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src/share/classes/com/sun/tools/javadoc/ClassDocImpl.java@bfec2a1cc869 (annotated)

src/share/classes/com/sun/tools/javadoc/ClassDocImpl.java

Thu, 15 Nov 2012 09:18:36 -0800

author

jjg

date

Thu, 15 Nov 2012 09:18:36 -0800

changeset 1410

bfec2a1cc869

parent 1374

c002fdee76fd

child 1443

cfde9737131e

permissions

-rw-r--r--

8000800: javadoc uses static non-final fields
Reviewed-by: bpatel

duke@1	1	/*
jjg@1357	2	* Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved.
duke@1	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@1	4	*
duke@1	5	* This code is free software; you can redistribute it and/or modify it
duke@1	6	* under the terms of the GNU General Public License version 2 only, as
ohair@554	7	* published by the Free Software Foundation. Oracle designates this
duke@1	8	* particular file as subject to the "Classpath" exception as provided
ohair@554	9	* by Oracle in the LICENSE file that accompanied this code.
duke@1	10	*
duke@1	11	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@1	12	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@1	13	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@1	14	* version 2 for more details (a copy is included in the LICENSE file that
duke@1	15	* accompanied this code).
duke@1	16	*
duke@1	17	* You should have received a copy of the GNU General Public License version
duke@1	18	* 2 along with this work; if not, write to the Free Software Foundation,
duke@1	19	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@1	20	*
ohair@554	21	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
ohair@554	22	* or visit www.oracle.com if you need additional information or have any
ohair@554	23	* questions.
duke@1	24	*/
duke@1	25
duke@1	26	package com.sun.tools.javadoc;
duke@1	27
jjg@197	28	import java.io.File;
jjg@197	29	import java.io.IOException;
jjg@197	30	import java.lang.reflect.Modifier;
jjg@197	31	import java.net.URI;
jjg@197	32	import java.util.HashSet;
jjg@197	33	import java.util.Set;
jjg@197	34	import javax.tools.FileObject;
jjg@197	35	import javax.tools.JavaFileManager.Location;
jjg@197	36	import javax.tools.StandardJavaFileManager;
jjg@197	37	import javax.tools.StandardLocation;
jjg@197	38
duke@1	39	import com.sun.javadoc.*;
duke@1	40
duke@1	41	import com.sun.tools.javac.code.Flags;
duke@1	42	import com.sun.tools.javac.code.Kinds;
duke@1	43	import com.sun.tools.javac.code.Scope;
duke@1	44	import com.sun.tools.javac.code.Symbol;
duke@1	45	import com.sun.tools.javac.code.Symbol.*;
jjg@197	46	import com.sun.tools.javac.code.Type;
jjg@197	47	import com.sun.tools.javac.code.Type.ClassType;
duke@1	48
duke@1	49	import com.sun.tools.javac.comp.AttrContext;
duke@1	50	import com.sun.tools.javac.comp.Env;
duke@1	51
duke@1	52	import com.sun.tools.javac.tree.JCTree;
jjg@197	53	import com.sun.tools.javac.tree.JCTree.JCClassDecl;
duke@1	54	import com.sun.tools.javac.tree.JCTree.JCFieldAccess;
duke@1	55	import com.sun.tools.javac.tree.JCTree.JCImport;
duke@1	56	import com.sun.tools.javac.tree.TreeInfo;
duke@1	57
jjg@197	58	import com.sun.tools.javac.util.List;
jjg@197	59	import com.sun.tools.javac.util.ListBuffer;
jjg@197	60	import com.sun.tools.javac.util.Name;
jjg@113	61	import com.sun.tools.javac.util.Names;
jjg@197	62	import com.sun.tools.javac.util.Position;
jjg@197	63
duke@1	64	import static com.sun.tools.javac.code.Kinds.*;
jjg@1374	65	import static com.sun.tools.javac.code.TypeTag.CLASS;
jjg@1127	66	import static com.sun.tools.javac.tree.JCTree.Tag.*;
duke@1	67
duke@1	68	/**
duke@1	69	* Represents a java class and provides access to information
duke@1	70	* about the class, the class' comment and tags, and the
duke@1	71	* members of the class. A ClassDocImpl only exists if it was
duke@1	72	* processed in this run of javadoc. References to classes
duke@1	73	* which may or may not have been processed in this run are
duke@1	74	* referred to using Type (which can be converted to ClassDocImpl,
duke@1	75	* if possible).
duke@1	76	*
jjg@1359	77	* <p><b>This is NOT part of any supported API.
jjg@1359	78	* If you write code that depends on this, you do so at your own risk.
jjg@1359	79	* This code and its internal interfaces are subject to change or
jjg@1359	80	* deletion without notice.</b>
jjg@1359	81	*
duke@1	82	* @see Type
duke@1	83	*
duke@1	84	* @since 1.2
duke@1	85	* @author Robert Field
duke@1	86	* @author Neal Gafter (rewrite)
duke@1	87	* @author Scott Seligman (generics, enums, annotations)
duke@1	88	*/
duke@1	89
duke@1	90	public class ClassDocImpl extends ProgramElementDocImpl implements ClassDoc {
duke@1	91
duke@1	92	public final ClassType type; // protected->public for debugging
duke@1	93	protected final ClassSymbol tsym;
duke@1	94
duke@1	95	boolean isIncluded = false; // Set in RootDocImpl
duke@1	96
duke@1	97	private SerializedForm serializedForm;
duke@1	98
duke@1	99	/**
duke@1	100	* Constructor
duke@1	101	*/
duke@1	102	public ClassDocImpl(DocEnv env, ClassSymbol sym) {
duke@1	103	this(env, sym, null, null, null);
duke@1	104	}
duke@1	105
duke@1	106	/**
duke@1	107	* Constructor
duke@1	108	*/
duke@1	109	public ClassDocImpl(DocEnv env, ClassSymbol sym, String documentation,
duke@1	110	JCClassDecl tree, Position.LineMap lineMap) {
duke@1	111	super(env, sym, documentation, tree, lineMap);
duke@1	112	this.type = (ClassType)sym.type;
duke@1	113	this.tsym = sym;
duke@1	114	}
duke@1	115
duke@1	116	/**
duke@1	117	* Returns the flags in terms of javac's flags
duke@1	118	*/
duke@1	119	protected long getFlags() {
duke@1	120	return getFlags(tsym);
duke@1	121	}
duke@1	122
duke@1	123	/**
duke@1	124	* Returns the flags of a ClassSymbol in terms of javac's flags
duke@1	125	*/
duke@1	126	static long getFlags(ClassSymbol clazz) {
duke@1	127	while (true) {
duke@1	128	try {
duke@1	129	return clazz.flags();
duke@1	130	} catch (CompletionFailure ex) {
duke@1	131	// quietly ignore completion failures
duke@1	132	}
duke@1	133	}
duke@1	134	}
duke@1	135
duke@1	136	/**
duke@1	137	* Is a ClassSymbol an annotation type?
duke@1	138	*/
duke@1	139	static boolean isAnnotationType(ClassSymbol clazz) {
duke@1	140	return (getFlags(clazz) & Flags.ANNOTATION) != 0;
duke@1	141	}
duke@1	142
duke@1	143	/**
duke@1	144	* Identify the containing class
duke@1	145	*/
duke@1	146	protected ClassSymbol getContainingClass() {
duke@1	147	return tsym.owner.enclClass();
duke@1	148	}
duke@1	149
duke@1	150	/**
duke@1	151	* Return true if this is a class, not an interface.
duke@1	152	*/
jjg@910	153	@Override
duke@1	154	public boolean isClass() {
duke@1	155	return !Modifier.isInterface(getModifiers());
duke@1	156	}
duke@1	157
duke@1	158	/**
duke@1	159	* Return true if this is a ordinary class,
duke@1	160	* not an enumeration, exception, an error, or an interface.
duke@1	161	*/
jjg@910	162	@Override
duke@1	163	public boolean isOrdinaryClass() {
duke@1	164	if (isEnum() || isInterface() || isAnnotationType()) {
duke@1	165	return false;
duke@1	166	}
jjg@1374	167	for (Type t = type; t.hasTag(CLASS); t = env.types.supertype(t)) {
duke@1	168	if (t.tsym == env.syms.errorType.tsym ||
duke@1	169	t.tsym == env.syms.exceptionType.tsym) {
duke@1	170	return false;
duke@1	171	}
duke@1	172	}
duke@1	173	return true;
duke@1	174	}
duke@1	175
duke@1	176	/**
duke@1	177	* Return true if this is an enumeration.
duke@1	178	* (For legacy doclets, return false.)
duke@1	179	*/
jjg@910	180	@Override
duke@1	181	public boolean isEnum() {
duke@1	182	return (getFlags() & Flags.ENUM) != 0
duke@1	183	&&
duke@1	184	!env.legacyDoclet;
duke@1	185	}
duke@1	186
duke@1	187	/**
duke@1	188	* Return true if this is an interface, but not an annotation type.
duke@1	189	* Overridden by AnnotationTypeDocImpl.
duke@1	190	*/
jjg@910	191	@Override
duke@1	192	public boolean isInterface() {
duke@1	193	return Modifier.isInterface(getModifiers());
duke@1	194	}
duke@1	195
duke@1	196	/**
duke@1	197	* Return true if this is an exception class
duke@1	198	*/
jjg@910	199	@Override
duke@1	200	public boolean isException() {
duke@1	201	if (isEnum() || isInterface() || isAnnotationType()) {
duke@1	202	return false;
duke@1	203	}
jjg@1374	204	for (Type t = type; t.hasTag(CLASS); t = env.types.supertype(t)) {
duke@1	205	if (t.tsym == env.syms.exceptionType.tsym) {
duke@1	206	return true;
duke@1	207	}
duke@1	208	}
duke@1	209	return false;
duke@1	210	}
duke@1	211
duke@1	212	/**
duke@1	213	* Return true if this is an error class
duke@1	214	*/
jjg@910	215	@Override
duke@1	216	public boolean isError() {
duke@1	217	if (isEnum() || isInterface() || isAnnotationType()) {
duke@1	218	return false;
duke@1	219	}
jjg@1374	220	for (Type t = type; t.hasTag(CLASS); t = env.types.supertype(t)) {
duke@1	221	if (t.tsym == env.syms.errorType.tsym) {
duke@1	222	return true;
duke@1	223	}
duke@1	224	}
duke@1	225	return false;
duke@1	226	}
duke@1	227
duke@1	228	/**
duke@1	229	* Return true if this is a throwable class
duke@1	230	*/
duke@1	231	public boolean isThrowable() {
duke@1	232	if (isEnum() || isInterface() || isAnnotationType()) {
duke@1	233	return false;
duke@1	234	}
jjg@1374	235	for (Type t = type; t.hasTag(CLASS); t = env.types.supertype(t)) {
duke@1	236	if (t.tsym == env.syms.throwableType.tsym) {
duke@1	237	return true;
duke@1	238	}
duke@1	239	}
duke@1	240	return false;
duke@1	241	}
duke@1	242
duke@1	243	/**
duke@1	244	* Return true if this class is abstract
duke@1	245	*/
duke@1	246	public boolean isAbstract() {
duke@1	247	return Modifier.isAbstract(getModifiers());
duke@1	248	}
duke@1	249
duke@1	250	/**
duke@1	251	* Returns true if this class was synthesized by the compiler.
duke@1	252	*/
duke@1	253	public boolean isSynthetic() {
duke@1	254	return (getFlags() & Flags.SYNTHETIC) != 0;
duke@1	255	}
duke@1	256
duke@1	257	/**
duke@1	258	* Return true if this class is included in the active set.
duke@1	259	* A ClassDoc is included iff either it is specified on the
duke@1	260	* commandline, or if it's containing package is specified
duke@1	261	* on the command line, or if it is a member class of an
duke@1	262	* included class.
duke@1	263	*/
duke@1	264
duke@1	265	public boolean isIncluded() {
duke@1	266	if (isIncluded) {
duke@1	267	return true;
duke@1	268	}
duke@1	269	if (env.shouldDocument(tsym)) {
duke@1	270	// Class is nameable from top-level and
duke@1	271	// the class and all enclosing classes
duke@1	272	// pass the modifier filter.
duke@1	273	if (containingPackage().isIncluded()) {
duke@1	274	return isIncluded=true;
duke@1	275	}
duke@1	276	ClassDoc outer = containingClass();
duke@1	277	if (outer != null && outer.isIncluded()) {
duke@1	278	return isIncluded=true;
duke@1	279	}
duke@1	280	}
duke@1	281	return false;
duke@1	282	}
duke@1	283
duke@1	284	/**
duke@1	285	* Return the package that this class is contained in.
duke@1	286	*/
jjg@910	287	@Override
duke@1	288	public PackageDoc containingPackage() {
duke@1	289	PackageDocImpl p = env.getPackageDoc(tsym.packge());
jjg@197	290	if (p.setDocPath == false) {
jjg@197	291	FileObject docPath;
jjg@197	292	try {
jjg@197	293	Location location = env.fileManager.hasLocation(StandardLocation.SOURCE_PATH)
jjg@197	294	? StandardLocation.SOURCE_PATH : StandardLocation.CLASS_PATH;
jjg@197	295
jjg@197	296	docPath = env.fileManager.getFileForInput(
jjg@197	297	location, p.qualifiedName(), "package.html");
jjg@197	298	} catch (IOException e) {
jjg@197	299	docPath = null;
duke@1	300	}
jjg@197	301
jjg@197	302	if (docPath == null) {
jjg@197	303	// fall back on older semantics of looking in same directory as
jjg@197	304	// source file for this class
jjg@197	305	SourcePosition po = position();
jjg@197	306	if (env.fileManager instanceof StandardJavaFileManager &&
jjg@197	307	po instanceof SourcePositionImpl) {
jjg@197	308	URI uri = ((SourcePositionImpl) po).filename.toUri();
jjg@197	309	if ("file".equals(uri.getScheme())) {
jjg@400	310	File f = new File(uri);
jjg@197	311	File dir = f.getParentFile();
jjg@197	312	if (dir != null) {
jjg@197	313	File pf = new File(dir, "package.html");
jjg@197	314	if (pf.exists()) {
jjg@197	315	StandardJavaFileManager sfm = (StandardJavaFileManager) env.fileManager;
jjg@197	316	docPath = sfm.getJavaFileObjects(pf).iterator().next();
jjg@197	317	}
jjg@197	318	}
jjg@197	319
jjg@197	320	}
jjg@197	321	}
jjg@197	322	}
jjg@197	323
jjg@197	324	p.setDocPath(docPath);
duke@1	325	}
duke@1	326	return p;
duke@1	327	}
duke@1	328
duke@1	329	/**
duke@1	330	* Return the class name without package qualifier - but with
duke@1	331	* enclosing class qualifier - as a String.
duke@1	332	* <pre>
duke@1	333	* Examples:
duke@1	334	* for java.util.Hashtable
duke@1	335	* return Hashtable
duke@1	336	* for java.util.Map.Entry
duke@1	337	* return Map.Entry
duke@1	338	* </pre>
duke@1	339	*/
duke@1	340	public String name() {
duke@1	341	return getClassName(tsym, false);
duke@1	342	}
duke@1	343
duke@1	344	/**
duke@1	345	* Return the qualified class name as a String.
duke@1	346	* <pre>
duke@1	347	* Example:
duke@1	348	* for java.util.Hashtable
duke@1	349	* return java.util.Hashtable
duke@1	350	* if no qualifier, just return flat name
duke@1	351	* </pre>
duke@1	352	*/
duke@1	353	public String qualifiedName() {
duke@1	354	return getClassName(tsym, true);
duke@1	355	}
duke@1	356
duke@1	357	/**
duke@1	358	* Return unqualified name of type excluding any dimension information.
duke@1	359	* <p>
duke@1	360	* For example, a two dimensional array of String returns 'String'.
duke@1	361	*/
duke@1	362	public String typeName() {
duke@1	363	return name();
duke@1	364	}
duke@1	365
duke@1	366	/**
duke@1	367	* Return qualified name of type excluding any dimension information.
duke@1	368	*<p>
duke@1	369	* For example, a two dimensional array of String
duke@1	370	* returns 'java.lang.String'.
duke@1	371	*/
duke@1	372	public String qualifiedTypeName() {
duke@1	373	return qualifiedName();
duke@1	374	}
duke@1	375
duke@1	376	/**
duke@1	377	* Return the simple name of this type.
duke@1	378	*/
duke@1	379	public String simpleTypeName() {
duke@1	380	return tsym.name.toString();
duke@1	381	}
duke@1	382
duke@1	383	/**
duke@1	384	* Return the qualified name and any type parameters.
duke@1	385	* Each parameter is a type variable with optional bounds.
duke@1	386	*/
jjg@910	387	@Override
duke@1	388	public String toString() {
duke@1	389	return classToString(env, tsym, true);
duke@1	390	}
duke@1	391
duke@1	392	/**
duke@1	393	* Return the class name as a string. If "full" is true the name is
duke@1	394	* qualified, otherwise it is qualified by its enclosing class(es) only.
duke@1	395	*/
duke@1	396	static String getClassName(ClassSymbol c, boolean full) {
duke@1	397	if (full) {
duke@1	398	return c.getQualifiedName().toString();
duke@1	399	} else {
duke@1	400	String n = "";
duke@1	401	for ( ; c != null; c = c.owner.enclClass()) {
duke@1	402	n = c.name + (n.equals("") ? "" : ".") + n;
duke@1	403	}
duke@1	404	return n;
duke@1	405	}
duke@1	406	}
duke@1	407
duke@1	408	/**
duke@1	409	* Return the class name with any type parameters as a string.
duke@1	410	* Each parameter is a type variable with optional bounds.
duke@1	411	* If "full" is true all names are qualified, otherwise they are
duke@1	412	* qualified by their enclosing class(es) only.
duke@1	413	*/
duke@1	414	static String classToString(DocEnv env, ClassSymbol c, boolean full) {
jjg@910	415	StringBuilder s = new StringBuilder();
duke@1	416	if (!c.isInner()) { // if c is not an inner class
duke@1	417	s.append(getClassName(c, full));
duke@1	418	} else {
duke@1	419	// c is an inner class, so include type params of outer.
duke@1	420	ClassSymbol encl = c.owner.enclClass();
duke@1	421	s.append(classToString(env, encl, full))
duke@1	422	.append('.')
duke@1	423	.append(c.name);
duke@1	424	}
duke@1	425	s.append(TypeMaker.typeParametersString(env, c, full));
duke@1	426	return s.toString();
duke@1	427	}
duke@1	428
duke@1	429	/**
duke@1	430	* Is this class (or any enclosing class) generic? That is, does
duke@1	431	* it have type parameters?
duke@1	432	*/
duke@1	433	static boolean isGeneric(ClassSymbol c) {
duke@1	434	return c.type.allparams().nonEmpty();
duke@1	435	}
duke@1	436
duke@1	437	/**
duke@1	438	* Return the formal type parameters of this class or interface.
duke@1	439	* Return an empty array if there are none.
duke@1	440	*/
duke@1	441	public TypeVariable[] typeParameters() {
duke@1	442	if (env.legacyDoclet) {
duke@1	443	return new TypeVariable[0];
duke@1	444	}
duke@1	445	TypeVariable res[] = new TypeVariable[type.getTypeArguments().length()];
duke@1	446	TypeMaker.getTypes(env, type.getTypeArguments(), res);
duke@1	447	return res;
duke@1	448	}
duke@1	449
duke@1	450	/**
duke@1	451	* Return the type parameter tags of this class or interface.
duke@1	452	*/
duke@1	453	public ParamTag[] typeParamTags() {
duke@1	454	return (env.legacyDoclet)
duke@1	455	? new ParamTag[0]
duke@1	456	: comment().typeParamTags();
duke@1	457	}
duke@1	458
duke@1	459	/**
duke@1	460	* Return the modifier string for this class. If it's an interface
duke@1	461	* exclude 'abstract' keyword from the modifier string
duke@1	462	*/
jjg@910	463	@Override
duke@1	464	public String modifiers() {
duke@1	465	return Modifier.toString(modifierSpecifier());
duke@1	466	}
duke@1	467
jjg@910	468	@Override
duke@1	469	public int modifierSpecifier() {
duke@1	470	int modifiers = getModifiers();
duke@1	471	return (isInterface() || isAnnotationType())
duke@1	472	? modifiers & ~Modifier.ABSTRACT
duke@1	473	: modifiers;
duke@1	474	}
duke@1	475
duke@1	476	/**
duke@1	477	* Return the superclass of this class
duke@1	478	*
duke@1	479	* @return the ClassDocImpl for the superclass of this class, null
duke@1	480	* if there is no superclass.
duke@1	481	*/
duke@1	482	public ClassDoc superclass() {
duke@1	483	if (isInterface() || isAnnotationType()) return null;
duke@1	484	if (tsym == env.syms.objectType.tsym) return null;
duke@1	485	ClassSymbol c = (ClassSymbol)env.types.supertype(type).tsym;
duke@1	486	if (c == null || c == tsym) c = (ClassSymbol)env.syms.objectType.tsym;
duke@1	487	return env.getClassDoc(c);
duke@1	488	}
duke@1	489
duke@1	490	/**
duke@1	491	* Return the superclass of this class. Return null if this is an
duke@1	492	* interface. A superclass is represented by either a
duke@1	493	* <code>ClassDoc</code> or a <code>ParameterizedType</code>.
duke@1	494	*/
duke@1	495	public com.sun.javadoc.Type superclassType() {
duke@1	496	if (isInterface() || isAnnotationType() ||
duke@1	497	(tsym == env.syms.objectType.tsym))
duke@1	498	return null;
duke@1	499	Type sup = env.types.supertype(type);
duke@1	500	return TypeMaker.getType(env,
duke@1	501	(sup != type) ? sup : env.syms.objectType);
duke@1	502	}
duke@1	503
duke@1	504	/**
duke@1	505	* Test whether this class is a subclass of the specified class.
duke@1	506	*
duke@1	507	* @param cd the candidate superclass.
duke@1	508	* @return true if cd is a superclass of this class.
duke@1	509	*/
duke@1	510	public boolean subclassOf(ClassDoc cd) {
duke@1	511	return tsym.isSubClass(((ClassDocImpl)cd).tsym, env.types);
duke@1	512	}
duke@1	513
duke@1	514	/**
duke@1	515	* Return interfaces implemented by this class or interfaces
duke@1	516	* extended by this interface.
duke@1	517	*
duke@1	518	* @return An array of ClassDocImpl representing the interfaces.
duke@1	519	* Return an empty array if there are no interfaces.
duke@1	520	*/
duke@1	521	public ClassDoc[] interfaces() {
duke@1	522	ListBuffer<ClassDocImpl> ta = new ListBuffer<ClassDocImpl>();
duke@1	523	for (Type t : env.types.interfaces(type)) {
duke@1	524	ta.append(env.getClassDoc((ClassSymbol)t.tsym));
duke@1	525	}
duke@1	526	//### Cache ta here?
duke@1	527	return ta.toArray(new ClassDocImpl[ta.length()]);
duke@1	528	}
duke@1	529
duke@1	530	/**
duke@1	531	* Return interfaces implemented by this class or interfaces extended
duke@1	532	* by this interface. Includes only directly-declared interfaces, not
duke@1	533	* inherited interfaces.
duke@1	534	* Return an empty array if there are no interfaces.
duke@1	535	*/
duke@1	536	public com.sun.javadoc.Type[] interfaceTypes() {
duke@1	537	//### Cache result here?
duke@1	538	return TypeMaker.getTypes(env, env.types.interfaces(type));
duke@1	539	}
duke@1	540
duke@1	541	/**
duke@1	542	* Return fields in class.
duke@1	543	* @param filter include only the included fields if filter==true
duke@1	544	*/
duke@1	545	public FieldDoc[] fields(boolean filter) {
duke@1	546	return fields(filter, false);
duke@1	547	}
duke@1	548
duke@1	549	/**
duke@1	550	* Return included fields in class.
duke@1	551	*/
duke@1	552	public FieldDoc[] fields() {
duke@1	553	return fields(true, false);
duke@1	554	}
duke@1	555
duke@1	556	/**
duke@1	557	* Return the enum constants if this is an enum type.
duke@1	558	*/
duke@1	559	public FieldDoc[] enumConstants() {
duke@1	560	return fields(false, true);
duke@1	561	}
duke@1	562
duke@1	563	/**
duke@1	564	* Return fields in class.
duke@1	565	* @param filter if true, return only the included fields
duke@1	566	* @param enumConstants if true, return the enum constants instead
duke@1	567	*/
duke@1	568	private FieldDoc[] fields(boolean filter, boolean enumConstants) {
duke@1	569	List<FieldDocImpl> fields = List.nil();
duke@1	570	for (Scope.Entry e = tsym.members().elems; e != null; e = e.sibling) {
duke@1	571	if (e.sym != null && e.sym.kind == VAR) {
duke@1	572	VarSymbol s = (VarSymbol)e.sym;
duke@1	573	boolean isEnum = ((s.flags() & Flags.ENUM) != 0) &&
duke@1	574	!env.legacyDoclet;
duke@1	575	if (isEnum == enumConstants &&
duke@1	576	(!filter || env.shouldDocument(s))) {
duke@1	577	fields = fields.prepend(env.getFieldDoc(s));
duke@1	578	}
duke@1	579	}
duke@1	580	}
duke@1	581	return fields.toArray(new FieldDocImpl[fields.length()]);
duke@1	582	}
duke@1	583
duke@1	584	/**
duke@1	585	* Return methods in class.
duke@1	586	* This method is overridden by AnnotationTypeDocImpl.
duke@1	587	*
duke@1	588	* @param filter include only the included methods if filter==true
duke@1	589	* @return an array of MethodDocImpl for representing the visible
duke@1	590	* methods in this class. Does not include constructors.
duke@1	591	*/
duke@1	592	public MethodDoc[] methods(boolean filter) {
jjg@113	593	Names names = tsym.name.table.names;
duke@1	594	List<MethodDocImpl> methods = List.nil();
duke@1	595	for (Scope.Entry e = tsym.members().elems; e != null; e = e.sibling) {
duke@1	596	if (e.sym != null &&
duke@1	597	e.sym.kind == Kinds.MTH && e.sym.name != names.init) {
duke@1	598	MethodSymbol s = (MethodSymbol)e.sym;
duke@1	599	if (!filter || env.shouldDocument(s)) {
duke@1	600	methods = methods.prepend(env.getMethodDoc(s));
duke@1	601	}
duke@1	602	}
duke@1	603	}
duke@1	604	//### Cache methods here?
duke@1	605	return methods.toArray(new MethodDocImpl[methods.length()]);
duke@1	606	}
duke@1	607
duke@1	608	/**
duke@1	609	* Return included methods in class.
duke@1	610	*
duke@1	611	* @return an array of MethodDocImpl for representing the visible
duke@1	612	* methods in this class. Does not include constructors.
duke@1	613	*/
duke@1	614	public MethodDoc[] methods() {
duke@1	615	return methods(true);
duke@1	616	}
duke@1	617
duke@1	618	/**
duke@1	619	* Return constructors in class.
duke@1	620	*
duke@1	621	* @param filter include only the included constructors if filter==true
duke@1	622	* @return an array of ConstructorDocImpl for representing the visible
duke@1	623	* constructors in this class.
duke@1	624	*/
duke@1	625	public ConstructorDoc[] constructors(boolean filter) {
jjg@113	626	Names names = tsym.name.table.names;
duke@1	627	List<ConstructorDocImpl> constructors = List.nil();
duke@1	628	for (Scope.Entry e = tsym.members().elems; e != null; e = e.sibling) {
duke@1	629	if (e.sym != null &&
duke@1	630	e.sym.kind == Kinds.MTH && e.sym.name == names.init) {
duke@1	631	MethodSymbol s = (MethodSymbol)e.sym;
duke@1	632	if (!filter || env.shouldDocument(s)) {
duke@1	633	constructors = constructors.prepend(env.getConstructorDoc(s));
duke@1	634	}
duke@1	635	}
duke@1	636	}
duke@1	637	//### Cache constructors here?
duke@1	638	return constructors.toArray(new ConstructorDocImpl[constructors.length()]);
duke@1	639	}
duke@1	640
duke@1	641	/**
duke@1	642	* Return included constructors in class.
duke@1	643	*
duke@1	644	* @return an array of ConstructorDocImpl for representing the visible
duke@1	645	* constructors in this class.
duke@1	646	*/
duke@1	647	public ConstructorDoc[] constructors() {
duke@1	648	return constructors(true);
duke@1	649	}
duke@1	650
duke@1	651	/**
duke@1	652	* Adds all inner classes of this class, and their
duke@1	653	* inner classes recursively, to the list l.
duke@1	654	*/
duke@1	655	void addAllClasses(ListBuffer<ClassDocImpl> l, boolean filtered) {
duke@1	656	try {
duke@1	657	if (isSynthetic()) return;
duke@1	658	// sometimes synthetic classes are not marked synthetic
duke@1	659	if (!JavadocTool.isValidClassName(tsym.name.toString())) return;
duke@1	660	if (filtered && !env.shouldDocument(tsym)) return;
duke@1	661	if (l.contains(this)) return;
duke@1	662	l.append(this);
duke@1	663	List<ClassDocImpl> more = List.nil();
duke@1	664	for (Scope.Entry e = tsym.members().elems; e != null;
duke@1	665	e = e.sibling) {
duke@1	666	if (e.sym != null && e.sym.kind == Kinds.TYP) {
duke@1	667	ClassSymbol s = (ClassSymbol)e.sym;
duke@1	668	ClassDocImpl c = env.getClassDoc(s);
duke@1	669	if (c.isSynthetic()) continue;
duke@1	670	if (c != null) more = more.prepend(c);
duke@1	671	}
duke@1	672	}
duke@1	673	// this extra step preserves the ordering from oldjavadoc
duke@1	674	for (; more.nonEmpty(); more=more.tail) {
duke@1	675	more.head.addAllClasses(l, filtered);
duke@1	676	}
duke@1	677	} catch (CompletionFailure e) {
duke@1	678	// quietly ignore completion failures
duke@1	679	}
duke@1	680	}
duke@1	681
duke@1	682	/**
duke@1	683	* Return inner classes within this class.
duke@1	684	*
duke@1	685	* @param filter include only the included inner classes if filter==true.
duke@1	686	* @return an array of ClassDocImpl for representing the visible
duke@1	687	* classes defined in this class. Anonymous and local classes
duke@1	688	* are not included.
duke@1	689	*/
duke@1	690	public ClassDoc[] innerClasses(boolean filter) {
duke@1	691	ListBuffer<ClassDocImpl> innerClasses = new ListBuffer<ClassDocImpl>();
duke@1	692	for (Scope.Entry e = tsym.members().elems; e != null; e = e.sibling) {
duke@1	693	if (e.sym != null && e.sym.kind == Kinds.TYP) {
duke@1	694	ClassSymbol s = (ClassSymbol)e.sym;
duke@1	695	if ((s.flags_field & Flags.SYNTHETIC) != 0) continue;
duke@1	696	if (!filter || env.isVisible(s)) {
duke@1	697	innerClasses.prepend(env.getClassDoc(s));
duke@1	698	}
duke@1	699	}
duke@1	700	}
duke@1	701	//### Cache classes here?
duke@1	702	return innerClasses.toArray(new ClassDocImpl[innerClasses.length()]);
duke@1	703	}
duke@1	704
duke@1	705	/**
duke@1	706	* Return included inner classes within this class.
duke@1	707	*
duke@1	708	* @return an array of ClassDocImpl for representing the visible
duke@1	709	* classes defined in this class. Anonymous and local classes
duke@1	710	* are not included.
duke@1	711	*/
duke@1	712	public ClassDoc[] innerClasses() {
duke@1	713	return innerClasses(true);
duke@1	714	}
duke@1	715
duke@1	716	/**
duke@1	717	* Find a class within the context of this class.
duke@1	718	* Search order: qualified name, in this class (inner),
duke@1	719	* in this package, in the class imports, in the package
duke@1	720	* imports.
duke@1	721	* Return the ClassDocImpl if found, null if not found.
duke@1	722	*/
duke@1	723	//### The specified search order is not the normal rule the
duke@1	724	//### compiler would use. Leave as specified or change it?
duke@1	725	public ClassDoc findClass(String className) {
duke@1	726	ClassDoc searchResult = searchClass(className);
duke@1	727	if (searchResult == null) {
duke@1	728	ClassDocImpl enclosingClass = (ClassDocImpl)containingClass();
duke@1	729	//Expand search space to include enclosing class.
duke@1	730	while (enclosingClass != null && enclosingClass.containingClass() != null) {
duke@1	731	enclosingClass = (ClassDocImpl)enclosingClass.containingClass();
duke@1	732	}
duke@1	733	searchResult = enclosingClass == null ?
duke@1	734	null : enclosingClass.searchClass(className);
duke@1	735	}
duke@1	736	return searchResult;
duke@1	737	}
duke@1	738
duke@1	739	private ClassDoc searchClass(String className) {
jjg@113	740	Names names = tsym.name.table.names;
duke@1	741
duke@1	742	// search by qualified name first
duke@1	743	ClassDoc cd = env.lookupClass(className);
duke@1	744	if (cd != null) {
duke@1	745	return cd;
duke@1	746	}
duke@1	747
duke@1	748	// search inner classes
duke@1	749	//### Add private entry point to avoid creating array?
duke@1	750	//### Replicate code in innerClasses here to avoid consing?
ksrini@1065	751	for (ClassDoc icd : innerClasses()) {
ksrini@1065	752	if (icd.name().equals(className) ||
ksrini@1065	753	//### This is from original javadoc but it looks suspicious to me...
ksrini@1065	754	//### I believe it is attempting to compensate for the confused
ksrini@1065	755	//### convention of including the nested class qualifiers in the
ksrini@1065	756	//### 'name' of the inner class, rather than the true simple name.
ksrini@1065	757	icd.name().endsWith("." + className)) {
ksrini@1065	758	return icd;
duke@1	759	} else {
ksrini@1065	760	ClassDoc innercd = ((ClassDocImpl) icd).searchClass(className);
duke@1	761	if (innercd != null) {
duke@1	762	return innercd;
duke@1	763	}
duke@1	764	}
duke@1	765	}
duke@1	766
duke@1	767	// check in this package
duke@1	768	cd = containingPackage().findClass(className);
duke@1	769	if (cd != null) {
duke@1	770	return cd;
duke@1	771	}
duke@1	772
duke@1	773	// make sure that this symbol has been completed
duke@1	774	if (tsym.completer != null) {
duke@1	775	tsym.complete();
duke@1	776	}
duke@1	777
duke@1	778	// search imports
duke@1	779
duke@1	780	if (tsym.sourcefile != null) {
duke@1	781
duke@1	782	//### This information is available only for source classes.
duke@1	783
duke@1	784	Env<AttrContext> compenv = env.enter.getEnv(tsym);
duke@1	785	if (compenv == null) return null;
duke@1	786
duke@1	787	Scope s = compenv.toplevel.namedImportScope;
duke@1	788	for (Scope.Entry e = s.lookup(names.fromString(className)); e.scope != null; e = e.next()) {
duke@1	789	if (e.sym.kind == Kinds.TYP) {
duke@1	790	ClassDoc c = env.getClassDoc((ClassSymbol)e.sym);
duke@1	791	return c;
duke@1	792	}
duke@1	793	}
duke@1	794
duke@1	795	s = compenv.toplevel.starImportScope;
duke@1	796	for (Scope.Entry e = s.lookup(names.fromString(className)); e.scope != null; e = e.next()) {
duke@1	797	if (e.sym.kind == Kinds.TYP) {
duke@1	798	ClassDoc c = env.getClassDoc((ClassSymbol)e.sym);
duke@1	799	return c;
duke@1	800	}
duke@1	801	}
duke@1	802	}
duke@1	803
duke@1	804	return null; // not found
duke@1	805	}
duke@1	806
duke@1	807
duke@1	808	private boolean hasParameterTypes(MethodSymbol method, String[] argTypes) {
duke@1	809
duke@1	810	if (argTypes == null) {
duke@1	811	// wildcard
duke@1	812	return true;
duke@1	813	}
duke@1	814
duke@1	815	int i = 0;
duke@1	816	List<Type> types = method.type.getParameterTypes();
duke@1	817
duke@1	818	if (argTypes.length != types.length()) {
duke@1	819	return false;
duke@1	820	}
duke@1	821
duke@1	822	for (Type t : types) {
duke@1	823	String argType = argTypes[i++];
duke@1	824	// For vararg method, "T..." matches type T[].
duke@1	825	if (i == argTypes.length) {
duke@1	826	argType = argType.replace("...", "[]");
duke@1	827	}
duke@1	828	if (!hasTypeName(env.types.erasure(t), argType)) { //###(gj)
duke@1	829	return false;
duke@1	830	}
duke@1	831	}
duke@1	832	return true;
duke@1	833	}
duke@1	834	// where
duke@1	835	private boolean hasTypeName(Type t, String name) {
duke@1	836	return
duke@1	837	name.equals(TypeMaker.getTypeName(t, true))
duke@1	838	||
duke@1	839	name.equals(TypeMaker.getTypeName(t, false))
duke@1	840	||
duke@1	841	(qualifiedName() + "." + name).equals(TypeMaker.getTypeName(t, true));
duke@1	842	}
duke@1	843
duke@1	844
duke@1	845
duke@1	846	/**
duke@1	847	* Find a method in this class scope.
duke@1	848	* Search order: this class, interfaces, superclasses, outerclasses.
duke@1	849	* Note that this is not necessarily what the compiler would do!
duke@1	850	*
duke@1	851	* @param methodName the unqualified name to search for.
jjg@1358	852	* @param paramTypes the array of Strings for method parameter types.
duke@1	853	* @return the first MethodDocImpl which matches, null if not found.
duke@1	854	*/
duke@1	855	public MethodDocImpl findMethod(String methodName, String[] paramTypes) {
duke@1	856	// Use hash table 'searched' to avoid searching same class twice.
duke@1	857	//### It is not clear how this could happen.
duke@1	858	return searchMethod(methodName, paramTypes, new HashSet<ClassDocImpl>());
duke@1	859	}
duke@1	860
duke@1	861	private MethodDocImpl searchMethod(String methodName,
duke@1	862	String[] paramTypes, Set<ClassDocImpl> searched) {
duke@1	863	//### Note that this search is not necessarily what the compiler would do!
duke@1	864
sundar@721	865	Names names = tsym.name.table.names;
sundar@721	866	// do not match constructors
sundar@721	867	if (names.init.contentEquals(methodName)) {
sundar@721	868	return null;
sundar@721	869	}
sundar@721	870
duke@1	871	ClassDocImpl cdi;
duke@1	872	MethodDocImpl mdi;
duke@1	873
duke@1	874	if (searched.contains(this)) {
duke@1	875	return null;
duke@1	876	}
duke@1	877	searched.add(this);
duke@1	878
duke@1	879	//DEBUG
duke@1	880	/*---------------------------------*
duke@1	881	System.out.print("searching " + this + " for " + methodName);
duke@1	882	if (paramTypes == null) {
duke@1	883	System.out.println("()");
duke@1	884	} else {
duke@1	885	System.out.print("(");
duke@1	886	for (int k=0; k < paramTypes.length; k++) {
duke@1	887	System.out.print(paramTypes[k]);
duke@1	888	if ((k + 1) < paramTypes.length) {
duke@1	889	System.out.print(", ");
duke@1	890	}
duke@1	891	}
duke@1	892	System.out.println(")");
duke@1	893	}
duke@1	894	*---------------------------------*/
duke@1	895
duke@1	896	// search current class
duke@1	897	Scope.Entry e = tsym.members().lookup(names.fromString(methodName));
duke@1	898
duke@1	899	//### Using modifier filter here isn't really correct,
duke@1	900	//### but emulates the old behavior. Instead, we should
duke@1	901	//### apply the normal rules of visibility and inheritance.
duke@1	902
duke@1	903	if (paramTypes == null) {
duke@1	904	// If no parameters specified, we are allowed to return
duke@1	905	// any method with a matching name. In practice, the old
duke@1	906	// code returned the first method, which is now the last!
duke@1	907	// In order to provide textually identical results, we
duke@1	908	// attempt to emulate the old behavior.
duke@1	909	MethodSymbol lastFound = null;
duke@1	910	for (; e.scope != null; e = e.next()) {
duke@1	911	if (e.sym.kind == Kinds.MTH) {
duke@1	912	//### Should intern methodName as Name.
duke@1	913	if (e.sym.name.toString().equals(methodName)) {
duke@1	914	lastFound = (MethodSymbol)e.sym;
duke@1	915	}
duke@1	916	}
duke@1	917	}
duke@1	918	if (lastFound != null) {
duke@1	919	return env.getMethodDoc(lastFound);
duke@1	920	}
duke@1	921	} else {
duke@1	922	for (; e.scope != null; e = e.next()) {
duke@1	923	if (e.sym != null &&
duke@1	924	e.sym.kind == Kinds.MTH) {
duke@1	925	//### Should intern methodName as Name.
duke@1	926	if (hasParameterTypes((MethodSymbol)e.sym, paramTypes)) {
duke@1	927	return env.getMethodDoc((MethodSymbol)e.sym);
duke@1	928	}
duke@1	929	}
duke@1	930	}
duke@1	931	}
duke@1	932
duke@1	933	//### If we found a MethodDoc above, but which did not pass
duke@1	934	//### the modifier filter, we should return failure here!
duke@1	935
duke@1	936	// search superclass
duke@1	937	cdi = (ClassDocImpl)superclass();
duke@1	938	if (cdi != null) {
duke@1	939	mdi = cdi.searchMethod(methodName, paramTypes, searched);
duke@1	940	if (mdi != null) {
duke@1	941	return mdi;
duke@1	942	}
duke@1	943	}
duke@1	944
duke@1	945	// search interfaces
duke@1	946	ClassDoc intf[] = interfaces();
duke@1	947	for (int i = 0; i < intf.length; i++) {
duke@1	948	cdi = (ClassDocImpl)intf[i];
duke@1	949	mdi = cdi.searchMethod(methodName, paramTypes, searched);
duke@1	950	if (mdi != null) {
duke@1	951	return mdi;
duke@1	952	}
duke@1	953	}
duke@1	954
duke@1	955	// search enclosing class
duke@1	956	cdi = (ClassDocImpl)containingClass();
duke@1	957	if (cdi != null) {
duke@1	958	mdi = cdi.searchMethod(methodName, paramTypes, searched);
duke@1	959	if (mdi != null) {
duke@1	960	return mdi;
duke@1	961	}
duke@1	962	}
duke@1	963
duke@1	964	//###(gj) As a temporary measure until type variables are better
duke@1	965	//### handled, try again without the parameter types.
duke@1	966	//### This should most often find the right method, and occassionally
duke@1	967	//### find the wrong one.
duke@1	968	//if (paramTypes != null) {
duke@1	969	// return findMethod(methodName, null);
duke@1	970	//}
duke@1	971
duke@1	972	return null;
duke@1	973	}
duke@1	974
duke@1	975	/**
duke@1	976	* Find constructor in this class.
duke@1	977	*
duke@1	978	* @param constrName the unqualified name to search for.
jjg@1358	979	* @param paramTypes the array of Strings for constructor parameters.
duke@1	980	* @return the first ConstructorDocImpl which matches, null if not found.
duke@1	981	*/
duke@1	982	public ConstructorDoc findConstructor(String constrName,
duke@1	983	String[] paramTypes) {
jjg@113	984	Names names = tsym.name.table.names;
duke@1	985	for (Scope.Entry e = tsym.members().lookup(names.fromString("<init>")); e.scope != null; e = e.next()) {
duke@1	986	if (e.sym.kind == Kinds.MTH) {
duke@1	987	if (hasParameterTypes((MethodSymbol)e.sym, paramTypes)) {
duke@1	988	return env.getConstructorDoc((MethodSymbol)e.sym);
duke@1	989	}
duke@1	990	}
duke@1	991	}
duke@1	992
duke@1	993	//###(gj) As a temporary measure until type variables are better
duke@1	994	//### handled, try again without the parameter types.
duke@1	995	//### This will often find the right constructor, and occassionally
duke@1	996	//### find the wrong one.
duke@1	997	//if (paramTypes != null) {
duke@1	998	// return findConstructor(constrName, null);
duke@1	999	//}
duke@1	1000
duke@1	1001	return null;
duke@1	1002	}
duke@1	1003
duke@1	1004	/**
duke@1	1005	* Find a field in this class scope.
duke@1	1006	* Search order: this class, outerclasses, interfaces,
duke@1	1007	* superclasses. IMP: If see tag is defined in an inner class,
duke@1	1008	* which extends a super class and if outerclass and the super
duke@1	1009	* class have a visible field in common then Java compiler cribs
duke@1	1010	* about the ambiguity, but the following code will search in the
duke@1	1011	* above given search order.
duke@1	1012	*
duke@1	1013	* @param fieldName the unqualified name to search for.
duke@1	1014	* @return the first FieldDocImpl which matches, null if not found.
duke@1	1015	*/
duke@1	1016	public FieldDoc findField(String fieldName) {
duke@1	1017	return searchField(fieldName, new HashSet<ClassDocImpl>());
duke@1	1018	}
duke@1	1019
duke@1	1020	private FieldDocImpl searchField(String fieldName, Set<ClassDocImpl> searched) {
jjg@113	1021	Names names = tsym.name.table.names;
duke@1	1022	if (searched.contains(this)) {
duke@1	1023	return null;
duke@1	1024	}
duke@1	1025	searched.add(this);
duke@1	1026
duke@1	1027	for (Scope.Entry e = tsym.members().lookup(names.fromString(fieldName)); e.scope != null; e = e.next()) {
duke@1	1028	if (e.sym.kind == Kinds.VAR) {
duke@1	1029	//### Should intern fieldName as Name.
duke@1	1030	return env.getFieldDoc((VarSymbol)e.sym);
duke@1	1031	}
duke@1	1032	}
duke@1	1033
duke@1	1034	//### If we found a FieldDoc above, but which did not pass
duke@1	1035	//### the modifier filter, we should return failure here!
duke@1	1036
duke@1	1037	ClassDocImpl cdi = (ClassDocImpl)containingClass();
duke@1	1038	if (cdi != null) {
duke@1	1039	FieldDocImpl fdi = cdi.searchField(fieldName, searched);
duke@1	1040	if (fdi != null) {
duke@1	1041	return fdi;
duke@1	1042	}
duke@1	1043	}
duke@1	1044
duke@1	1045	// search superclass
duke@1	1046	cdi = (ClassDocImpl)superclass();
duke@1	1047	if (cdi != null) {
duke@1	1048	FieldDocImpl fdi = cdi.searchField(fieldName, searched);
duke@1	1049	if (fdi != null) {
duke@1	1050	return fdi;
duke@1	1051	}
duke@1	1052	}
duke@1	1053
duke@1	1054	// search interfaces
duke@1	1055	ClassDoc intf[] = interfaces();
duke@1	1056	for (int i = 0; i < intf.length; i++) {
duke@1	1057	cdi = (ClassDocImpl)intf[i];
duke@1	1058	FieldDocImpl fdi = cdi.searchField(fieldName, searched);
duke@1	1059	if (fdi != null) {
duke@1	1060	return fdi;
duke@1	1061	}
duke@1	1062	}
duke@1	1063
duke@1	1064	return null;
duke@1	1065	}
duke@1	1066
duke@1	1067	/**
duke@1	1068	* Get the list of classes declared as imported.
duke@1	1069	* These are called "single-type-import declarations" in the JLS.
duke@1	1070	* This method is deprecated in the ClassDoc interface.
duke@1	1071	*
duke@1	1072	* @return an array of ClassDocImpl representing the imported classes.
duke@1	1073	*
duke@1	1074	* @deprecated Import declarations are implementation details that
duke@1	1075	* should not be exposed here. In addition, not all imported
duke@1	1076	* classes are imported through single-type-import declarations.
duke@1	1077	*/
duke@1	1078	@Deprecated
duke@1	1079	public ClassDoc[] importedClasses() {
duke@1	1080	// information is not available for binary classfiles
duke@1	1081	if (tsym.sourcefile == null) return new ClassDoc[0];
duke@1	1082
duke@1	1083	ListBuffer<ClassDocImpl> importedClasses = new ListBuffer<ClassDocImpl>();
duke@1	1084
duke@1	1085	Env<AttrContext> compenv = env.enter.getEnv(tsym);
duke@1	1086	if (compenv == null) return new ClassDocImpl[0];
duke@1	1087
jjg@113	1088	Name asterisk = tsym.name.table.names.asterisk;
duke@1	1089	for (JCTree t : compenv.toplevel.defs) {
jjg@1127	1090	if (t.hasTag(IMPORT)) {
duke@1	1091	JCTree imp = ((JCImport) t).qualid;
duke@1	1092	if ((TreeInfo.name(imp) != asterisk) &&
duke@1	1093	(imp.type.tsym.kind & Kinds.TYP) != 0) {
duke@1	1094	importedClasses.append(
duke@1	1095	env.getClassDoc((ClassSymbol)imp.type.tsym));
duke@1	1096	}
duke@1	1097	}
duke@1	1098	}
duke@1	1099
duke@1	1100	return importedClasses.toArray(new ClassDocImpl[importedClasses.length()]);
duke@1	1101	}
duke@1	1102
duke@1	1103	/**
duke@1	1104	* Get the list of packages declared as imported.
duke@1	1105	* These are called "type-import-on-demand declarations" in the JLS.
duke@1	1106	* This method is deprecated in the ClassDoc interface.
duke@1	1107	*
duke@1	1108	* @return an array of PackageDocImpl representing the imported packages.
duke@1	1109	*
duke@1	1110	* ###NOTE: the syntax supports importing all inner classes from a class as well.
duke@1	1111	* @deprecated Import declarations are implementation details that
duke@1	1112	* should not be exposed here. In addition, this method's
duke@1	1113	* return type does not allow for all type-import-on-demand
duke@1	1114	* declarations to be returned.
duke@1	1115	*/
duke@1	1116	@Deprecated
duke@1	1117	public PackageDoc[] importedPackages() {
duke@1	1118	// information is not available for binary classfiles
duke@1	1119	if (tsym.sourcefile == null) return new PackageDoc[0];
duke@1	1120
duke@1	1121	ListBuffer<PackageDocImpl> importedPackages = new ListBuffer<PackageDocImpl>();
duke@1	1122
duke@1	1123	//### Add the implicit "import java.lang.*" to the result
jjg@113	1124	Names names = tsym.name.table.names;
duke@1	1125	importedPackages.append(env.getPackageDoc(env.reader.enterPackage(names.java_lang)));
duke@1	1126
duke@1	1127	Env<AttrContext> compenv = env.enter.getEnv(tsym);
duke@1	1128	if (compenv == null) return new PackageDocImpl[0];
duke@1	1129
duke@1	1130	for (JCTree t : compenv.toplevel.defs) {
jjg@1127	1131	if (t.hasTag(IMPORT)) {
duke@1	1132	JCTree imp = ((JCImport) t).qualid;
duke@1	1133	if (TreeInfo.name(imp) == names.asterisk) {
duke@1	1134	JCFieldAccess sel = (JCFieldAccess)imp;
duke@1	1135	Symbol s = sel.selected.type.tsym;
duke@1	1136	PackageDocImpl pdoc = env.getPackageDoc(s.packge());
duke@1	1137	if (!importedPackages.contains(pdoc))
duke@1	1138	importedPackages.append(pdoc);
duke@1	1139	}
duke@1	1140	}
duke@1	1141	}
duke@1	1142
duke@1	1143	return importedPackages.toArray(new PackageDocImpl[importedPackages.length()]);
duke@1	1144	}
duke@1	1145
duke@1	1146	/**
duke@1	1147	* Return the type's dimension information.
duke@1	1148	* Always return "", as this is not an array type.
duke@1	1149	*/
duke@1	1150	public String dimension() {
duke@1	1151	return "";
duke@1	1152	}
duke@1	1153
duke@1	1154	/**
duke@1	1155	* Return this type as a class, which it already is.
duke@1	1156	*/
duke@1	1157	public ClassDoc asClassDoc() {
duke@1	1158	return this;
duke@1	1159	}
duke@1	1160
duke@1	1161	/**
duke@1	1162	* Return null (unless overridden), as this is not an annotation type.
duke@1	1163	*/
duke@1	1164	public AnnotationTypeDoc asAnnotationTypeDoc() {
duke@1	1165	return null;
duke@1	1166	}
duke@1	1167
duke@1	1168	/**
duke@1	1169	* Return null, as this is not a class instantiation.
duke@1	1170	*/
duke@1	1171	public ParameterizedType asParameterizedType() {
duke@1	1172	return null;
duke@1	1173	}
duke@1	1174
duke@1	1175	/**
duke@1	1176	* Return null, as this is not a type variable.
duke@1	1177	*/
duke@1	1178	public TypeVariable asTypeVariable() {
duke@1	1179	return null;
duke@1	1180	}
duke@1	1181
duke@1	1182	/**
duke@1	1183	* Return null, as this is not a wildcard type.
duke@1	1184	*/
duke@1	1185	public WildcardType asWildcardType() {
duke@1	1186	return null;
duke@1	1187	}
duke@1	1188
duke@1	1189	/**
duke@1	1190	* Return false, as this is not a primitive type.
duke@1	1191	*/
duke@1	1192	public boolean isPrimitive() {
duke@1	1193	return false;
duke@1	1194	}
duke@1	1195
duke@1	1196	//--- Serialization ---
duke@1	1197
duke@1	1198	//### These methods ignore modifier filter.
duke@1	1199
duke@1	1200	/**
duke@1	1201	* Return true if this class implements <code>java.io.Serializable</code>.
duke@1	1202	*
duke@1	1203	* Since <code>java.io.Externalizable</code> extends
duke@1	1204	* <code>java.io.Serializable</code>,
duke@1	1205	* Externalizable objects are also Serializable.
duke@1	1206	*/
duke@1	1207	public boolean isSerializable() {
duke@1	1208	try {
duke@1	1209	return env.types.isSubtype(type, env.syms.serializableType);
duke@1	1210	} catch (CompletionFailure ex) {
duke@1	1211	// quietly ignore completion failures
duke@1	1212	return false;
duke@1	1213	}
duke@1	1214	}
duke@1	1215
duke@1	1216	/**
duke@1	1217	* Return true if this class implements
duke@1	1218	* <code>java.io.Externalizable</code>.
duke@1	1219	*/
duke@1	1220	public boolean isExternalizable() {
duke@1	1221	try {
duke@1	1222	return env.types.isSubtype(type, env.externalizableSym.type);
duke@1	1223	} catch (CompletionFailure ex) {
duke@1	1224	// quietly ignore completion failures
duke@1	1225	return false;
duke@1	1226	}
duke@1	1227	}
duke@1	1228
duke@1	1229	/**
duke@1	1230	* Return the serialization methods for this class.
duke@1	1231	*
duke@1	1232	* @return an array of <code>MethodDocImpl</code> that represents
duke@1	1233	* the serialization methods for this class.
duke@1	1234	*/
duke@1	1235	public MethodDoc[] serializationMethods() {
duke@1	1236	if (serializedForm == null) {
duke@1	1237	serializedForm = new SerializedForm(env, tsym, this);
duke@1	1238	}
duke@1	1239	//### Clone this?
duke@1	1240	return serializedForm.methods();
duke@1	1241	}
duke@1	1242
duke@1	1243	/**
duke@1	1244	* Return the Serializable fields of class.<p>
duke@1	1245	*
duke@1	1246	* Return either a list of default fields documented by
duke@1	1247	* <code>serial</code> tag<br>
duke@1	1248	* or return a single <code>FieldDoc</code> for
duke@1	1249	* <code>serialPersistentField</code> member.
duke@1	1250	* There should be a <code>serialField</code> tag for
duke@1	1251	* each Serializable field defined by an <code>ObjectStreamField</code>
duke@1	1252	* array component of <code>serialPersistentField</code>.
duke@1	1253	*
duke@1	1254	* @returns an array of <code>FieldDoc</code> for the Serializable fields
duke@1	1255	* of this class.
duke@1	1256	*
duke@1	1257	* @see #definesSerializableFields()
duke@1	1258	* @see SerialFieldTagImpl
duke@1	1259	*/
duke@1	1260	public FieldDoc[] serializableFields() {
duke@1	1261	if (serializedForm == null) {
duke@1	1262	serializedForm = new SerializedForm(env, tsym, this);
duke@1	1263	}
duke@1	1264	//### Clone this?
duke@1	1265	return serializedForm.fields();
duke@1	1266	}
duke@1	1267
duke@1	1268	/**
duke@1	1269	* Return true if Serializable fields are explicitly defined with
duke@1	1270	* the special class member <code>serialPersistentFields</code>.
duke@1	1271	*
duke@1	1272	* @see #serializableFields()
duke@1	1273	* @see SerialFieldTagImpl
duke@1	1274	*/
duke@1	1275	public boolean definesSerializableFields() {
duke@1	1276	if (!isSerializable() || isExternalizable()) {
duke@1	1277	return false;
duke@1	1278	} else {
duke@1	1279	if (serializedForm == null) {
duke@1	1280	serializedForm = new SerializedForm(env, tsym, this);
duke@1	1281	}
duke@1	1282	//### Clone this?
duke@1	1283	return serializedForm.definesSerializableFields();
duke@1	1284	}
duke@1	1285	}
duke@1	1286
duke@1	1287	/**
duke@1	1288	* Determine if a class is a RuntimeException.
duke@1	1289	* <p>
duke@1	1290	* Used only by ThrowsTagImpl.
duke@1	1291	*/
duke@1	1292	boolean isRuntimeException() {
duke@1	1293	return tsym.isSubClass(env.syms.runtimeExceptionType.tsym, env.types);
duke@1	1294	}
duke@1	1295
duke@1	1296	/**
duke@1	1297	* Return the source position of the entity, or null if
duke@1	1298	* no position is available.
duke@1	1299	*/
jjg@910	1300	@Override
duke@1	1301	public SourcePosition position() {
duke@1	1302	if (tsym.sourcefile == null) return null;
jjg@197	1303	return SourcePositionImpl.make(tsym.sourcefile,
duke@1	1304	(tree==null) ? Position.NOPOS : tree.pos,
duke@1	1305	lineMap);
duke@1	1306	}
duke@1	1307	}