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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* 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
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*
* 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.
*
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package jdk.javadoc.internal.doclets.toolkit;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.SortedSet;
import java.util.TreeSet;
import javax.lang.model.element.AnnotationMirror;
import javax.lang.model.element.Element;
import javax.lang.model.element.ExecutableElement;
import javax.lang.model.element.ModuleElement;
import javax.lang.model.element.PackageElement;
import javax.lang.model.element.TypeElement;
import javax.lang.model.element.VariableElement;
import javax.lang.model.type.TypeMirror;
import javax.lang.model.util.Elements;
import javax.tools.FileObject;
import javax.tools.JavaFileManager.Location;
import com.sun.source.tree.CompilationUnitTree;
import com.sun.source.util.JavacTask;
import com.sun.source.util.TreePath;
import com.sun.tools.doclint.DocLint;
import com.sun.tools.javac.api.BasicJavacTask;
import com.sun.tools.javac.code.Attribute;
import com.sun.tools.javac.code.Flags;
import com.sun.tools.javac.code.Scope;
import com.sun.tools.javac.code.Source.Feature;
import com.sun.tools.javac.code.Symbol;
import com.sun.tools.javac.code.Symbol.ClassSymbol;
import com.sun.tools.javac.code.Symbol.MethodSymbol;
import com.sun.tools.javac.code.Symbol.ModuleSymbol;
import com.sun.tools.javac.code.Symbol.PackageSymbol;
import com.sun.tools.javac.code.Symbol.VarSymbol;
import com.sun.tools.javac.code.TypeTag;
import com.sun.tools.javac.comp.AttrContext;
import com.sun.tools.javac.comp.Env;
import com.sun.tools.javac.model.JavacElements;
import com.sun.tools.javac.model.JavacTypes;
import com.sun.tools.javac.util.Names;
import jdk.javadoc.internal.doclets.toolkit.util.Utils;
import jdk.javadoc.internal.tool.ToolEnvironment;
import jdk.javadoc.internal.tool.DocEnvImpl;
import static com.sun.tools.javac.code.Kinds.Kind.*;
import static com.sun.tools.javac.code.Scope.LookupKind.NON_RECURSIVE;
import static javax.lang.model.element.ElementKind.*;
/**
* A quarantine class to isolate all the workarounds and bridges to
* a locality. This class should eventually disappear once all the
* standard APIs support the needed interfaces.
*
*
* <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>
*/
public class WorkArounds {
public final BaseConfiguration configuration;
public final ToolEnvironment toolEnv;
public final Utils utils;
private DocLint doclint;
public WorkArounds(BaseConfiguration configuration) {
this.configuration = configuration;
this.utils = this.configuration.utils;
this.toolEnv = ((DocEnvImpl)this.configuration.docEnv).toolEnv;
}
Map<CompilationUnitTree, Boolean> shouldCheck = new HashMap<>();
// TODO: fix this up correctly
public void runDocLint(TreePath path) {
CompilationUnitTree unit = path.getCompilationUnit();
if (doclint != null && shouldCheck.computeIfAbsent(unit, doclint::shouldCheck)) {
doclint.scan(path);
}
}
// TODO: fix this up correctly
public void initDocLint(Collection<String> opts, Collection<String> customTagNames) {
ArrayList<String> doclintOpts = new ArrayList<>();
boolean msgOptionSeen = false;
for (String opt : opts) {
if (opt.startsWith(DocLint.XMSGS_OPTION)) {
if (opt.equals(DocLint.XMSGS_CUSTOM_PREFIX + "none"))
return;
msgOptionSeen = true;
}
doclintOpts.add(opt);
}
if (!msgOptionSeen) {
doclintOpts.add(DocLint.XMSGS_OPTION);
}
String sep = "";
StringBuilder customTags = new StringBuilder();
for (String customTag : customTagNames) {
customTags.append(sep);
customTags.append(customTag);
sep = DocLint.SEPARATOR;
}
doclintOpts.add(DocLint.XCUSTOM_TAGS_PREFIX + customTags.toString());
doclintOpts.add(DocLint.XHTML_VERSION_PREFIX + "html5");
JavacTask t = BasicJavacTask.instance(toolEnv.context);
doclint = new DocLint();
doclint.init(t, doclintOpts.toArray(new String[doclintOpts.size()]), false);
}
// TODO: fix this up correctly
public boolean haveDocLint() {
return (doclint == null);
}
/*
* TODO: This method exists because of a bug in javac which does not
* handle "@deprecated tag in package-info.java", when this issue
* is fixed this method and its uses must be jettisoned.
*/
public boolean isDeprecated0(Element e) {
if (!utils.getDeprecatedTrees(e).isEmpty()) {
return true;
}
JavacTypes jctypes = ((DocEnvImpl)configuration.docEnv).toolEnv.typeutils;
TypeMirror deprecatedType = utils.getDeprecatedType();
for (AnnotationMirror anno : e.getAnnotationMirrors()) {
if (jctypes.isSameType(anno.getAnnotationType().asElement().asType(), deprecatedType))
return true;
}
return false;
}
// TODO: fix jx.l.m add this method.
public boolean isSynthesized(AnnotationMirror aDesc) {
return ((Attribute)aDesc).isSynthesized();
}
// TODO: fix the caller
public Object getConstValue(VariableElement ve) {
return ((VarSymbol)ve).getConstValue();
}
// TODO: DocTrees: Trees.getPath(Element e) is slow a factor 4-5 times.
public Map<Element, TreePath> getElementToTreePath() {
return toolEnv.elementToTreePath;
}
// TODO: we need ElementUtils.getPackage to cope with input strings
// to return the proper unnamedPackage for all supported releases.
PackageElement getUnnamedPackage() {
return (Feature.MODULES.allowedInSource(toolEnv.source))
? toolEnv.syms.unnamedModule.unnamedPackage
: toolEnv.syms.noModule.unnamedPackage;
}
// TODO: implement in either jx.l.m API (preferred) or DocletEnvironment.
FileObject getJavaFileObject(PackageElement packageElement) {
return ((PackageSymbol)packageElement).sourcefile;
}
// TODO: needs to ported to jx.l.m.
public TypeElement searchClass(TypeElement klass, String className) {
TypeElement te;
// search by qualified name in current module first
ModuleElement me = utils.containingModule(klass);
if (me != null) {
te = configuration.docEnv.getElementUtils().getTypeElement(me, className);
if (te != null) {
return te;
}
}
// search inner classes
for (TypeElement ite : utils.getClasses(klass)) {
TypeElement innerClass = searchClass(ite, className);
if (innerClass != null) {
return innerClass;
}
}
// check in this package
te = utils.findClassInPackageElement(utils.containingPackage(klass), className);
if (te != null) {
return te;
}
ClassSymbol tsym = (ClassSymbol)klass;
// make sure that this symbol has been completed
// TODO: do we need this anymore ?
if (tsym.completer != null) {
tsym.complete();
}
// search imports
if (tsym.sourcefile != null) {
//### This information is available only for source classes.
Env<AttrContext> compenv = toolEnv.getEnv(tsym);
if (compenv == null) {
return null;
}
Names names = tsym.name.table.names;
Scope s = compenv.toplevel.namedImportScope;
for (Symbol sym : s.getSymbolsByName(names.fromString(className))) {
if (sym.kind == TYP) {
return (TypeElement)sym;
}
}
s = compenv.toplevel.starImportScope;
for (Symbol sym : s.getSymbolsByName(names.fromString(className))) {
if (sym.kind == TYP) {
return (TypeElement)sym;
}
}
}
// finally, search by qualified name in all modules
te = configuration.docEnv.getElementUtils().getTypeElement(className);
if (te != null) {
return te;
}
return null; // not found
}
// TODO: need to re-implement this using j.l.m. correctly!, this has
// implications on testInterface, the note here is that javac's supertype
// does the right thing returning Parameters in scope.
/**
* Return the type containing the method that this method overrides.
* It may be a <code>TypeElement</code> or a <code>TypeParameterElement</code>.
* @param method target
* @return a type
*/
public TypeMirror overriddenType(ExecutableElement method) {
if (utils.isStatic(method)) {
return null;
}
MethodSymbol sym = (MethodSymbol)method;
ClassSymbol origin = (ClassSymbol) sym.owner;
for (com.sun.tools.javac.code.Type t = toolEnv.getTypes().supertype(origin.type);
t.hasTag(TypeTag.CLASS);
t = toolEnv.getTypes().supertype(t)) {
ClassSymbol c = (ClassSymbol) t.tsym;
for (com.sun.tools.javac.code.Symbol sym2 : c.members().getSymbolsByName(sym.name)) {
if (sym.overrides(sym2, origin, toolEnv.getTypes(), true)) {
// Ignore those methods that may be a simple override
// and allow the real API method to be found.
if (sym2.type.hasTag(TypeTag.METHOD) &&
utils.isSimpleOverride((MethodSymbol)sym2)) {
continue;
}
return t;
}
}
}
return null;
}
// TODO: the method jx.l.m.Elements::overrides does not check
// the return type, see JDK-8174840 until that is resolved,
// use a copy of the same method, with a return type check.
// Note: the rider.overrides call in this method *must* be consistent
// with the call in overrideType(....), the method above.
public boolean overrides(ExecutableElement e1, ExecutableElement e2, TypeElement cls) {
MethodSymbol rider = (MethodSymbol)e1;
MethodSymbol ridee = (MethodSymbol)e2;
ClassSymbol origin = (ClassSymbol)cls;
return rider.name == ridee.name &&
// not reflexive as per JLS
rider != ridee &&
// we don't care if ridee is static, though that wouldn't
// compile
!rider.isStatic() &&
// Symbol.overrides assumes the following
ridee.isMemberOf(origin, toolEnv.getTypes()) &&
// check access, signatures and check return types
rider.overrides(ridee, origin, toolEnv.getTypes(), true);
}
// TODO: jx.l.m ?
public Location getLocationForModule(ModuleElement mdle) {
ModuleSymbol msym = (ModuleSymbol)mdle;
return msym.sourceLocation != null
? msym.sourceLocation
: msym.classLocation;
}
//------------------Start of Serializable Implementation---------------------//
private final Map<TypeElement, NewSerializedForm> serializedForms = new HashMap<>();
private NewSerializedForm getSerializedForm(TypeElement typeElem) {
return serializedForms.computeIfAbsent(typeElem,
te -> new NewSerializedForm(utils, configuration.docEnv.getElementUtils(), te));
}
public SortedSet<VariableElement> getSerializableFields(TypeElement typeElem) {
return getSerializedForm(typeElem).fields;
}
public SortedSet<ExecutableElement> getSerializationMethods(TypeElement typeElem) {
return getSerializedForm(typeElem).methods;
}
public boolean definesSerializableFields(TypeElement typeElem) {
if (!utils.isSerializable(typeElem) || utils.isExternalizable(typeElem)) {
return false;
} else {
return getSerializedForm(typeElem).definesSerializableFields;
}
}
/* TODO we need a clean port to jx.l.m
* The serialized form is the specification of a class' serialization state.
* <p>
*
* It consists of the following information:
* <p>
*
* <pre>
* 1. Whether class is Serializable or Externalizable.
* 2. Javadoc for serialization methods.
* a. For Serializable, the optional readObject, writeObject,
* readResolve and writeReplace.
* serialData tag describes, in prose, the sequence and type
* of optional data written by writeObject.
* b. For Externalizable, writeExternal and readExternal.
* serialData tag describes, in prose, the sequence and type
* of optional data written by writeExternal.
* 3. Javadoc for serialization data layout.
* a. For Serializable, the name,type and description
* of each Serializable fields.
* b. For Externalizable, data layout is described by 2(b).
* </pre>
*
*/
static class NewSerializedForm {
final Utils utils;
final Elements elements;
final SortedSet<ExecutableElement> methods;
/* List of FieldDocImpl - Serializable fields.
* Singleton list if class defines Serializable fields explicitly.
* Otherwise, list of default serializable fields.
* 0 length list for Externalizable.
*/
final SortedSet<VariableElement> fields;
/* True if class specifies serializable fields explicitly.
* using special static member, serialPersistentFields.
*/
boolean definesSerializableFields = false;
// Specially treated field/method names defined by Serialization.
private static final String SERIALIZABLE_FIELDS = "serialPersistentFields";
private static final String READOBJECT = "readObject";
private static final String WRITEOBJECT = "writeObject";
private static final String READRESOLVE = "readResolve";
private static final String WRITEREPLACE = "writeReplace";
private static final String READOBJECTNODATA = "readObjectNoData";
NewSerializedForm(Utils utils, Elements elements, TypeElement te) {
this.utils = utils;
this.elements = elements;
methods = new TreeSet<>(utils.makeGeneralPurposeComparator());
fields = new TreeSet<>(utils.makeGeneralPurposeComparator());
if (utils.isExternalizable(te)) {
/* look up required public accessible methods,
* writeExternal and readExternal.
*/
String[] readExternalParamArr = {"java.io.ObjectInput"};
String[] writeExternalParamArr = {"java.io.ObjectOutput"};
ExecutableElement md = findMethod(te, "readExternal", Arrays.asList(readExternalParamArr));
if (md != null) {
methods.add(md);
}
md = findMethod((ClassSymbol) te, "writeExternal", Arrays.asList(writeExternalParamArr));
if (md != null) {
methods.add(md);
}
} else if (utils.isSerializable(te)) {
VarSymbol dsf = getDefinedSerializableFields((ClassSymbol) te);
if (dsf != null) {
/* Define serializable fields with array of ObjectStreamField.
* Each ObjectStreamField should be documented by a
* serialField tag.
*/
definesSerializableFields = true;
fields.add((VariableElement) dsf);
} else {
/* Calculate default Serializable fields as all
* non-transient, non-static fields.
* Fields should be documented by serial tag.
*/
computeDefaultSerializableFields((ClassSymbol) te);
}
/* Check for optional customized readObject, writeObject,
* readResolve and writeReplace, which can all contain
* the serialData tag. */
addMethodIfExist((ClassSymbol) te, READOBJECT);
addMethodIfExist((ClassSymbol) te, WRITEOBJECT);
addMethodIfExist((ClassSymbol) te, READRESOLVE);
addMethodIfExist((ClassSymbol) te, WRITEREPLACE);
addMethodIfExist((ClassSymbol) te, READOBJECTNODATA);
}
}
private VarSymbol getDefinedSerializableFields(ClassSymbol def) {
Names names = def.name.table.names;
/* SERIALIZABLE_FIELDS can be private,
*/
for (Symbol sym : def.members().getSymbolsByName(names.fromString(SERIALIZABLE_FIELDS))) {
if (sym.kind == VAR) {
VarSymbol f = (VarSymbol) sym;
if ((f.flags() & Flags.STATIC) != 0
&& (f.flags() & Flags.PRIVATE) != 0) {
return f;
}
}
}
return null;
}
/*
* Catalog Serializable method if it exists in current ClassSymbol.
* Do not look for method in superclasses.
*
* Serialization requires these methods to be non-static.
*
* @param method should be an unqualified Serializable method
* name either READOBJECT, WRITEOBJECT, READRESOLVE
* or WRITEREPLACE.
* @param visibility the visibility flag for the given method.
*/
private void addMethodIfExist(ClassSymbol def, String methodName) {
Names names = def.name.table.names;
for (Symbol sym : def.members().getSymbolsByName(names.fromString(methodName))) {
if (sym.kind == MTH) {
MethodSymbol md = (MethodSymbol) sym;
if ((md.flags() & Flags.STATIC) == 0) {
/*
* WARNING: not robust if unqualifiedMethodName is overloaded
* method. Signature checking could make more robust.
* READOBJECT takes a single parameter, java.io.ObjectInputStream.
* WRITEOBJECT takes a single parameter, java.io.ObjectOutputStream.
*/
methods.add(md);
}
}
}
}
/*
* Compute default Serializable fields from all members of ClassSymbol.
*
* must walk over all members of ClassSymbol.
*/
private void computeDefaultSerializableFields(ClassSymbol te) {
for (Symbol sym : te.members().getSymbols(NON_RECURSIVE)) {
if (sym != null && sym.kind == VAR) {
VarSymbol f = (VarSymbol) sym;
if ((f.flags() & Flags.STATIC) == 0
&& (f.flags() & Flags.TRANSIENT) == 0) {
//### No modifier filtering applied here.
//### Add to beginning.
//### Preserve order used by old 'javadoc'.
fields.add(f);
}
}
}
}
/**
* Find a method in this class scope. Search order: this class, interfaces, superclasses,
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