.SimpleEntry; import java.util.Map.Entry; import java.util.function.Predicate; import java.util.stream.Collectors; import javax.lang.model.SourceVersion; import javax.lang.model.element.AnnotationMirror; import javax.lang.model.element.AnnotationValue; import javax.lang.model.element.Element; import javax.lang.model.element.ElementKind; import javax.lang.model.element.ExecutableElement; import javax.lang.model.element.Modifier; import javax.lang.model.element.ModuleElement; import javax.lang.model.element.ModuleElement.RequiresDirective; import javax.lang.model.element.PackageElement; import javax.lang.model.element.RecordComponentElement; import javax.lang.model.element.TypeElement; import javax.lang.model.element.TypeParameterElement; import javax.lang.model.element.VariableElement; import javax.lang.model.type.ArrayType; import javax.lang.model.type.DeclaredType; import javax.lang.model.type.ErrorType; import javax.lang.model.type.ExecutableType; import javax.lang.model.type.NoType; import javax.lang.model.type.PrimitiveType; import javax.lang.model.type.TypeMirror; import javax.lang.model.type.TypeVariable; import javax.lang.model.type.WildcardType; import javax.lang.model.util.ElementFilter; import javax.lang.model.util.ElementKindVisitor14; import javax.lang.model.util.Elements; import javax.lang.model.util.SimpleElementVisitor14; import javax.lang.model.util.SimpleTypeVisitor9; import javax.lang.model.util.TypeKindVisitor9; import javax.lang.model.util.Types; import javax.tools.FileObject; import javax.tools.JavaFileManager; import javax.tools.JavaFileManager.Location; import javax.tools.StandardLocation; import com.sun.source.doctree.DocCommentTree; import com.sun.source.doctree.DocTree; import com.sun.source.doctree.DocTree.Kind; import com.sun.source.doctree.ParamTree; import com.sun.source.doctree.SerialFieldTree; import com.sun.source.doctree.UnknownBlockTagTree; import com.sun.source.tree.CompilationUnitTree; import com.sun.source.tree.LineMap; import com.sun.source.util.DocSourcePositions; import com.sun.source.util.DocTrees; import com.sun.source.util.TreePath; import com.sun.tools.javac.model.JavacTypes; import jdk.javadoc.internal.doclets.formats.html.SearchIndexItem; import jdk.javadoc.internal.doclets.toolkit.BaseConfiguration; import jdk.javadoc.internal.doclets.toolkit.BaseOptions; import jdk.javadoc.internal.doclets.toolkit.CommentUtils.DocCommentDuo; import jdk.javadoc.internal.doclets.toolkit.Messages; import jdk.javadoc.internal.doclets.toolkit.Resources; import jdk.javadoc.internal.doclets.toolkit.WorkArounds; import jdk.javadoc.internal.doclets.toolkit.taglets.BaseTaglet; import jdk.javadoc.internal.doclets.toolkit.taglets.Taglet; import jdk.javadoc.internal.tool.DocEnvImpl; import static javax.lang.model.element.ElementKind.*; import static javax.lang.model.element.Modifier.*; import static javax.lang.model.type.TypeKind.*; import static com.sun.source.doctree.DocTree.Kind.*; import static jdk.javadoc.internal.doclets.toolkit.builders.ConstantsSummaryBuilder.MAX_CONSTANT_VALUE_INDEX_LENGTH; /** * Utilities Class for Doclets. * *

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. */ public class Utils { public final BaseConfiguration configuration; private final BaseOptions options; private final Messages messages; private final Resources resources; public final DocTrees docTrees; public final Elements elementUtils; public final Types typeUtils; private final JavaScriptScanner javaScriptScanner; public Utils(BaseConfiguration c) { configuration = c; options = configuration.getOptions(); messages = configuration.getMessages(); resources = configuration.getResources(); elementUtils = c.docEnv.getElementUtils(); typeUtils = c.docEnv.getTypeUtils(); docTrees = c.docEnv.getDocTrees(); javaScriptScanner = c.isAllowScriptInComments() ? null : new JavaScriptScanner(); } // our own little symbol table private HashMap symtab = new HashMap<>(); public TypeMirror getSymbol(String signature) { TypeMirror type = symtab.get(signature); if (type == null) { TypeElement typeElement = elementUtils.getTypeElement(signature); if (typeElement == null) return null; type = typeElement.asType(); if (type == null) return null; symtab.put(signature, type); } return type; } public TypeMirror getObjectType() { return getSymbol("java.lang.Object"); } public TypeMirror getExceptionType() { return getSymbol("java.lang.Exception"); } public TypeMirror getErrorType() { return getSymbol("java.lang.Error"); } public TypeMirror getSerializableType() { return getSymbol("java.io.Serializable"); } public TypeMirror getExternalizableType() { return getSymbol("java.io.Externalizable"); } public TypeMirror getIllegalArgumentExceptionType() { return getSymbol("java.lang.IllegalArgumentException"); } public TypeMirror getNullPointerExceptionType() { return getSymbol("java.lang.NullPointerException"); } public TypeMirror getDeprecatedType() { return getSymbol("java.lang.Deprecated"); } public TypeMirror getFunctionalInterface() { return getSymbol("java.lang.FunctionalInterface"); } /** * Return array of class members whose documentation is to be generated. * If the member is deprecated do not include such a member in the * returned array. * * @param members Array of members to choose from. * @return List List of eligible members for whom * documentation is getting generated. */ public List excludeDeprecatedMembers(List members) { List excludeList = members.stream() .filter((member) -> (!isDeprecated(member))) .sorted(makeGeneralPurposeComparator()) .collect(Collectors.>toCollection(ArrayList::new)); return excludeList; } /** * Search for the given method in the given class. * * @param te Class to search into. * @param method Method to be searched. * @return ExecutableElement Method found, null otherwise. */ public ExecutableElement findMethod(TypeElement te, ExecutableElement method) { for (Element m : getMethods(te)) { if (executableMembersEqual(method, (ExecutableElement)m)) { return (ExecutableElement)m; } } return null; } /** * Test whether a class is a subclass of another class. * * @param t1 the candidate superclass. * @param t2 the target * @return true if t1 is a superclass of t2. */ public boolean isSubclassOf(TypeElement t1, TypeElement t2) { return typeUtils.isSubtype(typeUtils.erasure(t1.asType()), typeUtils.erasure(t2.asType())); } /** * @param e1 the first method to compare. * @param e2 the second method to compare. * @return true if member1 overrides/hides or is overridden/hidden by member2. */ public boolean executableMembersEqual(ExecutableElement e1, ExecutableElement e2) { // TODO: investigate if Elements.hides(..) will work here. if (isStatic(e1) && isStatic(e2)) { List parameters1 = e1.getParameters(); List parameters2 = e2.getParameters(); if (e1.getSimpleName().equals(e2.getSimpleName()) && parameters1.size() == parameters2.size()) { int j; for (j = 0 ; j < parameters1.size(); j++) { VariableElement v1 = parameters1.get(j); VariableElement v2 = parameters2.get(j); String t1 = getTypeName(v1.asType(), true); String t2 = getTypeName(v2.asType(), true); if (!(t1.equals(t2) || isTypeVariable(v1.asType()) || isTypeVariable(v2.asType()))) { break; } } if (j == parameters1.size()) { return true; } } return false; } else { return elementUtils.overrides(e1, e2, getEnclosingTypeElement(e1)) || elementUtils.overrides(e2, e1, getEnclosingTypeElement(e2)) || e1.equals(e2); } } /** * According to * The Java™ Language Specification, * all the outer classes and static inner classes are core classes. */ public boolean isCoreClass(TypeElement e) { return getEnclosingTypeElement(e) == null || isStatic(e); } public Location getLocationForPackage(PackageElement pd) { ModuleElement mdle = configuration.docEnv.getElementUtils().getModuleOf(pd); if (mdle == null) return defaultLocation(); return getLocationForModule(mdle); } public Location getLocationForModule(ModuleElement mdle) { Location loc = configuration.workArounds.getLocationForModule(mdle); if (loc != null) return loc; return defaultLocation(); } private Location defaultLocation() { JavaFileManager fm = configuration.docEnv.getJavaFileManager(); return fm.hasLocation(StandardLocation.SOURCE_PATH) ? StandardLocation.SOURCE_PATH : StandardLocation.CLASS_PATH; } public boolean isAnnotated(TypeMirror e) { return !e.getAnnotationMirrors().isEmpty(); } public boolean isAnnotated(Element e) { return !e.getAnnotationMirrors().isEmpty(); } @SuppressWarnings("preview") public boolean isAnnotationType(Element e) { return new SimpleElementVisitor14() { @Override public Boolean visitExecutable(ExecutableElement e, Void p) { return visit(e.getEnclosingElement()); } @Override public Boolean visitUnknown(Element e, Void p) { return false; } @Override protected Boolean defaultAction(Element e, Void p) { return e.getKind() == ANNOTATION_TYPE; } }.visit(e); } /** * An Enum implementation is almost identical, thus this method returns if * this element represents a CLASS or an ENUM * @param e element * @return true if class or enum */ public boolean isClass(Element e) { return e.getKind().isClass(); } public boolean isConstructor(Element e) { return e.getKind() == CONSTRUCTOR; } public boolean isEnum(Element e) { return e.getKind() == ENUM; } boolean isEnumConstant(Element e) { return e.getKind() == ENUM_CONSTANT; } public boolean isField(Element e) { return e.getKind() == FIELD; } public boolean isInterface(Element e) { return e.getKind() == INTERFACE; } public boolean isMethod(Element e) { return e.getKind() == METHOD; } public boolean isModule(Element e) { return e.getKind() == ElementKind.MODULE; } public boolean isPackage(Element e) { return e.getKind() == ElementKind.PACKAGE; } public boolean isAbstract(Element e) { return e.getModifiers().contains(Modifier.ABSTRACT); } public boolean isDefault(Element e) { return e.getModifiers().contains(Modifier.DEFAULT); } public boolean isPackagePrivate(Element e) { return !(isPublic(e) || isPrivate(e) || isProtected(e)); } public boolean isPrivate(Element e) { return e.getModifiers().contains(Modifier.PRIVATE); } public boolean isProtected(Element e) { return e.getModifiers().contains(Modifier.PROTECTED); } public boolean isPublic(Element e) { return e.getModifiers().contains(Modifier.PUBLIC); } public boolean isProperty(String name) { return options.javafx && name.endsWith("Property"); } public String getPropertyName(String name) { return isProperty(name) ? name.substring(0, name.length() - "Property".length()) : name; } public String getPropertyLabel(String name) { return name.substring(0, name.lastIndexOf("Property")); } public boolean isOverviewElement(Element e) { return e.getKind() == ElementKind.OTHER; } public boolean isStatic(Element e) { return e.getModifiers().contains(Modifier.STATIC); } public boolean isSerializable(TypeElement e) { return typeUtils.isSubtype(e.asType(), getSerializableType()); } public boolean isExternalizable(TypeElement e) { return typeUtils.isSubtype(e.asType(), getExternalizableType()); } @SuppressWarnings("preview") public boolean isRecord(TypeElement e) { return e.getKind() == ElementKind.RECORD; } @SuppressWarnings("preview") public boolean isCanonicalRecordConstructor(ExecutableElement ee) { TypeElement te = (TypeElement) ee.getEnclosingElement(); List stateComps = te.getRecordComponents(); List params = ee.getParameters(); if (stateComps.size() != params.size()) { return false; } Iterator stateIter = stateComps.iterator(); Iterator paramIter = params.iterator(); while (paramIter.hasNext() && stateIter.hasNext()) { VariableElement param = paramIter.next(); RecordComponentElement comp = stateIter.next(); if (!Objects.equals(param.getSimpleName(), comp.getSimpleName()) || !typeUtils.isSameType(param.asType(), comp.asType())) { return false; } } return true; } public SortedSet serializableFields(TypeElement aclass) { return configuration.workArounds.getSerializableFields(aclass); } public SortedSet serializationMethods(TypeElement aclass) { return configuration.workArounds.getSerializationMethods(aclass); } public boolean definesSerializableFields(TypeElement aclass) { return configuration.workArounds.definesSerializableFields( aclass); } @SuppressWarnings("preview") public String modifiersToString(Element e, boolean trailingSpace) { SortedSet modifiers = new TreeSet<>(e.getModifiers()); modifiers.remove(NATIVE); modifiers.remove(STRICTFP); modifiers.remove(SYNCHRONIZED); return new ElementKindVisitor14>() { final StringBuilder sb = new StringBuilder(); void addVisibilityModifier(Set modifiers) { if (modifiers.contains(PUBLIC)) { append("public"); } else if (modifiers.contains(PROTECTED)) { append("protected"); } else if (modifiers.contains(PRIVATE)) { append("private"); } } void addStatic(Set modifiers) { if (modifiers.contains(STATIC)) { append("static"); } } void addModifiers(Set modifiers) { modifiers.stream().map(Modifier::toString).forEach(this::append); } void append(String s) { if (sb.length() > 0) { sb.append(" "); } sb.append(s); } String finalString(String s) { append(s); if (trailingSpace) { sb.append(" "); } return sb.toString(); } @Override public String visitTypeAsInterface(TypeElement e, SortedSet mods) { addVisibilityModifier(mods); addStatic(mods); return finalString("interface"); } @Override public String visitTypeAsEnum(TypeElement e, SortedSet mods) { addVisibilityModifier(mods); addStatic(mods); return finalString("enum"); } @Override public String visitTypeAsAnnotationType(TypeElement e, SortedSet mods) { addVisibilityModifier(mods); addStatic(mods); return finalString("@interface"); } @Override public String visitTypeAsRecord(TypeElement e, SortedSet mods) { mods.remove(FINAL); // suppress the implicit `final` return visitTypeAsClass(e, mods); } @Override @SuppressWarnings("preview") public String visitTypeAsClass(TypeElement e, SortedSet mods) { addModifiers(mods); String keyword = e.getKind() == ElementKind.RECORD ? "record" : "class"; return finalString(keyword); } @Override protected String defaultAction(Element e, SortedSet mods) { addModifiers(mods); return sb.toString().trim(); } }.visit(e, modifiers); } public boolean isFunctionalInterface(AnnotationMirror amirror) { return amirror.getAnnotationType().equals(getFunctionalInterface()) && configuration.docEnv.getSourceVersion() .compareTo(SourceVersion.RELEASE_8) >= 0; } public boolean isNoType(TypeMirror t) { return t.getKind() == NONE; } public boolean isOrdinaryClass(TypeElement te) { if (isEnum(te) || isInterface(te) || isAnnotationType(te)) { return false; } if (isError(te) || isException(te)) { return false; } return true; } public boolean isUndocumentedEnclosure(TypeElement enclosingTypeElement) { return (isPackagePrivate(enclosingTypeElement) || isPrivate(enclosingTypeElement)) && !isLinkable(enclosingTypeElement); } public boolean isError(TypeElement te) { if (isEnum(te) || isInterface(te) || isAnnotationType(te)) { return false; } return typeUtils.isSubtype(te.asType(), getErrorType()); } public boolean isException(TypeElement te) { if (isEnum(te) || isInterface(te) || isAnnotationType(te)) { return false; } return typeUtils.isSubtype(te.asType(), getExceptionType()); } public boolean isPrimitive(TypeMirror t) { return new SimpleTypeVisitor9() { @Override public Boolean visitNoType(NoType t, Void p) { return t.getKind() == VOID; } @Override public Boolean visitPrimitive(PrimitiveType t, Void p) { return true; } @Override public Boolean visitArray(ArrayType t, Void p) { return visit(t.getComponentType()); } @Override protected Boolean defaultAction(TypeMirror e, Void p) { return false; } }.visit(t); } public boolean isExecutableElement(Element e) { ElementKind kind = e.getKind(); switch (kind) { case CONSTRUCTOR: case METHOD: case INSTANCE_INIT: return true; default: return false; } } public boolean isVariableElement(Element e) { ElementKind kind = e.getKind(); switch(kind) { case ENUM_CONSTANT: case EXCEPTION_PARAMETER: case FIELD: case LOCAL_VARIABLE: case PARAMETER: case RESOURCE_VARIABLE: return true; default: return false; } } public boolean isTypeElement(Element e) { switch (e.getKind()) { case CLASS: case ENUM: case INTERFACE: case ANNOTATION_TYPE: case RECORD: return true; default: return false; } } /** * Get the signature. It is the parameter list, type is qualified. * For instance, for a method {@code mymethod(String x, int y)}, * it will return {@code(java.lang.String,int)}. * * @param e * @return String */ public String signature(ExecutableElement e) { return makeSignature(e, true); } /** * Get flat signature. All types are not qualified. * Return a String, which is the flat signature of this member. * It is the parameter list, type is not qualified. * For instance, for a method {@code mymethod(String x, int y)}, * it will return {@code (String, int)}. */ public String flatSignature(ExecutableElement e) { return makeSignature(e, false); } public String makeSignature(ExecutableElement e, boolean full) { return makeSignature(e, full, false); } public String makeSignature(ExecutableElement e, boolean full, boolean ignoreTypeParameters) { StringBuilder result = new StringBuilder(); result.append("("); Iterator iterator = e.getParameters().iterator(); while (iterator.hasNext()) { VariableElement next = iterator.next(); TypeMirror type = next.asType(); result.append(getTypeSignature(type, full, ignoreTypeParameters)); if (iterator.hasNext()) { result.append(", "); } } if (e.isVarArgs()) { int len = result.length(); result.replace(len - 2, len, "..."); } result.append(")"); return result.toString(); } public String getTypeSignature(TypeMirror t, boolean qualifiedName, boolean noTypeParameters) { return new SimpleTypeVisitor9() { final StringBuilder sb = new StringBuilder(); @Override public StringBuilder visitArray(ArrayType t, Void p) { TypeMirror componentType = t.getComponentType(); visit(componentType); sb.append("[]"); return sb; } @Override public StringBuilder visitDeclared(DeclaredType t, Void p) { Element e = t.asElement(); sb.append(qualifiedName ? getFullyQualifiedName(e) : getSimpleName(e)); List typeArguments = t.getTypeArguments(); if (typeArguments.isEmpty() || noTypeParameters) { return sb; } sb.append("<"); Iterator iterator = typeArguments.iterator(); while (iterator.hasNext()) { TypeMirror ta = iterator.next(); visit(ta); if (iterator.hasNext()) { sb.append(", "); } } sb.append(">"); return sb; } @Override public StringBuilder visitTypeVariable(javax.lang.model.type.TypeVariable t, Void p) { Element e = t.asElement(); sb.append(qualifiedName ? getFullyQualifiedName(e, false) : getSimpleName(e)); return sb; } @Override public StringBuilder visitWildcard(javax.lang.model.type.WildcardType t, Void p) { sb.append("?"); TypeMirror upperBound = t.getExtendsBound(); if (upperBound != null) { sb.append(" extends "); visit(upperBound); } TypeMirror superBound = t.getSuperBound(); if (superBound != null) { sb.append(" super "); visit(superBound); } return sb; } @Override protected StringBuilder defaultAction(TypeMirror e, Void p) { return sb.append(e); } }.visit(t).toString(); } public boolean isArrayType(TypeMirror t) { return t.getKind() == ARRAY; } public boolean isDeclaredType(TypeMirror t) { return t.getKind() == DECLARED; } public boolean isErrorType(TypeMirror t) { return t.getKind() == ERROR; } public boolean isIntersectionType(TypeMirror t) { return t.getKind() == INTERSECTION; } public boolean isTypeParameterElement(Element e) { return e.getKind() == TYPE_PARAMETER; } public boolean isTypeVariable(TypeMirror t) { return t.getKind() == TYPEVAR; } public boolean isVoid(TypeMirror t) { return t.getKind() == VOID; } public boolean isWildCard(TypeMirror t) { return t.getKind() == WILDCARD; } public boolean ignoreBounds(TypeMirror bound) { return bound.equals(getObjectType()) && !isAnnotated(bound); } /* * a direct port of TypeVariable.getBounds */ public List getBounds(TypeParameterElement tpe) { List bounds = tpe.getBounds(); if (!bounds.isEmpty()) { TypeMirror upperBound = bounds.get(bounds.size() - 1); if (ignoreBounds(upperBound)) { return Collections.emptyList(); } } return bounds; } /** * Returns the TypeMirror of the ExecutableElement if it is a method, or null * if it is a constructor. * @param site the contextual type * @param ee the ExecutableElement * @return the return type */ public TypeMirror getReturnType(TypeElement site, ExecutableElement ee) { return ee.getKind() == CONSTRUCTOR ? null : asInstantiatedMethodType(site, ee).getReturnType(); } /** * Returns the ExecutableType corresponding to the type of the method declaration seen as a * member of a given declared type. This might cause type-variable substitution to kick in. * @param site the contextual type. * @param ee the method declaration. * @return the instantiated method type. */ public ExecutableType asInstantiatedMethodType(TypeElement site, ExecutableElement ee) { return shouldInstantiate(site, ee) ? (ExecutableType)typeUtils.asMemberOf((DeclaredType)site.asType(), ee) : (ExecutableType)ee.asType(); } /** * Returns the TypeMirror corresponding to the type of the field declaration seen as a * member of a given declared type. This might cause type-variable substitution to kick in. * @param site the contextual type. * @param ve the field declaration. * @return the instantiated field type. */ public TypeMirror asInstantiatedFieldType(TypeElement site, VariableElement ve) { return shouldInstantiate(site, ve) ? typeUtils.asMemberOf((DeclaredType)site.asType(), ve) : ve.asType(); } /* * We should not instantiate if (i) there's no contextual type declaration, (ii) the declaration * to which the member belongs to is the same as the one under consideration, (iii) if the * delcaration to which the member belongs to is not generic. */ private boolean shouldInstantiate(TypeElement site, Element e) { return site != null && site != e.getEnclosingElement() && !((DeclaredType)e.getEnclosingElement().asType()).getTypeArguments().isEmpty(); } /** * Return the type containing the method that this method overrides. * It may be a {@code TypeElement} or a {@code TypeParameterElement}. */ public TypeMirror overriddenType(ExecutableElement method) { return configuration.workArounds.overriddenType(method); } private TypeMirror getType(TypeMirror t) { return (isNoType(t)) ? getObjectType() : t; } public TypeMirror getSuperType(TypeElement te) { TypeMirror t = te.getSuperclass(); return getType(t); } /** * Return the class that originally defined the method that * is overridden by the current definition, or null if no * such class exists. * * @return a TypeElement representing the superclass that * originally defined this method, null if this method does * not override a definition in a superclass. */ public TypeElement overriddenClass(ExecutableElement ee) { TypeMirror type = overriddenType(ee); return (type != null) ? asTypeElement(type) : null; } public ExecutableElement overriddenMethod(ExecutableElement method) { if (isStatic(method)) { return null; } final TypeElement origin = getEnclosingTypeElement(method); for (TypeMirror t = getSuperType(origin); t.getKind() == DECLARED; t = getSuperType(asTypeElement(t))) { TypeElement te = asTypeElement(t); if (te == null) { return null; } VisibleMemberTable vmt = configuration.getVisibleMemberTable(te); for (Element e : vmt.getMembers(VisibleMemberTable.Kind.METHODS)) { ExecutableElement ee = (ExecutableElement)e; if (configuration.workArounds.overrides(method, ee, origin) && !isSimpleOverride(ee)) { return ee; } } if (t.equals(getObjectType())) return null; } return null; } public SortedSet getTypeElementsAsSortedSet(Iterable typeElements) { SortedSet set = new TreeSet<>(makeGeneralPurposeComparator()); for (TypeElement te : typeElements) { set.add(te); } return set; } public List getSerialDataTrees(ExecutableElement member) { return getBlockTags(member, SERIAL_DATA); } public FileObject getFileObject(TypeElement te) { return docTrees.getPath(te).getCompilationUnit().getSourceFile(); } public TypeMirror getDeclaredType(TypeElement enclosing, TypeMirror target) { return getDeclaredType(Collections.emptyList(), enclosing, target); } /** * Finds the declaration of the enclosing's type parameter. * * @param values * @param enclosing a TypeElement whose type arguments we desire * @param target the TypeMirror of the type as described by the enclosing * @return */ public TypeMirror getDeclaredType(Collection values, TypeElement enclosing, TypeMirror target) { TypeElement targetElement = asTypeElement(target); List targetTypeArgs = targetElement.getTypeParameters(); if (targetTypeArgs.isEmpty()) { return target; } List enclosingTypeArgs = enclosing.getTypeParameters(); List targetTypeArgTypes = new ArrayList<>(targetTypeArgs.size()); if (enclosingTypeArgs.isEmpty()) { for (TypeMirror te : values) { List typeArguments = ((DeclaredType)te).getTypeArguments(); if (typeArguments.size() >= targetTypeArgs.size()) { for (int i = 0 ; i < targetTypeArgs.size(); i++) { targetTypeArgTypes.add(typeArguments.get(i)); } break; } } // we found no matches in the hierarchy if (targetTypeArgTypes.isEmpty()) { return target; } } else { if (targetTypeArgs.size() > enclosingTypeArgs.size()) { return target; } for (int i = 0; i < targetTypeArgs.size(); i++) { TypeParameterElement tpe = enclosingTypeArgs.get(i); targetTypeArgTypes.add(tpe.asType()); } } TypeMirror dt = typeUtils.getDeclaredType(targetElement, targetTypeArgTypes.toArray(new TypeMirror[targetTypeArgTypes.size()])); return dt; } /** * Returns all the implemented super-interfaces of a given type, * in the case of classes, include all the super-interfaces of * the supertype. The super-interfaces are collected before the * super-interfaces of the supertype. * * @param te the type element to get the super-interfaces for. * @return the list of super-interfaces. */ public Set getAllInterfaces(TypeElement te) { Set results = new LinkedHashSet<>(); getAllInterfaces(te.asType(), results); return results; } private void getAllInterfaces(TypeMirror type, Set results) { List intfacs = typeUtils.directSupertypes(type); TypeMirror superType = null; for (TypeMirror intfac : intfacs) { if (intfac == getObjectType()) continue; TypeElement e = asTypeElement(intfac); if (isInterface(e)) { if (isPublic(e) || isLinkable(e)) results.add(intfac); getAllInterfaces(intfac, results); } else { // Save the supertype for later. superType = intfac; } } // Collect the super-interfaces of the supertype. if (superType != null) getAllInterfaces(superType, results); } /** * Lookup for a class within this package. * * @return TypeElement of found class, or null if not found. */ public TypeElement findClassInPackageElement(PackageElement pkg, String className) { for (TypeElement c : getAllClasses(pkg)) { if (getSimpleName(c).equals(className)) { return c; } } return null; } /** * TODO: FIXME: port to javax.lang.model * Find a class within the context of this class. Search order: qualified name, in this class * (inner), in this package, in the class imports, in the package imports. Return the * TypeElement if found, null if not found. */ //### The specified search order is not the normal rule the //### compiler would use. Leave as specified or change it? public TypeElement findClass(Element element, String className) { TypeElement encl = getEnclosingTypeElement(element); TypeElement searchResult = configuration.workArounds.searchClass(encl, className); if (searchResult == null) { encl = getEnclosingTypeElement(encl); //Expand search space to include enclosing class. while (encl != null && getEnclosingTypeElement(encl) != null) { encl = getEnclosingTypeElement(encl); } searchResult = encl == null ? null : configuration.workArounds.searchClass(encl, className); } return searchResult; } /** * Enclose in quotes, used for paths and filenames that contains spaces */ public String quote(String filepath) { return ("\"" + filepath + "\""); } /** * Parse the package name. We only want to display package name up to * 2 levels. */ public String parsePackageName(PackageElement p) { String pkgname = p.isUnnamed() ? "" : getPackageName(p); int index = -1; for (int j = 0; j < MAX_CONSTANT_VALUE_INDEX_LENGTH; j++) { index = pkgname.indexOf(".", index + 1); } if (index != -1) { pkgname = pkgname.substring(0, index); } return pkgname; } /** * Given a string, replace all occurrences of 'newStr' with 'oldStr'. * @param originalStr the string to modify. * @param oldStr the string to replace. * @param newStr the string to insert in place of the old string. */ public String replaceText(String originalStr, String oldStr, String newStr) { if (oldStr == null || newStr == null || oldStr.equals(newStr)) { return originalStr; } return originalStr.replace(oldStr, newStr); } /** * Given an annotation, return true if it should be documented and false * otherwise. * * @param annotation the annotation to check. * * @return true return true if it should be documented and false otherwise. */ public boolean isDocumentedAnnotation(TypeElement annotation) { for (AnnotationMirror anno : annotation.getAnnotationMirrors()) { if (getFullyQualifiedName(anno.getAnnotationType().asElement()).equals( Documented.class.getName())) { return true; } } return false; } /** * Returns true if this class is linkable and false if we can't link to it. * *

* NOTE: You can only link to external classes if they are public or * protected. * * @return true if this class is linkable and false if we can't link to the * desired class. */ public boolean isLinkable(TypeElement typeElem) { return (typeElem != null && (isIncluded(typeElem) && configuration.isGeneratedDoc(typeElem))) || (configuration.extern.isExternal(typeElem) && (isPublic(typeElem) || isProtected(typeElem))); } /** * Returns true if an element is linkable in the context of a given type element. * * If the element is a type element, it delegates to {@link #isLinkable(TypeElement)}. * Otherwise, the element is linkable if any of the following are true: *

* * @param typeElem the type element * @param elem the element * @return whether or not the element is linkable */ public boolean isLinkable(TypeElement typeElem, Element elem) { if (isTypeElement(elem)) { return isLinkable((TypeElement) elem); // defer to existing behavior } if (isIncluded(elem)) { return true; } // Allow for the behavior that members of undocumented supertypes // may be included in documented types if (isUndocumentedEnclosure(getEnclosingTypeElement(elem))) { return true; } // Allow for external members return isLinkable(typeElem) && configuration.extern.isExternal(typeElem) && (isPublic(elem) || isProtected(elem)); } /** * Return this type as a {@code TypeElement} if it represents a class * interface or annotation. Array dimensions are ignored. * If this type {@code ParameterizedType} or {@code WildcardType}, return * the {@code TypeElement} of the type's erasure. If this is an * annotation, return this as a {@code TypeElement}. * If this is a primitive type, return null. * * @return the {@code TypeElement} of this type, * or null if it is a primitive type. */ public TypeElement asTypeElement(TypeMirror t) { return new SimpleTypeVisitor9() { @Override public TypeElement visitDeclared(DeclaredType t, Void p) { return (TypeElement) t.asElement(); } @Override public TypeElement visitArray(ArrayType t, Void p) { return visit(t.getComponentType()); } @Override public TypeElement visitTypeVariable(TypeVariable t, Void p) { /* TODO, this may not be an optimal fix. * if we have an annotated type @DA T, then erasure returns a * none, in this case we use asElement instead. */ if (isAnnotated(t)) { return visit(typeUtils.asElement(t).asType()); } return visit(typeUtils.erasure(t)); } @Override public TypeElement visitWildcard(WildcardType t, Void p) { return visit(typeUtils.erasure(t)); } @Override public TypeElement visitError(ErrorType t, Void p) { return (TypeElement)t.asElement(); } @Override protected TypeElement defaultAction(TypeMirror e, Void p) { return super.defaultAction(e, p); } }.visit(t); } public TypeMirror getComponentType(TypeMirror t) { while (isArrayType(t)) { t = ((ArrayType) t).getComponentType(); } return t; } /** * Return the type's dimension information, as a string. *

* For example, a two dimensional array of String returns "{@code [][]}". * * @return the type's dimension information as a string. */ public String getDimension(TypeMirror t) { return new SimpleTypeVisitor9() { StringBuilder dimension = new StringBuilder(""); @Override public String visitArray(ArrayType t, Void p) { dimension.append("[]"); return visit(t.getComponentType()); } @Override protected String defaultAction(TypeMirror e, Void p) { return dimension.toString(); } }.visit(t); } public TypeElement getSuperClass(TypeElement te) { if (isInterface(te) || isAnnotationType(te) || te.asType().equals(getObjectType())) { return null; } TypeMirror superclass = te.getSuperclass(); if (isNoType(superclass) && isClass(te)) { superclass = getObjectType(); } return asTypeElement(superclass); } public TypeElement getFirstVisibleSuperClassAsTypeElement(TypeElement te) { if (isAnnotationType(te) || isInterface(te) || te.asType().equals(getObjectType())) { return null; } TypeMirror firstVisibleSuperClass = getFirstVisibleSuperClass(te); return firstVisibleSuperClass == null ? null : asTypeElement(firstVisibleSuperClass); } /** * Given a class, return the closest visible super class. * @param type the TypeMirror to be interrogated * @return the closest visible super class. Return null if it cannot * be found. */ public TypeMirror getFirstVisibleSuperClass(TypeMirror type) { return getFirstVisibleSuperClass(asTypeElement(type)); } /** * Given a class, return the closest visible super class. * * @param te the TypeElement to be interrogated * @return the closest visible super class. Return null if it cannot * be found.. */ public TypeMirror getFirstVisibleSuperClass(TypeElement te) { TypeMirror superType = te.getSuperclass(); if (isNoType(superType)) { superType = getObjectType(); } TypeElement superClass = asTypeElement(superType); // skip "hidden" classes while ((superClass != null && hasHiddenTag(superClass)) || (superClass != null && !isPublic(superClass) && !isLinkable(superClass))) { TypeMirror supersuperType = superClass.getSuperclass(); TypeElement supersuperClass = asTypeElement(supersuperType); if (supersuperClass == null || supersuperClass.getQualifiedName().equals(superClass.getQualifiedName())) { break; } superType = supersuperType; superClass = supersuperClass; } if (te.asType().equals(superType)) { return null; } return superType; } /** * Given a TypeElement, return the name of its type (Class, Interface, etc.). * * @param te the TypeElement to check. * @param lowerCaseOnly true if you want the name returned in lower case. * If false, the first letter of the name is capitalized. * @return */ public String getTypeElementName(TypeElement te, boolean lowerCaseOnly) { String typeName = ""; if (isInterface(te)) { typeName = "doclet.Interface"; } else if (isException(te)) { typeName = "doclet.Exception"; } else if (isError(te)) { typeName = "doclet.Error"; } else if (isAnnotationType(te)) { typeName = "doclet.AnnotationType"; } else if (isEnum(te)) { typeName = "doclet.Enum"; } else if (isOrdinaryClass(te)) { typeName = "doclet.Class"; } typeName = lowerCaseOnly ? toLowerCase(typeName) : typeName; return typeNameMap.computeIfAbsent(typeName, resources::getText); } private final Map typeNameMap = new HashMap<>(); public String getTypeName(TypeMirror t, boolean fullyQualified) { return new SimpleTypeVisitor9() { @Override public String visitArray(ArrayType t, Void p) { return visit(t.getComponentType()); } @Override public String visitDeclared(DeclaredType t, Void p) { TypeElement te = asTypeElement(t); return fullyQualified ? te.getQualifiedName().toString() : getSimpleName(te); } @Override public String visitExecutable(ExecutableType t, Void p) { return t.toString(); } @Override public String visitPrimitive(PrimitiveType t, Void p) { return t.toString(); } @Override public String visitTypeVariable(javax.lang.model.type.TypeVariable t, Void p) { return getSimpleName(t.asElement()); } @Override public String visitWildcard(javax.lang.model.type.WildcardType t, Void p) { return t.toString(); } @Override protected String defaultAction(TypeMirror e, Void p) { return e.toString(); } }.visit(t); } /** * Replace all tabs in a string with the appropriate number of spaces. * The string may be a multi-line string. * @param text the text for which the tabs should be expanded * @return the text with all tabs expanded */ public String replaceTabs(String text) { if (!text.contains("\t")) return text; final int tabLength = options.sourceTabSize; final String whitespace = " ".repeat(tabLength); final int textLength = text.length(); StringBuilder result = new StringBuilder(textLength); int pos = 0; int lineLength = 0; for (int i = 0; i < textLength; i++) { char ch = text.charAt(i); switch (ch) { case '\n': case '\r': lineLength = 0; break; case '\t': result.append(text, pos, i); int spaceCount = tabLength - lineLength % tabLength; result.append(whitespace, 0, spaceCount); lineLength += spaceCount; pos = i + 1; break; default: lineLength++; } } result.append(text, pos, textLength); return result.toString(); } public CharSequence normalizeNewlines(CharSequence text) { StringBuilder sb = new StringBuilder(); final int textLength = text.length(); final String NL = DocletConstants.NL; int pos = 0; for (int i = 0; i < textLength; i++) { char ch = text.charAt(i); switch (ch) { case '\n': sb.append(text, pos, i); sb.append(NL); pos = i + 1; break; case '\r': sb.append(text, pos, i); sb.append(NL); if (i + 1 < textLength && text.charAt(i + 1) == '\n') i++; pos = i + 1; break; } } sb.append(text, pos, textLength); return sb; } /** * Returns a locale independent lower cased String. That is, it * always uses US locale, this is a clone of the one in StringUtils. * @param s to convert * @return converted String */ public static String toLowerCase(String s) { return s.toLowerCase(Locale.US); } /** * Return true if the given Element is deprecated. * * @param e the Element to check. * @return true if the given Element is deprecated. */ public boolean isDeprecated(Element e) { if (isPackage(e)) { return configuration.workArounds.isDeprecated0(e); } return elementUtils.isDeprecated(e); } /** * Return true if the given Element is deprecated for removal. * * @param e the Element to check. * @return true if the given Element is deprecated for removal. */ public boolean isDeprecatedForRemoval(Element e) { List annotationList = e.getAnnotationMirrors(); JavacTypes jctypes = ((DocEnvImpl) configuration.docEnv).toolEnv.typeutils; for (AnnotationMirror anno : annotationList) { if (jctypes.isSameType(anno.getAnnotationType().asElement().asType(), getDeprecatedType())) { Map pairs = anno.getElementValues(); if (!pairs.isEmpty()) { for (ExecutableElement element : pairs.keySet()) { if (element.getSimpleName().contentEquals("forRemoval")) { return Boolean.parseBoolean((pairs.get(element)).toString()); } } } } } return false; } /** * A convenience method to get property name from the name of the * getter or setter method. * @param e the input method. * @return the name of the property of the given setter of getter. */ public String propertyName(ExecutableElement e) { String name = getSimpleName(e); String propertyName = null; if (name.startsWith("get") || name.startsWith("set")) { propertyName = name.substring(3); } else if (name.startsWith("is")) { propertyName = name.substring(2); } if ((propertyName == null) || propertyName.isEmpty()){ return ""; } return propertyName.substring(0, 1).toLowerCase(configuration.getLocale()) + propertyName.substring(1); } /** * Returns true if the element is included, contains @hidden tag, * or if javafx flag is present and element contains @treatAsPrivate * tag. * @param e the queried element * @return true if it exists, false otherwise */ public boolean hasHiddenTag(Element e) { // prevent needless tests on elements which are not included if (!isIncluded(e)) { return false; } if (options.javafx && hasBlockTag(e, DocTree.Kind.UNKNOWN_BLOCK_TAG, "treatAsPrivate")) { return true; } return hasBlockTag(e, DocTree.Kind.HIDDEN); } /** * Returns true if the method has no comments, or a lone @inheritDoc. * @param m a method * @return true if there are no comments, false otherwise */ public boolean isSimpleOverride(ExecutableElement m) { if (!options.summarizeOverriddenMethods || !isIncluded(m)) { return false; } if (!getBlockTags(m).isEmpty() || isDeprecated(m)) return false; List fullBody = getFullBody(m); return fullBody.isEmpty() || (fullBody.size() == 1 && fullBody.get(0).getKind().equals(Kind.INHERIT_DOC)); } /** * In case of JavaFX mode on, filters out classes that are private, * package private, these are not documented in JavaFX mode, also * remove those classes that have @hidden or @treatAsPrivate comment tag. * * @param classlist a collection of TypeElements * @param javafx set to true if in JavaFX mode. * @return list of filtered classes. */ public SortedSet filterOutPrivateClasses(Iterable classlist, boolean javafx) { SortedSet filteredOutClasses = new TreeSet<>(makeGeneralPurposeComparator()); if (!javafx) { for (Element te : classlist) { if (!hasHiddenTag(te)) { filteredOutClasses.add((TypeElement)te); } } return filteredOutClasses; } for (Element e : classlist) { if (isPrivate(e) || isPackagePrivate(e) || hasHiddenTag(e)) { continue; } filteredOutClasses.add((TypeElement)e); } return filteredOutClasses; } /** * Compares two elements. * @param e1 first Element * @param e2 second Element * @return a true if they are the same, false otherwise. */ public boolean elementsEqual(Element e1, Element e2) { if (e1.getKind() != e2.getKind()) { return false; } String s1 = getSimpleName(e1); String s2 = getSimpleName(e2); if (compareStrings(s1, s2) == 0) { String f1 = getFullyQualifiedName(e1, true); String f2 = getFullyQualifiedName(e2, true); return compareStrings(f1, f2) == 0; } return false; } /** * A general purpose case insensitive String comparator, which compares * two Strings using a Collator strength of "TERTIARY". * * @param s1 first String to compare. * @param s2 second String to compare. * @return a negative integer, zero, or a positive integer as the first * argument is less than, equal to, or greater than the second. */ public int compareStrings(String s1, String s2) { return compareStrings(true, s1, s2); } /** * A general purpose case sensitive String comparator, which * compares two Strings using a Collator strength of "SECONDARY". * * @param s1 first String to compare. * @param s2 second String to compare. * @return a negative integer, zero, or a positive integer as the first * argument is less than, equal to, or greater than the second. */ public int compareCaseCompare(String s1, String s2) { return compareStrings(false, s1, s2); } private DocCollator tertiaryCollator = null; private DocCollator secondaryCollator = null; private int compareStrings(boolean caseSensitive, String s1, String s2) { if (caseSensitive) { if (tertiaryCollator == null) { tertiaryCollator = new DocCollator(configuration.locale, Collator.TERTIARY); } return tertiaryCollator.compare(s1, s2); } if (secondaryCollator == null) { secondaryCollator = new DocCollator(configuration.locale, Collator.SECONDARY); } return secondaryCollator.compare(s1, s2); } private static class DocCollator { private final Map keys; private final Collator instance; private final int MAX_SIZE = 1000; private DocCollator(Locale locale, int strength) { instance = createCollator(locale); instance.setStrength(strength); keys = new LinkedHashMap(MAX_SIZE + 1, 0.75f, true) { private static final long serialVersionUID = 1L; @Override protected boolean removeEldestEntry(Entry eldest) { return size() > MAX_SIZE; } }; } CollationKey getKey(String s) { return keys.computeIfAbsent(s, instance :: getCollationKey); } public int compare(String s1, String s2) { return getKey(s1).compareTo(getKey(s2)); } private Collator createCollator(Locale locale) { Collator baseCollator = Collator.getInstance(locale); if (baseCollator instanceof RuleBasedCollator) { // Extend collator to sort signatures with additional args and var-args in a well-defined order: // () < (int) < (int, int) < (int...) try { return new RuleBasedCollator(((RuleBasedCollator) baseCollator).getRules() + "& ')' < ',' < '.','['"); } catch (ParseException e) { throw new RuntimeException(e); } } return baseCollator; } } private Comparator moduleComparator = null; /** * Comparator for ModuleElements, simply compares the fully qualified names * @return a Comparator */ public Comparator makeModuleComparator() { if (moduleComparator == null) { moduleComparator = new Utils.ElementComparator() { @Override public int compare(Element mod1, Element mod2) { return compareFullyQualifiedNames(mod1, mod2); } }; } return moduleComparator; } private Comparator allClassesComparator = null; /** * Returns a Comparator for all classes, compares the simple names of * TypeElement, if equal then the fully qualified names. * * @return Comparator */ public Comparator makeAllClassesComparator() { if (allClassesComparator == null) { allClassesComparator = new Utils.ElementComparator() { @Override public int compare(Element e1, Element e2) { int result = compareNames(e1, e2); if (result == 0) result = compareFullyQualifiedNames(e1, e2); return result; } }; } return allClassesComparator; } private Comparator packageComparator = null; /** * Returns a Comparator for packages, by comparing the fully qualified names. * * @return a Comparator */ public Comparator makePackageComparator() { if (packageComparator == null) { packageComparator = new Utils.ElementComparator() { @Override public int compare(Element pkg1, Element pkg2) { return compareFullyQualifiedNames(pkg1, pkg2); } }; } return packageComparator; } private Comparator deprecatedComparator = null; /** * Returns a Comparator for deprecated items listed on deprecated list page, by comparing the * fully qualified names. * * @return a Comparator */ public Comparator makeDeprecatedComparator() { if (deprecatedComparator == null) { deprecatedComparator = new Utils.ElementComparator() { @Override public int compare(Element e1, Element e2) { return compareFullyQualifiedNames(e1, e2); } }; } return deprecatedComparator; } private Comparator serialFieldTreeComparator = null; /** * Returns a Comparator for SerialFieldTree. * @return a Comparator */ public Comparator makeSerialFieldTreeComparator() { if (serialFieldTreeComparator == null) { serialFieldTreeComparator = (SerialFieldTree o1, SerialFieldTree o2) -> { String s1 = o1.getName().toString(); String s2 = o2.getName().toString(); return s1.compareTo(s2); }; } return serialFieldTreeComparator; } /** * Returns a general purpose comparator. * @return a Comparator */ public Comparator makeGeneralPurposeComparator() { return makeClassUseComparator(); } private Comparator overrideUseComparator = null; /** * Returns a Comparator for overrides and implements, * used primarily on methods, compares the name first, * then compares the simple names of the enclosing * TypeElement and the fully qualified name of the enclosing TypeElement. * @return a Comparator */ public Comparator makeOverrideUseComparator() { if (overrideUseComparator == null) { overrideUseComparator = new Utils.ElementComparator() { @Override public int compare(Element o1, Element o2) { int result = compareStrings(getSimpleName(o1), getSimpleName(o2)); if (result != 0) { return result; } if (!isTypeElement(o1) && !isTypeElement(o2) && !isPackage(o1) && !isPackage(o2)) { TypeElement t1 = getEnclosingTypeElement(o1); TypeElement t2 = getEnclosingTypeElement(o2); result = compareStrings(getSimpleName(t1), getSimpleName(t2)); if (result != 0) return result; } result = compareStrings(getFullyQualifiedName(o1), getFullyQualifiedName(o2)); if (result != 0) return result; return compareElementKinds(o1, o2); } }; } return overrideUseComparator; } private Comparator indexUseComparator = null; /** * Returns a Comparator for index file presentations, and are sorted as follows. * If comparing modules and/or packages then simply compare the qualified names, * if comparing a module or a package with a type/member then compare the * FullyQualifiedName of the module or a package with the SimpleName of the entity, * otherwise: * 1. compare the ElementKind ex: Module, Package, Interface etc. * 2a. if equal and if the type is of ExecutableElement(Constructor, Methods), * a case insensitive comparison of parameter the type signatures * 2b. if equal, case sensitive comparison of the type signatures * 3. finally, if equal, compare the FQNs of the entities * @return a comparator for index file use */ public Comparator makeIndexUseComparator() { if (indexUseComparator == null) { indexUseComparator = new Utils.ElementComparator() { /** * Compares two elements. * * @param e1 - an element. * @param e2 - an element. * @return a negative integer, zero, or a positive integer as the first * argument is less than, equal to, or greater than the second. */ @Override public int compare(Element e1, Element e2) { int result; // first, compare names as appropriate if ((isModule(e1) || isPackage(e1)) && (isModule(e2) || isPackage(e2))) { result = compareFullyQualifiedNames(e1, e2); } else if (isModule(e1) || isPackage(e1)) { result = compareStrings(getFullyQualifiedName(e1), getSimpleName(e2)); } else if (isModule(e2) || isPackage(e2)) { result = compareStrings(getSimpleName(e1), getFullyQualifiedName(e2)); } else { result = compareNames(e1, e2); } if (result != 0) { return result; } // if names are the same, compare element kinds result = compareElementKinds(e1, e2); if (result != 0) { return result; } // if element kinds are the same, and are methods, // compare the method parameters if (hasParameters(e1)) { List parameters1 = ((ExecutableElement)e1).getParameters(); List parameters2 = ((ExecutableElement)e2).getParameters(); result = compareParameters(false, parameters1, parameters2); if (result != 0) { return result; } result = compareParameters(true, parameters1, parameters2); if (result != 0) { return result; } } // else fall back on fully qualified names return compareFullyQualifiedNames(e1, e2); } }; } return indexUseComparator; } private Comparator typeMirrorClassUseComparator = null; /** * Compares the FullyQualifiedNames of two TypeMirrors * @return */ public Comparator makeTypeMirrorClassUseComparator() { if (typeMirrorClassUseComparator == null) { typeMirrorClassUseComparator = (TypeMirror type1, TypeMirror type2) -> { String s1 = getQualifiedTypeName(type1); String s2 = getQualifiedTypeName(type2); return compareStrings(s1, s2); }; } return typeMirrorClassUseComparator; } private Comparator typeMirrorIndexUseComparator = null; /** * Compares the SimpleNames of TypeMirrors if equal then the * FullyQualifiedNames of TypeMirrors. * * @return */ public Comparator makeTypeMirrorIndexUseComparator() { if (typeMirrorIndexUseComparator == null) { typeMirrorIndexUseComparator = (TypeMirror t1, TypeMirror t2) -> { int result = compareStrings(getTypeName(t1, false), getTypeName(t2, false)); if (result != 0) return result; return compareStrings(getQualifiedTypeName(t1), getQualifiedTypeName(t2)); }; } return typeMirrorIndexUseComparator; } /** * Get the qualified type name of a TypeMirror compatible with the Element's * getQualified name, returns the qualified name of the Reference type * otherwise the primitive name. * @param t the type whose name is to be obtained. * @return the fully qualified name of Reference type or the primitive name */ public String getQualifiedTypeName(TypeMirror t) { return new SimpleTypeVisitor9() { @Override public String visitDeclared(DeclaredType t, Void p) { return getFullyQualifiedName(t.asElement()); } @Override public String visitArray(ArrayType t, Void p) { return visit(t.getComponentType()); } @Override public String visitTypeVariable(javax.lang.model.type.TypeVariable t, Void p) { // The knee jerk reaction is to do this but don't!, as we would like // it to be compatible with the old world, now if we decide to do so // care must be taken to avoid collisions. // return getFullyQualifiedName(t.asElement()); return t.toString(); } @Override protected String defaultAction(TypeMirror t, Void p) { return t.toString(); } }.visit(t); } /** * A generic utility which returns the fully qualified names of an entity, * if the entity is not qualifiable then its enclosing entity, it is upto * the caller to add the elements name as required. * @param e the element to get FQN for. * @return the name */ public String getFullyQualifiedName(Element e) { return getFullyQualifiedName(e, true); } @SuppressWarnings("preview") public String getFullyQualifiedName(Element e, final boolean outer) { return new SimpleElementVisitor14() { @Override public String visitModule(ModuleElement e, Void p) { return e.getQualifiedName().toString(); } @Override public String visitPackage(PackageElement e, Void p) { return e.getQualifiedName().toString(); } @Override public String visitType(TypeElement e, Void p) { return e.getQualifiedName().toString(); } @Override protected String defaultAction(Element e, Void p) { return outer ? visit(e.getEnclosingElement()) : e.getSimpleName().toString(); } }.visit(e); } private Comparator classUseComparator = null; /** * Comparator for ClassUse presentations, and sorts as follows: * 1. member names * 2. then fully qualified member names * 3. then parameter types if applicable * 4. finally the element kinds ie. package, class, interface etc. * @return a comparator to sort classes and members for class use */ public Comparator makeClassUseComparator() { if (classUseComparator == null) { classUseComparator = new Utils.ElementComparator() { /** * Compares two Elements. * * @param e1 - an element. * @param e2 - an element. * @return a negative integer, zero, or a positive integer as the first * argument is less than, equal to, or greater than the second. */ @Override public int compare(Element e1, Element e2) { int result = compareNames(e1, e2); if (result != 0) { return result; } result = compareFullyQualifiedNames(e1, e2); if (result != 0) { return result; } if (hasParameters(e1) && hasParameters(e2)) { @SuppressWarnings("unchecked") List parameters1 = (List)((ExecutableElement)e1).getParameters(); @SuppressWarnings("unchecked") List parameters2 = (List)((ExecutableElement)e2).getParameters(); result = compareParameters(false, parameters1, parameters2); if (result != 0) { return result; } result = compareParameters(true, parameters1, parameters2); } if (result != 0) { return result; } return compareElementKinds(e1, e2); } }; } return classUseComparator; } /** * A general purpose comparator to sort Element entities, basically provides the building blocks * for creating specific comparators for an use-case. */ private abstract class ElementComparator implements Comparator { public ElementComparator() { } /** * compares two parameter arrays by first comparing the length of the arrays, and * then each Type of the parameter in the array. * @param params1 the first parameter array. * @param params2 the first parameter array. * @return a negative integer, zero, or a positive integer as the first * argument is less than, equal to, or greater than the second. */ protected int compareParameters(boolean caseSensitive, List params1, List params2) { return compareStrings(caseSensitive, getParametersAsString(params1), getParametersAsString(params2)); } String getParametersAsString(List params) { StringBuilder sb = new StringBuilder(); for (VariableElement param : params) { TypeMirror t = param.asType(); // prefix P for primitive and R for reference types, thus items will // be ordered lexically and correctly. sb.append(getTypeCode(t)).append("-").append(t).append("-"); } return sb.toString(); } private String getTypeCode(TypeMirror t) { return new SimpleTypeVisitor9() { @Override public String visitPrimitive(PrimitiveType t, Void p) { return "P"; } @Override public String visitArray(ArrayType t, Void p) { return visit(t.getComponentType()); } @Override protected String defaultAction(TypeMirror e, Void p) { return "R"; } }.visit(t); } /** * Compares two Elements, typically the name of a method, * field or constructor. * @param e1 the first Element. * @param e2 the second Element. * @return a negative integer, zero, or a positive integer as the first * argument is less than, equal to, or greater than the second. */ protected int compareNames(Element e1, Element e2) { return compareStrings(getSimpleName(e1), getSimpleName(e2)); } /** * Compares the fully qualified names of the entities * @param e1 the first Element. * @param e2 the first Element. * @return a negative integer, zero, or a positive integer as the first * argument is less than, equal to, or greater than the second. */ protected int compareFullyQualifiedNames(Element e1, Element e2) { // add simplename to be compatible String thisElement = getFullyQualifiedName(e1); String thatElement = getFullyQualifiedName(e2); return compareStrings(thisElement, thatElement); } protected int compareElementKinds(Element e1, Element e2) { return Integer.compare(getKindIndex(e1), getKindIndex(e2)); } private int getKindIndex(Element e) { switch (e.getKind()) { case MODULE: return 0; case PACKAGE: return 1; case CLASS: return 2; case ENUM: return 3; case ENUM_CONSTANT: return 4; case RECORD: return 5; case INTERFACE: return 6; case ANNOTATION_TYPE: return 7; case FIELD: return 8; case CONSTRUCTOR: return 9; case METHOD: return 10; default: throw new IllegalArgumentException(e.getKind().toString()); } } @SuppressWarnings("preview") boolean hasParameters(Element e) { return new SimpleElementVisitor14() { @Override public Boolean visitExecutable(ExecutableElement e, Void p) { return true; } @Override protected Boolean defaultAction(Element e, Void p) { return false; } }.visit(e); } /** * The fully qualified names of the entities, used solely by the comparator. * * @return a negative integer, zero, or a positive integer as the first argument is less * than, equal to, or greater than the second. */ @SuppressWarnings("preview") private String getFullyQualifiedName(Element e) { return new SimpleElementVisitor14() { @Override public String visitModule(ModuleElement e, Void p) { return e.getQualifiedName().toString(); } @Override public String visitPackage(PackageElement e, Void p) { return e.getQualifiedName().toString(); } @Override public String visitExecutable(ExecutableElement e, Void p) { // For backward compatibility return getFullyQualifiedName(e.getEnclosingElement()) + "." + e.getSimpleName().toString(); } @Override public String visitType(TypeElement e, Void p) { return e.getQualifiedName().toString(); } @Override protected String defaultAction(Element e, Void p) { return getEnclosingTypeElement(e).getQualifiedName().toString() + "." + e.getSimpleName().toString(); } }.visit(e); } } /** * Returns a Comparator for SearchIndexItems representing types. Items are * compared by short name, or full string representation if names are equal. * * @return a Comparator */ public Comparator makeTypeSearchIndexComparator() { return (SearchIndexItem sii1, SearchIndexItem sii2) -> { int result = compareStrings(sii1.getSimpleName(), sii2.getSimpleName()); if (result == 0) { // TreeSet needs this to be consistent with equal so we do // a plain comparison of string representations as fallback. result = sii1.toString().compareTo(sii2.toString()); } return result; }; } private Comparator genericSearchIndexComparator = null; /** * Returns a Comparator for SearchIndexItems representing modules, packages, or members. * Items are compared by label (member name plus signature for members, package name for * packages, and module name for modules). If labels are equal then full string * representation is compared. * * @return a Comparator */ public Comparator makeGenericSearchIndexComparator() { if (genericSearchIndexComparator == null) { genericSearchIndexComparator = (SearchIndexItem sii1, SearchIndexItem sii2) -> { int result = compareStrings(sii1.getLabel(), sii2.getLabel()); if (result == 0) { // TreeSet needs this to be consistent with equal so we do // a plain comparison of string representations as fallback. result = sii1.toString().compareTo(sii2.toString()); } return result; }; } return genericSearchIndexComparator; } public Iterable getEnclosedTypeElements(PackageElement pkg) { List out = getInterfaces(pkg); out.addAll(getClasses(pkg)); out.addAll(getEnums(pkg)); out.addAll(getAnnotationTypes(pkg)); out.addAll(getRecords(pkg)); return out; } // Element related methods public List getAnnotationMembers(TypeElement aClass) { List members = getAnnotationFields(aClass); members.addAll(getAnnotationMethods(aClass)); return members; } public List getAnnotationFields(TypeElement aClass) { return getItems0(aClass, true, FIELD); } List getAnnotationFieldsUnfiltered(TypeElement aClass) { return getItems0(aClass, true, FIELD); } public List getAnnotationMethods(TypeElement aClass) { return getItems0(aClass, true, METHOD); } public List getAnnotationTypes(Element e) { return convertToTypeElement(getItems(e, true, ANNOTATION_TYPE)); } public List getAnnotationTypesUnfiltered(Element e) { return convertToTypeElement(getItems(e, false, ANNOTATION_TYPE)); } @SuppressWarnings("preview") public List getRecords(Element e) { return convertToTypeElement(getItems(e, true, RECORD)); } @SuppressWarnings("preview") public List getRecordsUnfiltered(Element e) { return convertToTypeElement(getItems(e, false, RECORD)); } public List getFields(Element e) { return convertToVariableElement(getItems(e, true, FIELD)); } public List getFieldsUnfiltered(Element e) { return convertToVariableElement(getItems(e, false, FIELD)); } public List getClasses(Element e) { return convertToTypeElement(getItems(e, true, CLASS)); } public List getClassesUnfiltered(Element e) { return convertToTypeElement(getItems(e, false, CLASS)); } public List getConstructors(Element e) { return convertToExecutableElement(getItems(e, true, CONSTRUCTOR)); } public List getMethods(Element e) { return convertToExecutableElement(getItems(e, true, METHOD)); } List getMethodsUnfiltered(Element e) { return convertToExecutableElement(getItems(e, false, METHOD)); } public int getOrdinalValue(VariableElement member) { if (member == null || member.getKind() != ENUM_CONSTANT) { throw new IllegalArgumentException("must be an enum constant: " + member); } return member.getEnclosingElement().getEnclosedElements().indexOf(member); } private Map> modulePackageMap = null; public Map> getModulePackageMap() { if (modulePackageMap == null) { modulePackageMap = new HashMap<>(); Set pkgs = configuration.getIncludedPackageElements(); pkgs.forEach((pkg) -> { ModuleElement mod = elementUtils.getModuleOf(pkg); modulePackageMap.computeIfAbsent(mod, m -> new HashSet<>()).add(pkg); }); } return modulePackageMap; } public Map getDependentModules(ModuleElement mdle) { Map result = new TreeMap<>(makeModuleComparator()); Deque queue = new ArrayDeque<>(); // get all the requires for the element in question for (RequiresDirective rd : ElementFilter.requiresIn(mdle.getDirectives())) { ModuleElement dep = rd.getDependency(); // add the dependency to work queue if (!result.containsKey(dep)) { if (rd.isTransitive()) { queue.addLast(dep); } } // add all exports for the primary module result.put(rd.getDependency(), getModifiers(rd)); } // add only requires public for subsequent module dependencies for (ModuleElement m = queue.poll(); m != null; m = queue.poll()) { for (RequiresDirective rd : ElementFilter.requiresIn(m.getDirectives())) { ModuleElement dep = rd.getDependency(); if (!result.containsKey(dep)) { if (rd.isTransitive()) { result.put(dep, getModifiers(rd)); queue.addLast(dep); } } } } return result; } public String getModifiers(RequiresDirective rd) { StringBuilder modifiers = new StringBuilder(); String sep=""; if (rd.isTransitive()) { modifiers.append("transitive"); sep = " "; } if (rd.isStatic()) { modifiers.append(sep); modifiers.append("static"); } return (modifiers.length() == 0) ? " " : modifiers.toString(); } public long getLineNumber(Element e) { TreePath path = getTreePath(e); if (path == null) { // maybe null if synthesized TypeElement encl = getEnclosingTypeElement(e); path = getTreePath(encl); } CompilationUnitTree cu = path.getCompilationUnit(); LineMap lineMap = cu.getLineMap(); DocSourcePositions spos = docTrees.getSourcePositions(); long pos = spos.getStartPosition(cu, path.getLeaf()); return lineMap.getLineNumber(pos); } public List convertToExecutableElement(List list) { List out = new ArrayList<>(list.size()); for (Element e : list) { out.add((ExecutableElement)e); } return out; } public List convertToTypeElement(List list) { List out = new ArrayList<>(list.size()); for (Element e : list) { out.add((TypeElement)e); } return out; } public List convertToVariableElement(List list) { List out = new ArrayList<>(list.size()); for (Element e : list) { out.add((VariableElement) e); } return out; } public List getInterfaces(Element e) { return convertToTypeElement(getItems(e, true, INTERFACE)); } public List getInterfacesUnfiltered(Element e) { return convertToTypeElement(getItems(e, false, INTERFACE)); } public List getEnumConstants(Element e) { return getItems(e, true, ENUM_CONSTANT); } public List getEnums(Element e) { return convertToTypeElement(getItems(e, true, ENUM)); } public List getEnumsUnfiltered(Element e) { return convertToTypeElement(getItems(e, false, ENUM)); } public SortedSet getAllClassesUnfiltered(Element e) { List clist = getClassesUnfiltered(e); clist.addAll(getInterfacesUnfiltered(e)); clist.addAll(getAnnotationTypesUnfiltered(e)); clist.addAll(getRecordsUnfiltered(e)); SortedSet oset = new TreeSet<>(makeGeneralPurposeComparator()); oset.addAll(clist); return oset; } private final HashMap> cachedClasses = new HashMap<>(); /** * Returns a list containing classes and interfaces, * including annotation types. * @param e Element * @return List */ public SortedSet getAllClasses(Element e) { SortedSet oset = cachedClasses.get(e); if (oset != null) return oset; List clist = getClasses(e); clist.addAll(getInterfaces(e)); clist.addAll(getAnnotationTypes(e)); clist.addAll(getEnums(e)); clist.addAll(getRecords(e)); oset = new TreeSet<>(makeGeneralPurposeComparator()); oset.addAll(clist); cachedClasses.put(e, oset); return oset; } /* * Get all the elements unfiltered and filter them finally based * on its visibility, this works differently from the other getters. */ private List getInnerClasses(Element e, boolean filter) { List olist = new ArrayList<>(); for (TypeElement te : getClassesUnfiltered(e)) { if (!filter || configuration.docEnv.isSelected(te)) { olist.add(te); } } for (TypeElement te : getInterfacesUnfiltered(e)) { if (!filter || configuration.docEnv.isSelected(te)) { olist.add(te); } } for (TypeElement te : getAnnotationTypesUnfiltered(e)) { if (!filter || configuration.docEnv.isSelected(te)) { olist.add(te); } } for (TypeElement te : getEnumsUnfiltered(e)) { if (!filter || configuration.docEnv.isSelected(te)) { olist.add(te); } } return olist; } public List getInnerClasses(Element e) { return getInnerClasses(e, true); } public List getInnerClassesUnfiltered(Element e) { return getInnerClasses(e, false); } /** * Returns a list of classes that are not errors or exceptions * @param e Element * @return List */ public List getOrdinaryClasses(Element e) { return getClasses(e).stream() .filter(te -> (!isException(te) && !isError(te))) .collect(Collectors.toList()); } public List getErrors(Element e) { return getClasses(e) .stream() .filter(this::isError) .collect(Collectors.toList()); } public List getExceptions(Element e) { return getClasses(e) .stream() .filter(this::isException) .collect(Collectors.toList()); } @SuppressWarnings("preview") List getItems(Element e, boolean filter, ElementKind select) { List elements = new ArrayList<>(); return new SimpleElementVisitor14, Void>() { @Override public List visitPackage(PackageElement e, Void p) { recursiveGetItems(elements, e, filter, select); return elements; } @Override protected List defaultAction(Element e0, Void p) { return getItems0(e0, filter, select); } }.visit(e); } EnumSet nestedKinds = EnumSet.of(ANNOTATION_TYPE, CLASS, ENUM, INTERFACE); void recursiveGetItems(Collection list, Element e, boolean filter, ElementKind... select) { list.addAll(getItems0(e, filter, select)); List classes = getItems0(e, filter, nestedKinds); for (Element c : classes) { list.addAll(getItems0(c, filter, select)); if (isTypeElement(c)) { recursiveGetItems(list, c, filter, select); } } } private List getItems0(Element te, boolean filter, ElementKind... select) { EnumSet kinds = EnumSet.copyOf(Arrays.asList(select)); return getItems0(te, filter, kinds); } private List getItems0(Element te, boolean filter, Set kinds) { List elements = new ArrayList<>(); for (Element e : te.getEnclosedElements()) { if (kinds.contains(e.getKind())) { if (!filter || shouldDocument(e)) { elements.add(e); } } } return elements; } @SuppressWarnings("preview") private SimpleElementVisitor14 shouldDocumentVisitor = null; @SuppressWarnings("preview") public boolean shouldDocument(Element e) { if (shouldDocumentVisitor == null) { shouldDocumentVisitor = new SimpleElementVisitor14() { private boolean hasSource(TypeElement e) { return configuration.docEnv.getFileKind(e) == javax.tools.JavaFileObject.Kind.SOURCE; } // handle types @Override public Boolean visitType(TypeElement e, Void p) { // treat inner classes etc as members if (e.getNestingKind().isNested()) { return defaultAction(e, p); } return configuration.docEnv.isSelected(e) && hasSource(e); } // handle everything else @Override protected Boolean defaultAction(Element e, Void p) { return configuration.docEnv.isSelected(e); } @Override public Boolean visitUnknown(Element e, Void p) { throw new AssertionError("unknown element: " + e); } }; } return shouldDocumentVisitor.visit(e); } /* * nameCache is maintained for improving the comparator * performance, noting that the Collator used by the comparators * use Strings, as of this writing. * TODO: when those APIs handle charSequences, the use of * this nameCache must be re-investigated and removed. */ private final Map nameCache = new LinkedHashMap<>(); /** * Returns the name of the element after the last dot of the package name. * This emulates the behavior of the old doclet. * @param e an element whose name is required * @return the name */ public String getSimpleName(Element e) { return nameCache.computeIfAbsent(e, this::getSimpleName0); } @SuppressWarnings("preview") private SimpleElementVisitor14 snvisitor = null; @SuppressWarnings("preview") private String getSimpleName0(Element e) { if (snvisitor == null) { snvisitor = new SimpleElementVisitor14() { @Override public String visitModule(ModuleElement e, Void p) { return e.getQualifiedName().toString(); // temp fix for 8182736 } @Override public String visitType(TypeElement e, Void p) { StringBuilder sb = new StringBuilder(e.getSimpleName()); Element enclosed = e.getEnclosingElement(); while (enclosed != null && (enclosed.getKind().isClass() || enclosed.getKind().isInterface())) { sb.insert(0, enclosed.getSimpleName() + "."); enclosed = enclosed.getEnclosingElement(); } return sb.toString(); } @Override public String visitExecutable(ExecutableElement e, Void p) { if (e.getKind() == CONSTRUCTOR || e.getKind() == STATIC_INIT) { return e.getEnclosingElement().getSimpleName().toString(); } return e.getSimpleName().toString(); } @Override protected String defaultAction(Element e, Void p) { return e.getSimpleName().toString(); } }; } return snvisitor.visit(e); } public TypeElement getEnclosingTypeElement(Element e) { if (e.getKind() == ElementKind.PACKAGE) return null; Element encl = e.getEnclosingElement(); ElementKind kind = encl.getKind(); if (kind == ElementKind.PACKAGE) return null; while (!(kind.isClass() || kind.isInterface())) { encl = encl.getEnclosingElement(); kind = encl.getKind(); } return (TypeElement)encl; } private ConstantValueExpression cve = null; public String constantValueExpresion(VariableElement ve) { if (cve == null) cve = new ConstantValueExpression(); return cve.constantValueExpression(configuration.workArounds, ve); } private static class ConstantValueExpression { public String constantValueExpression(WorkArounds workArounds, VariableElement ve) { return new TypeKindVisitor9() { /* TODO: we need to fix this correctly. * we have a discrepancy here, note the use of getConstValue * vs. getConstantValue, at some point we need to use * getConstantValue. * In the legacy world byte and char primitives appear as Integer values, * thus a byte value of 127 will appear as 127, but in the new world, * a byte value appears as Byte thus 0x7f will be printed, similarly * chars will be translated to \n, \r etc. however, in the new world, * they will be printed as decimal values. The new world is correct, * and we should fix this by using getConstantValue and the visitor to * address this in the future. */ @Override public String visitPrimitiveAsBoolean(PrimitiveType t, Object val) { return (int)val == 0 ? "false" : "true"; } @Override public String visitPrimitiveAsDouble(PrimitiveType t, Object val) { return sourceForm(((Double)val), 'd'); } @Override public String visitPrimitiveAsFloat(PrimitiveType t, Object val) { return sourceForm(((Float)val).doubleValue(), 'f'); } @Override public String visitPrimitiveAsLong(PrimitiveType t, Object val) { return val + "L"; } @Override protected String defaultAction(TypeMirror e, Object val) { if (val == null) return null; else if (val instanceof Character) return sourceForm(((Character)val)); else if (val instanceof Byte) return sourceForm(((Byte)val)); else if (val instanceof String) return sourceForm((String)val); return val.toString(); // covers int, short } }.visit(ve.asType(), workArounds.getConstValue(ve)); } // where private String sourceForm(double v, char suffix) { if (Double.isNaN(v)) return "0" + suffix + "/0" + suffix; if (v == Double.POSITIVE_INFINITY) return "1" + suffix + "/0" + suffix; if (v == Double.NEGATIVE_INFINITY) return "-1" + suffix + "/0" + suffix; return v + (suffix == 'f' || suffix == 'F' ? "" + suffix : ""); } private String sourceForm(char c) { StringBuilder buf = new StringBuilder(8); buf.append('\''); sourceChar(c, buf); buf.append('\''); return buf.toString(); } private String sourceForm(byte c) { return "0x" + Integer.toString(c & 0xff, 16); } private String sourceForm(String s) { StringBuilder buf = new StringBuilder(s.length() + 5); buf.append('\"'); for (int i=0; i>12))); buf.append(chars.charAt(15 & (c>>8))); buf.append(chars.charAt(15 & (c>>4))); buf.append(chars.charAt(15 & (c>>0))); } private boolean isPrintableAscii(char c) { return c >= ' ' && c <= '~'; } } public boolean isEnclosingPackageIncluded(TypeElement te) { return isIncluded(containingPackage(te)); } public boolean isIncluded(Element e) { return configuration.docEnv.isIncluded(e); } @SuppressWarnings("preview") private SimpleElementVisitor14 specifiedVisitor = null; @SuppressWarnings("preview") public boolean isSpecified(Element e) { if (specifiedVisitor == null) { specifiedVisitor = new SimpleElementVisitor14() { @Override public Boolean visitModule(ModuleElement e, Void p) { return configuration.getSpecifiedModuleElements().contains(e); } @Override public Boolean visitPackage(PackageElement e, Void p) { return configuration.getSpecifiedPackageElements().contains(e); } @Override public Boolean visitType(TypeElement e, Void p) { return configuration.getSpecifiedTypeElements().contains(e); } @Override protected Boolean defaultAction(Element e, Void p) { return false; } }; } return specifiedVisitor.visit(e); } /** * Get the package name for a given package element. An unnamed package is returned as <Unnamed> * * @param pkg * @return */ public String getPackageName(PackageElement pkg) { if (pkg == null || pkg.isUnnamed()) { return DocletConstants.DEFAULT_PACKAGE_NAME; } return pkg.getQualifiedName().toString(); } /** * Get the module name for a given module element. An unnamed module is returned as <Unnamed> * * @param mdle a ModuleElement * @return */ public String getModuleName(ModuleElement mdle) { if (mdle == null || mdle.isUnnamed()) { return DocletConstants.DEFAULT_ELEMENT_NAME; } return mdle.getQualifiedName().toString(); } public boolean isAttribute(DocTree doctree) { return isKind(doctree, ATTRIBUTE); } public boolean isAuthor(DocTree doctree) { return isKind(doctree, AUTHOR); } public boolean isComment(DocTree doctree) { return isKind(doctree, COMMENT); } public boolean isDeprecated(DocTree doctree) { return isKind(doctree, DEPRECATED); } public boolean isDocComment(DocTree doctree) { return isKind(doctree, DOC_COMMENT); } public boolean isDocRoot(DocTree doctree) { return isKind(doctree, DOC_ROOT); } public boolean isEndElement(DocTree doctree) { return isKind(doctree, END_ELEMENT); } public boolean isEntity(DocTree doctree) { return isKind(doctree, ENTITY); } public boolean isErroneous(DocTree doctree) { return isKind(doctree, ERRONEOUS); } public boolean isException(DocTree doctree) { return isKind(doctree, EXCEPTION); } public boolean isIdentifier(DocTree doctree) { return isKind(doctree, IDENTIFIER); } public boolean isInheritDoc(DocTree doctree) { return isKind(doctree, INHERIT_DOC); } public boolean isLink(DocTree doctree) { return isKind(doctree, LINK); } public boolean isLinkPlain(DocTree doctree) { return isKind(doctree, LINK_PLAIN); } public boolean isLiteral(DocTree doctree) { return isKind(doctree, LITERAL); } public boolean isOther(DocTree doctree) { return doctree.getKind() == DocTree.Kind.OTHER; } public boolean isParam(DocTree doctree) { return isKind(doctree, PARAM); } public boolean isReference(DocTree doctree) { return isKind(doctree, REFERENCE); } public boolean isReturn(DocTree doctree) { return isKind(doctree, RETURN); } public boolean isSee(DocTree doctree) { return isKind(doctree, SEE); } public boolean isSerial(DocTree doctree) { return isKind(doctree, SERIAL); } public boolean isSerialData(DocTree doctree) { return isKind(doctree, SERIAL_DATA); } public boolean isSerialField(DocTree doctree) { return isKind(doctree, SERIAL_FIELD); } public boolean isSince(DocTree doctree) { return isKind(doctree, SINCE); } public boolean isStartElement(DocTree doctree) { return isKind(doctree, START_ELEMENT); } public boolean isText(DocTree doctree) { return isKind(doctree, TEXT); } public boolean isThrows(DocTree doctree) { return isKind(doctree, THROWS); } public boolean isUnknownBlockTag(DocTree doctree) { return isKind(doctree, UNKNOWN_BLOCK_TAG); } public boolean isUnknownInlineTag(DocTree doctree) { return isKind(doctree, UNKNOWN_INLINE_TAG); } public boolean isValue(DocTree doctree) { return isKind(doctree, VALUE); } public boolean isVersion(DocTree doctree) { return isKind(doctree, VERSION); } private boolean isKind(DocTree doctree, DocTree.Kind match) { return doctree.getKind() == match; } private final WeakSoftHashMap wksMap = new WeakSoftHashMap(this); public CommentHelper getCommentHelper(Element element) { return wksMap.computeIfAbsent(element); } public void removeCommentHelper(Element element) { wksMap.remove(element); } public List getBlockTags(Element element) { DocCommentTree dcTree = getDocCommentTree(element); return dcTree == null ? Collections.emptyList() : dcTree.getBlockTags(); } public List getBlockTags(Element element, Predicate filter) { return getBlockTags(element).stream() .filter(t -> t.getKind() != ERRONEOUS) .filter(filter) .collect(Collectors.toList()); } public List getBlockTags(Element element, DocTree.Kind kind) { return getBlockTags(element, t -> t.getKind() == kind); } public List getBlockTags(Element element, DocTree.Kind kind, DocTree.Kind altKind) { return getBlockTags(element, t -> t.getKind() == kind || t.getKind() == altKind); } public List getBlockTags(Element element, Taglet taglet) { return getBlockTags(element, t -> { if (taglet instanceof BaseTaglet) { return ((BaseTaglet) taglet).accepts(t); } else if (t instanceof UnknownBlockTagTree) { return ((UnknownBlockTagTree) t).getTagName().equals(taglet.getName()); } else { return false; } }); } public boolean hasBlockTag(Element element, DocTree.Kind kind) { return hasBlockTag(element, kind, null); } public boolean hasBlockTag(Element element, DocTree.Kind kind, final String tagName) { CommentHelper ch = getCommentHelper(element); String tname = tagName != null && tagName.startsWith("@") ? tagName.substring(1) : tagName; for (DocTree dt : getBlockTags(element, kind)) { if (dt.getKind() == kind) { if (tname == null || ch.getTagName(dt).equals(tname)) { return true; } } } return false; } /** * Gets a TreePath for an Element. Note this method is called very * frequently, care must be taken to ensure this method is lithe * and efficient. * @param e an Element * @return TreePath */ public TreePath getTreePath(Element e) { DocCommentDuo duo = dcTreeCache.get(e); if (duo != null && duo.treePath != null) { return duo.treePath; } duo = configuration.cmtUtils.getSyntheticCommentDuo(e); if (duo != null && duo.treePath != null) { return duo.treePath; } Map elementToTreePath = configuration.workArounds.getElementToTreePath(); TreePath path = elementToTreePath.get(e); if (path != null || elementToTreePath.containsKey(e)) { // expedite the path and one that is a null return path; } return elementToTreePath.computeIfAbsent(e, docTrees::getPath); } private final Map dcTreeCache = new LinkedHashMap<>(); /** * Retrieves the doc comments for a given element. * @param element * @return DocCommentTree for the Element */ public DocCommentTree getDocCommentTree0(Element element) { DocCommentDuo duo = null; ElementKind kind = element.getKind(); if (kind == ElementKind.PACKAGE || kind == ElementKind.OTHER) { duo = dcTreeCache.get(element); // local cache if (duo == null && kind == ElementKind.PACKAGE) { // package-info.java duo = getDocCommentTuple(element); } if (duo == null) { // package.html or overview.html duo = configuration.cmtUtils.getHtmlCommentDuo(element); // html source } } else { duo = configuration.cmtUtils.getSyntheticCommentDuo(element); if (duo == null) { duo = dcTreeCache.get(element); // local cache } if (duo == null) { duo = getDocCommentTuple(element); // get the real mccoy } } DocCommentTree docCommentTree = isValidDuo(duo) ? duo.dcTree : null; TreePath path = isValidDuo(duo) ? duo.treePath : null; if (!dcTreeCache.containsKey(element)) { if (docCommentTree != null && path != null) { if (!configuration.isAllowScriptInComments()) { try { javaScriptScanner.scan(docCommentTree, path, p -> { throw new JavaScriptScanner.Fault(); }); } catch (JavaScriptScanner.Fault jsf) { String text = resources.getText("doclet.JavaScript_in_comment"); throw new UncheckedDocletException(new SimpleDocletException(text, jsf)); } } configuration.workArounds.runDocLint(path); } dcTreeCache.put(element, duo); } return docCommentTree; } private DocCommentDuo getDocCommentTuple(Element element) { // prevent nasty things downstream with overview element if (element.getKind() != ElementKind.OTHER) { TreePath path = getTreePath(element); if (path != null) { DocCommentTree docCommentTree = docTrees.getDocCommentTree(path); return new DocCommentDuo(path, docCommentTree); } } return null; } public void checkJavaScriptInOption(String name, String value) { if (!configuration.isAllowScriptInComments()) { DocCommentTree dct = configuration.cmtUtils.parse( URI.create("option://" + name.replace("-", "")), "" + value + ""); if (dct == null) return; try { javaScriptScanner.scan(dct, null, p -> { throw new JavaScriptScanner.Fault(); }); } catch (JavaScriptScanner.Fault jsf) { String text = resources.getText("doclet.JavaScript_in_option", name); throw new UncheckedDocletException(new SimpleDocletException(text, jsf)); } } } boolean isValidDuo(DocCommentDuo duo) { return duo != null && duo.dcTree != null; } public DocCommentTree getDocCommentTree(Element element) { CommentHelper ch = wksMap.get(element); if (ch != null) { return ch.dctree; } DocCommentTree dcTree = getDocCommentTree0(element); if (dcTree != null) { wksMap.put(element, new CommentHelper(configuration, element, getTreePath(element), dcTree)); } return dcTree; } public List getPreamble(Element element) { DocCommentTree docCommentTree = getDocCommentTree(element); return docCommentTree == null ? Collections.emptyList() : docCommentTree.getPreamble(); } public List getFullBody(Element element) { DocCommentTree docCommentTree = getDocCommentTree(element); return (docCommentTree == null) ? Collections.emptyList() : docCommentTree.getFullBody(); } public List getBody(Element element) { DocCommentTree docCommentTree = getDocCommentTree(element); return (docCommentTree == null) ? Collections.emptyList() : docCommentTree.getFullBody(); } public List getDeprecatedTrees(Element element) { return getBlockTags(element, DEPRECATED); } public List getProvidesTrees(Element element) { return getBlockTags(element, PROVIDES); } public List getSeeTrees(Element element) { return getBlockTags(element, SEE); } public List getSerialTrees(Element element) { return getBlockTags(element, SERIAL); } public List getSerialFieldTrees(VariableElement field) { return getBlockTags(field, DocTree.Kind.SERIAL_FIELD); } public List getThrowsTrees(Element element) { return getBlockTags(element, DocTree.Kind.EXCEPTION, DocTree.Kind.THROWS); } public List getTypeParamTrees(Element element) { return getParamTrees(element, true); } public List getParamTrees(Element element) { return getParamTrees(element, false); } private List getParamTrees(Element element, boolean isTypeParameters) { List out = new ArrayList<>(); for (DocTree dt : getBlockTags(element, PARAM)) { ParamTree pt = (ParamTree) dt; if (pt.isTypeParameter() == isTypeParameters) { out.add(pt); } } return out; } public List getReturnTrees(Element element) { List out = new ArrayList<>(); for (DocTree dt : getBlockTags(element, RETURN)) { out.add(dt); } return out; } public List getUsesTrees(Element element) { return getBlockTags(element, USES); } public List getFirstSentenceTrees(Element element) { DocCommentTree dcTree = getDocCommentTree(element); if (dcTree == null) { return Collections.emptyList(); } List out = new ArrayList<>(); for (DocTree dt : dcTree.getFirstSentence()) { out.add(dt); } return out; } public ModuleElement containingModule(Element e) { return elementUtils.getModuleOf(e); } public PackageElement containingPackage(Element e) { return elementUtils.getPackageOf(e); } public TypeElement getTopMostContainingTypeElement(Element e) { if (isPackage(e)) { return null; } TypeElement outer = getEnclosingTypeElement(e); if (outer == null) return (TypeElement)e; while (outer != null && outer.getNestingKind().isNested()) { outer = getEnclosingTypeElement(outer); } return outer; } static class WeakSoftHashMap implements Map { private final WeakHashMap> wkMap; private final Utils utils; public WeakSoftHashMap(Utils utils) { wkMap = new WeakHashMap<>(); this.utils = utils; } @Override public boolean containsKey(Object key) { return wkMap.containsKey(key); } @Override public Collection values() { Set out = new LinkedHashSet<>(); for (SoftReference v : wkMap.values()) { out.add(v.get()); } return out; } @Override public boolean containsValue(Object value) { return wkMap.containsValue(new SoftReference<>((CommentHelper)value)); } @Override public CommentHelper remove(Object key) { SoftReference value = wkMap.remove(key); return value == null ? null : value.get(); } @Override public CommentHelper put(Element key, CommentHelper value) { SoftReference nvalue = wkMap.put(key, new SoftReference<>(value)); return nvalue == null ? null : nvalue.get(); } @Override public CommentHelper get(Object key) { SoftReference value = wkMap.get(key); return value == null ? null : value.get(); } @Override public int size() { return wkMap.size(); } @Override public boolean isEmpty() { return wkMap.isEmpty(); } @Override public void clear() { wkMap.clear(); } public CommentHelper computeIfAbsent(Element key) { if (wkMap.containsKey(key)) { SoftReference value = wkMap.get(key); if (value != null) { CommentHelper cvalue = value.get(); if (cvalue != null) { return cvalue; } } } CommentHelper newValue = new CommentHelper(utils.configuration, key, utils.getTreePath(key), utils.getDocCommentTree(key)); wkMap.put(key, new SoftReference<>(newValue)); return newValue; } @Override public void putAll(Map map) { for (Map.Entry entry : map.entrySet()) { put(entry.getKey(), entry.getValue()); } } @Override public Set keySet() { return wkMap.keySet(); } @Override public Set> entrySet() { Set> out = new LinkedHashSet<>(); for (Element e : wkMap.keySet()) { SimpleEntry n = new SimpleEntry<>(e, get(e)); out.add(n); } return out; } } /** * A simple pair container. * @param first a value * @param second another value */ public static class Pair { public final K first; public final L second; public Pair(K first, L second) { this.first = first; this.second = second; } public String toString() { StringBuffer out = new StringBuffer(); out.append(first + ":" + second); return out.toString(); } } }