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src/share/classes/com/sun/tools/javac/jvm/ClassReader.java@19e8eebfbe52 (annotated)

src/share/classes/com/sun/tools/javac/jvm/ClassReader.java

Tue, 15 Oct 2013 22:15:35 +0200

author

jlahoda

date

Tue, 15 Oct 2013 22:15:35 +0200

changeset 2133

19e8eebfbe52

parent 2099

1b469fd31e35

child 2136

7f6481e5fe3a

permissions

-rw-r--r--

8026510: The name of com.sun.tools.javac.comp.Annotate.Annotator is confusing
Summary: A mostly automated rename Annotate.Annotator->Annotate.Worker and enterAnnotation->run.
Reviewed-by: emc, jjg

duke@1	1	/*
jjg@1521	2	* Copyright (c) 1999, 2013, 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.javac.jvm;
duke@1	27
duke@1	28	import java.io.*;
duke@1	29	import java.net.URI;
jjg@400	30	import java.net.URISyntaxException;
duke@1	31	import java.nio.CharBuffer;
jjg@428	32	import java.util.Arrays;
duke@1	33	import java.util.EnumSet;
duke@1	34	import java.util.HashMap;
jjg@776	35	import java.util.HashSet;
duke@1	36	import java.util.Map;
duke@1	37	import java.util.Set;
duke@1	38	import javax.lang.model.SourceVersion;
duke@1	39	import javax.tools.JavaFileObject;
duke@1	40	import javax.tools.JavaFileManager;
jjg@256	41	import javax.tools.JavaFileManager.Location;
duke@1	42	import javax.tools.StandardJavaFileManager;
duke@1	43
jjg@256	44	import static javax.tools.StandardLocation.*;
jjg@256	45
duke@1	46	import com.sun.tools.javac.comp.Annotate;
duke@1	47	import com.sun.tools.javac.code.*;
jjg@776	48	import com.sun.tools.javac.code.Lint.LintCategory;
duke@1	49	import com.sun.tools.javac.code.Type.*;
duke@1	50	import com.sun.tools.javac.code.Symbol.*;
duke@1	51	import com.sun.tools.javac.code.Symtab;
jjg@50	52	import com.sun.tools.javac.file.BaseFileObject;
duke@1	53	import com.sun.tools.javac.util.*;
jjg@776	54	import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition;
duke@1	55
duke@1	56	import static com.sun.tools.javac.code.Flags.*;
duke@1	57	import static com.sun.tools.javac.code.Kinds.*;
jjg@1374	58	import static com.sun.tools.javac.code.TypeTag.CLASS;
vromero@2040	59	import static com.sun.tools.javac.code.TypeTag.TYPEVAR;
jjg@256	60	import static com.sun.tools.javac.jvm.ClassFile.*;
jjg@256	61	import static com.sun.tools.javac.jvm.ClassFile.Version.*;
duke@1	62
jjg@1157	63	import static com.sun.tools.javac.main.Option.*;
jjg@700	64
duke@1	65	/** This class provides operations to read a classfile into an internal
duke@1	66	* representation. The internal representation is anchored in a
duke@1	67	* ClassSymbol which contains in its scope symbol representations
duke@1	68	* for all other definitions in the classfile. Top-level Classes themselves
duke@1	69	* appear as members of the scopes of PackageSymbols.
duke@1	70	*
jjg@581	71	* <p><b>This is NOT part of any supported API.
jjg@581	72	* If you write code that depends on this, you do so at your own risk.
duke@1	73	* This code and its internal interfaces are subject to change or
duke@1	74	* deletion without notice.</b>
duke@1	75	*/
jfranck@2007	76	public class ClassReader {
duke@1	77	/** The context key for the class reader. */
duke@1	78	protected static final Context.Key<ClassReader> classReaderKey =
duke@1	79	new Context.Key<ClassReader>();
duke@1	80
ksrini@804	81	public static final int INITIAL_BUFFER_SIZE = 0x0fff0;
ksrini@804	82
duke@1	83	Annotate annotate;
duke@1	84
duke@1	85	/** Switch: verbose output.
duke@1	86	*/
duke@1	87	boolean verbose;
duke@1	88
duke@1	89	/** Switch: check class file for correct minor version, unrecognized
duke@1	90	* attributes.
duke@1	91	*/
duke@1	92	boolean checkClassFile;
duke@1	93
duke@1	94	/** Switch: read constant pool and code sections. This switch is initially
duke@1	95	* set to false but can be turned on from outside.
duke@1	96	*/
duke@1	97	public boolean readAllOfClassFile = false;
duke@1	98
duke@1	99	/** Switch: read GJ signature information.
duke@1	100	*/
duke@1	101	boolean allowGenerics;
duke@1	102
duke@1	103	/** Switch: read varargs attribute.
duke@1	104	*/
duke@1	105	boolean allowVarargs;
duke@1	106
duke@1	107	/** Switch: allow annotations.
duke@1	108	*/
duke@1	109	boolean allowAnnotations;
duke@1	110
mcimadamore@795	111	/** Switch: allow simplified varargs.
mcimadamore@795	112	*/
mcimadamore@795	113	boolean allowSimplifiedVarargs;
mcimadamore@795	114
mcimadamore@795	115	/** Lint option: warn about classfile issues
jjg@776	116	*/
jjg@776	117	boolean lintClassfile;
jjg@776	118
mcimadamore@1393	119	/** Switch: allow default methods
mcimadamore@1393	120	*/
mcimadamore@1393	121	boolean allowDefaultMethods;
mcimadamore@795	122
duke@1	123	/** Switch: preserve parameter names from the variable table.
duke@1	124	*/
duke@1	125	public boolean saveParameterNames;
duke@1	126
duke@1	127	/**
duke@1	128	* Switch: cache completion failures unless -XDdev is used
duke@1	129	*/
duke@1	130	private boolean cacheCompletionFailure;
duke@1	131
duke@1	132	/**
duke@1	133	* Switch: prefer source files instead of newer when both source
duke@1	134	* and class are available
duke@1	135	**/
duke@1	136	public boolean preferSource;
duke@1	137
jjg@1569	138	/**
jjg@1569	139	* The currently selected profile.
jjg@1569	140	*/
jjg@1569	141	public final Profile profile;
jjg@1569	142
duke@1	143	/** The log to use for verbose output
duke@1	144	*/
duke@1	145	final Log log;
duke@1	146
duke@1	147	/** The symbol table. */
duke@1	148	Symtab syms;
duke@1	149
duke@1	150	Types types;
duke@1	151
duke@1	152	/** The name table. */
jjg@113	153	final Names names;
duke@1	154
duke@1	155	/** Force a completion failure on this name
duke@1	156	*/
duke@1	157	final Name completionFailureName;
duke@1	158
duke@1	159	/** Access to files
duke@1	160	*/
duke@1	161	private final JavaFileManager fileManager;
duke@1	162
jjg@12	163	/** Factory for diagnostics
jjg@12	164	*/
jjg@12	165	JCDiagnostic.Factory diagFactory;
jjg@12	166
duke@1	167	/** Can be reassigned from outside:
duke@1	168	* the completer to be used for ".java" files. If this remains unassigned
duke@1	169	* ".java" files will not be loaded.
duke@1	170	*/
duke@1	171	public SourceCompleter sourceCompleter = null;
duke@1	172
duke@1	173	/** A hashtable containing the encountered top-level and member classes,
duke@1	174	* indexed by flat names. The table does not contain local classes.
duke@1	175	*/
duke@1	176	private Map<Name,ClassSymbol> classes;
duke@1	177
duke@1	178	/** A hashtable containing the encountered packages.
duke@1	179	*/
duke@1	180	private Map<Name, PackageSymbol> packages;
duke@1	181
duke@1	182	/** The current scope where type variables are entered.
duke@1	183	*/
duke@1	184	protected Scope typevars;
duke@1	185
duke@1	186	/** The path name of the class file currently being read.
duke@1	187	*/
duke@1	188	protected JavaFileObject currentClassFile = null;
duke@1	189
duke@1	190	/** The class or method currently being read.
duke@1	191	*/
duke@1	192	protected Symbol currentOwner = null;
duke@1	193
duke@1	194	/** The buffer containing the currently read class file.
duke@1	195	*/
ksrini@804	196	byte[] buf = new byte[INITIAL_BUFFER_SIZE];
duke@1	197
duke@1	198	/** The current input pointer.
duke@1	199	*/
ksrini@1309	200	protected int bp;
duke@1	201
duke@1	202	/** The objects of the constant pool.
duke@1	203	*/
duke@1	204	Object[] poolObj;
duke@1	205
duke@1	206	/** For every constant pool entry, an index into buf where the
duke@1	207	* defining section of the entry is found.
duke@1	208	*/
duke@1	209	int[] poolIdx;
duke@1	210
jjg@256	211	/** The major version number of the class file being read. */
jjg@256	212	int majorVersion;
jjg@256	213	/** The minor version number of the class file being read. */
jjg@256	214	int minorVersion;
jjg@256	215
jjg@428	216	/** A table to hold the constant pool indices for method parameter
jjg@428	217	* names, as given in LocalVariableTable attributes.
jjg@428	218	*/
jjg@428	219	int[] parameterNameIndices;
jjg@428	220
jjg@428	221	/**
jjg@428	222	* Whether or not any parameter names have been found.
jjg@428	223	*/
jjg@428	224	boolean haveParameterNameIndices;
jjg@428	225
jjg@1473	226	/** Set this to false every time we start reading a method
jjg@1473	227	* and are saving parameter names. Set it to true when we see
jjg@1473	228	* MethodParameters, if it's set when we see a LocalVariableTable,
jjg@1473	229	* then we ignore the parameter names from the LVT.
jjg@1473	230	*/
jjg@1473	231	boolean sawMethodParameters;
jjg@1473	232
jjg@776	233	/**
jjg@776	234	* The set of attribute names for which warnings have been generated for the current class
jjg@776	235	*/
jjg@776	236	Set<Name> warnedAttrs = new HashSet<Name>();
jjg@776	237
jfranck@2007	238	/**
jfranck@2007	239	* Completer that delegates to the complete-method of this class.
jfranck@2007	240	*/
jfranck@2007	241	private final Completer thisCompleter = new Completer() {
jfranck@2007	242	@Override
jfranck@2007	243	public void complete(Symbol sym) throws CompletionFailure {
jfranck@2007	244	ClassReader.this.complete(sym);
jfranck@2007	245	}
jfranck@2007	246	};
jfranck@2007	247
jfranck@2007	248
duke@1	249	/** Get the ClassReader instance for this invocation. */
duke@1	250	public static ClassReader instance(Context context) {
duke@1	251	ClassReader instance = context.get(classReaderKey);
duke@1	252	if (instance == null)
duke@1	253	instance = new ClassReader(context, true);
duke@1	254	return instance;
duke@1	255	}
duke@1	256
duke@1	257	/** Initialize classes and packages, treating this as the definitive classreader. */
duke@1	258	public void init(Symtab syms) {
duke@1	259	init(syms, true);
duke@1	260	}
duke@1	261
duke@1	262	/** Initialize classes and packages, optionally treating this as
duke@1	263	* the definitive classreader.
duke@1	264	*/
duke@1	265	private void init(Symtab syms, boolean definitive) {
duke@1	266	if (classes != null) return;
duke@1	267
duke@1	268	if (definitive) {
jjg@816	269	Assert.check(packages == null || packages == syms.packages);
duke@1	270	packages = syms.packages;
jjg@816	271	Assert.check(classes == null || classes == syms.classes);
duke@1	272	classes = syms.classes;
duke@1	273	} else {
duke@1	274	packages = new HashMap<Name, PackageSymbol>();
duke@1	275	classes = new HashMap<Name, ClassSymbol>();
duke@1	276	}
duke@1	277
duke@1	278	packages.put(names.empty, syms.rootPackage);
jfranck@2007	279	syms.rootPackage.completer = thisCompleter;
jfranck@2007	280	syms.unnamedPackage.completer = thisCompleter;
duke@1	281	}
duke@1	282
duke@1	283	/** Construct a new class reader, optionally treated as the
duke@1	284	* definitive classreader for this invocation.
duke@1	285	*/
duke@1	286	protected ClassReader(Context context, boolean definitive) {
duke@1	287	if (definitive) context.put(classReaderKey, this);
duke@1	288
jjg@113	289	names = Names.instance(context);
duke@1	290	syms = Symtab.instance(context);
duke@1	291	types = Types.instance(context);
duke@1	292	fileManager = context.get(JavaFileManager.class);
duke@1	293	if (fileManager == null)
duke@1	294	throw new AssertionError("FileManager initialization error");
jjg@12	295	diagFactory = JCDiagnostic.Factory.instance(context);
duke@1	296
duke@1	297	init(syms, definitive);
duke@1	298	log = Log.instance(context);
duke@1	299
duke@1	300	Options options = Options.instance(context);
duke@1	301	annotate = Annotate.instance(context);
jjg@700	302	verbose = options.isSet(VERBOSE);
jjg@700	303	checkClassFile = options.isSet("-checkclassfile");
jjg@1569	304
duke@1	305	Source source = Source.instance(context);
duke@1	306	allowGenerics = source.allowGenerics();
duke@1	307	allowVarargs = source.allowVarargs();
duke@1	308	allowAnnotations = source.allowAnnotations();
mcimadamore@795	309	allowSimplifiedVarargs = source.allowSimplifiedVarargs();
mcimadamore@1393	310	allowDefaultMethods = source.allowDefaultMethods();
jjg@1569	311
jjg@700	312	saveParameterNames = options.isSet("save-parameter-names");
jjg@700	313	cacheCompletionFailure = options.isUnset("dev");
duke@1	314	preferSource = "source".equals(options.get("-Xprefer"));
duke@1	315
jjg@1569	316	profile = Profile.instance(context);
jjg@1569	317
duke@1	318	completionFailureName =
jjg@700	319	options.isSet("failcomplete")
duke@1	320	? names.fromString(options.get("failcomplete"))
duke@1	321	: null;
duke@1	322
duke@1	323	typevars = new Scope(syms.noSymbol);
jjg@256	324
jjg@776	325	lintClassfile = Lint.instance(context).isEnabled(LintCategory.CLASSFILE);
jjg@776	326
jjg@256	327	initAttributeReaders();
duke@1	328	}
duke@1	329
duke@1	330	/** Add member to class unless it is synthetic.
duke@1	331	*/
duke@1	332	private void enterMember(ClassSymbol c, Symbol sym) {
rfield@1587	333	// Synthetic members are not entered -- reason lost to history (optimization?).
rfield@1587	334	// Lambda methods must be entered because they may have inner classes (which reference them)
rfield@1587	335	if ((sym.flags_field & (SYNTHETIC|BRIDGE)) != SYNTHETIC || sym.name.startsWith(names.lambda))
duke@1	336	c.members_field.enter(sym);
duke@1	337	}
duke@1	338
duke@1	339	/************************************************************************
duke@1	340	* Error Diagnoses
duke@1	341	***********************************************************************/
duke@1	342
jjg@12	343
jjg@12	344	public class BadClassFile extends CompletionFailure {
duke@1	345	private static final long serialVersionUID = 0;
duke@1	346
jjg@12	347	public BadClassFile(TypeSymbol sym, JavaFileObject file, JCDiagnostic diag) {
jjg@12	348	super(sym, createBadClassFileDiagnostic(file, diag));
duke@1	349	}
duke@1	350	}
jjg@12	351	// where
jjg@12	352	private JCDiagnostic createBadClassFileDiagnostic(JavaFileObject file, JCDiagnostic diag) {
jjg@12	353	String key = (file.getKind() == JavaFileObject.Kind.SOURCE
jjg@12	354	? "bad.source.file.header" : "bad.class.file.header");
jjg@12	355	return diagFactory.fragment(key, file, diag);
jjg@12	356	}
duke@1	357
duke@1	358	public BadClassFile badClassFile(String key, Object... args) {
duke@1	359	return new BadClassFile (
duke@1	360	currentOwner.enclClass(),
duke@1	361	currentClassFile,
jjg@12	362	diagFactory.fragment(key, args));
duke@1	363	}
duke@1	364
duke@1	365	/************************************************************************
duke@1	366	* Buffer Access
duke@1	367	***********************************************************************/
duke@1	368
duke@1	369	/** Read a character.
duke@1	370	*/
duke@1	371	char nextChar() {
duke@1	372	return (char)(((buf[bp++] & 0xFF) << 8) + (buf[bp++] & 0xFF));
duke@1	373	}
duke@1	374
jjg@308	375	/** Read a byte.
jjg@308	376	*/
jjg@1521	377	int nextByte() {
jjg@1521	378	return buf[bp++] & 0xFF;
jjg@308	379	}
jjg@308	380
duke@1	381	/** Read an integer.
duke@1	382	*/
duke@1	383	int nextInt() {
duke@1	384	return
duke@1	385	((buf[bp++] & 0xFF) << 24) +
duke@1	386	((buf[bp++] & 0xFF) << 16) +
duke@1	387	((buf[bp++] & 0xFF) << 8) +
duke@1	388	(buf[bp++] & 0xFF);
duke@1	389	}
duke@1	390
duke@1	391	/** Extract a character at position bp from buf.
duke@1	392	*/
duke@1	393	char getChar(int bp) {
duke@1	394	return
duke@1	395	(char)(((buf[bp] & 0xFF) << 8) + (buf[bp+1] & 0xFF));
duke@1	396	}
duke@1	397
duke@1	398	/** Extract an integer at position bp from buf.
duke@1	399	*/
duke@1	400	int getInt(int bp) {
duke@1	401	return
duke@1	402	((buf[bp] & 0xFF) << 24) +
duke@1	403	((buf[bp+1] & 0xFF) << 16) +
duke@1	404	((buf[bp+2] & 0xFF) << 8) +
duke@1	405	(buf[bp+3] & 0xFF);
duke@1	406	}
duke@1	407
duke@1	408
duke@1	409	/** Extract a long integer at position bp from buf.
duke@1	410	*/
duke@1	411	long getLong(int bp) {
duke@1	412	DataInputStream bufin =
duke@1	413	new DataInputStream(new ByteArrayInputStream(buf, bp, 8));
duke@1	414	try {
duke@1	415	return bufin.readLong();
duke@1	416	} catch (IOException e) {
duke@1	417	throw new AssertionError(e);
duke@1	418	}
duke@1	419	}
duke@1	420
duke@1	421	/** Extract a float at position bp from buf.
duke@1	422	*/
duke@1	423	float getFloat(int bp) {
duke@1	424	DataInputStream bufin =
duke@1	425	new DataInputStream(new ByteArrayInputStream(buf, bp, 4));
duke@1	426	try {
duke@1	427	return bufin.readFloat();
duke@1	428	} catch (IOException e) {
duke@1	429	throw new AssertionError(e);
duke@1	430	}
duke@1	431	}
duke@1	432
duke@1	433	/** Extract a double at position bp from buf.
duke@1	434	*/
duke@1	435	double getDouble(int bp) {
duke@1	436	DataInputStream bufin =
duke@1	437	new DataInputStream(new ByteArrayInputStream(buf, bp, 8));
duke@1	438	try {
duke@1	439	return bufin.readDouble();
duke@1	440	} catch (IOException e) {
duke@1	441	throw new AssertionError(e);
duke@1	442	}
duke@1	443	}
duke@1	444
duke@1	445	/************************************************************************
duke@1	446	* Constant Pool Access
duke@1	447	***********************************************************************/
duke@1	448
duke@1	449	/** Index all constant pool entries, writing their start addresses into
duke@1	450	* poolIdx.
duke@1	451	*/
duke@1	452	void indexPool() {
duke@1	453	poolIdx = new int[nextChar()];
duke@1	454	poolObj = new Object[poolIdx.length];
duke@1	455	int i = 1;
duke@1	456	while (i < poolIdx.length) {
duke@1	457	poolIdx[i++] = bp;
duke@1	458	byte tag = buf[bp++];
duke@1	459	switch (tag) {
duke@1	460	case CONSTANT_Utf8: case CONSTANT_Unicode: {
duke@1	461	int len = nextChar();
duke@1	462	bp = bp + len;
duke@1	463	break;
duke@1	464	}
duke@1	465	case CONSTANT_Class:
duke@1	466	case CONSTANT_String:
ksrini@826	467	case CONSTANT_MethodType:
duke@1	468	bp = bp + 2;
duke@1	469	break;
ksrini@826	470	case CONSTANT_MethodHandle:
ksrini@826	471	bp = bp + 3;
ksrini@826	472	break;
duke@1	473	case CONSTANT_Fieldref:
duke@1	474	case CONSTANT_Methodref:
duke@1	475	case CONSTANT_InterfaceMethodref:
duke@1	476	case CONSTANT_NameandType:
duke@1	477	case CONSTANT_Integer:
duke@1	478	case CONSTANT_Float:
ksrini@826	479	case CONSTANT_InvokeDynamic:
duke@1	480	bp = bp + 4;
duke@1	481	break;
duke@1	482	case CONSTANT_Long:
duke@1	483	case CONSTANT_Double:
duke@1	484	bp = bp + 8;
duke@1	485	i++;
duke@1	486	break;
duke@1	487	default:
duke@1	488	throw badClassFile("bad.const.pool.tag.at",
duke@1	489	Byte.toString(tag),
duke@1	490	Integer.toString(bp -1));
duke@1	491	}
duke@1	492	}
duke@1	493	}
duke@1	494
duke@1	495	/** Read constant pool entry at start address i, use pool as a cache.
duke@1	496	*/
duke@1	497	Object readPool(int i) {
duke@1	498	Object result = poolObj[i];
duke@1	499	if (result != null) return result;
duke@1	500
duke@1	501	int index = poolIdx[i];
duke@1	502	if (index == 0) return null;
duke@1	503
duke@1	504	byte tag = buf[index];
duke@1	505	switch (tag) {
duke@1	506	case CONSTANT_Utf8:
duke@1	507	poolObj[i] = names.fromUtf(buf, index + 3, getChar(index + 1));
duke@1	508	break;
duke@1	509	case CONSTANT_Unicode:
duke@1	510	throw badClassFile("unicode.str.not.supported");
duke@1	511	case CONSTANT_Class:
duke@1	512	poolObj[i] = readClassOrType(getChar(index + 1));
duke@1	513	break;
duke@1	514	case CONSTANT_String:
duke@1	515	// FIXME: (footprint) do not use toString here
duke@1	516	poolObj[i] = readName(getChar(index + 1)).toString();
duke@1	517	break;
duke@1	518	case CONSTANT_Fieldref: {
duke@1	519	ClassSymbol owner = readClassSymbol(getChar(index + 1));
duke@1	520	NameAndType nt = (NameAndType)readPool(getChar(index + 3));
vromero@1452	521	poolObj[i] = new VarSymbol(0, nt.name, nt.uniqueType.type, owner);
duke@1	522	break;
duke@1	523	}
duke@1	524	case CONSTANT_Methodref:
duke@1	525	case CONSTANT_InterfaceMethodref: {
duke@1	526	ClassSymbol owner = readClassSymbol(getChar(index + 1));
duke@1	527	NameAndType nt = (NameAndType)readPool(getChar(index + 3));
vromero@1452	528	poolObj[i] = new MethodSymbol(0, nt.name, nt.uniqueType.type, owner);
duke@1	529	break;
duke@1	530	}
duke@1	531	case CONSTANT_NameandType:
duke@1	532	poolObj[i] = new NameAndType(
duke@1	533	readName(getChar(index + 1)),
vromero@1452	534	readType(getChar(index + 3)), types);
duke@1	535	break;
duke@1	536	case CONSTANT_Integer:
duke@1	537	poolObj[i] = getInt(index + 1);
duke@1	538	break;
duke@1	539	case CONSTANT_Float:
duke@1	540	poolObj[i] = new Float(getFloat(index + 1));
duke@1	541	break;
duke@1	542	case CONSTANT_Long:
duke@1	543	poolObj[i] = new Long(getLong(index + 1));
duke@1	544	break;
duke@1	545	case CONSTANT_Double:
duke@1	546	poolObj[i] = new Double(getDouble(index + 1));
duke@1	547	break;
ksrini@826	548	case CONSTANT_MethodHandle:
ksrini@826	549	skipBytes(4);
ksrini@826	550	break;
ksrini@826	551	case CONSTANT_MethodType:
ksrini@826	552	skipBytes(3);
ksrini@826	553	break;
ksrini@826	554	case CONSTANT_InvokeDynamic:
ksrini@826	555	skipBytes(5);
ksrini@826	556	break;
duke@1	557	default:
duke@1	558	throw badClassFile("bad.const.pool.tag", Byte.toString(tag));
duke@1	559	}
duke@1	560	return poolObj[i];
duke@1	561	}
duke@1	562
duke@1	563	/** Read signature and convert to type.
duke@1	564	*/
duke@1	565	Type readType(int i) {
duke@1	566	int index = poolIdx[i];
duke@1	567	return sigToType(buf, index + 3, getChar(index + 1));
duke@1	568	}
duke@1	569
duke@1	570	/** If name is an array type or class signature, return the
duke@1	571	* corresponding type; otherwise return a ClassSymbol with given name.
duke@1	572	*/
duke@1	573	Object readClassOrType(int i) {
duke@1	574	int index = poolIdx[i];
duke@1	575	int len = getChar(index + 1);
duke@1	576	int start = index + 3;
jjg@816	577	Assert.check(buf[start] == '[' || buf[start + len - 1] != ';');
duke@1	578	// by the above assertion, the following test can be
duke@1	579	// simplified to (buf[start] == '[')
duke@1	580	return (buf[start] == '[' || buf[start + len - 1] == ';')
duke@1	581	? (Object)sigToType(buf, start, len)
duke@1	582	: (Object)enterClass(names.fromUtf(internalize(buf, start,
duke@1	583	len)));
duke@1	584	}
duke@1	585
duke@1	586	/** Read signature and convert to type parameters.
duke@1	587	*/
duke@1	588	List<Type> readTypeParams(int i) {
duke@1	589	int index = poolIdx[i];
duke@1	590	return sigToTypeParams(buf, index + 3, getChar(index + 1));
duke@1	591	}
duke@1	592
duke@1	593	/** Read class entry.
duke@1	594	*/
duke@1	595	ClassSymbol readClassSymbol(int i) {
duke@1	596	return (ClassSymbol) (readPool(i));
duke@1	597	}
duke@1	598
duke@1	599	/** Read name.
duke@1	600	*/
duke@1	601	Name readName(int i) {
duke@1	602	return (Name) (readPool(i));
duke@1	603	}
duke@1	604
duke@1	605	/************************************************************************
duke@1	606	* Reading Types
duke@1	607	***********************************************************************/
duke@1	608
duke@1	609	/** The unread portion of the currently read type is
duke@1	610	* signature[sigp..siglimit-1].
duke@1	611	*/
duke@1	612	byte[] signature;
duke@1	613	int sigp;
duke@1	614	int siglimit;
duke@1	615	boolean sigEnterPhase = false;
duke@1	616
duke@1	617	/** Convert signature to type, where signature is a byte array segment.
duke@1	618	*/
duke@1	619	Type sigToType(byte[] sig, int offset, int len) {
duke@1	620	signature = sig;
duke@1	621	sigp = offset;
duke@1	622	siglimit = offset + len;
duke@1	623	return sigToType();
duke@1	624	}
duke@1	625
duke@1	626	/** Convert signature to type, where signature is implicit.
duke@1	627	*/
duke@1	628	Type sigToType() {
duke@1	629	switch ((char) signature[sigp]) {
duke@1	630	case 'T':
duke@1	631	sigp++;
duke@1	632	int start = sigp;
duke@1	633	while (signature[sigp] != ';') sigp++;
duke@1	634	sigp++;
duke@1	635	return sigEnterPhase
duke@1	636	? Type.noType
duke@1	637	: findTypeVar(names.fromUtf(signature, start, sigp - 1 - start));
duke@1	638	case '+': {
duke@1	639	sigp++;
duke@1	640	Type t = sigToType();
duke@1	641	return new WildcardType(t, BoundKind.EXTENDS,
duke@1	642	syms.boundClass);
duke@1	643	}
duke@1	644	case '*':
duke@1	645	sigp++;
duke@1	646	return new WildcardType(syms.objectType, BoundKind.UNBOUND,
duke@1	647	syms.boundClass);
duke@1	648	case '-': {
duke@1	649	sigp++;
duke@1	650	Type t = sigToType();
duke@1	651	return new WildcardType(t, BoundKind.SUPER,
duke@1	652	syms.boundClass);
duke@1	653	}
duke@1	654	case 'B':
duke@1	655	sigp++;
duke@1	656	return syms.byteType;
duke@1	657	case 'C':
duke@1	658	sigp++;
duke@1	659	return syms.charType;
duke@1	660	case 'D':
duke@1	661	sigp++;
duke@1	662	return syms.doubleType;
duke@1	663	case 'F':
duke@1	664	sigp++;
duke@1	665	return syms.floatType;
duke@1	666	case 'I':
duke@1	667	sigp++;
duke@1	668	return syms.intType;
duke@1	669	case 'J':
duke@1	670	sigp++;
duke@1	671	return syms.longType;
duke@1	672	case 'L':
duke@1	673	{
duke@1	674	// int oldsigp = sigp;
duke@1	675	Type t = classSigToType();
duke@1	676	if (sigp < siglimit && signature[sigp] == '.')
duke@1	677	throw badClassFile("deprecated inner class signature syntax " +
duke@1	678	"(please recompile from source)");
duke@1	679	/*
duke@1	680	System.err.println(" decoded " +
duke@1	681	new String(signature, oldsigp, sigp-oldsigp) +
duke@1	682	" => " + t + " outer " + t.outer());
duke@1	683	*/
duke@1	684	return t;
duke@1	685	}
duke@1	686	case 'S':
duke@1	687	sigp++;
duke@1	688	return syms.shortType;
duke@1	689	case 'V':
duke@1	690	sigp++;
duke@1	691	return syms.voidType;
duke@1	692	case 'Z':
duke@1	693	sigp++;
duke@1	694	return syms.booleanType;
duke@1	695	case '[':
duke@1	696	sigp++;
duke@1	697	return new ArrayType(sigToType(), syms.arrayClass);
duke@1	698	case '(':
duke@1	699	sigp++;
duke@1	700	List<Type> argtypes = sigToTypes(')');
duke@1	701	Type restype = sigToType();
duke@1	702	List<Type> thrown = List.nil();
duke@1	703	while (signature[sigp] == '^') {
duke@1	704	sigp++;
duke@1	705	thrown = thrown.prepend(sigToType());
duke@1	706	}
vromero@2040	707	// if there is a typevar in the throws clause we should state it.
vromero@2040	708	for (List<Type> l = thrown; l.nonEmpty(); l = l.tail) {
vromero@2040	709	if (l.head.hasTag(TYPEVAR)) {
vromero@2040	710	l.head.tsym.flags_field |= THROWS;
vromero@2040	711	}
vromero@2040	712	}
duke@1	713	return new MethodType(argtypes,
duke@1	714	restype,
duke@1	715	thrown.reverse(),
duke@1	716	syms.methodClass);
duke@1	717	case '<':
duke@1	718	typevars = typevars.dup(currentOwner);
duke@1	719	Type poly = new ForAll(sigToTypeParams(), sigToType());
duke@1	720	typevars = typevars.leave();
duke@1	721	return poly;
duke@1	722	default:
duke@1	723	throw badClassFile("bad.signature",
duke@1	724	Convert.utf2string(signature, sigp, 10));
duke@1	725	}
duke@1	726	}
duke@1	727
duke@1	728	byte[] signatureBuffer = new byte[0];
duke@1	729	int sbp = 0;
duke@1	730	/** Convert class signature to type, where signature is implicit.
duke@1	731	*/
duke@1	732	Type classSigToType() {
duke@1	733	if (signature[sigp] != 'L')
duke@1	734	throw badClassFile("bad.class.signature",
duke@1	735	Convert.utf2string(signature, sigp, 10));
duke@1	736	sigp++;
duke@1	737	Type outer = Type.noType;
duke@1	738	int startSbp = sbp;
duke@1	739
duke@1	740	while (true) {
duke@1	741	final byte c = signature[sigp++];
duke@1	742	switch (c) {
duke@1	743
duke@1	744	case ';': { // end
duke@1	745	ClassSymbol t = enterClass(names.fromUtf(signatureBuffer,
duke@1	746	startSbp,
duke@1	747	sbp - startSbp));
vromero@2001	748
vromero@2001	749	try {
vromero@2001	750	return (outer == Type.noType) ?
vromero@2001	751	t.erasure(types) :
vromero@2001	752	new ClassType(outer, List.<Type>nil(), t);
vromero@2001	753	} finally {
vromero@2001	754	sbp = startSbp;
vromero@2001	755	}
duke@1	756	}
duke@1	757
duke@1	758	case '<': // generic arguments
duke@1	759	ClassSymbol t = enterClass(names.fromUtf(signatureBuffer,
duke@1	760	startSbp,
duke@1	761	sbp - startSbp));
duke@1	762	outer = new ClassType(outer, sigToTypes('>'), t) {
duke@1	763	boolean completed = false;
jjg@256	764	@Override
duke@1	765	public Type getEnclosingType() {
duke@1	766	if (!completed) {
duke@1	767	completed = true;
duke@1	768	tsym.complete();
duke@1	769	Type enclosingType = tsym.type.getEnclosingType();
duke@1	770	if (enclosingType != Type.noType) {
duke@1	771	List<Type> typeArgs =
duke@1	772	super.getEnclosingType().allparams();
duke@1	773	List<Type> typeParams =
duke@1	774	enclosingType.allparams();
duke@1	775	if (typeParams.length() != typeArgs.length()) {
duke@1	776	// no "rare" types
duke@1	777	super.setEnclosingType(types.erasure(enclosingType));
duke@1	778	} else {
duke@1	779	super.setEnclosingType(types.subst(enclosingType,
duke@1	780	typeParams,
duke@1	781	typeArgs));
duke@1	782	}
duke@1	783	} else {
duke@1	784	super.setEnclosingType(Type.noType);
duke@1	785	}
duke@1	786	}
duke@1	787	return super.getEnclosingType();
duke@1	788	}
jjg@256	789	@Override
duke@1	790	public void setEnclosingType(Type outer) {
duke@1	791	throw new UnsupportedOperationException();
duke@1	792	}
duke@1	793	};
duke@1	794	switch (signature[sigp++]) {
duke@1	795	case ';':
duke@1	796	if (sigp < signature.length && signature[sigp] == '.') {
duke@1	797	// support old-style GJC signatures
duke@1	798	// The signature produced was
duke@1	799	// Lfoo/Outer<Lfoo/X;>;.Lfoo/Outer$Inner<Lfoo/Y;>;
duke@1	800	// rather than say
duke@1	801	// Lfoo/Outer<Lfoo/X;>.Inner<Lfoo/Y;>;
duke@1	802	// so we skip past ".Lfoo/Outer$"
duke@1	803	sigp += (sbp - startSbp) + // "foo/Outer"
duke@1	804	3; // ".L" and "$"
duke@1	805	signatureBuffer[sbp++] = (byte)'$';
duke@1	806	break;
duke@1	807	} else {
duke@1	808	sbp = startSbp;
duke@1	809	return outer;
duke@1	810	}
duke@1	811	case '.':
duke@1	812	signatureBuffer[sbp++] = (byte)'$';
duke@1	813	break;
duke@1	814	default:
duke@1	815	throw new AssertionError(signature[sigp-1]);
duke@1	816	}
duke@1	817	continue;
duke@1	818
duke@1	819	case '.':
vromero@2001	820	//we have seen an enclosing non-generic class
vromero@2001	821	if (outer != Type.noType) {
vromero@2001	822	t = enterClass(names.fromUtf(signatureBuffer,
vromero@2001	823	startSbp,
vromero@2001	824	sbp - startSbp));
vromero@2001	825	outer = new ClassType(outer, List.<Type>nil(), t);
vromero@2001	826	}
duke@1	827	signatureBuffer[sbp++] = (byte)'$';
duke@1	828	continue;
duke@1	829	case '/':
duke@1	830	signatureBuffer[sbp++] = (byte)'.';
duke@1	831	continue;
duke@1	832	default:
duke@1	833	signatureBuffer[sbp++] = c;
duke@1	834	continue;
duke@1	835	}
duke@1	836	}
duke@1	837	}
duke@1	838
duke@1	839	/** Convert (implicit) signature to list of types
duke@1	840	* until `terminator' is encountered.
duke@1	841	*/
duke@1	842	List<Type> sigToTypes(char terminator) {
duke@1	843	List<Type> head = List.of(null);
duke@1	844	List<Type> tail = head;
duke@1	845	while (signature[sigp] != terminator)
duke@1	846	tail = tail.setTail(List.of(sigToType()));
duke@1	847	sigp++;
duke@1	848	return head.tail;
duke@1	849	}
duke@1	850
duke@1	851	/** Convert signature to type parameters, where signature is a byte
duke@1	852	* array segment.
duke@1	853	*/
duke@1	854	List<Type> sigToTypeParams(byte[] sig, int offset, int len) {
duke@1	855	signature = sig;
duke@1	856	sigp = offset;
duke@1	857	siglimit = offset + len;
duke@1	858	return sigToTypeParams();
duke@1	859	}
duke@1	860
duke@1	861	/** Convert signature to type parameters, where signature is implicit.
duke@1	862	*/
duke@1	863	List<Type> sigToTypeParams() {
duke@1	864	List<Type> tvars = List.nil();
duke@1	865	if (signature[sigp] == '<') {
duke@1	866	sigp++;
duke@1	867	int start = sigp;
duke@1	868	sigEnterPhase = true;
duke@1	869	while (signature[sigp] != '>')
duke@1	870	tvars = tvars.prepend(sigToTypeParam());
duke@1	871	sigEnterPhase = false;
duke@1	872	sigp = start;
duke@1	873	while (signature[sigp] != '>')
duke@1	874	sigToTypeParam();
duke@1	875	sigp++;
duke@1	876	}
duke@1	877	return tvars.reverse();
duke@1	878	}
duke@1	879
duke@1	880	/** Convert (implicit) signature to type parameter.
duke@1	881	*/
duke@1	882	Type sigToTypeParam() {
duke@1	883	int start = sigp;
duke@1	884	while (signature[sigp] != ':') sigp++;
duke@1	885	Name name = names.fromUtf(signature, start, sigp - start);
duke@1	886	TypeVar tvar;
duke@1	887	if (sigEnterPhase) {
duke@1	888	tvar = new TypeVar(name, currentOwner, syms.botType);
duke@1	889	typevars.enter(tvar.tsym);
duke@1	890	} else {
duke@1	891	tvar = (TypeVar)findTypeVar(name);
duke@1	892	}
duke@1	893	List<Type> bounds = List.nil();
mcimadamore@1436	894	boolean allInterfaces = false;
duke@1	895	if (signature[sigp] == ':' && signature[sigp+1] == ':') {
duke@1	896	sigp++;
mcimadamore@1436	897	allInterfaces = true;
duke@1	898	}
duke@1	899	while (signature[sigp] == ':') {
duke@1	900	sigp++;
duke@1	901	bounds = bounds.prepend(sigToType());
duke@1	902	}
duke@1	903	if (!sigEnterPhase) {
mcimadamore@1436	904	types.setBounds(tvar, bounds.reverse(), allInterfaces);
duke@1	905	}
duke@1	906	return tvar;
duke@1	907	}
duke@1	908
duke@1	909	/** Find type variable with given name in `typevars' scope.
duke@1	910	*/
duke@1	911	Type findTypeVar(Name name) {
duke@1	912	Scope.Entry e = typevars.lookup(name);
duke@1	913	if (e.scope != null) {
duke@1	914	return e.sym.type;
duke@1	915	} else {
duke@1	916	if (readingClassAttr) {
duke@1	917	// While reading the class attribute, the supertypes
duke@1	918	// might refer to a type variable from an enclosing element
duke@1	919	// (method or class).
duke@1	920	// If the type variable is defined in the enclosing class,
duke@1	921	// we can actually find it in
duke@1	922	// currentOwner.owner.type.getTypeArguments()
duke@1	923	// However, until we have read the enclosing method attribute
duke@1	924	// we don't know for sure if this owner is correct. It could
duke@1	925	// be a method and there is no way to tell before reading the
duke@1	926	// enclosing method attribute.
duke@1	927	TypeVar t = new TypeVar(name, currentOwner, syms.botType);
duke@1	928	missingTypeVariables = missingTypeVariables.prepend(t);
duke@1	929	// System.err.println("Missing type var " + name);
duke@1	930	return t;
duke@1	931	}
duke@1	932	throw badClassFile("undecl.type.var", name);
duke@1	933	}
duke@1	934	}
duke@1	935
duke@1	936	/************************************************************************
duke@1	937	* Reading Attributes
duke@1	938	***********************************************************************/
duke@1	939
jjg@256	940	protected enum AttributeKind { CLASS, MEMBER };
jjg@256	941	protected abstract class AttributeReader {
ksrini@1309	942	protected AttributeReader(Name name, ClassFile.Version version, Set<AttributeKind> kinds) {
jjg@256	943	this.name = name;
jjg@256	944	this.version = version;
jjg@256	945	this.kinds = kinds;
jjg@256	946	}
jjg@256	947
ksrini@1309	948	protected boolean accepts(AttributeKind kind) {
jjg@776	949	if (kinds.contains(kind)) {
jjg@776	950	if (majorVersion > version.major || (majorVersion == version.major && minorVersion >= version.minor))
jjg@776	951	return true;
jjg@776	952
jjg@776	953	if (lintClassfile && !warnedAttrs.contains(name)) {
jjg@776	954	JavaFileObject prev = log.useSource(currentClassFile);
jjg@776	955	try {
jjg@776	956	log.warning(LintCategory.CLASSFILE, (DiagnosticPosition) null, "future.attr",
jjg@776	957	name, version.major, version.minor, majorVersion, minorVersion);
jjg@776	958	} finally {
jjg@776	959	log.useSource(prev);
jjg@776	960	}
jjg@776	961	warnedAttrs.add(name);
jjg@776	962	}
jjg@776	963	}
jjg@776	964	return false;
jjg@256	965	}
jjg@256	966
ksrini@1309	967	protected abstract void read(Symbol sym, int attrLen);
jjg@256	968
ksrini@1309	969	protected final Name name;
ksrini@1309	970	protected final ClassFile.Version version;
ksrini@1309	971	protected final Set<AttributeKind> kinds;
jjg@256	972	}
jjg@256	973
jjg@256	974	protected Set<AttributeKind> CLASS_ATTRIBUTE =
jjg@256	975	EnumSet.of(AttributeKind.CLASS);
jjg@256	976	protected Set<AttributeKind> MEMBER_ATTRIBUTE =
jjg@256	977	EnumSet.of(AttributeKind.MEMBER);
jjg@256	978	protected Set<AttributeKind> CLASS_OR_MEMBER_ATTRIBUTE =
jjg@256	979	EnumSet.of(AttributeKind.CLASS, AttributeKind.MEMBER);
jjg@256	980
jjg@256	981	protected Map<Name, AttributeReader> attributeReaders = new HashMap<Name, AttributeReader>();
jjg@256	982
jjg@776	983	private void initAttributeReaders() {
jjg@256	984	AttributeReader[] readers = {
jjg@256	985	// v45.3 attributes
jjg@256	986
jjg@256	987	new AttributeReader(names.Code, V45_3, MEMBER_ATTRIBUTE) {
ksrini@1309	988	protected void read(Symbol sym, int attrLen) {
jjg@256	989	if (readAllOfClassFile || saveParameterNames)
jjg@256	990	((MethodSymbol)sym).code = readCode(sym);
jjg@256	991	else
jjg@256	992	bp = bp + attrLen;
jjg@256	993	}
jjg@256	994	},
jjg@256	995
jjg@256	996	new AttributeReader(names.ConstantValue, V45_3, MEMBER_ATTRIBUTE) {
ksrini@1309	997	protected void read(Symbol sym, int attrLen) {
jjg@256	998	Object v = readPool(nextChar());
jjg@256	999	// Ignore ConstantValue attribute if field not final.
jjg@256	1000	if ((sym.flags() & FINAL) != 0)
jjg@256	1001	((VarSymbol) sym).setData(v);
jjg@256	1002	}
jjg@256	1003	},
jjg@256	1004
jjg@256	1005	new AttributeReader(names.Deprecated, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1006	protected void read(Symbol sym, int attrLen) {
jjg@256	1007	sym.flags_field |= DEPRECATED;
jjg@256	1008	}
jjg@256	1009	},
jjg@256	1010
jjg@256	1011	new AttributeReader(names.Exceptions, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1012	protected void read(Symbol sym, int attrLen) {
jjg@256	1013	int nexceptions = nextChar();
jjg@256	1014	List<Type> thrown = List.nil();
jjg@256	1015	for (int j = 0; j < nexceptions; j++)
jjg@256	1016	thrown = thrown.prepend(readClassSymbol(nextChar()).type);
jjg@256	1017	if (sym.type.getThrownTypes().isEmpty())
jjg@256	1018	sym.type.asMethodType().thrown = thrown.reverse();
jjg@256	1019	}
jjg@256	1020	},
jjg@256	1021
jjg@256	1022	new AttributeReader(names.InnerClasses, V45_3, CLASS_ATTRIBUTE) {
ksrini@1309	1023	protected void read(Symbol sym, int attrLen) {
jjg@256	1024	ClassSymbol c = (ClassSymbol) sym;
jjg@256	1025	readInnerClasses(c);
jjg@256	1026	}
jjg@256	1027	},
jjg@256	1028
jjg@256	1029	new AttributeReader(names.LocalVariableTable, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1030	protected void read(Symbol sym, int attrLen) {
jjg@256	1031	int newbp = bp + attrLen;
jjg@1473	1032	if (saveParameterNames && !sawMethodParameters) {
jjg@428	1033	// Pick up parameter names from the variable table.
jjg@428	1034	// Parameter names are not explicitly identified as such,
jjg@428	1035	// but all parameter name entries in the LocalVariableTable
jjg@428	1036	// have a start_pc of 0. Therefore, we record the name
jjg@428	1037	// indicies of all slots with a start_pc of zero in the
jjg@428	1038	// parameterNameIndicies array.
jjg@428	1039	// Note that this implicitly honors the JVMS spec that
jjg@428	1040	// there may be more than one LocalVariableTable, and that
jjg@428	1041	// there is no specified ordering for the entries.
jjg@256	1042	int numEntries = nextChar();
jjg@428	1043	for (int i = 0; i < numEntries; i++) {
jjg@256	1044	int start_pc = nextChar();
jjg@256	1045	int length = nextChar();
jjg@256	1046	int nameIndex = nextChar();
jjg@256	1047	int sigIndex = nextChar();
jjg@256	1048	int register = nextChar();
jjg@428	1049	if (start_pc == 0) {
jjg@428	1050	// ensure array large enough
jjg@428	1051	if (register >= parameterNameIndices.length) {
jjg@428	1052	int newSize = Math.max(register, parameterNameIndices.length + 8);
jjg@428	1053	parameterNameIndices =
jjg@428	1054	Arrays.copyOf(parameterNameIndices, newSize);
jjg@256	1055	}
jjg@428	1056	parameterNameIndices[register] = nameIndex;
jjg@428	1057	haveParameterNameIndices = true;
jjg@256	1058	}
jjg@256	1059	}
jjg@256	1060	}
jjg@256	1061	bp = newbp;
jjg@256	1062	}
jjg@256	1063	},
jjg@256	1064
jjg@1473	1065	new AttributeReader(names.MethodParameters, V52, MEMBER_ATTRIBUTE) {
jjg@1473	1066	protected void read(Symbol sym, int attrlen) {
jjg@1473	1067	int newbp = bp + attrlen;
jjg@1473	1068	if (saveParameterNames) {
jjg@1473	1069	sawMethodParameters = true;
jjg@1473	1070	int numEntries = nextByte();
jjg@1473	1071	parameterNameIndices = new int[numEntries];
jjg@1473	1072	haveParameterNameIndices = true;
jjg@1473	1073	for (int i = 0; i < numEntries; i++) {
jjg@1473	1074	int nameIndex = nextChar();
ksrini@1592	1075	int flags = nextChar();
jjg@1473	1076	parameterNameIndices[i] = nameIndex;
jjg@1473	1077	}
jjg@1473	1078	}
jjg@1473	1079	bp = newbp;
jjg@1473	1080	}
jjg@1473	1081	},
jjg@1473	1082
jjg@1473	1083
jjg@256	1084	new AttributeReader(names.SourceFile, V45_3, CLASS_ATTRIBUTE) {
ksrini@1309	1085	protected void read(Symbol sym, int attrLen) {
jjg@256	1086	ClassSymbol c = (ClassSymbol) sym;
jjg@256	1087	Name n = readName(nextChar());
jjg@256	1088	c.sourcefile = new SourceFileObject(n, c.flatname);
ohrstrom@1384	1089	// If the class is a toplevel class, originating from a Java source file,
ohrstrom@1384	1090	// but the class name does not match the file name, then it is
ohrstrom@1384	1091	// an auxiliary class.
ohrstrom@1384	1092	String sn = n.toString();
ohrstrom@1384	1093	if (c.owner.kind == Kinds.PCK &&
ohrstrom@1384	1094	sn.endsWith(".java") &&
ohrstrom@1384	1095	!sn.equals(c.name.toString()+".java")) {
ohrstrom@1384	1096	c.flags_field |= AUXILIARY;
ohrstrom@1384	1097	}
jjg@256	1098	}
jjg@256	1099	},
jjg@256	1100
jjg@256	1101	new AttributeReader(names.Synthetic, V45_3, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1102	protected void read(Symbol sym, int attrLen) {
jjg@256	1103	// bridge methods are visible when generics not enabled
jjg@256	1104	if (allowGenerics || (sym.flags_field & BRIDGE) == 0)
jjg@256	1105	sym.flags_field |= SYNTHETIC;
jjg@256	1106	}
jjg@256	1107	},
jjg@256	1108
jjg@256	1109	// standard v49 attributes
jjg@256	1110
jjg@256	1111	new AttributeReader(names.EnclosingMethod, V49, CLASS_ATTRIBUTE) {
ksrini@1309	1112	protected void read(Symbol sym, int attrLen) {
jjg@256	1113	int newbp = bp + attrLen;
jjg@256	1114	readEnclosingMethodAttr(sym);
jjg@256	1115	bp = newbp;
jjg@256	1116	}
jjg@256	1117	},
jjg@256	1118
jjg@256	1119	new AttributeReader(names.Signature, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
jjg@256	1120	@Override
ksrini@1309	1121	protected boolean accepts(AttributeKind kind) {
jjg@256	1122	return super.accepts(kind) && allowGenerics;
jjg@256	1123	}
jjg@256	1124
ksrini@1309	1125	protected void read(Symbol sym, int attrLen) {
jjg@256	1126	if (sym.kind == TYP) {
jjg@256	1127	ClassSymbol c = (ClassSymbol) sym;
jjg@256	1128	readingClassAttr = true;
jjg@256	1129	try {
jjg@256	1130	ClassType ct1 = (ClassType)c.type;
jjg@816	1131	Assert.check(c == currentOwner);
jjg@256	1132	ct1.typarams_field = readTypeParams(nextChar());
jjg@256	1133	ct1.supertype_field = sigToType();
jjg@256	1134	ListBuffer<Type> is = new ListBuffer<Type>();
jjg@256	1135	while (sigp != siglimit) is.append(sigToType());
jjg@256	1136	ct1.interfaces_field = is.toList();
jjg@256	1137	} finally {
jjg@256	1138	readingClassAttr = false;
jjg@256	1139	}
jjg@256	1140	} else {
jjg@256	1141	List<Type> thrown = sym.type.getThrownTypes();
jjg@256	1142	sym.type = readType(nextChar());
jjg@256	1143	//- System.err.println(" # " + sym.type);
jjg@256	1144	if (sym.kind == MTH && sym.type.getThrownTypes().isEmpty())
jjg@256	1145	sym.type.asMethodType().thrown = thrown;
jjg@256	1146
jjg@256	1147	}
jjg@256	1148	}
jjg@256	1149	},
jjg@256	1150
jjg@256	1151	// v49 annotation attributes
jjg@256	1152
jjg@256	1153	new AttributeReader(names.AnnotationDefault, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1154	protected void read(Symbol sym, int attrLen) {
jjg@256	1155	attachAnnotationDefault(sym);
jjg@256	1156	}
jjg@256	1157	},
jjg@256	1158
jjg@256	1159	new AttributeReader(names.RuntimeInvisibleAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1160	protected void read(Symbol sym, int attrLen) {
jjg@256	1161	attachAnnotations(sym);
jjg@256	1162	}
jjg@256	1163	},
jjg@256	1164
jjg@256	1165	new AttributeReader(names.RuntimeInvisibleParameterAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1166	protected void read(Symbol sym, int attrLen) {
jjg@256	1167	attachParameterAnnotations(sym);
jjg@256	1168	}
jjg@256	1169	},
jjg@256	1170
jjg@256	1171	new AttributeReader(names.RuntimeVisibleAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1172	protected void read(Symbol sym, int attrLen) {
jjg@256	1173	attachAnnotations(sym);
jjg@256	1174	}
jjg@256	1175	},
jjg@256	1176
jjg@256	1177	new AttributeReader(names.RuntimeVisibleParameterAnnotations, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1178	protected void read(Symbol sym, int attrLen) {
jjg@256	1179	attachParameterAnnotations(sym);
jjg@256	1180	}
jjg@256	1181	},
jjg@256	1182
jjg@256	1183	// additional "legacy" v49 attributes, superceded by flags
jjg@256	1184
jjg@256	1185	new AttributeReader(names.Annotation, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1186	protected void read(Symbol sym, int attrLen) {
jjg@256	1187	if (allowAnnotations)
jjg@256	1188	sym.flags_field |= ANNOTATION;
jjg@256	1189	}
jjg@256	1190	},
jjg@256	1191
jjg@256	1192	new AttributeReader(names.Bridge, V49, MEMBER_ATTRIBUTE) {
ksrini@1309	1193	protected void read(Symbol sym, int attrLen) {
jjg@256	1194	sym.flags_field |= BRIDGE;
jjg@256	1195	if (!allowGenerics)
jjg@256	1196	sym.flags_field &= ~SYNTHETIC;
jjg@256	1197	}
jjg@256	1198	},
jjg@256	1199
jjg@256	1200	new AttributeReader(names.Enum, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1201	protected void read(Symbol sym, int attrLen) {
jjg@256	1202	sym.flags_field |= ENUM;
jjg@256	1203	}
jjg@256	1204	},
jjg@256	1205
jjg@256	1206	new AttributeReader(names.Varargs, V49, CLASS_OR_MEMBER_ATTRIBUTE) {
ksrini@1309	1207	protected void read(Symbol sym, int attrLen) {
jjg@256	1208	if (allowVarargs)
jjg@256	1209	sym.flags_field |= VARARGS;
jjg@256	1210	}
jjg@308	1211	},
jjg@308	1212
jjg@1521	1213	new AttributeReader(names.RuntimeVisibleTypeAnnotations, V52, CLASS_OR_MEMBER_ATTRIBUTE) {
jjg@1521	1214	protected void read(Symbol sym, int attrLen) {
jjg@1521	1215	attachTypeAnnotations(sym);
jjg@1521	1216	}
jjg@1521	1217	},
jjg@1521	1218
jjg@1521	1219	new AttributeReader(names.RuntimeInvisibleTypeAnnotations, V52, CLASS_OR_MEMBER_ATTRIBUTE) {
jjg@1521	1220	protected void read(Symbol sym, int attrLen) {
jjg@1521	1221	attachTypeAnnotations(sym);
jjg@1521	1222	}
jjg@1521	1223	},
jjg@1521	1224
jjg@1521	1225
jjg@256	1226	// The following attributes for a Code attribute are not currently handled
jjg@256	1227	// StackMapTable
jjg@256	1228	// SourceDebugExtension
jjg@256	1229	// LineNumberTable
jjg@256	1230	// LocalVariableTypeTable
jjg@256	1231	};
jjg@256	1232
jjg@256	1233	for (AttributeReader r: readers)
jjg@256	1234	attributeReaders.put(r.name, r);
jjg@256	1235	}
jjg@256	1236
duke@1	1237	/** Report unrecognized attribute.
duke@1	1238	*/
duke@1	1239	void unrecognized(Name attrName) {
duke@1	1240	if (checkClassFile)
duke@1	1241	printCCF("ccf.unrecognized.attribute", attrName);
duke@1	1242	}
duke@1	1243
jjg@256	1244
duke@1	1245
ksrini@1309	1246	protected void readEnclosingMethodAttr(Symbol sym) {
duke@1	1247	// sym is a nested class with an "Enclosing Method" attribute
duke@1	1248	// remove sym from it's current owners scope and place it in
duke@1	1249	// the scope specified by the attribute
duke@1	1250	sym.owner.members().remove(sym);
duke@1	1251	ClassSymbol self = (ClassSymbol)sym;
duke@1	1252	ClassSymbol c = readClassSymbol(nextChar());
duke@1	1253	NameAndType nt = (NameAndType)readPool(nextChar());
duke@1	1254
jjg@952	1255	if (c.members_field == null)
jjg@952	1256	throw badClassFile("bad.enclosing.class", self, c);
jjg@952	1257
duke@1	1258	MethodSymbol m = findMethod(nt, c.members_field, self.flags());
duke@1	1259	if (nt != null && m == null)
duke@1	1260	throw badClassFile("bad.enclosing.method", self);
duke@1	1261
duke@1	1262	self.name = simpleBinaryName(self.flatname, c.flatname) ;
duke@1	1263	self.owner = m != null ? m : c;
jjg@113	1264	if (self.name.isEmpty())
darcy@515	1265	self.fullname = names.empty;
duke@1	1266	else
duke@1	1267	self.fullname = ClassSymbol.formFullName(self.name, self.owner);
duke@1	1268
duke@1	1269	if (m != null) {
duke@1	1270	((ClassType)sym.type).setEnclosingType(m.type);
duke@1	1271	} else if ((self.flags_field & STATIC) == 0) {
duke@1	1272	((ClassType)sym.type).setEnclosingType(c.type);
duke@1	1273	} else {
duke@1	1274	((ClassType)sym.type).setEnclosingType(Type.noType);
duke@1	1275	}
duke@1	1276	enterTypevars(self);
duke@1	1277	if (!missingTypeVariables.isEmpty()) {
duke@1	1278	ListBuffer<Type> typeVars = new ListBuffer<Type>();
duke@1	1279	for (Type typevar : missingTypeVariables) {
duke@1	1280	typeVars.append(findTypeVar(typevar.tsym.name));
duke@1	1281	}
duke@1	1282	foundTypeVariables = typeVars.toList();
duke@1	1283	} else {
duke@1	1284	foundTypeVariables = List.nil();
duke@1	1285	}
duke@1	1286	}
duke@1	1287
duke@1	1288	// See java.lang.Class
duke@1	1289	private Name simpleBinaryName(Name self, Name enclosing) {
duke@1	1290	String simpleBinaryName = self.toString().substring(enclosing.toString().length());
duke@1	1291	if (simpleBinaryName.length() < 1 || simpleBinaryName.charAt(0) != '$')
duke@1	1292	throw badClassFile("bad.enclosing.method", self);
duke@1	1293	int index = 1;
duke@1	1294	while (index < simpleBinaryName.length() &&
duke@1	1295	isAsciiDigit(simpleBinaryName.charAt(index)))
duke@1	1296	index++;
duke@1	1297	return names.fromString(simpleBinaryName.substring(index));
duke@1	1298	}
duke@1	1299
duke@1	1300	private MethodSymbol findMethod(NameAndType nt, Scope scope, long flags) {
duke@1	1301	if (nt == null)
duke@1	1302	return null;
duke@1	1303
vromero@1452	1304	MethodType type = nt.uniqueType.type.asMethodType();
duke@1	1305
duke@1	1306	for (Scope.Entry e = scope.lookup(nt.name); e.scope != null; e = e.next())
duke@1	1307	if (e.sym.kind == MTH && isSameBinaryType(e.sym.type.asMethodType(), type))
duke@1	1308	return (MethodSymbol)e.sym;
duke@1	1309
duke@1	1310	if (nt.name != names.init)
duke@1	1311	// not a constructor
duke@1	1312	return null;
duke@1	1313	if ((flags & INTERFACE) != 0)
duke@1	1314	// no enclosing instance
duke@1	1315	return null;
vromero@1452	1316	if (nt.uniqueType.type.getParameterTypes().isEmpty())
duke@1	1317	// no parameters
duke@1	1318	return null;
duke@1	1319
duke@1	1320	// A constructor of an inner class.
duke@1	1321	// Remove the first argument (the enclosing instance)
vromero@1452	1322	nt.setType(new MethodType(nt.uniqueType.type.getParameterTypes().tail,
vromero@1452	1323	nt.uniqueType.type.getReturnType(),
vromero@1452	1324	nt.uniqueType.type.getThrownTypes(),
vromero@1452	1325	syms.methodClass));
duke@1	1326	// Try searching again
duke@1	1327	return findMethod(nt, scope, flags);
duke@1	1328	}
duke@1	1329
duke@1	1330	/** Similar to Types.isSameType but avoids completion */
duke@1	1331	private boolean isSameBinaryType(MethodType mt1, MethodType mt2) {
duke@1	1332	List<Type> types1 = types.erasure(mt1.getParameterTypes())
duke@1	1333	.prepend(types.erasure(mt1.getReturnType()));
duke@1	1334	List<Type> types2 = mt2.getParameterTypes().prepend(mt2.getReturnType());
duke@1	1335	while (!types1.isEmpty() && !types2.isEmpty()) {
duke@1	1336	if (types1.head.tsym != types2.head.tsym)
duke@1	1337	return false;
duke@1	1338	types1 = types1.tail;
duke@1	1339	types2 = types2.tail;
duke@1	1340	}
duke@1	1341	return types1.isEmpty() && types2.isEmpty();
duke@1	1342	}
duke@1	1343
duke@1	1344	/**
duke@1	1345	* Character.isDigit answers <tt>true</tt> to some non-ascii
duke@1	1346	* digits. This one does not. <b>copied from java.lang.Class</b>
duke@1	1347	*/
duke@1	1348	private static boolean isAsciiDigit(char c) {
duke@1	1349	return '0' <= c && c <= '9';
duke@1	1350	}
duke@1	1351
duke@1	1352	/** Read member attributes.
duke@1	1353	*/
duke@1	1354	void readMemberAttrs(Symbol sym) {
jjg@256	1355	readAttrs(sym, AttributeKind.MEMBER);
jjg@256	1356	}
jjg@256	1357
jjg@256	1358	void readAttrs(Symbol sym, AttributeKind kind) {
duke@1	1359	char ac = nextChar();
duke@1	1360	for (int i = 0; i < ac; i++) {
duke@1	1361	Name attrName = readName(nextChar());
duke@1	1362	int attrLen = nextInt();
jjg@256	1363	AttributeReader r = attributeReaders.get(attrName);
jjg@256	1364	if (r != null && r.accepts(kind))
jjg@256	1365	r.read(sym, attrLen);
jjg@256	1366	else {
jjg@256	1367	unrecognized(attrName);
jjg@256	1368	bp = bp + attrLen;
jjg@256	1369	}
duke@1	1370	}
duke@1	1371	}
duke@1	1372
duke@1	1373	private boolean readingClassAttr = false;
duke@1	1374	private List<Type> missingTypeVariables = List.nil();
duke@1	1375	private List<Type> foundTypeVariables = List.nil();
duke@1	1376
duke@1	1377	/** Read class attributes.
duke@1	1378	*/
duke@1	1379	void readClassAttrs(ClassSymbol c) {
jjg@256	1380	readAttrs(c, AttributeKind.CLASS);
duke@1	1381	}
duke@1	1382
duke@1	1383	/** Read code block.
duke@1	1384	*/
duke@1	1385	Code readCode(Symbol owner) {
duke@1	1386	nextChar(); // max_stack
duke@1	1387	nextChar(); // max_locals
duke@1	1388	final int code_length = nextInt();
duke@1	1389	bp += code_length;
duke@1	1390	final char exception_table_length = nextChar();
duke@1	1391	bp += exception_table_length * 8;
duke@1	1392	readMemberAttrs(owner);
duke@1	1393	return null;
duke@1	1394	}
duke@1	1395
duke@1	1396	/************************************************************************
duke@1	1397	* Reading Java-language annotations
duke@1	1398	***********************************************************************/
duke@1	1399
duke@1	1400	/** Attach annotations.
duke@1	1401	*/
duke@1	1402	void attachAnnotations(final Symbol sym) {
duke@1	1403	int numAttributes = nextChar();
duke@1	1404	if (numAttributes != 0) {
duke@1	1405	ListBuffer<CompoundAnnotationProxy> proxies =
duke@1	1406	new ListBuffer<CompoundAnnotationProxy>();
duke@1	1407	for (int i = 0; i<numAttributes; i++) {
duke@1	1408	CompoundAnnotationProxy proxy = readCompoundAnnotation();
duke@1	1409	if (proxy.type.tsym == syms.proprietaryType.tsym)
duke@1	1410	sym.flags_field |= PROPRIETARY;
jjg@1569	1411	else if (proxy.type.tsym == syms.profileType.tsym) {
jjg@1569	1412	if (profile != Profile.DEFAULT) {
jjg@1569	1413	for (Pair<Name,Attribute> v: proxy.values) {
jjg@1569	1414	if (v.fst == names.value && v.snd instanceof Attribute.Constant) {
jjg@1569	1415	Attribute.Constant c = (Attribute.Constant) v.snd;
jjg@1569	1416	if (c.type == syms.intType && ((Integer) c.value) > profile.value) {
jjg@1569	1417	sym.flags_field |= NOT_IN_PROFILE;
jjg@1569	1418	}
jjg@1569	1419	}
jjg@1569	1420	}
jjg@1569	1421	}
jjg@1569	1422	} else
duke@1	1423	proxies.append(proxy);
duke@1	1424	}
jfranck@1313	1425	annotate.normal(new AnnotationCompleter(sym, proxies.toList()));
duke@1	1426	}
duke@1	1427	}
duke@1	1428
duke@1	1429	/** Attach parameter annotations.
duke@1	1430	*/
duke@1	1431	void attachParameterAnnotations(final Symbol method) {
duke@1	1432	final MethodSymbol meth = (MethodSymbol)method;
duke@1	1433	int numParameters = buf[bp++] & 0xFF;
duke@1	1434	List<VarSymbol> parameters = meth.params();
duke@1	1435	int pnum = 0;
duke@1	1436	while (parameters.tail != null) {
duke@1	1437	attachAnnotations(parameters.head);
duke@1	1438	parameters = parameters.tail;
duke@1	1439	pnum++;
duke@1	1440	}
duke@1	1441	if (pnum != numParameters) {
duke@1	1442	throw badClassFile("bad.runtime.invisible.param.annotations", meth);
duke@1	1443	}
duke@1	1444	}
duke@1	1445
jjg@1521	1446	void attachTypeAnnotations(final Symbol sym) {
jjg@1521	1447	int numAttributes = nextChar();
jjg@1521	1448	if (numAttributes != 0) {
alundblad@2047	1449	ListBuffer<TypeAnnotationProxy> proxies = new ListBuffer<>();
jjg@1521	1450	for (int i = 0; i < numAttributes; i++)
jjg@1521	1451	proxies.append(readTypeAnnotation());
jjg@1521	1452	annotate.normal(new TypeAnnotationCompleter(sym, proxies.toList()));
jjg@1521	1453	}
jjg@1521	1454	}
jjg@1521	1455
duke@1	1456	/** Attach the default value for an annotation element.
duke@1	1457	*/
duke@1	1458	void attachAnnotationDefault(final Symbol sym) {
duke@1	1459	final MethodSymbol meth = (MethodSymbol)sym; // only on methods
duke@1	1460	final Attribute value = readAttributeValue();
jfranck@1445	1461
jfranck@1445	1462	// The default value is set later during annotation. It might
jfranck@1445	1463	// be the case that the Symbol sym is annotated _after_ the
jfranck@1445	1464	// repeating instances that depend on this default value,
jfranck@1445	1465	// because of this we set an interim value that tells us this
jfranck@1445	1466	// element (most likely) has a default.
jfranck@1445	1467	//
jfranck@1445	1468	// Set interim value for now, reset just before we do this
jfranck@1445	1469	// properly at annotate time.
jfranck@1445	1470	meth.defaultValue = value;
jfranck@1313	1471	annotate.normal(new AnnotationDefaultCompleter(meth, value));
duke@1	1472	}
duke@1	1473
duke@1	1474	Type readTypeOrClassSymbol(int i) {
duke@1	1475	// support preliminary jsr175-format class files
duke@1	1476	if (buf[poolIdx[i]] == CONSTANT_Class)
duke@1	1477	return readClassSymbol(i).type;
duke@1	1478	return readType(i);
duke@1	1479	}
duke@1	1480	Type readEnumType(int i) {
duke@1	1481	// support preliminary jsr175-format class files
duke@1	1482	int index = poolIdx[i];
duke@1	1483	int length = getChar(index + 1);
duke@1	1484	if (buf[index + length + 2] != ';')
duke@1	1485	return enterClass(readName(i)).type;
duke@1	1486	return readType(i);
duke@1	1487	}
duke@1	1488
duke@1	1489	CompoundAnnotationProxy readCompoundAnnotation() {
duke@1	1490	Type t = readTypeOrClassSymbol(nextChar());
duke@1	1491	int numFields = nextChar();
duke@1	1492	ListBuffer<Pair<Name,Attribute>> pairs =
duke@1	1493	new ListBuffer<Pair<Name,Attribute>>();
duke@1	1494	for (int i=0; i<numFields; i++) {
duke@1	1495	Name name = readName(nextChar());
duke@1	1496	Attribute value = readAttributeValue();
duke@1	1497	pairs.append(new Pair<Name,Attribute>(name, value));
duke@1	1498	}
duke@1	1499	return new CompoundAnnotationProxy(t, pairs.toList());
duke@1	1500	}
duke@1	1501
jjg@1521	1502	TypeAnnotationProxy readTypeAnnotation() {
jjg@1521	1503	TypeAnnotationPosition position = readPosition();
jjg@1521	1504	CompoundAnnotationProxy proxy = readCompoundAnnotation();
jjg@1521	1505
jjg@1521	1506	return new TypeAnnotationProxy(proxy, position);
jjg@1521	1507	}
jjg@1521	1508
jjg@1521	1509	TypeAnnotationPosition readPosition() {
jjg@1521	1510	int tag = nextByte(); // TargetType tag is a byte
jjg@1521	1511
jjg@1521	1512	if (!TargetType.isValidTargetTypeValue(tag))
jjg@1521	1513	throw this.badClassFile("bad.type.annotation.value", String.format("0x%02X", tag));
jjg@1521	1514
jjg@1521	1515	TypeAnnotationPosition position = new TypeAnnotationPosition();
jjg@1521	1516	TargetType type = TargetType.fromTargetTypeValue(tag);
jjg@1521	1517
jjg@1521	1518	position.type = type;
jjg@1521	1519
jjg@1521	1520	switch (type) {
jjg@1521	1521	// instanceof
jjg@1521	1522	case INSTANCEOF:
jjg@1521	1523	// new expression
jjg@1521	1524	case NEW:
jjg@1563	1525	// constructor/method reference receiver
jjg@1563	1526	case CONSTRUCTOR_REFERENCE:
jjg@1563	1527	case METHOD_REFERENCE:
jjg@1521	1528	position.offset = nextChar();
jjg@1521	1529	break;
jjg@1521	1530	// local variable
jjg@1521	1531	case LOCAL_VARIABLE:
jjg@1521	1532	// resource variable
jjg@1521	1533	case RESOURCE_VARIABLE:
jjg@1521	1534	int table_length = nextChar();
jjg@1521	1535	position.lvarOffset = new int[table_length];
jjg@1521	1536	position.lvarLength = new int[table_length];
jjg@1521	1537	position.lvarIndex = new int[table_length];
jjg@1521	1538
jjg@1521	1539	for (int i = 0; i < table_length; ++i) {
jjg@1521	1540	position.lvarOffset[i] = nextChar();
jjg@1521	1541	position.lvarLength[i] = nextChar();
jjg@1521	1542	position.lvarIndex[i] = nextChar();
jjg@1521	1543	}
jjg@1521	1544	break;
jjg@1521	1545	// exception parameter
jjg@1521	1546	case EXCEPTION_PARAMETER:
jjg@1755	1547	position.exception_index = nextChar();
jjg@1521	1548	break;
jjg@1521	1549	// method receiver
jjg@1521	1550	case METHOD_RECEIVER:
jjg@1521	1551	// Do nothing
jjg@1521	1552	break;
jjg@1521	1553	// type parameter
jjg@1521	1554	case CLASS_TYPE_PARAMETER:
jjg@1521	1555	case METHOD_TYPE_PARAMETER:
jjg@1521	1556	position.parameter_index = nextByte();
jjg@1521	1557	break;
jjg@1521	1558	// type parameter bound
jjg@1521	1559	case CLASS_TYPE_PARAMETER_BOUND:
jjg@1521	1560	case METHOD_TYPE_PARAMETER_BOUND:
jjg@1521	1561	position.parameter_index = nextByte();
jjg@1521	1562	position.bound_index = nextByte();
jjg@1521	1563	break;
jjg@1521	1564	// class extends or implements clause
jjg@1521	1565	case CLASS_EXTENDS:
jjg@1521	1566	position.type_index = nextChar();
jjg@1521	1567	break;
jjg@1521	1568	// throws
jjg@1521	1569	case THROWS:
jjg@1521	1570	position.type_index = nextChar();
jjg@1521	1571	break;
jjg@1521	1572	// method parameter
jjg@1521	1573	case METHOD_FORMAL_PARAMETER:
jjg@1521	1574	position.parameter_index = nextByte();
jjg@1521	1575	break;
jjg@1563	1576	// type cast
jjg@1563	1577	case CAST:
jjg@1521	1578	// method/constructor/reference type argument
jjg@1521	1579	case CONSTRUCTOR_INVOCATION_TYPE_ARGUMENT:
jjg@1521	1580	case METHOD_INVOCATION_TYPE_ARGUMENT:
jjg@1563	1581	case CONSTRUCTOR_REFERENCE_TYPE_ARGUMENT:
jjg@1521	1582	case METHOD_REFERENCE_TYPE_ARGUMENT:
jjg@1521	1583	position.offset = nextChar();
jjg@1521	1584	position.type_index = nextByte();
jjg@1521	1585	break;
jjg@1521	1586	// We don't need to worry about these
jjg@1521	1587	case METHOD_RETURN:
jjg@1521	1588	case FIELD:
jjg@1521	1589	break;
jjg@1521	1590	case UNKNOWN:
jjg@1521	1591	throw new AssertionError("jvm.ClassReader: UNKNOWN target type should never occur!");
jjg@1521	1592	default:
jjg@1521	1593	throw new AssertionError("jvm.ClassReader: Unknown target type for position: " + position);
jjg@1521	1594	}
jjg@1521	1595
jjg@1521	1596	{ // See whether there is location info and read it
jjg@1521	1597	int len = nextByte();
alundblad@2047	1598	ListBuffer<Integer> loc = new ListBuffer<>();
jjg@1521	1599	for (int i = 0; i < len * TypeAnnotationPosition.TypePathEntry.bytesPerEntry; ++i)
jjg@1521	1600	loc = loc.append(nextByte());
jjg@1521	1601	position.location = TypeAnnotationPosition.getTypePathFromBinary(loc.toList());
jjg@1521	1602	}
jjg@1521	1603
jjg@1521	1604	return position;
jjg@1521	1605	}
jjg@1521	1606
duke@1	1607	Attribute readAttributeValue() {
duke@1	1608	char c = (char) buf[bp++];
duke@1	1609	switch (c) {
duke@1	1610	case 'B':
duke@1	1611	return new Attribute.Constant(syms.byteType, readPool(nextChar()));
duke@1	1612	case 'C':
duke@1	1613	return new Attribute.Constant(syms.charType, readPool(nextChar()));
duke@1	1614	case 'D':
duke@1	1615	return new Attribute.Constant(syms.doubleType, readPool(nextChar()));
duke@1	1616	case 'F':
duke@1	1617	return new Attribute.Constant(syms.floatType, readPool(nextChar()));
duke@1	1618	case 'I':
duke@1	1619	return new Attribute.Constant(syms.intType, readPool(nextChar()));
duke@1	1620	case 'J':
duke@1	1621	return new Attribute.Constant(syms.longType, readPool(nextChar()));
duke@1	1622	case 'S':
duke@1	1623	return new Attribute.Constant(syms.shortType, readPool(nextChar()));
duke@1	1624	case 'Z':
duke@1	1625	return new Attribute.Constant(syms.booleanType, readPool(nextChar()));
duke@1	1626	case 's':
duke@1	1627	return new Attribute.Constant(syms.stringType, readPool(nextChar()).toString());
duke@1	1628	case 'e':
duke@1	1629	return new EnumAttributeProxy(readEnumType(nextChar()), readName(nextChar()));
duke@1	1630	case 'c':
duke@1	1631	return new Attribute.Class(types, readTypeOrClassSymbol(nextChar()));
duke@1	1632	case '[': {
duke@1	1633	int n = nextChar();
duke@1	1634	ListBuffer<Attribute> l = new ListBuffer<Attribute>();
duke@1	1635	for (int i=0; i<n; i++)
duke@1	1636	l.append(readAttributeValue());
duke@1	1637	return new ArrayAttributeProxy(l.toList());
duke@1	1638	}
duke@1	1639	case '@':
duke@1	1640	return readCompoundAnnotation();
duke@1	1641	default:
duke@1	1642	throw new AssertionError("unknown annotation tag '" + c + "'");
duke@1	1643	}
duke@1	1644	}
duke@1	1645
duke@1	1646	interface ProxyVisitor extends Attribute.Visitor {
duke@1	1647	void visitEnumAttributeProxy(EnumAttributeProxy proxy);
duke@1	1648	void visitArrayAttributeProxy(ArrayAttributeProxy proxy);
duke@1	1649	void visitCompoundAnnotationProxy(CompoundAnnotationProxy proxy);
duke@1	1650	}
duke@1	1651
duke@1	1652	static class EnumAttributeProxy extends Attribute {
duke@1	1653	Type enumType;
duke@1	1654	Name enumerator;
duke@1	1655	public EnumAttributeProxy(Type enumType, Name enumerator) {
duke@1	1656	super(null);
duke@1	1657	this.enumType = enumType;
duke@1	1658	this.enumerator = enumerator;
duke@1	1659	}
duke@1	1660	public void accept(Visitor v) { ((ProxyVisitor)v).visitEnumAttributeProxy(this); }
jjg@256	1661	@Override
duke@1	1662	public String toString() {
duke@1	1663	return "/*proxy enum*/" + enumType + "." + enumerator;
duke@1	1664	}
duke@1	1665	}
duke@1	1666
duke@1	1667	static class ArrayAttributeProxy extends Attribute {
duke@1	1668	List<Attribute> values;
duke@1	1669	ArrayAttributeProxy(List<Attribute> values) {
duke@1	1670	super(null);
duke@1	1671	this.values = values;
duke@1	1672	}
duke@1	1673	public void accept(Visitor v) { ((ProxyVisitor)v).visitArrayAttributeProxy(this); }
jjg@256	1674	@Override
duke@1	1675	public String toString() {
duke@1	1676	return "{" + values + "}";
duke@1	1677	}
duke@1	1678	}
duke@1	1679
duke@1	1680	/** A temporary proxy representing a compound attribute.
duke@1	1681	*/
duke@1	1682	static class CompoundAnnotationProxy extends Attribute {
duke@1	1683	final List<Pair<Name,Attribute>> values;
duke@1	1684	public CompoundAnnotationProxy(Type type,
duke@1	1685	List<Pair<Name,Attribute>> values) {
duke@1	1686	super(type);
duke@1	1687	this.values = values;
duke@1	1688	}
duke@1	1689	public void accept(Visitor v) { ((ProxyVisitor)v).visitCompoundAnnotationProxy(this); }
jjg@256	1690	@Override
duke@1	1691	public String toString() {
jjg@776	1692	StringBuilder buf = new StringBuilder();
duke@1	1693	buf.append("@");
duke@1	1694	buf.append(type.tsym.getQualifiedName());
duke@1	1695	buf.append("/*proxy*/{");
duke@1	1696	boolean first = true;
duke@1	1697	for (List<Pair<Name,Attribute>> v = values;
duke@1	1698	v.nonEmpty(); v = v.tail) {
duke@1	1699	Pair<Name,Attribute> value = v.head;
duke@1	1700	if (!first) buf.append(",");
duke@1	1701	first = false;
duke@1	1702	buf.append(value.fst);
duke@1	1703	buf.append("=");
duke@1	1704	buf.append(value.snd);
duke@1	1705	}
duke@1	1706	buf.append("}");
duke@1	1707	return buf.toString();
duke@1	1708	}
duke@1	1709	}
duke@1	1710
jjg@308	1711	/** A temporary proxy representing a type annotation.
jjg@308	1712	*/
jjg@308	1713	static class TypeAnnotationProxy {
jjg@308	1714	final CompoundAnnotationProxy compound;
jjg@308	1715	final TypeAnnotationPosition position;
jjg@308	1716	public TypeAnnotationProxy(CompoundAnnotationProxy compound,
jjg@308	1717	TypeAnnotationPosition position) {
jjg@308	1718	this.compound = compound;
jjg@308	1719	this.position = position;
jjg@308	1720	}
jjg@308	1721	}
jjg@308	1722
duke@1	1723	class AnnotationDeproxy implements ProxyVisitor {
duke@1	1724	private ClassSymbol requestingOwner = currentOwner.kind == MTH
duke@1	1725	? currentOwner.enclClass() : (ClassSymbol)currentOwner;
duke@1	1726
duke@1	1727	List<Attribute.Compound> deproxyCompoundList(List<CompoundAnnotationProxy> pl) {
duke@1	1728	// also must fill in types!!!!
duke@1	1729	ListBuffer<Attribute.Compound> buf =
duke@1	1730	new ListBuffer<Attribute.Compound>();
duke@1	1731	for (List<CompoundAnnotationProxy> l = pl; l.nonEmpty(); l=l.tail) {
duke@1	1732	buf.append(deproxyCompound(l.head));
duke@1	1733	}
duke@1	1734	return buf.toList();
duke@1	1735	}
duke@1	1736
duke@1	1737	Attribute.Compound deproxyCompound(CompoundAnnotationProxy a) {
duke@1	1738	ListBuffer<Pair<Symbol.MethodSymbol,Attribute>> buf =
duke@1	1739	new ListBuffer<Pair<Symbol.MethodSymbol,Attribute>>();
duke@1	1740	for (List<Pair<Name,Attribute>> l = a.values;
duke@1	1741	l.nonEmpty();
duke@1	1742	l = l.tail) {
duke@1	1743	MethodSymbol meth = findAccessMethod(a.type, l.head.fst);
duke@1	1744	buf.append(new Pair<Symbol.MethodSymbol,Attribute>
duke@1	1745	(meth, deproxy(meth.type.getReturnType(), l.head.snd)));
duke@1	1746	}
duke@1	1747	return new Attribute.Compound(a.type, buf.toList());
duke@1	1748	}
duke@1	1749
duke@1	1750	MethodSymbol findAccessMethod(Type container, Name name) {
duke@1	1751	CompletionFailure failure = null;
duke@1	1752	try {
duke@1	1753	for (Scope.Entry e = container.tsym.members().lookup(name);
duke@1	1754	e.scope != null;
duke@1	1755	e = e.next()) {
duke@1	1756	Symbol sym = e.sym;
duke@1	1757	if (sym.kind == MTH && sym.type.getParameterTypes().length() == 0)
duke@1	1758	return (MethodSymbol) sym;
duke@1	1759	}
duke@1	1760	} catch (CompletionFailure ex) {
duke@1	1761	failure = ex;
duke@1	1762	}
duke@1	1763	// The method wasn't found: emit a warning and recover
duke@1	1764	JavaFileObject prevSource = log.useSource(requestingOwner.classfile);
duke@1	1765	try {
duke@1	1766	if (failure == null) {
duke@1	1767	log.warning("annotation.method.not.found",
duke@1	1768	container,
duke@1	1769	name);
duke@1	1770	} else {
duke@1	1771	log.warning("annotation.method.not.found.reason",
duke@1	1772	container,
duke@1	1773	name,
mcimadamore@80	1774	failure.getDetailValue());//diagnostic, if present
duke@1	1775	}
duke@1	1776	} finally {
duke@1	1777	log.useSource(prevSource);
duke@1	1778	}
duke@1	1779	// Construct a new method type and symbol. Use bottom
duke@1	1780	// type (typeof null) as return type because this type is
duke@1	1781	// a subtype of all reference types and can be converted
duke@1	1782	// to primitive types by unboxing.
duke@1	1783	MethodType mt = new MethodType(List.<Type>nil(),
duke@1	1784	syms.botType,
duke@1	1785	List.<Type>nil(),
duke@1	1786	syms.methodClass);
duke@1	1787	return new MethodSymbol(PUBLIC | ABSTRACT, name, mt, container.tsym);
duke@1	1788	}
duke@1	1789
duke@1	1790	Attribute result;
duke@1	1791	Type type;
duke@1	1792	Attribute deproxy(Type t, Attribute a) {
duke@1	1793	Type oldType = type;
duke@1	1794	try {
duke@1	1795	type = t;
duke@1	1796	a.accept(this);
duke@1	1797	return result;
duke@1	1798	} finally {
duke@1	1799	type = oldType;
duke@1	1800	}
duke@1	1801	}
duke@1	1802
duke@1	1803	// implement Attribute.Visitor below
duke@1	1804
duke@1	1805	public void visitConstant(Attribute.Constant value) {
duke@1	1806	// assert value.type == type;
duke@1	1807	result = value;
duke@1	1808	}
duke@1	1809
duke@1	1810	public void visitClass(Attribute.Class clazz) {
duke@1	1811	result = clazz;
duke@1	1812	}
duke@1	1813
duke@1	1814	public void visitEnum(Attribute.Enum e) {
duke@1	1815	throw new AssertionError(); // shouldn't happen
duke@1	1816	}
duke@1	1817
duke@1	1818	public void visitCompound(Attribute.Compound compound) {
duke@1	1819	throw new AssertionError(); // shouldn't happen
duke@1	1820	}
duke@1	1821
duke@1	1822	public void visitArray(Attribute.Array array) {
duke@1	1823	throw new AssertionError(); // shouldn't happen
duke@1	1824	}
duke@1	1825
duke@1	1826	public void visitError(Attribute.Error e) {
duke@1	1827	throw new AssertionError(); // shouldn't happen
duke@1	1828	}
duke@1	1829
duke@1	1830	public void visitEnumAttributeProxy(EnumAttributeProxy proxy) {
duke@1	1831	// type.tsym.flatName() should == proxy.enumFlatName
duke@1	1832	TypeSymbol enumTypeSym = proxy.enumType.tsym;
duke@1	1833	VarSymbol enumerator = null;
mcimadamore@992	1834	CompletionFailure failure = null;
mcimadamore@992	1835	try {
mcimadamore@992	1836	for (Scope.Entry e = enumTypeSym.members().lookup(proxy.enumerator);
mcimadamore@992	1837	e.scope != null;
mcimadamore@992	1838	e = e.next()) {
mcimadamore@992	1839	if (e.sym.kind == VAR) {
mcimadamore@992	1840	enumerator = (VarSymbol)e.sym;
mcimadamore@992	1841	break;
mcimadamore@992	1842	}
duke@1	1843	}
duke@1	1844	}
mcimadamore@992	1845	catch (CompletionFailure ex) {
mcimadamore@992	1846	failure = ex;
mcimadamore@992	1847	}
duke@1	1848	if (enumerator == null) {
mcimadamore@992	1849	if (failure != null) {
mcimadamore@992	1850	log.warning("unknown.enum.constant.reason",
mcimadamore@992	1851	currentClassFile, enumTypeSym, proxy.enumerator,
mcimadamore@992	1852	failure.getDiagnostic());
mcimadamore@992	1853	} else {
mcimadamore@992	1854	log.warning("unknown.enum.constant",
mcimadamore@992	1855	currentClassFile, enumTypeSym, proxy.enumerator);
mcimadamore@992	1856	}
mcimadamore@992	1857	result = new Attribute.Enum(enumTypeSym.type,
mcimadamore@992	1858	new VarSymbol(0, proxy.enumerator, syms.botType, enumTypeSym));
duke@1	1859	} else {
duke@1	1860	result = new Attribute.Enum(enumTypeSym.type, enumerator);
duke@1	1861	}
duke@1	1862	}
duke@1	1863
duke@1	1864	public void visitArrayAttributeProxy(ArrayAttributeProxy proxy) {
duke@1	1865	int length = proxy.values.length();
duke@1	1866	Attribute[] ats = new Attribute[length];
duke@1	1867	Type elemtype = types.elemtype(type);
duke@1	1868	int i = 0;
duke@1	1869	for (List<Attribute> p = proxy.values; p.nonEmpty(); p = p.tail) {
duke@1	1870	ats[i++] = deproxy(elemtype, p.head);
duke@1	1871	}
duke@1	1872	result = new Attribute.Array(type, ats);
duke@1	1873	}
duke@1	1874
duke@1	1875	public void visitCompoundAnnotationProxy(CompoundAnnotationProxy proxy) {
duke@1	1876	result = deproxyCompound(proxy);
duke@1	1877	}
duke@1	1878	}
duke@1	1879
jlahoda@2133	1880	class AnnotationDefaultCompleter extends AnnotationDeproxy implements Annotate.Worker {
duke@1	1881	final MethodSymbol sym;
duke@1	1882	final Attribute value;
duke@1	1883	final JavaFileObject classFile = currentClassFile;
jjg@256	1884	@Override
duke@1	1885	public String toString() {
duke@1	1886	return " ClassReader store default for " + sym.owner + "." + sym + " is " + value;
duke@1	1887	}
duke@1	1888	AnnotationDefaultCompleter(MethodSymbol sym, Attribute value) {
duke@1	1889	this.sym = sym;
duke@1	1890	this.value = value;
duke@1	1891	}
jlahoda@2133	1892	// implement Annotate.Worker.run()
jlahoda@2133	1893	public void run() {
duke@1	1894	JavaFileObject previousClassFile = currentClassFile;
duke@1	1895	try {
jfranck@1445	1896	// Reset the interim value set earlier in
jfranck@1445	1897	// attachAnnotationDefault().
jfranck@1445	1898	sym.defaultValue = null;
duke@1	1899	currentClassFile = classFile;
duke@1	1900	sym.defaultValue = deproxy(sym.type.getReturnType(), value);
duke@1	1901	} finally {
duke@1	1902	currentClassFile = previousClassFile;
duke@1	1903	}
duke@1	1904	}
duke@1	1905	}
duke@1	1906
jlahoda@2133	1907	class AnnotationCompleter extends AnnotationDeproxy implements Annotate.Worker {
duke@1	1908	final Symbol sym;
duke@1	1909	final List<CompoundAnnotationProxy> l;
duke@1	1910	final JavaFileObject classFile;
jjg@256	1911	@Override
duke@1	1912	public String toString() {
duke@1	1913	return " ClassReader annotate " + sym.owner + "." + sym + " with " + l;
duke@1	1914	}
duke@1	1915	AnnotationCompleter(Symbol sym, List<CompoundAnnotationProxy> l) {
duke@1	1916	this.sym = sym;
duke@1	1917	this.l = l;
duke@1	1918	this.classFile = currentClassFile;
duke@1	1919	}
jlahoda@2133	1920	// implement Annotate.Worker.run()
jlahoda@2133	1921	public void run() {
duke@1	1922	JavaFileObject previousClassFile = currentClassFile;
duke@1	1923	try {
duke@1	1924	currentClassFile = classFile;
duke@1	1925	List<Attribute.Compound> newList = deproxyCompoundList(l);
jjg@1802	1926	if (sym.annotationsPendingCompletion()) {
jjg@1802	1927	sym.setDeclarationAttributes(newList);
jfranck@1313	1928	} else {
jjg@1802	1929	sym.appendAttributes(newList);
jfranck@1313	1930	}
duke@1	1931	} finally {
duke@1	1932	currentClassFile = previousClassFile;
duke@1	1933	}
duke@1	1934	}
duke@1	1935	}
duke@1	1936
jjg@1521	1937	class TypeAnnotationCompleter extends AnnotationCompleter {
jjg@1521	1938
jjg@1521	1939	List<TypeAnnotationProxy> proxies;
jjg@1521	1940
jjg@1521	1941	TypeAnnotationCompleter(Symbol sym,
jjg@1521	1942	List<TypeAnnotationProxy> proxies) {
jjg@1521	1943	super(sym, List.<CompoundAnnotationProxy>nil());
jjg@1521	1944	this.proxies = proxies;
jjg@1521	1945	}
jjg@1521	1946
jjg@1521	1947	List<Attribute.TypeCompound> deproxyTypeCompoundList(List<TypeAnnotationProxy> proxies) {
alundblad@2047	1948	ListBuffer<Attribute.TypeCompound> buf = new ListBuffer<>();
jjg@1521	1949	for (TypeAnnotationProxy proxy: proxies) {
jjg@1521	1950	Attribute.Compound compound = deproxyCompound(proxy.compound);
jjg@1521	1951	Attribute.TypeCompound typeCompound = new Attribute.TypeCompound(compound, proxy.position);
jjg@1521	1952	buf.add(typeCompound);
jjg@1521	1953	}
jjg@1521	1954	return buf.toList();
jjg@1521	1955	}
jjg@1521	1956
jjg@1521	1957	@Override
jlahoda@2133	1958	public void run() {
jjg@1521	1959	JavaFileObject previousClassFile = currentClassFile;
jjg@1521	1960	try {
jjg@1521	1961	currentClassFile = classFile;
jjg@1521	1962	List<Attribute.TypeCompound> newList = deproxyTypeCompoundList(proxies);
jjg@1802	1963	sym.setTypeAttributes(newList.prependList(sym.getRawTypeAttributes()));
jjg@1521	1964	} finally {
jjg@1521	1965	currentClassFile = previousClassFile;
jjg@1521	1966	}
jjg@1521	1967	}
jjg@1521	1968	}
jjg@1521	1969
duke@1	1970
duke@1	1971	/************************************************************************
duke@1	1972	* Reading Symbols
duke@1	1973	***********************************************************************/
duke@1	1974
duke@1	1975	/** Read a field.
duke@1	1976	*/
duke@1	1977	VarSymbol readField() {
duke@1	1978	long flags = adjustFieldFlags(nextChar());
duke@1	1979	Name name = readName(nextChar());
duke@1	1980	Type type = readType(nextChar());
duke@1	1981	VarSymbol v = new VarSymbol(flags, name, type, currentOwner);
duke@1	1982	readMemberAttrs(v);
duke@1	1983	return v;
duke@1	1984	}
duke@1	1985
duke@1	1986	/** Read a method.
duke@1	1987	*/
duke@1	1988	MethodSymbol readMethod() {
duke@1	1989	long flags = adjustMethodFlags(nextChar());
duke@1	1990	Name name = readName(nextChar());
duke@1	1991	Type type = readType(nextChar());
mcimadamore@1415	1992	if (currentOwner.isInterface() &&
mcimadamore@1415	1993	(flags & ABSTRACT) == 0 && !name.equals(names.clinit)) {
mcimadamore@1415	1994	if (majorVersion > Target.JDK1_8.majorVersion ||
mcimadamore@1415	1995	(majorVersion == Target.JDK1_8.majorVersion && minorVersion >= Target.JDK1_8.minorVersion)) {
jlahoda@2099	1996	if ((flags & STATIC) == 0) {
jlahoda@2099	1997	currentOwner.flags_field |= DEFAULT;
jlahoda@2099	1998	flags |= DEFAULT | ABSTRACT;
jlahoda@2099	1999	}
mcimadamore@1415	2000	} else {
mcimadamore@1415	2001	//protect against ill-formed classfiles
jlahoda@2099	2002	throw badClassFile((flags & STATIC) == 0 ? "invalid.default.interface" : "invalid.static.interface",
jlahoda@2099	2003	Integer.toString(majorVersion),
jlahoda@2099	2004	Integer.toString(minorVersion));
mcimadamore@1415	2005	}
mcimadamore@1415	2006	}
duke@1	2007	if (name == names.init && currentOwner.hasOuterInstance()) {
duke@1	2008	// Sometimes anonymous classes don't have an outer
duke@1	2009	// instance, however, there is no reliable way to tell so
duke@1	2010	// we never strip this$n
jjg@113	2011	if (!currentOwner.name.isEmpty())
mcimadamore@795	2012	type = new MethodType(adjustMethodParams(flags, type.getParameterTypes()),
duke@1	2013	type.getReturnType(),
duke@1	2014	type.getThrownTypes(),
duke@1	2015	syms.methodClass);
duke@1	2016	}
duke@1	2017	MethodSymbol m = new MethodSymbol(flags, name, type, currentOwner);
vromero@1820	2018	if (types.isSignaturePolymorphic(m)) {
vromero@1820	2019	m.flags_field |= SIGNATURE_POLYMORPHIC;
vromero@1820	2020	}
jjg@428	2021	if (saveParameterNames)
jjg@428	2022	initParameterNames(m);
duke@1	2023	Symbol prevOwner = currentOwner;
duke@1	2024	currentOwner = m;
duke@1	2025	try {
duke@1	2026	readMemberAttrs(m);
duke@1	2027	} finally {
duke@1	2028	currentOwner = prevOwner;
duke@1	2029	}
jjg@428	2030	if (saveParameterNames)
jjg@428	2031	setParameterNames(m, type);
duke@1	2032	return m;
duke@1	2033	}
duke@1	2034
mcimadamore@795	2035	private List<Type> adjustMethodParams(long flags, List<Type> args) {
mcimadamore@795	2036	boolean isVarargs = (flags & VARARGS) != 0;
mcimadamore@795	2037	if (isVarargs) {
mcimadamore@795	2038	Type varargsElem = args.last();
alundblad@2047	2039	ListBuffer<Type> adjustedArgs = new ListBuffer<>();
mcimadamore@795	2040	for (Type t : args) {
mcimadamore@795	2041	adjustedArgs.append(t != varargsElem ?
mcimadamore@795	2042	t :
mcimadamore@795	2043	((ArrayType)t).makeVarargs());
mcimadamore@795	2044	}
mcimadamore@795	2045	args = adjustedArgs.toList();
mcimadamore@795	2046	}
mcimadamore@795	2047	return args.tail;
mcimadamore@795	2048	}
mcimadamore@795	2049
jjg@428	2050	/**
jjg@428	2051	* Init the parameter names array.
jjg@428	2052	* Parameter names are currently inferred from the names in the
jjg@428	2053	* LocalVariableTable attributes of a Code attribute.
jjg@428	2054	* (Note: this means parameter names are currently not available for
jjg@428	2055	* methods without a Code attribute.)
jjg@428	2056	* This method initializes an array in which to store the name indexes
jjg@428	2057	* of parameter names found in LocalVariableTable attributes. It is
jjg@428	2058	* slightly supersized to allow for additional slots with a start_pc of 0.
jjg@428	2059	*/
jjg@428	2060	void initParameterNames(MethodSymbol sym) {
jjg@428	2061	// make allowance for synthetic parameters.
jjg@428	2062	final int excessSlots = 4;
jjg@428	2063	int expectedParameterSlots =
jjg@428	2064	Code.width(sym.type.getParameterTypes()) + excessSlots;
jjg@428	2065	if (parameterNameIndices == null
jjg@428	2066	|| parameterNameIndices.length < expectedParameterSlots) {
jjg@428	2067	parameterNameIndices = new int[expectedParameterSlots];
jjg@428	2068	} else
jjg@428	2069	Arrays.fill(parameterNameIndices, 0);
jjg@428	2070	haveParameterNameIndices = false;
jjg@1473	2071	sawMethodParameters = false;
jjg@428	2072	}
jjg@428	2073
jjg@428	2074	/**
jjg@428	2075	* Set the parameter names for a symbol from the name index in the
jjg@428	2076	* parameterNameIndicies array. The type of the symbol may have changed
jjg@428	2077	* while reading the method attributes (see the Signature attribute).
jjg@428	2078	* This may be because of generic information or because anonymous
jjg@428	2079	* synthetic parameters were added. The original type (as read from
jjg@428	2080	* the method descriptor) is used to help guess the existence of
jjg@428	2081	* anonymous synthetic parameters.
jjg@428	2082	* On completion, sym.savedParameter names will either be null (if
jjg@428	2083	* no parameter names were found in the class file) or will be set to a
jjg@428	2084	* list of names, one per entry in sym.type.getParameterTypes, with
jjg@428	2085	* any missing names represented by the empty name.
jjg@428	2086	*/
jjg@428	2087	void setParameterNames(MethodSymbol sym, Type jvmType) {
jjg@428	2088	// if no names were found in the class file, there's nothing more to do
jjg@428	2089	if (!haveParameterNameIndices)
jjg@428	2090	return;
jjg@1473	2091	// If we get parameter names from MethodParameters, then we
jjg@1473	2092	// don't need to skip.
jjg@1473	2093	int firstParam = 0;
jjg@1473	2094	if (!sawMethodParameters) {
jjg@1473	2095	firstParam = ((sym.flags() & STATIC) == 0) ? 1 : 0;
jjg@1473	2096	// the code in readMethod may have skipped the first
jjg@1473	2097	// parameter when setting up the MethodType. If so, we
jjg@1473	2098	// make a corresponding allowance here for the position of
jjg@1473	2099	// the first parameter. Note that this assumes the
jjg@1473	2100	// skipped parameter has a width of 1 -- i.e. it is not
jjg@428	2101	// a double width type (long or double.)
jjg@428	2102	if (sym.name == names.init && currentOwner.hasOuterInstance()) {
jjg@428	2103	// Sometimes anonymous classes don't have an outer
jjg@428	2104	// instance, however, there is no reliable way to tell so
jjg@428	2105	// we never strip this$n
jjg@428	2106	if (!currentOwner.name.isEmpty())
jjg@428	2107	firstParam += 1;
jjg@428	2108	}
jjg@428	2109
jjg@428	2110	if (sym.type != jvmType) {
jjg@1473	2111	// reading the method attributes has caused the
jjg@1473	2112	// symbol's type to be changed. (i.e. the Signature
jjg@1473	2113	// attribute.) This may happen if there are hidden
jjg@1473	2114	// (synthetic) parameters in the descriptor, but not
jjg@1473	2115	// in the Signature. The position of these hidden
jjg@1473	2116	// parameters is unspecified; for now, assume they are
jjg@1473	2117	// at the beginning, and so skip over them. The
jjg@1473	2118	// primary case for this is two hidden parameters
jjg@1473	2119	// passed into Enum constructors.
jjg@428	2120	int skip = Code.width(jvmType.getParameterTypes())
jjg@428	2121	- Code.width(sym.type.getParameterTypes());
jjg@428	2122	firstParam += skip;
jjg@428	2123	}
jjg@1473	2124	}
jjg@428	2125	List<Name> paramNames = List.nil();
jjg@428	2126	int index = firstParam;
jjg@428	2127	for (Type t: sym.type.getParameterTypes()) {
jjg@428	2128	int nameIdx = (index < parameterNameIndices.length
jjg@428	2129	? parameterNameIndices[index] : 0);
jjg@428	2130	Name name = nameIdx == 0 ? names.empty : readName(nameIdx);
jjg@428	2131	paramNames = paramNames.prepend(name);
jjg@428	2132	index += Code.width(t);
jjg@428	2133	}
jjg@428	2134	sym.savedParameterNames = paramNames.reverse();
jjg@428	2135	}
jjg@428	2136
ksrini@826	2137	/**
ksrini@826	2138	* skip n bytes
ksrini@826	2139	*/
ksrini@826	2140	void skipBytes(int n) {
ksrini@826	2141	bp = bp + n;
ksrini@826	2142	}
ksrini@826	2143
duke@1	2144	/** Skip a field or method
duke@1	2145	*/
duke@1	2146	void skipMember() {
duke@1	2147	bp = bp + 6;
duke@1	2148	char ac = nextChar();
duke@1	2149	for (int i = 0; i < ac; i++) {
duke@1	2150	bp = bp + 2;
duke@1	2151	int attrLen = nextInt();
duke@1	2152	bp = bp + attrLen;
duke@1	2153	}
duke@1	2154	}
duke@1	2155
duke@1	2156	/** Enter type variables of this classtype and all enclosing ones in
duke@1	2157	* `typevars'.
duke@1	2158	*/
duke@1	2159	protected void enterTypevars(Type t) {
jjg@1374	2160	if (t.getEnclosingType() != null && t.getEnclosingType().hasTag(CLASS))
duke@1	2161	enterTypevars(t.getEnclosingType());
duke@1	2162	for (List<Type> xs = t.getTypeArguments(); xs.nonEmpty(); xs = xs.tail)
duke@1	2163	typevars.enter(xs.head.tsym);
duke@1	2164	}
duke@1	2165
duke@1	2166	protected void enterTypevars(Symbol sym) {
duke@1	2167	if (sym.owner.kind == MTH) {
duke@1	2168	enterTypevars(sym.owner);
duke@1	2169	enterTypevars(sym.owner.owner);
duke@1	2170	}
duke@1	2171	enterTypevars(sym.type);
duke@1	2172	}
duke@1	2173
duke@1	2174	/** Read contents of a given class symbol `c'. Both external and internal
duke@1	2175	* versions of an inner class are read.
duke@1	2176	*/
duke@1	2177	void readClass(ClassSymbol c) {
duke@1	2178	ClassType ct = (ClassType)c.type;
duke@1	2179
duke@1	2180	// allocate scope for members
mcimadamore@858	2181	c.members_field = new Scope(c);
duke@1	2182
duke@1	2183	// prepare type variable table
duke@1	2184	typevars = typevars.dup(currentOwner);
jjg@1374	2185	if (ct.getEnclosingType().hasTag(CLASS))
jjg@256	2186	enterTypevars(ct.getEnclosingType());
duke@1	2187
duke@1	2188	// read flags, or skip if this is an inner class
duke@1	2189	long flags = adjustClassFlags(nextChar());
duke@1	2190	if (c.owner.kind == PCK) c.flags_field = flags;
duke@1	2191
duke@1	2192	// read own class name and check that it matches
duke@1	2193	ClassSymbol self = readClassSymbol(nextChar());
duke@1	2194	if (c != self)
duke@1	2195	throw badClassFile("class.file.wrong.class",
duke@1	2196	self.flatname);
duke@1	2197
duke@1	2198	// class attributes must be read before class
duke@1	2199	// skip ahead to read class attributes
duke@1	2200	int startbp = bp;
duke@1	2201	nextChar();
duke@1	2202	char interfaceCount = nextChar();
duke@1	2203	bp += interfaceCount * 2;
duke@1	2204	char fieldCount = nextChar();
duke@1	2205	for (int i = 0; i < fieldCount; i++) skipMember();
duke@1	2206	char methodCount = nextChar();
duke@1	2207	for (int i = 0; i < methodCount; i++) skipMember();
duke@1	2208	readClassAttrs(c);
duke@1	2209
duke@1	2210	if (readAllOfClassFile) {
duke@1	2211	for (int i = 1; i < poolObj.length; i++) readPool(i);
vromero@1452	2212	c.pool = new Pool(poolObj.length, poolObj, types);
duke@1	2213	}
duke@1	2214
duke@1	2215	// reset and read rest of classinfo
duke@1	2216	bp = startbp;
duke@1	2217	int n = nextChar();
duke@1	2218	if (ct.supertype_field == null)
duke@1	2219	ct.supertype_field = (n == 0)
duke@1	2220	? Type.noType
duke@1	2221	: readClassSymbol(n).erasure(types);
duke@1	2222	n = nextChar();
duke@1	2223	List<Type> is = List.nil();
duke@1	2224	for (int i = 0; i < n; i++) {
duke@1	2225	Type _inter = readClassSymbol(nextChar()).erasure(types);
duke@1	2226	is = is.prepend(_inter);
duke@1	2227	}
duke@1	2228	if (ct.interfaces_field == null)
duke@1	2229	ct.interfaces_field = is.reverse();
duke@1	2230
jjg@816	2231	Assert.check(fieldCount == nextChar());
duke@1	2232	for (int i = 0; i < fieldCount; i++) enterMember(c, readField());
jjg@816	2233	Assert.check(methodCount == nextChar());
duke@1	2234	for (int i = 0; i < methodCount; i++) enterMember(c, readMethod());
duke@1	2235
duke@1	2236	typevars = typevars.leave();
duke@1	2237	}
duke@1	2238
duke@1	2239	/** Read inner class info. For each inner/outer pair allocate a
duke@1	2240	* member class.
duke@1	2241	*/
duke@1	2242	void readInnerClasses(ClassSymbol c) {
duke@1	2243	int n = nextChar();
duke@1	2244	for (int i = 0; i < n; i++) {
duke@1	2245	nextChar(); // skip inner class symbol
duke@1	2246	ClassSymbol outer = readClassSymbol(nextChar());
duke@1	2247	Name name = readName(nextChar());
duke@1	2248	if (name == null) name = names.empty;
duke@1	2249	long flags = adjustClassFlags(nextChar());
duke@1	2250	if (outer != null) { // we have a member class
duke@1	2251	if (name == names.empty)
duke@1	2252	name = names.one;
duke@1	2253	ClassSymbol member = enterClass(name, outer);
duke@1	2254	if ((flags & STATIC) == 0) {
duke@1	2255	((ClassType)member.type).setEnclosingType(outer.type);
duke@1	2256	if (member.erasure_field != null)
duke@1	2257	((ClassType)member.erasure_field).setEnclosingType(types.erasure(outer.type));
duke@1	2258	}
duke@1	2259	if (c == outer) {
duke@1	2260	member.flags_field = flags;
duke@1	2261	enterMember(c, member);
duke@1	2262	}
duke@1	2263	}
duke@1	2264	}
duke@1	2265	}
duke@1	2266
duke@1	2267	/** Read a class file.
duke@1	2268	*/
duke@1	2269	private void readClassFile(ClassSymbol c) throws IOException {
duke@1	2270	int magic = nextInt();
duke@1	2271	if (magic != JAVA_MAGIC)
duke@1	2272	throw badClassFile("illegal.start.of.class.file");
duke@1	2273
jjg@256	2274	minorVersion = nextChar();
jjg@256	2275	majorVersion = nextChar();
duke@1	2276	int maxMajor = Target.MAX().majorVersion;
duke@1	2277	int maxMinor = Target.MAX().minorVersion;
duke@1	2278	if (majorVersion > maxMajor ||
duke@1	2279	majorVersion * 1000 + minorVersion <
duke@1	2280	Target.MIN().majorVersion * 1000 + Target.MIN().minorVersion)
duke@1	2281	{
duke@1	2282	if (majorVersion == (maxMajor + 1))
duke@1	2283	log.warning("big.major.version",
duke@1	2284	currentClassFile,
duke@1	2285	majorVersion,
duke@1	2286	maxMajor);
duke@1	2287	else
duke@1	2288	throw badClassFile("wrong.version",
duke@1	2289	Integer.toString(majorVersion),
duke@1	2290	Integer.toString(minorVersion),
duke@1	2291	Integer.toString(maxMajor),
duke@1	2292	Integer.toString(maxMinor));
duke@1	2293	}
duke@1	2294	else if (checkClassFile &&
duke@1	2295	majorVersion == maxMajor &&
duke@1	2296	minorVersion > maxMinor)
duke@1	2297	{
duke@1	2298	printCCF("found.later.version",
duke@1	2299	Integer.toString(minorVersion));
duke@1	2300	}
duke@1	2301	indexPool();
duke@1	2302	if (signatureBuffer.length < bp) {
duke@1	2303	int ns = Integer.highestOneBit(bp) << 1;
duke@1	2304	signatureBuffer = new byte[ns];
duke@1	2305	}
duke@1	2306	readClass(c);
duke@1	2307	}
duke@1	2308
duke@1	2309	/************************************************************************
duke@1	2310	* Adjusting flags
duke@1	2311	***********************************************************************/
duke@1	2312
duke@1	2313	long adjustFieldFlags(long flags) {
duke@1	2314	return flags;
duke@1	2315	}
duke@1	2316	long adjustMethodFlags(long flags) {
duke@1	2317	if ((flags & ACC_BRIDGE) != 0) {
duke@1	2318	flags &= ~ACC_BRIDGE;
duke@1	2319	flags |= BRIDGE;
duke@1	2320	if (!allowGenerics)
duke@1	2321	flags &= ~SYNTHETIC;
duke@1	2322	}
duke@1	2323	if ((flags & ACC_VARARGS) != 0) {
duke@1	2324	flags &= ~ACC_VARARGS;
duke@1	2325	flags |= VARARGS;
duke@1	2326	}
duke@1	2327	return flags;
duke@1	2328	}
duke@1	2329	long adjustClassFlags(long flags) {
duke@1	2330	return flags & ~ACC_SUPER; // SUPER and SYNCHRONIZED bits overloaded
duke@1	2331	}
duke@1	2332
duke@1	2333	/************************************************************************
duke@1	2334	* Loading Classes
duke@1	2335	***********************************************************************/
duke@1	2336
duke@1	2337	/** Define a new class given its name and owner.
duke@1	2338	*/
duke@1	2339	public ClassSymbol defineClass(Name name, Symbol owner) {
duke@1	2340	ClassSymbol c = new ClassSymbol(0, name, owner);
duke@1	2341	if (owner.kind == PCK)
jjg@816	2342	Assert.checkNull(classes.get(c.flatname), c);
jfranck@2007	2343	c.completer = thisCompleter;
duke@1	2344	return c;
duke@1	2345	}
duke@1	2346
duke@1	2347	/** Create a new toplevel or member class symbol with given name
duke@1	2348	* and owner and enter in `classes' unless already there.
duke@1	2349	*/
duke@1	2350	public ClassSymbol enterClass(Name name, TypeSymbol owner) {
duke@1	2351	Name flatname = TypeSymbol.formFlatName(name, owner);
duke@1	2352	ClassSymbol c = classes.get(flatname);
duke@1	2353	if (c == null) {
duke@1	2354	c = defineClass(name, owner);
duke@1	2355	classes.put(flatname, c);
duke@1	2356	} else if ((c.name != name || c.owner != owner) && owner.kind == TYP && c.owner.kind == PCK) {
duke@1	2357	// reassign fields of classes that might have been loaded with
duke@1	2358	// their flat names.
duke@1	2359	c.owner.members().remove(c);
duke@1	2360	c.name = name;
duke@1	2361	c.owner = owner;
duke@1	2362	c.fullname = ClassSymbol.formFullName(name, owner);
duke@1	2363	}
duke@1	2364	return c;
duke@1	2365	}
duke@1	2366
duke@1	2367	/**
duke@1	2368	* Creates a new toplevel class symbol with given flat name and
duke@1	2369	* given class (or source) file.
duke@1	2370	*
duke@1	2371	* @param flatName a fully qualified binary class name
duke@1	2372	* @param classFile the class file or compilation unit defining
duke@1	2373	* the class (may be {@code null})
duke@1	2374	* @return a newly created class symbol
duke@1	2375	* @throws AssertionError if the class symbol already exists
duke@1	2376	*/
duke@1	2377	public ClassSymbol enterClass(Name flatName, JavaFileObject classFile) {
duke@1	2378	ClassSymbol cs = classes.get(flatName);
duke@1	2379	if (cs != null) {
duke@1	2380	String msg = Log.format("%s: completer = %s; class file = %s; source file = %s",
duke@1	2381	cs.fullname,
duke@1	2382	cs.completer,
duke@1	2383	cs.classfile,
duke@1	2384	cs.sourcefile);
duke@1	2385	throw new AssertionError(msg);
duke@1	2386	}
duke@1	2387	Name packageName = Convert.packagePart(flatName);
duke@1	2388	PackageSymbol owner = packageName.isEmpty()
duke@1	2389	? syms.unnamedPackage
duke@1	2390	: enterPackage(packageName);
duke@1	2391	cs = defineClass(Convert.shortName(flatName), owner);
duke@1	2392	cs.classfile = classFile;
duke@1	2393	classes.put(flatName, cs);
duke@1	2394	return cs;
duke@1	2395	}
duke@1	2396
duke@1	2397	/** Create a new member or toplevel class symbol with given flat name
duke@1	2398	* and enter in `classes' unless already there.
duke@1	2399	*/
duke@1	2400	public ClassSymbol enterClass(Name flatname) {
duke@1	2401	ClassSymbol c = classes.get(flatname);
duke@1	2402	if (c == null)
duke@1	2403	return enterClass(flatname, (JavaFileObject)null);
duke@1	2404	else
duke@1	2405	return c;
duke@1	2406	}
duke@1	2407
duke@1	2408	private boolean suppressFlush = false;
duke@1	2409
duke@1	2410	/** Completion for classes to be loaded. Before a class is loaded
duke@1	2411	* we make sure its enclosing class (if any) is loaded.
duke@1	2412	*/
jfranck@2007	2413	private void complete(Symbol sym) throws CompletionFailure {
duke@1	2414	if (sym.kind == TYP) {
duke@1	2415	ClassSymbol c = (ClassSymbol)sym;
duke@1	2416	c.members_field = new Scope.ErrorScope(c); // make sure it's always defined
jjg@256	2417	boolean saveSuppressFlush = suppressFlush;
jjg@256	2418	suppressFlush = true;
duke@1	2419	try {
duke@1	2420	completeOwners(c.owner);
duke@1	2421	completeEnclosing(c);
duke@1	2422	} finally {
jjg@256	2423	suppressFlush = saveSuppressFlush;
duke@1	2424	}
duke@1	2425	fillIn(c);
duke@1	2426	} else if (sym.kind == PCK) {
duke@1	2427	PackageSymbol p = (PackageSymbol)sym;
duke@1	2428	try {
duke@1	2429	fillIn(p);
duke@1	2430	} catch (IOException ex) {
duke@1	2431	throw new CompletionFailure(sym, ex.getLocalizedMessage()).initCause(ex);
duke@1	2432	}
duke@1	2433	}
duke@1	2434	if (!filling && !suppressFlush)
duke@1	2435	annotate.flush(); // finish attaching annotations
duke@1	2436	}
duke@1	2437
duke@1	2438	/** complete up through the enclosing package. */
duke@1	2439	private void completeOwners(Symbol o) {
duke@1	2440	if (o.kind != PCK) completeOwners(o.owner);
duke@1	2441	o.complete();
duke@1	2442	}
duke@1	2443
duke@1	2444	/**
duke@1	2445	* Tries to complete lexically enclosing classes if c looks like a
duke@1	2446	* nested class. This is similar to completeOwners but handles
duke@1	2447	* the situation when a nested class is accessed directly as it is
duke@1	2448	* possible with the Tree API or javax.lang.model.*.
duke@1	2449	*/
duke@1	2450	private void completeEnclosing(ClassSymbol c) {
duke@1	2451	if (c.owner.kind == PCK) {
duke@1	2452	Symbol owner = c.owner;
duke@1	2453	for (Name name : Convert.enclosingCandidates(Convert.shortName(c.name))) {
duke@1	2454	Symbol encl = owner.members().lookup(name).sym;
duke@1	2455	if (encl == null)
duke@1	2456	encl = classes.get(TypeSymbol.formFlatName(name, owner));
duke@1	2457	if (encl != null)
duke@1	2458	encl.complete();
duke@1	2459	}
duke@1	2460	}
duke@1	2461	}
duke@1	2462
duke@1	2463	/** We can only read a single class file at a time; this
duke@1	2464	* flag keeps track of when we are currently reading a class
duke@1	2465	* file.
duke@1	2466	*/
duke@1	2467	private boolean filling = false;
duke@1	2468
duke@1	2469	/** Fill in definition of class `c' from corresponding class or
duke@1	2470	* source file.
duke@1	2471	*/
duke@1	2472	private void fillIn(ClassSymbol c) {
duke@1	2473	if (completionFailureName == c.fullname) {
duke@1	2474	throw new CompletionFailure(c, "user-selected completion failure by class name");
duke@1	2475	}
duke@1	2476	currentOwner = c;
jjg@776	2477	warnedAttrs.clear();
duke@1	2478	JavaFileObject classfile = c.classfile;
duke@1	2479	if (classfile != null) {
duke@1	2480	JavaFileObject previousClassFile = currentClassFile;
duke@1	2481	try {
jjg@816	2482	if (filling) {
jjg@816	2483	Assert.error("Filling " + classfile.toUri() + " during " + previousClassFile);
jjg@816	2484	}
duke@1	2485	currentClassFile = classfile;
duke@1	2486	if (verbose) {
jjg@909	2487	log.printVerbose("loading", currentClassFile.toString());
duke@1	2488	}
duke@1	2489	if (classfile.getKind() == JavaFileObject.Kind.CLASS) {
duke@1	2490	filling = true;
duke@1	2491	try {
duke@1	2492	bp = 0;
duke@1	2493	buf = readInputStream(buf, classfile.openInputStream());
duke@1	2494	readClassFile(c);
duke@1	2495	if (!missingTypeVariables.isEmpty() && !foundTypeVariables.isEmpty()) {
duke@1	2496	List<Type> missing = missingTypeVariables;
duke@1	2497	List<Type> found = foundTypeVariables;
duke@1	2498	missingTypeVariables = List.nil();
duke@1	2499	foundTypeVariables = List.nil();
duke@1	2500	filling = false;
duke@1	2501	ClassType ct = (ClassType)currentOwner.type;
duke@1	2502	ct.supertype_field =
duke@1	2503	types.subst(ct.supertype_field, missing, found);
duke@1	2504	ct.interfaces_field =
duke@1	2505	types.subst(ct.interfaces_field, missing, found);
duke@1	2506	} else if (missingTypeVariables.isEmpty() !=
duke@1	2507	foundTypeVariables.isEmpty()) {
duke@1	2508	Name name = missingTypeVariables.head.tsym.name;
duke@1	2509	throw badClassFile("undecl.type.var", name);
duke@1	2510	}
duke@1	2511	} finally {
duke@1	2512	missingTypeVariables = List.nil();
duke@1	2513	foundTypeVariables = List.nil();
duke@1	2514	filling = false;
duke@1	2515	}
duke@1	2516	} else {
duke@1	2517	if (sourceCompleter != null) {
duke@1	2518	sourceCompleter.complete(c);
duke@1	2519	} else {
duke@1	2520	throw new IllegalStateException("Source completer required to read "
duke@1	2521	+ classfile.toUri());
duke@1	2522	}
duke@1	2523	}
duke@1	2524	return;
duke@1	2525	} catch (IOException ex) {
duke@1	2526	throw badClassFile("unable.to.access.file", ex.getMessage());
duke@1	2527	} finally {
duke@1	2528	currentClassFile = previousClassFile;
duke@1	2529	}
duke@1	2530	} else {
jjg@12	2531	JCDiagnostic diag =
jjg@12	2532	diagFactory.fragment("class.file.not.found", c.flatname);
duke@1	2533	throw
jjg@12	2534	newCompletionFailure(c, diag);
duke@1	2535	}
duke@1	2536	}
duke@1	2537	// where
duke@1	2538	private static byte[] readInputStream(byte[] buf, InputStream s) throws IOException {
duke@1	2539	try {
duke@1	2540	buf = ensureCapacity(buf, s.available());
duke@1	2541	int r = s.read(buf);
duke@1	2542	int bp = 0;
duke@1	2543	while (r != -1) {
duke@1	2544	bp += r;
duke@1	2545	buf = ensureCapacity(buf, bp);
duke@1	2546	r = s.read(buf, bp, buf.length - bp);
duke@1	2547	}
duke@1	2548	return buf;
duke@1	2549	} finally {
duke@1	2550	try {
duke@1	2551	s.close();
duke@1	2552	} catch (IOException e) {
duke@1	2553	/* Ignore any errors, as this stream may have already
duke@1	2554	* thrown a related exception which is the one that
duke@1	2555	* should be reported.
duke@1	2556	*/
duke@1	2557	}
duke@1	2558	}
duke@1	2559	}
ksrini@804	2560	/*
ksrini@804	2561	* ensureCapacity will increase the buffer as needed, taking note that
ksrini@804	2562	* the new buffer will always be greater than the needed and never
ksrini@804	2563	* exactly equal to the needed size or bp. If equal then the read (above)
ksrini@804	2564	* will infinitely loop as buf.length - bp == 0.
ksrini@804	2565	*/
duke@1	2566	private static byte[] ensureCapacity(byte[] buf, int needed) {
ksrini@804	2567	if (buf.length <= needed) {
duke@1	2568	byte[] old = buf;
duke@1	2569	buf = new byte[Integer.highestOneBit(needed) << 1];
duke@1	2570	System.arraycopy(old, 0, buf, 0, old.length);
duke@1	2571	}
duke@1	2572	return buf;
duke@1	2573	}
duke@1	2574	/** Static factory for CompletionFailure objects.
duke@1	2575	* In practice, only one can be used at a time, so we share one
duke@1	2576	* to reduce the expense of allocating new exception objects.
duke@1	2577	*/
jjg@12	2578	private CompletionFailure newCompletionFailure(TypeSymbol c,
jjg@12	2579	JCDiagnostic diag) {
duke@1	2580	if (!cacheCompletionFailure) {
duke@1	2581	// log.warning("proc.messager",
duke@1	2582	// Log.getLocalizedString("class.file.not.found", c.flatname));
duke@1	2583	// c.debug.printStackTrace();
jjg@12	2584	return new CompletionFailure(c, diag);
duke@1	2585	} else {
duke@1	2586	CompletionFailure result = cachedCompletionFailure;
duke@1	2587	result.sym = c;
jjg@12	2588	result.diag = diag;
duke@1	2589	return result;
duke@1	2590	}
duke@1	2591	}
duke@1	2592	private CompletionFailure cachedCompletionFailure =
jjg@12	2593	new CompletionFailure(null, (JCDiagnostic) null);
duke@1	2594	{
duke@1	2595	cachedCompletionFailure.setStackTrace(new StackTraceElement[0]);
duke@1	2596	}
duke@1	2597
duke@1	2598	/** Load a toplevel class with given fully qualified name
duke@1	2599	* The class is entered into `classes' only if load was successful.
duke@1	2600	*/
duke@1	2601	public ClassSymbol loadClass(Name flatname) throws CompletionFailure {
duke@1	2602	boolean absent = classes.get(flatname) == null;
duke@1	2603	ClassSymbol c = enterClass(flatname);
duke@1	2604	if (c.members_field == null && c.completer != null) {
duke@1	2605	try {
duke@1	2606	c.complete();
duke@1	2607	} catch (CompletionFailure ex) {
duke@1	2608	if (absent) classes.remove(flatname);
duke@1	2609	throw ex;
duke@1	2610	}
duke@1	2611	}
duke@1	2612	return c;
duke@1	2613	}
duke@1	2614
duke@1	2615	/************************************************************************
duke@1	2616	* Loading Packages
duke@1	2617	***********************************************************************/
duke@1	2618
duke@1	2619	/** Check to see if a package exists, given its fully qualified name.
duke@1	2620	*/
duke@1	2621	public boolean packageExists(Name fullname) {
duke@1	2622	return enterPackage(fullname).exists();
duke@1	2623	}
duke@1	2624
duke@1	2625	/** Make a package, given its fully qualified name.
duke@1	2626	*/
duke@1	2627	public PackageSymbol enterPackage(Name fullname) {
duke@1	2628	PackageSymbol p = packages.get(fullname);
duke@1	2629	if (p == null) {
jjg@816	2630	Assert.check(!fullname.isEmpty(), "rootPackage missing!");
duke@1	2631	p = new PackageSymbol(
duke@1	2632	Convert.shortName(fullname),
duke@1	2633	enterPackage(Convert.packagePart(fullname)));
jfranck@2007	2634	p.completer = thisCompleter;
duke@1	2635	packages.put(fullname, p);
duke@1	2636	}
duke@1	2637	return p;
duke@1	2638	}
duke@1	2639
duke@1	2640	/** Make a package, given its unqualified name and enclosing package.
duke@1	2641	*/
duke@1	2642	public PackageSymbol enterPackage(Name name, PackageSymbol owner) {
duke@1	2643	return enterPackage(TypeSymbol.formFullName(name, owner));
duke@1	2644	}
duke@1	2645
duke@1	2646	/** Include class corresponding to given class file in package,
duke@1	2647	* unless (1) we already have one the same kind (.class or .java), or
duke@1	2648	* (2) we have one of the other kind, and the given class file
duke@1	2649	* is older.
duke@1	2650	*/
duke@1	2651	protected void includeClassFile(PackageSymbol p, JavaFileObject file) {
duke@1	2652	if ((p.flags_field & EXISTS) == 0)
duke@1	2653	for (Symbol q = p; q != null && q.kind == PCK; q = q.owner)
duke@1	2654	q.flags_field |= EXISTS;
duke@1	2655	JavaFileObject.Kind kind = file.getKind();
duke@1	2656	int seen;
duke@1	2657	if (kind == JavaFileObject.Kind.CLASS)
duke@1	2658	seen = CLASS_SEEN;
duke@1	2659	else
duke@1	2660	seen = SOURCE_SEEN;
duke@1	2661	String binaryName = fileManager.inferBinaryName(currentLoc, file);
duke@1	2662	int lastDot = binaryName.lastIndexOf(".");
duke@1	2663	Name classname = names.fromString(binaryName.substring(lastDot + 1));
duke@1	2664	boolean isPkgInfo = classname == names.package_info;
duke@1	2665	ClassSymbol c = isPkgInfo
duke@1	2666	? p.package_info
duke@1	2667	: (ClassSymbol) p.members_field.lookup(classname).sym;
duke@1	2668	if (c == null) {
duke@1	2669	c = enterClass(classname, p);
duke@1	2670	if (c.classfile == null) // only update the file if's it's newly created
duke@1	2671	c.classfile = file;
duke@1	2672	if (isPkgInfo) {
duke@1	2673	p.package_info = c;
duke@1	2674	} else {
duke@1	2675	if (c.owner == p) // it might be an inner class
duke@1	2676	p.members_field.enter(c);
duke@1	2677	}
duke@1	2678	} else if (c.classfile != null && (c.flags_field & seen) == 0) {
duke@1	2679	// if c.classfile == null, we are currently compiling this class
duke@1	2680	// and no further action is necessary.
duke@1	2681	// if (c.flags_field & seen) != 0, we have already encountered
duke@1	2682	// a file of the same kind; again no further action is necessary.
duke@1	2683	if ((c.flags_field & (CLASS_SEEN | SOURCE_SEEN)) != 0)
duke@1	2684	c.classfile = preferredFileObject(file, c.classfile);
duke@1	2685	}
duke@1	2686	c.flags_field |= seen;
duke@1	2687	}
duke@1	2688
duke@1	2689	/** Implement policy to choose to derive information from a source
duke@1	2690	* file or a class file when both are present. May be overridden
duke@1	2691	* by subclasses.
duke@1	2692	*/
duke@1	2693	protected JavaFileObject preferredFileObject(JavaFileObject a,
duke@1	2694	JavaFileObject b) {
duke@1	2695
duke@1	2696	if (preferSource)
duke@1	2697	return (a.getKind() == JavaFileObject.Kind.SOURCE) ? a : b;
duke@1	2698	else {
duke@1	2699	long adate = a.getLastModified();
duke@1	2700	long bdate = b.getLastModified();
duke@1	2701	// 6449326: policy for bad lastModifiedTime in ClassReader
duke@1	2702	//assert adate >= 0 && bdate >= 0;
duke@1	2703	return (adate > bdate) ? a : b;
duke@1	2704	}
duke@1	2705	}
duke@1	2706
duke@1	2707	/**
duke@1	2708	* specifies types of files to be read when filling in a package symbol
duke@1	2709	*/
duke@1	2710	protected EnumSet<JavaFileObject.Kind> getPackageFileKinds() {
duke@1	2711	return EnumSet.of(JavaFileObject.Kind.CLASS, JavaFileObject.Kind.SOURCE);
duke@1	2712	}
duke@1	2713
duke@1	2714	/**
duke@1	2715	* this is used to support javadoc
duke@1	2716	*/
duke@1	2717	protected void extraFileActions(PackageSymbol pack, JavaFileObject fe) {
duke@1	2718	}
duke@1	2719
duke@1	2720	protected Location currentLoc; // FIXME
duke@1	2721
duke@1	2722	private boolean verbosePath = true;
duke@1	2723
duke@1	2724	/** Load directory of package into members scope.
duke@1	2725	*/
duke@1	2726	private void fillIn(PackageSymbol p) throws IOException {
duke@1	2727	if (p.members_field == null) p.members_field = new Scope(p);
duke@1	2728	String packageName = p.fullname.toString();
duke@1	2729
duke@1	2730	Set<JavaFileObject.Kind> kinds = getPackageFileKinds();
duke@1	2731
duke@1	2732	fillIn(p, PLATFORM_CLASS_PATH,
duke@1	2733	fileManager.list(PLATFORM_CLASS_PATH,
duke@1	2734	packageName,
duke@1	2735	EnumSet.of(JavaFileObject.Kind.CLASS),
duke@1	2736	false));
duke@1	2737
duke@1	2738	Set<JavaFileObject.Kind> classKinds = EnumSet.copyOf(kinds);
duke@1	2739	classKinds.remove(JavaFileObject.Kind.SOURCE);
duke@1	2740	boolean wantClassFiles = !classKinds.isEmpty();
duke@1	2741
duke@1	2742	Set<JavaFileObject.Kind> sourceKinds = EnumSet.copyOf(kinds);
duke@1	2743	sourceKinds.remove(JavaFileObject.Kind.CLASS);
duke@1	2744	boolean wantSourceFiles = !sourceKinds.isEmpty();
duke@1	2745
duke@1	2746	boolean haveSourcePath = fileManager.hasLocation(SOURCE_PATH);
duke@1	2747
duke@1	2748	if (verbose && verbosePath) {
duke@1	2749	if (fileManager instanceof StandardJavaFileManager) {
duke@1	2750	StandardJavaFileManager fm = (StandardJavaFileManager)fileManager;
duke@1	2751	if (haveSourcePath && wantSourceFiles) {
duke@1	2752	List<File> path = List.nil();
duke@1	2753	for (File file : fm.getLocation(SOURCE_PATH)) {
duke@1	2754	path = path.prepend(file);
duke@1	2755	}
jjg@909	2756	log.printVerbose("sourcepath", path.reverse().toString());
duke@1	2757	} else if (wantSourceFiles) {
duke@1	2758	List<File> path = List.nil();
duke@1	2759	for (File file : fm.getLocation(CLASS_PATH)) {
duke@1	2760	path = path.prepend(file);
duke@1	2761	}
jjg@909	2762	log.printVerbose("sourcepath", path.reverse().toString());
duke@1	2763	}
duke@1	2764	if (wantClassFiles) {
duke@1	2765	List<File> path = List.nil();
duke@1	2766	for (File file : fm.getLocation(PLATFORM_CLASS_PATH)) {
duke@1	2767	path = path.prepend(file);
duke@1	2768	}
duke@1	2769	for (File file : fm.getLocation(CLASS_PATH)) {
duke@1	2770	path = path.prepend(file);
duke@1	2771	}
jjg@909	2772	log.printVerbose("classpath", path.reverse().toString());
duke@1	2773	}
duke@1	2774	}
duke@1	2775	}
duke@1	2776
duke@1	2777	if (wantSourceFiles && !haveSourcePath) {
duke@1	2778	fillIn(p, CLASS_PATH,
duke@1	2779	fileManager.list(CLASS_PATH,
duke@1	2780	packageName,
duke@1	2781	kinds,
duke@1	2782	false));
duke@1	2783	} else {
duke@1	2784	if (wantClassFiles)
duke@1	2785	fillIn(p, CLASS_PATH,
duke@1	2786	fileManager.list(CLASS_PATH,
duke@1	2787	packageName,
duke@1	2788	classKinds,
duke@1	2789	false));
duke@1	2790	if (wantSourceFiles)
duke@1	2791	fillIn(p, SOURCE_PATH,
duke@1	2792	fileManager.list(SOURCE_PATH,
duke@1	2793	packageName,
duke@1	2794	sourceKinds,
duke@1	2795	false));
duke@1	2796	}
duke@1	2797	verbosePath = false;
duke@1	2798	}
duke@1	2799	// where
duke@1	2800	private void fillIn(PackageSymbol p,
duke@1	2801	Location location,
duke@1	2802	Iterable<JavaFileObject> files)
duke@1	2803	{
duke@1	2804	currentLoc = location;
duke@1	2805	for (JavaFileObject fo : files) {
duke@1	2806	switch (fo.getKind()) {
duke@1	2807	case CLASS:
duke@1	2808	case SOURCE: {
duke@1	2809	// TODO pass binaryName to includeClassFile
duke@1	2810	String binaryName = fileManager.inferBinaryName(currentLoc, fo);
duke@1	2811	String simpleName = binaryName.substring(binaryName.lastIndexOf(".") + 1);
duke@1	2812	if (SourceVersion.isIdentifier(simpleName) ||
duke@1	2813	simpleName.equals("package-info"))
duke@1	2814	includeClassFile(p, fo);
duke@1	2815	break;
duke@1	2816	}
duke@1	2817	default:
duke@1	2818	extraFileActions(p, fo);
duke@1	2819	}
duke@1	2820	}
duke@1	2821	}
duke@1	2822
duke@1	2823	/** Output for "-checkclassfile" option.
duke@1	2824	* @param key The key to look up the correct internationalized string.
duke@1	2825	* @param arg An argument for substitution into the output string.
duke@1	2826	*/
duke@1	2827	private void printCCF(String key, Object arg) {
jjg@1136	2828	log.printLines(key, arg);
duke@1	2829	}
duke@1	2830
duke@1	2831
duke@1	2832	public interface SourceCompleter {
duke@1	2833	void complete(ClassSymbol sym)
duke@1	2834	throws CompletionFailure;
duke@1	2835	}
duke@1	2836
duke@1	2837	/**
duke@1	2838	* A subclass of JavaFileObject for the sourcefile attribute found in a classfile.
duke@1	2839	* The attribute is only the last component of the original filename, so is unlikely
duke@1	2840	* to be valid as is, so operations other than those to access the name throw
duke@1	2841	* UnsupportedOperationException
duke@1	2842	*/
duke@1	2843	private static class SourceFileObject extends BaseFileObject {
duke@1	2844
duke@1	2845	/** The file's name.
duke@1	2846	*/
duke@1	2847	private Name name;
jjg@57	2848	private Name flatname;
duke@1	2849
jjg@57	2850	public SourceFileObject(Name name, Name flatname) {
jjg@57	2851	super(null); // no file manager; never referenced for this file object
duke@1	2852	this.name = name;
jjg@57	2853	this.flatname = flatname;
duke@1	2854	}
duke@1	2855
jjg@415	2856	@Override
jjg@415	2857	public URI toUri() {
jjg@415	2858	try {
jjg@415	2859	return new URI(null, name.toString(), null);
jjg@415	2860	} catch (URISyntaxException e) {
jjg@415	2861	throw new CannotCreateUriError(name.toString(), e);
jjg@415	2862	}
jjg@415	2863	}
jjg@415	2864
jjg@415	2865	@Override
jjg@415	2866	public String getName() {
jjg@415	2867	return name.toString();
jjg@415	2868	}
jjg@415	2869
jjg@415	2870	@Override
jjg@415	2871	public String getShortName() {
jjg@415	2872	return getName();
jjg@415	2873	}
jjg@415	2874
jjg@415	2875	@Override
jjg@415	2876	public JavaFileObject.Kind getKind() {
jjg@415	2877	return getKind(getName());
jjg@415	2878	}
jjg@415	2879
jjg@415	2880	@Override
duke@1	2881	public InputStream openInputStream() {
duke@1	2882	throw new UnsupportedOperationException();
duke@1	2883	}
duke@1	2884
jjg@415	2885	@Override
duke@1	2886	public OutputStream openOutputStream() {
duke@1	2887	throw new UnsupportedOperationException();
duke@1	2888	}
duke@1	2889
jjg@415	2890	@Override
jjg@415	2891	public CharBuffer getCharContent(boolean ignoreEncodingErrors) {
duke@1	2892	throw new UnsupportedOperationException();
duke@1	2893	}
duke@1	2894
jjg@415	2895	@Override
jjg@415	2896	public Reader openReader(boolean ignoreEncodingErrors) {
jjg@415	2897	throw new UnsupportedOperationException();
jjg@415	2898	}
jjg@415	2899
jjg@415	2900	@Override
duke@1	2901	public Writer openWriter() {
duke@1	2902	throw new UnsupportedOperationException();
duke@1	2903	}
duke@1	2904
jjg@415	2905	@Override
duke@1	2906	public long getLastModified() {
duke@1	2907	throw new UnsupportedOperationException();
duke@1	2908	}
duke@1	2909
jjg@415	2910	@Override
duke@1	2911	public boolean delete() {
duke@1	2912	throw new UnsupportedOperationException();
duke@1	2913	}
duke@1	2914
jjg@415	2915	@Override
jjg@415	2916	protected String inferBinaryName(Iterable<? extends File> path) {
jjg@415	2917	return flatname.toString();
jjg@415	2918	}
jjg@415	2919
jjg@415	2920	@Override
jjg@415	2921	public boolean isNameCompatible(String simpleName, JavaFileObject.Kind kind) {
jjg@415	2922	return true; // fail-safe mode
duke@1	2923	}
duke@1	2924
jjg@424	2925	/**
jjg@424	2926	* Check if two file objects are equal.
jjg@424	2927	* SourceFileObjects are just placeholder objects for the value of a
jjg@424	2928	* SourceFile attribute, and do not directly represent specific files.
jjg@424	2929	* Two SourceFileObjects are equal if their names are equal.
jjg@424	2930	*/
duke@1	2931	@Override
duke@1	2932	public boolean equals(Object other) {
jjg@424	2933	if (this == other)
jjg@424	2934	return true;
jjg@424	2935
duke@1	2936	if (!(other instanceof SourceFileObject))
duke@1	2937	return false;
jjg@424	2938
duke@1	2939	SourceFileObject o = (SourceFileObject) other;
duke@1	2940	return name.equals(o.name);
duke@1	2941	}
duke@1	2942
duke@1	2943	@Override
duke@1	2944	public int hashCode() {
duke@1	2945	return name.hashCode();
duke@1	2946	}
duke@1	2947	}
duke@1	2948	}