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src/share/classes/com/sun/tools/javac/main/JavaCompiler.java@5c9cdeb740f2 (annotated)

src/share/classes/com/sun/tools/javac/main/JavaCompiler.java

Thu, 24 Jul 2008 19:06:57 +0100

author

mcimadamore

date

Thu, 24 Jul 2008 19:06:57 +0100

changeset 80

5c9cdeb740f2

parent 77

866db3b5e7b2

child 95

fac6b1beaa5a

permissions

-rw-r--r--

6717241: some diagnostic argument is prematurely converted into a String object
Summary: removed early toString() conversions applied to diagnostic arguments
Reviewed-by: jjg

duke@1	1	/*
xdono@54	2	* Copyright 1999-2008 Sun Microsystems, Inc. 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
duke@1	7	* published by the Free Software Foundation. Sun designates this
duke@1	8	* particular file as subject to the "Classpath" exception as provided
duke@1	9	* by Sun 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	*
duke@1	21	* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
duke@1	22	* CA 95054 USA or visit www.sun.com if you need additional information or
duke@1	23	* have any questions.
duke@1	24	*/
duke@1	25
duke@1	26	package com.sun.tools.javac.main;
duke@1	27
duke@1	28	import java.io.*;
duke@1	29	import java.util.HashSet;
duke@1	30	import java.util.LinkedHashMap;
duke@1	31	import java.util.Map;
duke@1	32	import java.util.MissingResourceException;
duke@1	33	import java.util.ResourceBundle;
duke@1	34	import java.util.Set;
duke@1	35	import java.util.logging.Handler;
duke@1	36	import java.util.logging.Level;
duke@1	37	import java.util.logging.Logger;
duke@1	38
duke@1	39	import javax.tools.JavaFileManager;
duke@1	40	import javax.tools.JavaFileObject;
duke@1	41	import javax.tools.DiagnosticListener;
duke@1	42
jjg@50	43	import com.sun.tools.javac.file.JavacFileManager;
duke@1	44	import com.sun.source.util.TaskEvent;
duke@1	45	import com.sun.source.util.TaskListener;
duke@1	46
duke@1	47	import com.sun.tools.javac.util.*;
duke@1	48	import com.sun.tools.javac.code.*;
duke@1	49	import com.sun.tools.javac.tree.*;
duke@1	50	import com.sun.tools.javac.parser.*;
duke@1	51	import com.sun.tools.javac.comp.*;
duke@1	52	import com.sun.tools.javac.jvm.*;
duke@1	53
duke@1	54	import com.sun.tools.javac.code.Symbol.*;
duke@1	55	import com.sun.tools.javac.tree.JCTree.*;
duke@1	56
duke@1	57	import com.sun.tools.javac.processing.*;
duke@1	58	import javax.annotation.processing.Processor;
duke@1	59
duke@1	60	import static javax.tools.StandardLocation.CLASS_OUTPUT;
duke@1	61	import static com.sun.tools.javac.util.ListBuffer.lb;
duke@1	62
duke@1	63	// TEMP, until we have a more efficient way to save doc comment info
duke@1	64	import com.sun.tools.javac.parser.DocCommentScanner;
duke@1	65
jjg@77	66	import java.util.HashMap;
jjg@70	67	import java.util.Queue;
duke@1	68	import javax.lang.model.SourceVersion;
duke@1	69
duke@1	70	/** This class could be the main entry point for GJC when GJC is used as a
duke@1	71	* component in a larger software system. It provides operations to
duke@1	72	* construct a new compiler, and to run a new compiler on a set of source
duke@1	73	* files.
duke@1	74	*
duke@1	75	* <p><b>This is NOT part of any API supported by Sun Microsystems. If
duke@1	76	* you write code that depends on this, you do so at your own risk.
duke@1	77	* This code and its internal interfaces are subject to change or
duke@1	78	* deletion without notice.</b>
duke@1	79	*/
duke@1	80	public class JavaCompiler implements ClassReader.SourceCompleter {
duke@1	81	/** The context key for the compiler. */
duke@1	82	protected static final Context.Key<JavaCompiler> compilerKey =
duke@1	83	new Context.Key<JavaCompiler>();
duke@1	84
duke@1	85	/** Get the JavaCompiler instance for this context. */
duke@1	86	public static JavaCompiler instance(Context context) {
duke@1	87	JavaCompiler instance = context.get(compilerKey);
duke@1	88	if (instance == null)
duke@1	89	instance = new JavaCompiler(context);
duke@1	90	return instance;
duke@1	91	}
duke@1	92
duke@1	93	/** The current version number as a string.
duke@1	94	*/
duke@1	95	public static String version() {
duke@1	96	return version("release"); // mm.nn.oo[-milestone]
duke@1	97	}
duke@1	98
duke@1	99	/** The current full version number as a string.
duke@1	100	*/
duke@1	101	public static String fullVersion() {
duke@1	102	return version("full"); // mm.mm.oo[-milestone]-build
duke@1	103	}
duke@1	104
duke@1	105	private static final String versionRBName = "com.sun.tools.javac.resources.version";
duke@1	106	private static ResourceBundle versionRB;
duke@1	107
duke@1	108	private static String version(String key) {
duke@1	109	if (versionRB == null) {
duke@1	110	try {
duke@1	111	versionRB = ResourceBundle.getBundle(versionRBName);
duke@1	112	} catch (MissingResourceException e) {
duke@1	113	return Log.getLocalizedString("version.resource.missing", System.getProperty("java.version"));
duke@1	114	}
duke@1	115	}
duke@1	116	try {
duke@1	117	return versionRB.getString(key);
duke@1	118	}
duke@1	119	catch (MissingResourceException e) {
duke@1	120	return Log.getLocalizedString("version.unknown", System.getProperty("java.version"));
duke@1	121	}
duke@1	122	}
duke@1	123
duke@1	124	private static enum CompilePolicy {
duke@1	125	/*
duke@1	126	* Just attribute the parse trees
duke@1	127	*/
duke@1	128	ATTR_ONLY,
duke@1	129
duke@1	130	/*
duke@1	131	* Just attribute and do flow analysis on the parse trees.
duke@1	132	* This should catch most user errors.
duke@1	133	*/
duke@1	134	CHECK_ONLY,
duke@1	135
duke@1	136	/*
duke@1	137	* Attribute everything, then do flow analysis for everything,
duke@1	138	* then desugar everything, and only then generate output.
duke@1	139	* Means nothing is generated if there are any errors in any classes.
duke@1	140	*/
duke@1	141	SIMPLE,
duke@1	142
duke@1	143	/*
duke@1	144	* After attributing everything and doing flow analysis,
duke@1	145	* group the work by compilation unit.
duke@1	146	* Then, process the work for each compilation unit together.
duke@1	147	* Means nothing is generated for a compilation unit if the are any errors
duke@1	148	* in the compilation unit (or in any preceding compilation unit.)
duke@1	149	*/
duke@1	150	BY_FILE,
duke@1	151
duke@1	152	/*
duke@1	153	* Completely process each entry on the todo list in turn.
duke@1	154	* -- this is the same for 1.5.
duke@1	155	* Means output might be generated for some classes in a compilation unit
duke@1	156	* and not others.
duke@1	157	*/
duke@1	158	BY_TODO;
duke@1	159
duke@1	160	static CompilePolicy decode(String option) {
duke@1	161	if (option == null)
duke@1	162	return DEFAULT_COMPILE_POLICY;
duke@1	163	else if (option.equals("attr"))
duke@1	164	return ATTR_ONLY;
duke@1	165	else if (option.equals("check"))
duke@1	166	return CHECK_ONLY;
duke@1	167	else if (option.equals("simple"))
duke@1	168	return SIMPLE;
duke@1	169	else if (option.equals("byfile"))
duke@1	170	return BY_FILE;
duke@1	171	else if (option.equals("bytodo"))
duke@1	172	return BY_TODO;
duke@1	173	else
duke@1	174	return DEFAULT_COMPILE_POLICY;
duke@1	175	}
duke@1	176	}
duke@1	177
duke@1	178	private static CompilePolicy DEFAULT_COMPILE_POLICY = CompilePolicy.BY_TODO;
duke@1	179
duke@1	180	private static enum ImplicitSourcePolicy {
duke@1	181	/** Don't generate or process implicitly read source files. */
duke@1	182	NONE,
duke@1	183	/** Generate classes for implicitly read source files. */
duke@1	184	CLASS,
duke@1	185	/** Like CLASS, but generate warnings if annotation processing occurs */
duke@1	186	UNSET;
duke@1	187
duke@1	188	static ImplicitSourcePolicy decode(String option) {
duke@1	189	if (option == null)
duke@1	190	return UNSET;
duke@1	191	else if (option.equals("none"))
duke@1	192	return NONE;
duke@1	193	else if (option.equals("class"))
duke@1	194	return CLASS;
duke@1	195	else
duke@1	196	return UNSET;
duke@1	197	}
duke@1	198	}
duke@1	199
duke@1	200	/** The log to be used for error reporting.
duke@1	201	*/
duke@1	202	public Log log;
duke@1	203
jjg@12	204	/** Factory for creating diagnostic objects
jjg@12	205	*/
jjg@12	206	JCDiagnostic.Factory diagFactory;
jjg@12	207
duke@1	208	/** The tree factory module.
duke@1	209	*/
duke@1	210	protected TreeMaker make;
duke@1	211
duke@1	212	/** The class reader.
duke@1	213	*/
duke@1	214	protected ClassReader reader;
duke@1	215
duke@1	216	/** The class writer.
duke@1	217	*/
duke@1	218	protected ClassWriter writer;
duke@1	219
duke@1	220	/** The module for the symbol table entry phases.
duke@1	221	*/
duke@1	222	protected Enter enter;
duke@1	223
duke@1	224	/** The symbol table.
duke@1	225	*/
duke@1	226	protected Symtab syms;
duke@1	227
duke@1	228	/** The language version.
duke@1	229	*/
duke@1	230	protected Source source;
duke@1	231
duke@1	232	/** The module for code generation.
duke@1	233	*/
duke@1	234	protected Gen gen;
duke@1	235
duke@1	236	/** The name table.
duke@1	237	*/
duke@1	238	protected Name.Table names;
duke@1	239
duke@1	240	/** The attributor.
duke@1	241	*/
duke@1	242	protected Attr attr;
duke@1	243
duke@1	244	/** The attributor.
duke@1	245	*/
duke@1	246	protected Check chk;
duke@1	247
duke@1	248	/** The flow analyzer.
duke@1	249	*/
duke@1	250	protected Flow flow;
duke@1	251
duke@1	252	/** The type eraser.
duke@1	253	*/
duke@1	254	TransTypes transTypes;
duke@1	255
duke@1	256	/** The syntactic sugar desweetener.
duke@1	257	*/
duke@1	258	Lower lower;
duke@1	259
duke@1	260	/** The annotation annotator.
duke@1	261	*/
duke@1	262	protected Annotate annotate;
duke@1	263
duke@1	264	/** Force a completion failure on this name
duke@1	265	*/
duke@1	266	protected final Name completionFailureName;
duke@1	267
duke@1	268	/** Type utilities.
duke@1	269	*/
duke@1	270	protected Types types;
duke@1	271
duke@1	272	/** Access to file objects.
duke@1	273	*/
duke@1	274	protected JavaFileManager fileManager;
duke@1	275
duke@1	276	/** Factory for parsers.
duke@1	277	*/
duke@1	278	protected Parser.Factory parserFactory;
duke@1	279
duke@1	280	/** Optional listener for progress events
duke@1	281	*/
duke@1	282	protected TaskListener taskListener;
duke@1	283
duke@1	284	/**
duke@1	285	* Annotation processing may require and provide a new instance
duke@1	286	* of the compiler to be used for the analyze and generate phases.
duke@1	287	*/
duke@1	288	protected JavaCompiler delegateCompiler;
duke@1	289
duke@1	290	/**
duke@1	291	* Flag set if any annotation processing occurred.
duke@1	292	**/
duke@1	293	protected boolean annotationProcessingOccurred;
duke@1	294
duke@1	295	/**
duke@1	296	* Flag set if any implicit source files read.
duke@1	297	**/
duke@1	298	protected boolean implicitSourceFilesRead;
duke@1	299
duke@1	300	protected Context context;
duke@1	301
duke@1	302	/** Construct a new compiler using a shared context.
duke@1	303	*/
duke@1	304	public JavaCompiler(final Context context) {
duke@1	305	this.context = context;
duke@1	306	context.put(compilerKey, this);
duke@1	307
duke@1	308	// if fileManager not already set, register the JavacFileManager to be used
duke@1	309	if (context.get(JavaFileManager.class) == null)
duke@1	310	JavacFileManager.preRegister(context);
duke@1	311
duke@1	312	names = Name.Table.instance(context);
duke@1	313	log = Log.instance(context);
jjg@12	314	diagFactory = JCDiagnostic.Factory.instance(context);
duke@1	315	reader = ClassReader.instance(context);
duke@1	316	make = TreeMaker.instance(context);
duke@1	317	writer = ClassWriter.instance(context);
duke@1	318	enter = Enter.instance(context);
duke@1	319	todo = Todo.instance(context);
duke@1	320
duke@1	321	fileManager = context.get(JavaFileManager.class);
duke@1	322	parserFactory = Parser.Factory.instance(context);
duke@1	323
duke@1	324	try {
duke@1	325	// catch completion problems with predefineds
duke@1	326	syms = Symtab.instance(context);
duke@1	327	} catch (CompletionFailure ex) {
duke@1	328	// inlined Check.completionError as it is not initialized yet
jjg@12	329	log.error("cant.access", ex.sym, ex.getDetailValue());
duke@1	330	if (ex instanceof ClassReader.BadClassFile)
duke@1	331	throw new Abort();
duke@1	332	}
duke@1	333	source = Source.instance(context);
duke@1	334	attr = Attr.instance(context);
duke@1	335	chk = Check.instance(context);
duke@1	336	gen = Gen.instance(context);
duke@1	337	flow = Flow.instance(context);
duke@1	338	transTypes = TransTypes.instance(context);
duke@1	339	lower = Lower.instance(context);
duke@1	340	annotate = Annotate.instance(context);
duke@1	341	types = Types.instance(context);
duke@1	342	taskListener = context.get(TaskListener.class);
duke@1	343
duke@1	344	reader.sourceCompleter = this;
duke@1	345
duke@1	346	Options options = Options.instance(context);
duke@1	347
duke@1	348	verbose = options.get("-verbose") != null;
duke@1	349	sourceOutput = options.get("-printsource") != null; // used to be -s
duke@1	350	stubOutput = options.get("-stubs") != null;
duke@1	351	relax = options.get("-relax") != null;
duke@1	352	printFlat = options.get("-printflat") != null;
duke@1	353	attrParseOnly = options.get("-attrparseonly") != null;
duke@1	354	encoding = options.get("-encoding");
duke@1	355	lineDebugInfo = options.get("-g:") == null ||
duke@1	356	options.get("-g:lines") != null;
duke@1	357	genEndPos = options.get("-Xjcov") != null ||
duke@1	358	context.get(DiagnosticListener.class) != null;
duke@1	359	devVerbose = options.get("dev") != null;
duke@1	360	processPcks = options.get("process.packages") != null;
duke@1	361
duke@1	362	verboseCompilePolicy = options.get("verboseCompilePolicy") != null;
duke@1	363
duke@1	364	if (attrParseOnly)
duke@1	365	compilePolicy = CompilePolicy.ATTR_ONLY;
duke@1	366	else
duke@1	367	compilePolicy = CompilePolicy.decode(options.get("compilePolicy"));
duke@1	368
duke@1	369	implicitSourcePolicy = ImplicitSourcePolicy.decode(options.get("-implicit"));
duke@1	370
duke@1	371	completionFailureName =
duke@1	372	(options.get("failcomplete") != null)
duke@1	373	? names.fromString(options.get("failcomplete"))
duke@1	374	: null;
duke@1	375	}
duke@1	376
duke@1	377	/* Switches:
duke@1	378	*/
duke@1	379
duke@1	380	/** Verbose output.
duke@1	381	*/
duke@1	382	public boolean verbose;
duke@1	383
duke@1	384	/** Emit plain Java source files rather than class files.
duke@1	385	*/
duke@1	386	public boolean sourceOutput;
duke@1	387
duke@1	388	/** Emit stub source files rather than class files.
duke@1	389	*/
duke@1	390	public boolean stubOutput;
duke@1	391
duke@1	392	/** Generate attributed parse tree only.
duke@1	393	*/
duke@1	394	public boolean attrParseOnly;
duke@1	395
duke@1	396	/** Switch: relax some constraints for producing the jsr14 prototype.
duke@1	397	*/
duke@1	398	boolean relax;
duke@1	399
duke@1	400	/** Debug switch: Emit Java sources after inner class flattening.
duke@1	401	*/
duke@1	402	public boolean printFlat;
duke@1	403
duke@1	404	/** The encoding to be used for source input.
duke@1	405	*/
duke@1	406	public String encoding;
duke@1	407
duke@1	408	/** Generate code with the LineNumberTable attribute for debugging
duke@1	409	*/
duke@1	410	public boolean lineDebugInfo;
duke@1	411
duke@1	412	/** Switch: should we store the ending positions?
duke@1	413	*/
duke@1	414	public boolean genEndPos;
duke@1	415
duke@1	416	/** Switch: should we debug ignored exceptions
duke@1	417	*/
duke@1	418	protected boolean devVerbose;
duke@1	419
duke@1	420	/** Switch: should we (annotation) process packages as well
duke@1	421	*/
duke@1	422	protected boolean processPcks;
duke@1	423
duke@1	424	/** Switch: is annotation processing requested explitly via
duke@1	425	* CompilationTask.setProcessors?
duke@1	426	*/
duke@1	427	protected boolean explicitAnnotationProcessingRequested = false;
duke@1	428
duke@1	429	/**
duke@1	430	* The policy for the order in which to perform the compilation
duke@1	431	*/
duke@1	432	protected CompilePolicy compilePolicy;
duke@1	433
duke@1	434	/**
duke@1	435	* The policy for what to do with implicitly read source files
duke@1	436	*/
duke@1	437	protected ImplicitSourcePolicy implicitSourcePolicy;
duke@1	438
duke@1	439	/**
duke@1	440	* Report activity related to compilePolicy
duke@1	441	*/
duke@1	442	public boolean verboseCompilePolicy;
duke@1	443
duke@1	444	/** A queue of all as yet unattributed classes.
duke@1	445	*/
duke@1	446	public Todo todo;
duke@1	447
jjg@77	448	protected enum CompileState {
jjg@77	449	TODO(0),
jjg@77	450	ATTR(1),
jjg@77	451	FLOW(2);
jjg@77	452	CompileState(int value) {
jjg@77	453	this.value = value;
jjg@77	454	}
jjg@77	455	boolean isDone(CompileState other) {
jjg@77	456	return value >= other.value;
jjg@77	457	}
jjg@77	458	private int value;
jjg@77	459	};
jjg@77	460	protected class CompileStates extends HashMap<Env<AttrContext>,CompileState> {
jjg@77	461	boolean isDone(Env<AttrContext> env, CompileState cs) {
jjg@77	462	CompileState ecs = get(env);
jjg@77	463	return ecs != null && ecs.isDone(cs);
jjg@77	464	}
jjg@77	465	}
jjg@77	466	private CompileStates compileStates = new CompileStates();
duke@1	467
duke@1	468	/** The set of currently compiled inputfiles, needed to ensure
duke@1	469	* we don't accidentally overwrite an input file when -s is set.
duke@1	470	* initialized by `compile'.
duke@1	471	*/
duke@1	472	protected Set<JavaFileObject> inputFiles = new HashSet<JavaFileObject>();
duke@1	473
duke@1	474	/** The number of errors reported so far.
duke@1	475	*/
duke@1	476	public int errorCount() {
duke@1	477	if (delegateCompiler != null && delegateCompiler != this)
duke@1	478	return delegateCompiler.errorCount();
duke@1	479	else
duke@1	480	return log.nerrors;
duke@1	481	}
duke@1	482
jjg@70	483	protected final <T> Queue<T> stopIfError(Queue<T> queue) {
duke@1	484	if (errorCount() == 0)
jjg@70	485	return queue;
duke@1	486	else
jjg@70	487	return ListBuffer.lb();
duke@1	488	}
duke@1	489
duke@1	490	protected final <T> List<T> stopIfError(List<T> list) {
duke@1	491	if (errorCount() == 0)
duke@1	492	return list;
duke@1	493	else
duke@1	494	return List.nil();
duke@1	495	}
duke@1	496
duke@1	497	/** The number of warnings reported so far.
duke@1	498	*/
duke@1	499	public int warningCount() {
duke@1	500	if (delegateCompiler != null && delegateCompiler != this)
duke@1	501	return delegateCompiler.warningCount();
duke@1	502	else
duke@1	503	return log.nwarnings;
duke@1	504	}
duke@1	505
duke@1	506	/** Whether or not any parse errors have occurred.
duke@1	507	*/
duke@1	508	public boolean parseErrors() {
duke@1	509	return parseErrors;
duke@1	510	}
duke@1	511
duke@1	512	protected Scanner.Factory getScannerFactory() {
duke@1	513	return Scanner.Factory.instance(context);
duke@1	514	}
duke@1	515
duke@1	516	/** Try to open input stream with given name.
duke@1	517	* Report an error if this fails.
duke@1	518	* @param filename The file name of the input stream to be opened.
duke@1	519	*/
duke@1	520	public CharSequence readSource(JavaFileObject filename) {
duke@1	521	try {
duke@1	522	inputFiles.add(filename);
duke@1	523	return filename.getCharContent(false);
duke@1	524	} catch (IOException e) {
duke@1	525	log.error("error.reading.file", filename, e.getLocalizedMessage());
duke@1	526	return null;
duke@1	527	}
duke@1	528	}
duke@1	529
duke@1	530	/** Parse contents of input stream.
duke@1	531	* @param filename The name of the file from which input stream comes.
duke@1	532	* @param input The input stream to be parsed.
duke@1	533	*/
duke@1	534	protected JCCompilationUnit parse(JavaFileObject filename, CharSequence content) {
duke@1	535	long msec = now();
duke@1	536	JCCompilationUnit tree = make.TopLevel(List.<JCTree.JCAnnotation>nil(),
duke@1	537	null, List.<JCTree>nil());
duke@1	538	if (content != null) {
duke@1	539	if (verbose) {
duke@1	540	printVerbose("parsing.started", filename);
duke@1	541	}
duke@1	542	if (taskListener != null) {
duke@1	543	TaskEvent e = new TaskEvent(TaskEvent.Kind.PARSE, filename);
duke@1	544	taskListener.started(e);
duke@1	545	}
duke@1	546	int initialErrorCount = log.nerrors;
duke@1	547	Scanner scanner = getScannerFactory().newScanner(content);
duke@1	548	Parser parser = parserFactory.newParser(scanner, keepComments(), genEndPos);
duke@1	549	tree = parser.compilationUnit();
duke@1	550	parseErrors |= (log.nerrors > initialErrorCount);
duke@1	551	if (lineDebugInfo) {
duke@1	552	tree.lineMap = scanner.getLineMap();
duke@1	553	}
duke@1	554	if (verbose) {
duke@1	555	printVerbose("parsing.done", Long.toString(elapsed(msec)));
duke@1	556	}
duke@1	557	}
duke@1	558
duke@1	559	tree.sourcefile = filename;
duke@1	560
duke@1	561	if (content != null && taskListener != null) {
duke@1	562	TaskEvent e = new TaskEvent(TaskEvent.Kind.PARSE, tree);
duke@1	563	taskListener.finished(e);
duke@1	564	}
duke@1	565
duke@1	566	return tree;
duke@1	567	}
duke@1	568	// where
duke@1	569	public boolean keepComments = false;
duke@1	570	protected boolean keepComments() {
duke@1	571	return keepComments || sourceOutput || stubOutput;
duke@1	572	}
duke@1	573
duke@1	574
duke@1	575	/** Parse contents of file.
duke@1	576	* @param filename The name of the file to be parsed.
duke@1	577	*/
duke@1	578	@Deprecated
duke@1	579	public JCTree.JCCompilationUnit parse(String filename) throws IOException {
duke@1	580	JavacFileManager fm = (JavacFileManager)fileManager;
duke@1	581	return parse(fm.getJavaFileObjectsFromStrings(List.of(filename)).iterator().next());
duke@1	582	}
duke@1	583
duke@1	584	/** Parse contents of file.
duke@1	585	* @param filename The name of the file to be parsed.
duke@1	586	*/
duke@1	587	public JCTree.JCCompilationUnit parse(JavaFileObject filename) {
duke@1	588	JavaFileObject prev = log.useSource(filename);
duke@1	589	try {
duke@1	590	JCTree.JCCompilationUnit t = parse(filename, readSource(filename));
duke@1	591	if (t.endPositions != null)
duke@1	592	log.setEndPosTable(filename, t.endPositions);
duke@1	593	return t;
duke@1	594	} finally {
duke@1	595	log.useSource(prev);
duke@1	596	}
duke@1	597	}
duke@1	598
duke@1	599	/** Resolve an identifier.
duke@1	600	* @param name The identifier to resolve
duke@1	601	*/
duke@1	602	public Symbol resolveIdent(String name) {
duke@1	603	if (name.equals(""))
duke@1	604	return syms.errSymbol;
duke@1	605	JavaFileObject prev = log.useSource(null);
duke@1	606	try {
duke@1	607	JCExpression tree = null;
duke@1	608	for (String s : name.split("\\.", -1)) {
duke@1	609	if (!SourceVersion.isIdentifier(s)) // TODO: check for keywords
duke@1	610	return syms.errSymbol;
duke@1	611	tree = (tree == null) ? make.Ident(names.fromString(s))
duke@1	612	: make.Select(tree, names.fromString(s));
duke@1	613	}
duke@1	614	JCCompilationUnit toplevel =
duke@1	615	make.TopLevel(List.<JCTree.JCAnnotation>nil(), null, List.<JCTree>nil());
duke@1	616	toplevel.packge = syms.unnamedPackage;
duke@1	617	return attr.attribIdent(tree, toplevel);
duke@1	618	} finally {
duke@1	619	log.useSource(prev);
duke@1	620	}
duke@1	621	}
duke@1	622
duke@1	623	/** Emit plain Java source for a class.
duke@1	624	* @param env The attribution environment of the outermost class
duke@1	625	* containing this class.
duke@1	626	* @param cdef The class definition to be printed.
duke@1	627	*/
duke@1	628	JavaFileObject printSource(Env<AttrContext> env, JCClassDecl cdef) throws IOException {
duke@1	629	JavaFileObject outFile
duke@1	630	= fileManager.getJavaFileForOutput(CLASS_OUTPUT,
duke@1	631	cdef.sym.flatname.toString(),
duke@1	632	JavaFileObject.Kind.SOURCE,
duke@1	633	null);
duke@1	634	if (inputFiles.contains(outFile)) {
duke@1	635	log.error(cdef.pos(), "source.cant.overwrite.input.file", outFile);
duke@1	636	return null;
duke@1	637	} else {
duke@1	638	BufferedWriter out = new BufferedWriter(outFile.openWriter());
duke@1	639	try {
duke@1	640	new Pretty(out, true).printUnit(env.toplevel, cdef);
duke@1	641	if (verbose)
duke@1	642	printVerbose("wrote.file", outFile);
duke@1	643	} finally {
duke@1	644	out.close();
duke@1	645	}
duke@1	646	return outFile;
duke@1	647	}
duke@1	648	}
duke@1	649
duke@1	650	/** Generate code and emit a class file for a given class
duke@1	651	* @param env The attribution environment of the outermost class
duke@1	652	* containing this class.
duke@1	653	* @param cdef The class definition from which code is generated.
duke@1	654	*/
duke@1	655	JavaFileObject genCode(Env<AttrContext> env, JCClassDecl cdef) throws IOException {
duke@1	656	try {
duke@1	657	if (gen.genClass(env, cdef))
duke@1	658	return writer.writeClass(cdef.sym);
duke@1	659	} catch (ClassWriter.PoolOverflow ex) {
duke@1	660	log.error(cdef.pos(), "limit.pool");
duke@1	661	} catch (ClassWriter.StringOverflow ex) {
duke@1	662	log.error(cdef.pos(), "limit.string.overflow",
duke@1	663	ex.value.substring(0, 20));
duke@1	664	} catch (CompletionFailure ex) {
duke@1	665	chk.completionError(cdef.pos(), ex);
duke@1	666	}
duke@1	667	return null;
duke@1	668	}
duke@1	669
duke@1	670	/** Complete compiling a source file that has been accessed
duke@1	671	* by the class file reader.
duke@1	672	* @param c The class the source file of which needs to be compiled.
duke@1	673	* @param filename The name of the source file.
duke@1	674	* @param f An input stream that reads the source file.
duke@1	675	*/
duke@1	676	public void complete(ClassSymbol c) throws CompletionFailure {
duke@1	677	// System.err.println("completing " + c);//DEBUG
duke@1	678	if (completionFailureName == c.fullname) {
duke@1	679	throw new CompletionFailure(c, "user-selected completion failure by class name");
duke@1	680	}
duke@1	681	JCCompilationUnit tree;
duke@1	682	JavaFileObject filename = c.classfile;
duke@1	683	JavaFileObject prev = log.useSource(filename);
duke@1	684
duke@1	685	try {
duke@1	686	tree = parse(filename, filename.getCharContent(false));
duke@1	687	} catch (IOException e) {
duke@1	688	log.error("error.reading.file", filename, e);
duke@1	689	tree = make.TopLevel(List.<JCTree.JCAnnotation>nil(), null, List.<JCTree>nil());
duke@1	690	} finally {
duke@1	691	log.useSource(prev);
duke@1	692	}
duke@1	693
duke@1	694	if (taskListener != null) {
duke@1	695	TaskEvent e = new TaskEvent(TaskEvent.Kind.ENTER, tree);
duke@1	696	taskListener.started(e);
duke@1	697	}
duke@1	698
duke@1	699	enter.complete(List.of(tree), c);
duke@1	700
duke@1	701	if (taskListener != null) {
duke@1	702	TaskEvent e = new TaskEvent(TaskEvent.Kind.ENTER, tree);
duke@1	703	taskListener.finished(e);
duke@1	704	}
duke@1	705
duke@1	706	if (enter.getEnv(c) == null) {
duke@1	707	boolean isPkgInfo =
duke@1	708	tree.sourcefile.isNameCompatible("package-info",
duke@1	709	JavaFileObject.Kind.SOURCE);
duke@1	710	if (isPkgInfo) {
duke@1	711	if (enter.getEnv(tree.packge) == null) {
jjg@12	712	JCDiagnostic diag =
jjg@12	713	diagFactory.fragment("file.does.not.contain.package",
duke@1	714	c.location());
jjg@12	715	throw reader.new BadClassFile(c, filename, diag);
duke@1	716	}
duke@1	717	} else {
jjg@12	718	JCDiagnostic diag =
jjg@12	719	diagFactory.fragment("file.doesnt.contain.class",
jjg@12	720	c.getQualifiedName());
jjg@12	721	throw reader.new BadClassFile(c, filename, diag);
duke@1	722	}
duke@1	723	}
duke@1	724
duke@1	725	implicitSourceFilesRead = true;
duke@1	726	}
duke@1	727
duke@1	728	/** Track when the JavaCompiler has been used to compile something. */
duke@1	729	private boolean hasBeenUsed = false;
duke@1	730	private long start_msec = 0;
duke@1	731	public long elapsed_msec = 0;
duke@1	732
duke@1	733	/** Track whether any errors occurred while parsing source text. */
duke@1	734	private boolean parseErrors = false;
duke@1	735
duke@1	736	public void compile(List<JavaFileObject> sourceFileObject)
duke@1	737	throws Throwable {
duke@1	738	compile(sourceFileObject, List.<String>nil(), null);
duke@1	739	}
duke@1	740
duke@1	741	/**
duke@1	742	* Main method: compile a list of files, return all compiled classes
duke@1	743	*
duke@1	744	* @param sourceFileObjects file objects to be compiled
duke@1	745	* @param classnames class names to process for annotations
duke@1	746	* @param processors user provided annotation processors to bypass
duke@1	747	* discovery, {@code null} means that no processors were provided
duke@1	748	*/
duke@1	749	public void compile(List<JavaFileObject> sourceFileObjects,
duke@1	750	List<String> classnames,
duke@1	751	Iterable<? extends Processor> processors)
duke@1	752	throws IOException // TODO: temp, from JavacProcessingEnvironment
duke@1	753	{
duke@1	754	if (processors != null && processors.iterator().hasNext())
duke@1	755	explicitAnnotationProcessingRequested = true;
duke@1	756	// as a JavaCompiler can only be used once, throw an exception if
duke@1	757	// it has been used before.
duke@1	758	if (hasBeenUsed)
duke@1	759	throw new AssertionError("attempt to reuse JavaCompiler");
duke@1	760	hasBeenUsed = true;
duke@1	761
duke@1	762	start_msec = now();
duke@1	763	try {
duke@1	764	initProcessAnnotations(processors);
duke@1	765
duke@1	766	// These method calls must be chained to avoid memory leaks
duke@1	767	delegateCompiler = processAnnotations(enterTrees(stopIfError(parseFiles(sourceFileObjects))),
duke@1	768	classnames);
duke@1	769
duke@1	770	delegateCompiler.compile2();
duke@1	771	delegateCompiler.close();
duke@1	772	elapsed_msec = delegateCompiler.elapsed_msec;
duke@1	773	} catch (Abort ex) {
duke@1	774	if (devVerbose)
duke@1	775	ex.printStackTrace();
duke@1	776	}
duke@1	777	}
duke@1	778
duke@1	779	/**
duke@1	780	* The phases following annotation processing: attribution,
duke@1	781	* desugar, and finally code generation.
duke@1	782	*/
duke@1	783	private void compile2() {
duke@1	784	try {
duke@1	785	switch (compilePolicy) {
duke@1	786	case ATTR_ONLY:
duke@1	787	attribute(todo);
duke@1	788	break;
duke@1	789
duke@1	790	case CHECK_ONLY:
duke@1	791	flow(attribute(todo));
duke@1	792	break;
duke@1	793
duke@1	794	case SIMPLE:
duke@1	795	generate(desugar(flow(attribute(todo))));
duke@1	796	break;
duke@1	797
duke@1	798	case BY_FILE:
jjg@70	799	for (Queue<Env<AttrContext>> queue : groupByFile(flow(attribute(todo))).values())
jjg@70	800	generate(desugar(queue));
duke@1	801	break;
duke@1	802
duke@1	803	case BY_TODO:
duke@1	804	while (todo.nonEmpty())
duke@1	805	generate(desugar(flow(attribute(todo.next()))));
duke@1	806	break;
duke@1	807
duke@1	808	default:
duke@1	809	assert false: "unknown compile policy";
duke@1	810	}
duke@1	811	} catch (Abort ex) {
duke@1	812	if (devVerbose)
duke@1	813	ex.printStackTrace();
duke@1	814	}
duke@1	815
duke@1	816	if (verbose) {
jjg@70	817	elapsed_msec = elapsed(start_msec);
duke@1	818	printVerbose("total", Long.toString(elapsed_msec));
duke@1	819	}
duke@1	820
duke@1	821	reportDeferredDiagnostics();
duke@1	822
duke@1	823	if (!log.hasDiagnosticListener()) {
duke@1	824	printCount("error", errorCount());
duke@1	825	printCount("warn", warningCount());
duke@1	826	}
duke@1	827	}
duke@1	828
duke@1	829	private List<JCClassDecl> rootClasses;
duke@1	830
duke@1	831	/**
duke@1	832	* Parses a list of files.
duke@1	833	*/
duke@1	834	public List<JCCompilationUnit> parseFiles(List<JavaFileObject> fileObjects) throws IOException {
duke@1	835	if (errorCount() > 0)
duke@1	836	return List.nil();
duke@1	837
duke@1	838	//parse all files
duke@1	839	ListBuffer<JCCompilationUnit> trees = lb();
duke@1	840	for (JavaFileObject fileObject : fileObjects)
duke@1	841	trees.append(parse(fileObject));
duke@1	842	return trees.toList();
duke@1	843	}
duke@1	844
duke@1	845	/**
duke@1	846	* Enter the symbols found in a list of parse trees.
duke@1	847	* As a side-effect, this puts elements on the "todo" list.
duke@1	848	* Also stores a list of all top level classes in rootClasses.
duke@1	849	*/
duke@1	850	public List<JCCompilationUnit> enterTrees(List<JCCompilationUnit> roots) {
duke@1	851	//enter symbols for all files
duke@1	852	if (taskListener != null) {
duke@1	853	for (JCCompilationUnit unit: roots) {
duke@1	854	TaskEvent e = new TaskEvent(TaskEvent.Kind.ENTER, unit);
duke@1	855	taskListener.started(e);
duke@1	856	}
duke@1	857	}
duke@1	858
duke@1	859	enter.main(roots);
duke@1	860
duke@1	861	if (taskListener != null) {
duke@1	862	for (JCCompilationUnit unit: roots) {
duke@1	863	TaskEvent e = new TaskEvent(TaskEvent.Kind.ENTER, unit);
duke@1	864	taskListener.finished(e);
duke@1	865	}
duke@1	866	}
duke@1	867
duke@1	868	//If generating source, remember the classes declared in
duke@1	869	//the original compilation units listed on the command line.
duke@1	870	if (sourceOutput || stubOutput) {
duke@1	871	ListBuffer<JCClassDecl> cdefs = lb();
duke@1	872	for (JCCompilationUnit unit : roots) {
duke@1	873	for (List<JCTree> defs = unit.defs;
duke@1	874	defs.nonEmpty();
duke@1	875	defs = defs.tail) {
duke@1	876	if (defs.head instanceof JCClassDecl)
duke@1	877	cdefs.append((JCClassDecl)defs.head);
duke@1	878	}
duke@1	879	}
duke@1	880	rootClasses = cdefs.toList();
duke@1	881	}
duke@1	882	return roots;
duke@1	883	}
duke@1	884
duke@1	885	/**
duke@1	886	* Set to true to enable skeleton annotation processing code.
duke@1	887	* Currently, we assume this variable will be replaced more
duke@1	888	* advanced logic to figure out if annotation processing is
duke@1	889	* needed.
duke@1	890	*/
duke@1	891	boolean processAnnotations = false;
duke@1	892
duke@1	893	/**
duke@1	894	* Object to handle annotation processing.
duke@1	895	*/
duke@1	896	JavacProcessingEnvironment procEnvImpl = null;
duke@1	897
duke@1	898	/**
duke@1	899	* Check if we should process annotations.
duke@1	900	* If so, and if no scanner is yet registered, then set up the DocCommentScanner
duke@1	901	* to catch doc comments, and set keepComments so the parser records them in
duke@1	902	* the compilation unit.
duke@1	903	*
duke@1	904	* @param processors user provided annotation processors to bypass
duke@1	905	* discovery, {@code null} means that no processors were provided
duke@1	906	*/
duke@1	907	public void initProcessAnnotations(Iterable<? extends Processor> processors) {
duke@1	908	// Process annotations if processing is not disabled and there
duke@1	909	// is at least one Processor available.
duke@1	910	Options options = Options.instance(context);
duke@1	911	if (options.get("-proc:none") != null) {
duke@1	912	processAnnotations = false;
duke@1	913	} else if (procEnvImpl == null) {
duke@1	914	procEnvImpl = new JavacProcessingEnvironment(context, processors);
duke@1	915	processAnnotations = procEnvImpl.atLeastOneProcessor();
duke@1	916
duke@1	917	if (processAnnotations) {
duke@1	918	if (context.get(Scanner.Factory.scannerFactoryKey) == null)
duke@1	919	DocCommentScanner.Factory.preRegister(context);
duke@1	920	options.put("save-parameter-names", "save-parameter-names");
duke@1	921	reader.saveParameterNames = true;
duke@1	922	keepComments = true;
duke@1	923	if (taskListener != null)
duke@1	924	taskListener.started(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING));
duke@1	925
duke@1	926
duke@1	927	} else { // free resources
duke@1	928	procEnvImpl.close();
duke@1	929	}
duke@1	930	}
duke@1	931	}
duke@1	932
duke@1	933	// TODO: called by JavacTaskImpl
duke@1	934	public JavaCompiler processAnnotations(List<JCCompilationUnit> roots) throws IOException {
duke@1	935	return processAnnotations(roots, List.<String>nil());
duke@1	936	}
duke@1	937
duke@1	938	/**
duke@1	939	* Process any anotations found in the specifed compilation units.
duke@1	940	* @param roots a list of compilation units
duke@1	941	* @return an instance of the compiler in which to complete the compilation
duke@1	942	*/
duke@1	943	public JavaCompiler processAnnotations(List<JCCompilationUnit> roots,
duke@1	944	List<String> classnames)
duke@1	945	throws IOException { // TODO: see TEMP note in JavacProcessingEnvironment
duke@1	946	if (errorCount() != 0) {
duke@1	947	// Errors were encountered. If todo is empty, then the
duke@1	948	// encountered errors were parse errors. Otherwise, the
duke@1	949	// errors were found during the enter phase which should
duke@1	950	// be ignored when processing annotations.
duke@1	951
duke@1	952	if (todo.isEmpty())
duke@1	953	return this;
duke@1	954	}
duke@1	955
duke@1	956	// ASSERT: processAnnotations and procEnvImpl should have been set up by
duke@1	957	// by initProcessAnnotations
duke@1	958
duke@1	959	// NOTE: The !classnames.isEmpty() checks should be refactored to Main.
duke@1	960
duke@1	961	if (!processAnnotations) {
duke@1	962	// If there are no annotation processors present, and
duke@1	963	// annotation processing is to occur with compilation,
duke@1	964	// emit a warning.
duke@1	965	Options options = Options.instance(context);
duke@1	966	if (options.get("-proc:only") != null) {
duke@1	967	log.warning("proc.proc-only.requested.no.procs");
duke@1	968	todo.clear();
duke@1	969	}
duke@1	970	// If not processing annotations, classnames must be empty
duke@1	971	if (!classnames.isEmpty()) {
duke@1	972	log.error("proc.no.explicit.annotation.processing.requested",
duke@1	973	classnames);
duke@1	974	}
duke@1	975	return this; // continue regular compilation
duke@1	976	}
duke@1	977
duke@1	978	try {
duke@1	979	List<ClassSymbol> classSymbols = List.nil();
duke@1	980	List<PackageSymbol> pckSymbols = List.nil();
duke@1	981	if (!classnames.isEmpty()) {
duke@1	982	// Check for explicit request for annotation
duke@1	983	// processing
duke@1	984	if (!explicitAnnotationProcessingRequested()) {
duke@1	985	log.error("proc.no.explicit.annotation.processing.requested",
duke@1	986	classnames);
duke@1	987	return this; // TODO: Will this halt compilation?
duke@1	988	} else {
duke@1	989	boolean errors = false;
duke@1	990	for (String nameStr : classnames) {
duke@1	991	Symbol sym = resolveIdent(nameStr);
duke@1	992	if (sym == null || (sym.kind == Kinds.PCK && !processPcks)) {
duke@1	993	log.error("proc.cant.find.class", nameStr);
duke@1	994	errors = true;
duke@1	995	continue;
duke@1	996	}
duke@1	997	try {
duke@1	998	if (sym.kind == Kinds.PCK)
duke@1	999	sym.complete();
duke@1	1000	if (sym.exists()) {
duke@1	1001	Name name = names.fromString(nameStr);
duke@1	1002	if (sym.kind == Kinds.PCK)
duke@1	1003	pckSymbols = pckSymbols.prepend((PackageSymbol)sym);
duke@1	1004	else
duke@1	1005	classSymbols = classSymbols.prepend((ClassSymbol)sym);
duke@1	1006	continue;
duke@1	1007	}
duke@1	1008	assert sym.kind == Kinds.PCK;
duke@1	1009	log.warning("proc.package.does.not.exist", nameStr);
duke@1	1010	pckSymbols = pckSymbols.prepend((PackageSymbol)sym);
duke@1	1011	} catch (CompletionFailure e) {
duke@1	1012	log.error("proc.cant.find.class", nameStr);
duke@1	1013	errors = true;
duke@1	1014	continue;
duke@1	1015	}
duke@1	1016	}
duke@1	1017	if (errors)
duke@1	1018	return this;
duke@1	1019	}
duke@1	1020	}
duke@1	1021	JavaCompiler c = procEnvImpl.doProcessing(context, roots, classSymbols, pckSymbols);
duke@1	1022	if (c != this)
duke@1	1023	annotationProcessingOccurred = c.annotationProcessingOccurred = true;
duke@1	1024	return c;
duke@1	1025	} catch (CompletionFailure ex) {
jjg@12	1026	log.error("cant.access", ex.sym, ex.getDetailValue());
duke@1	1027	return this;
duke@1	1028
duke@1	1029	}
duke@1	1030	}
duke@1	1031
duke@1	1032	boolean explicitAnnotationProcessingRequested() {
duke@1	1033	Options options = Options.instance(context);
duke@1	1034	return
duke@1	1035	explicitAnnotationProcessingRequested ||
duke@1	1036	options.get("-processor") != null ||
duke@1	1037	options.get("-processorpath") != null ||
duke@1	1038	options.get("-proc:only") != null ||
duke@1	1039	options.get("-Xprint") != null;
duke@1	1040	}
duke@1	1041
duke@1	1042	/**
duke@1	1043	* Attribute a list of parse trees, such as found on the "todo" list.
duke@1	1044	* Note that attributing classes may cause additional files to be
duke@1	1045	* parsed and entered via the SourceCompleter.
duke@1	1046	* Attribution of the entries in the list does not stop if any errors occur.
duke@1	1047	* @returns a list of environments for attributd classes.
duke@1	1048	*/
jjg@70	1049	public Queue<Env<AttrContext>> attribute(Queue<Env<AttrContext>> envs) {
duke@1	1050	ListBuffer<Env<AttrContext>> results = lb();
jjg@70	1051	while (!envs.isEmpty())
jjg@70	1052	results.append(attribute(envs.remove()));
jjg@70	1053	return results;
duke@1	1054	}
duke@1	1055
duke@1	1056	/**
duke@1	1057	* Attribute a parse tree.
duke@1	1058	* @returns the attributed parse tree
duke@1	1059	*/
duke@1	1060	public Env<AttrContext> attribute(Env<AttrContext> env) {
jjg@77	1061	if (compileStates.isDone(env, CompileState.ATTR))
jjg@77	1062	return env;
jjg@77	1063
duke@1	1064	if (verboseCompilePolicy)
duke@1	1065	log.printLines(log.noticeWriter, "[attribute " + env.enclClass.sym + "]");
duke@1	1066	if (verbose)
duke@1	1067	printVerbose("checking.attribution", env.enclClass.sym);
duke@1	1068
duke@1	1069	if (taskListener != null) {
duke@1	1070	TaskEvent e = new TaskEvent(TaskEvent.Kind.ANALYZE, env.toplevel, env.enclClass.sym);
duke@1	1071	taskListener.started(e);
duke@1	1072	}
duke@1	1073
duke@1	1074	JavaFileObject prev = log.useSource(
duke@1	1075	env.enclClass.sym.sourcefile != null ?
duke@1	1076	env.enclClass.sym.sourcefile :
duke@1	1077	env.toplevel.sourcefile);
duke@1	1078	try {
duke@1	1079	attr.attribClass(env.tree.pos(), env.enclClass.sym);
jjg@77	1080	compileStates.put(env, CompileState.ATTR);
duke@1	1081	}
duke@1	1082	finally {
duke@1	1083	log.useSource(prev);
duke@1	1084	}
duke@1	1085
duke@1	1086	return env;
duke@1	1087	}
duke@1	1088
duke@1	1089	/**
duke@1	1090	* Perform dataflow checks on attributed parse trees.
duke@1	1091	* These include checks for definite assignment and unreachable statements.
duke@1	1092	* If any errors occur, an empty list will be returned.
duke@1	1093	* @returns the list of attributed parse trees
duke@1	1094	*/
jjg@70	1095	public Queue<Env<AttrContext>> flow(Queue<Env<AttrContext>> envs) {
duke@1	1096	ListBuffer<Env<AttrContext>> results = lb();
jjg@70	1097	for (Env<AttrContext> env: envs) {
jjg@70	1098	flow(env, results);
duke@1	1099	}
duke@1	1100	return stopIfError(results);
duke@1	1101	}
duke@1	1102
duke@1	1103	/**
duke@1	1104	* Perform dataflow checks on an attributed parse tree.
duke@1	1105	*/
jjg@70	1106	public Queue<Env<AttrContext>> flow(Env<AttrContext> env) {
duke@1	1107	ListBuffer<Env<AttrContext>> results = lb();
duke@1	1108	flow(env, results);
duke@1	1109	return stopIfError(results);
duke@1	1110	}
duke@1	1111
duke@1	1112	/**
duke@1	1113	* Perform dataflow checks on an attributed parse tree.
duke@1	1114	*/
duke@1	1115	protected void flow(Env<AttrContext> env, ListBuffer<Env<AttrContext>> results) {
duke@1	1116	try {
duke@1	1117	if (errorCount() > 0)
duke@1	1118	return;
duke@1	1119
jjg@77	1120	if (relax || compileStates.isDone(env, CompileState.FLOW)) {
duke@1	1121	results.append(env);
duke@1	1122	return;
duke@1	1123	}
duke@1	1124
duke@1	1125	if (verboseCompilePolicy)
duke@1	1126	log.printLines(log.noticeWriter, "[flow " + env.enclClass.sym + "]");
duke@1	1127	JavaFileObject prev = log.useSource(
duke@1	1128	env.enclClass.sym.sourcefile != null ?
duke@1	1129	env.enclClass.sym.sourcefile :
duke@1	1130	env.toplevel.sourcefile);
duke@1	1131	try {
duke@1	1132	make.at(Position.FIRSTPOS);
duke@1	1133	TreeMaker localMake = make.forToplevel(env.toplevel);
duke@1	1134	flow.analyzeTree(env.tree, localMake);
jjg@77	1135	compileStates.put(env, CompileState.FLOW);
duke@1	1136
duke@1	1137	if (errorCount() > 0)
duke@1	1138	return;
duke@1	1139
duke@1	1140	results.append(env);
duke@1	1141	}
duke@1	1142	finally {
duke@1	1143	log.useSource(prev);
duke@1	1144	}
duke@1	1145	}
duke@1	1146	finally {
duke@1	1147	if (taskListener != null) {
duke@1	1148	TaskEvent e = new TaskEvent(TaskEvent.Kind.ANALYZE, env.toplevel, env.enclClass.sym);
duke@1	1149	taskListener.finished(e);
duke@1	1150	}
duke@1	1151	}
duke@1	1152	}
duke@1	1153
duke@1	1154	/**
duke@1	1155	* Prepare attributed parse trees, in conjunction with their attribution contexts,
duke@1	1156	* for source or code generation.
duke@1	1157	* If any errors occur, an empty list will be returned.
duke@1	1158	* @returns a list containing the classes to be generated
duke@1	1159	*/
jjg@70	1160	public Queue<Pair<Env<AttrContext>, JCClassDecl>> desugar(Queue<Env<AttrContext>> envs) {
duke@1	1161	ListBuffer<Pair<Env<AttrContext>, JCClassDecl>> results = lb();
jjg@70	1162	for (Env<AttrContext> env: envs)
jjg@70	1163	desugar(env, results);
duke@1	1164	return stopIfError(results);
duke@1	1165	}
duke@1	1166
duke@1	1167	/**
duke@1	1168	* Prepare attributed parse trees, in conjunction with their attribution contexts,
duke@1	1169	* for source or code generation. If the file was not listed on the command line,
duke@1	1170	* the current implicitSourcePolicy is taken into account.
duke@1	1171	* The preparation stops as soon as an error is found.
duke@1	1172	*/
jjg@77	1173	protected void desugar(final Env<AttrContext> env, Queue<Pair<Env<AttrContext>, JCClassDecl>> results) {
duke@1	1174	if (errorCount() > 0)
duke@1	1175	return;
duke@1	1176
duke@1	1177	if (implicitSourcePolicy == ImplicitSourcePolicy.NONE
duke@1	1178	&& !inputFiles.contains(env.toplevel.sourcefile)) {
duke@1	1179	return;
duke@1	1180	}
duke@1	1181
jjg@77	1182	/**
jjg@77	1183	* As erasure (TransTypes) destroys information needed in flow analysis,
jjg@77	1184	* including information in supertypes, we need to ensure that supertypes
jjg@77	1185	* are processed through attribute and flow before subtypes are translated.
jjg@77	1186	*/
jjg@77	1187	class ScanNested extends TreeScanner {
jjg@77	1188	Set<Env<AttrContext>> dependencies = new HashSet<Env<AttrContext>>();
jjg@77	1189	public void visitClassDef(JCClassDecl node) {
jjg@77	1190	Type st = types.supertype(node.sym.type);
jjg@77	1191	if (st.tag == TypeTags.CLASS) {
jjg@77	1192	ClassSymbol c = st.tsym.outermostClass();
jjg@77	1193	Env<AttrContext> stEnv = enter.getEnv(c);
jjg@77	1194	if (stEnv != null && env != stEnv)
jjg@77	1195	dependencies.add(stEnv);
jjg@77	1196	}
jjg@77	1197	super.visitClassDef(node);
jjg@77	1198	}
duke@1	1199	}
jjg@77	1200	ScanNested scanner = new ScanNested();
jjg@77	1201	scanner.scan(env.tree);
jjg@77	1202	for (Env<AttrContext> dep: scanner.dependencies) {
jjg@77	1203	if (!compileStates.isDone(dep, CompileState.FLOW))
jjg@77	1204	flow(attribute(dep));
jjg@77	1205	}
duke@1	1206
duke@1	1207	if (verboseCompilePolicy)
duke@1	1208	log.printLines(log.noticeWriter, "[desugar " + env.enclClass.sym + "]");
duke@1	1209
duke@1	1210	JavaFileObject prev = log.useSource(env.enclClass.sym.sourcefile != null ?
duke@1	1211	env.enclClass.sym.sourcefile :
duke@1	1212	env.toplevel.sourcefile);
duke@1	1213	try {
duke@1	1214	//save tree prior to rewriting
duke@1	1215	JCTree untranslated = env.tree;
duke@1	1216
duke@1	1217	make.at(Position.FIRSTPOS);
duke@1	1218	TreeMaker localMake = make.forToplevel(env.toplevel);
duke@1	1219
duke@1	1220	if (env.tree instanceof JCCompilationUnit) {
duke@1	1221	if (!(stubOutput || sourceOutput || printFlat)) {
duke@1	1222	List<JCTree> pdef = lower.translateTopLevelClass(env, env.tree, localMake);
duke@1	1223	if (pdef.head != null) {
duke@1	1224	assert pdef.tail.isEmpty();
jjg@70	1225	results.add(new Pair<Env<AttrContext>, JCClassDecl>(env, (JCClassDecl)pdef.head));
duke@1	1226	}
duke@1	1227	}
duke@1	1228	return;
duke@1	1229	}
duke@1	1230
duke@1	1231	if (stubOutput) {
duke@1	1232	//emit stub Java source file, only for compilation
duke@1	1233	//units enumerated explicitly on the command line
duke@1	1234	JCClassDecl cdef = (JCClassDecl)env.tree;
duke@1	1235	if (untranslated instanceof JCClassDecl &&
duke@1	1236	rootClasses.contains((JCClassDecl)untranslated) &&
duke@1	1237	((cdef.mods.flags & (Flags.PROTECTED|Flags.PUBLIC)) != 0 ||
duke@1	1238	cdef.sym.packge().getQualifiedName() == names.java_lang)) {
jjg@70	1239	results.add(new Pair<Env<AttrContext>, JCClassDecl>(env, removeMethodBodies(cdef)));
duke@1	1240	}
duke@1	1241	return;
duke@1	1242	}
duke@1	1243
duke@1	1244	env.tree = transTypes.translateTopLevelClass(env.tree, localMake);
duke@1	1245
duke@1	1246	if (errorCount() != 0)
duke@1	1247	return;
duke@1	1248
duke@1	1249	if (sourceOutput) {
duke@1	1250	//emit standard Java source file, only for compilation
duke@1	1251	//units enumerated explicitly on the command line
duke@1	1252	JCClassDecl cdef = (JCClassDecl)env.tree;
duke@1	1253	if (untranslated instanceof JCClassDecl &&
duke@1	1254	rootClasses.contains((JCClassDecl)untranslated)) {
jjg@70	1255	results.add(new Pair<Env<AttrContext>, JCClassDecl>(env, cdef));
duke@1	1256	}
duke@1	1257	return;
duke@1	1258	}
duke@1	1259
duke@1	1260	//translate out inner classes
duke@1	1261	List<JCTree> cdefs = lower.translateTopLevelClass(env, env.tree, localMake);
duke@1	1262
duke@1	1263	if (errorCount() != 0)
duke@1	1264	return;
duke@1	1265
duke@1	1266	//generate code for each class
duke@1	1267	for (List<JCTree> l = cdefs; l.nonEmpty(); l = l.tail) {
duke@1	1268	JCClassDecl cdef = (JCClassDecl)l.head;
jjg@70	1269	results.add(new Pair<Env<AttrContext>, JCClassDecl>(env, cdef));
duke@1	1270	}
duke@1	1271	}
duke@1	1272	finally {
duke@1	1273	log.useSource(prev);
duke@1	1274	}
duke@1	1275
duke@1	1276	}
duke@1	1277
duke@1	1278	/** Generates the source or class file for a list of classes.
duke@1	1279	* The decision to generate a source file or a class file is
duke@1	1280	* based upon the compiler's options.
duke@1	1281	* Generation stops if an error occurs while writing files.
duke@1	1282	*/
jjg@70	1283	public void generate(Queue<Pair<Env<AttrContext>, JCClassDecl>> queue) {
jjg@70	1284	generate(queue, null);
duke@1	1285	}
duke@1	1286
jjg@70	1287	public void generate(Queue<Pair<Env<AttrContext>, JCClassDecl>> queue, ListBuffer<JavaFileObject> results) {
duke@1	1288	boolean usePrintSource = (stubOutput || sourceOutput || printFlat);
duke@1	1289
jjg@70	1290	for (Pair<Env<AttrContext>, JCClassDecl> x: queue) {
duke@1	1291	Env<AttrContext> env = x.fst;
duke@1	1292	JCClassDecl cdef = x.snd;
duke@1	1293
duke@1	1294	if (verboseCompilePolicy) {
duke@1	1295	log.printLines(log.noticeWriter, "[generate "
duke@1	1296	+ (usePrintSource ? " source" : "code")
duke@1	1297	+ " " + env.enclClass.sym + "]");
duke@1	1298	}
duke@1	1299
duke@1	1300	if (taskListener != null) {
duke@1	1301	TaskEvent e = new TaskEvent(TaskEvent.Kind.GENERATE, env.toplevel, cdef.sym);
duke@1	1302	taskListener.started(e);
duke@1	1303	}
duke@1	1304
duke@1	1305	JavaFileObject prev = log.useSource(env.enclClass.sym.sourcefile != null ?
duke@1	1306	env.enclClass.sym.sourcefile :
duke@1	1307	env.toplevel.sourcefile);
duke@1	1308	try {
duke@1	1309	JavaFileObject file;
duke@1	1310	if (usePrintSource)
duke@1	1311	file = printSource(env, cdef);
duke@1	1312	else
duke@1	1313	file = genCode(env, cdef);
duke@1	1314	if (results != null && file != null)
duke@1	1315	results.append(file);
duke@1	1316	} catch (IOException ex) {
duke@1	1317	log.error(cdef.pos(), "class.cant.write",
duke@1	1318	cdef.sym, ex.getMessage());
duke@1	1319	return;
duke@1	1320	} finally {
duke@1	1321	log.useSource(prev);
duke@1	1322	}
duke@1	1323
duke@1	1324	if (taskListener != null) {
duke@1	1325	TaskEvent e = new TaskEvent(TaskEvent.Kind.GENERATE, env.toplevel, cdef.sym);
duke@1	1326	taskListener.finished(e);
duke@1	1327	}
duke@1	1328	}
duke@1	1329	}
duke@1	1330
duke@1	1331	// where
jjg@70	1332	Map<JCCompilationUnit, Queue<Env<AttrContext>>> groupByFile(Queue<Env<AttrContext>> envs) {
duke@1	1333	// use a LinkedHashMap to preserve the order of the original list as much as possible
jjg@70	1334	Map<JCCompilationUnit, Queue<Env<AttrContext>>> map = new LinkedHashMap<JCCompilationUnit, Queue<Env<AttrContext>>>();
jjg@70	1335	for (Env<AttrContext> env: envs) {
jjg@70	1336	Queue<Env<AttrContext>> sublist = map.get(env.toplevel);
jjg@70	1337	if (sublist == null) {
jjg@70	1338	sublist = new ListBuffer<Env<AttrContext>>();
jjg@70	1339	map.put(env.toplevel, sublist);
duke@1	1340	}
jjg@70	1341	sublist.add(env);
duke@1	1342	}
duke@1	1343	return map;
duke@1	1344	}
duke@1	1345
duke@1	1346	JCClassDecl removeMethodBodies(JCClassDecl cdef) {
duke@1	1347	final boolean isInterface = (cdef.mods.flags & Flags.INTERFACE) != 0;
duke@1	1348	class MethodBodyRemover extends TreeTranslator {
duke@1	1349	public void visitMethodDef(JCMethodDecl tree) {
duke@1	1350	tree.mods.flags &= ~Flags.SYNCHRONIZED;
duke@1	1351	for (JCVariableDecl vd : tree.params)
duke@1	1352	vd.mods.flags &= ~Flags.FINAL;
duke@1	1353	tree.body = null;
duke@1	1354	super.visitMethodDef(tree);
duke@1	1355	}
duke@1	1356	public void visitVarDef(JCVariableDecl tree) {
duke@1	1357	if (tree.init != null && tree.init.type.constValue() == null)
duke@1	1358	tree.init = null;
duke@1	1359	super.visitVarDef(tree);
duke@1	1360	}
duke@1	1361	public void visitClassDef(JCClassDecl tree) {
duke@1	1362	ListBuffer<JCTree> newdefs = lb();
duke@1	1363	for (List<JCTree> it = tree.defs; it.tail != null; it = it.tail) {
duke@1	1364	JCTree t = it.head;
duke@1	1365	switch (t.getTag()) {
duke@1	1366	case JCTree.CLASSDEF:
duke@1	1367	if (isInterface ||
duke@1	1368	(((JCClassDecl) t).mods.flags & (Flags.PROTECTED|Flags.PUBLIC)) != 0 ||
duke@1	1369	(((JCClassDecl) t).mods.flags & (Flags.PRIVATE)) == 0 && ((JCClassDecl) t).sym.packge().getQualifiedName() == names.java_lang)
duke@1	1370	newdefs.append(t);
duke@1	1371	break;
duke@1	1372	case JCTree.METHODDEF:
duke@1	1373	if (isInterface ||
duke@1	1374	(((JCMethodDecl) t).mods.flags & (Flags.PROTECTED|Flags.PUBLIC)) != 0 ||
duke@1	1375	((JCMethodDecl) t).sym.name == names.init ||
duke@1	1376	(((JCMethodDecl) t).mods.flags & (Flags.PRIVATE)) == 0 && ((JCMethodDecl) t).sym.packge().getQualifiedName() == names.java_lang)
duke@1	1377	newdefs.append(t);
duke@1	1378	break;
duke@1	1379	case JCTree.VARDEF:
duke@1	1380	if (isInterface || (((JCVariableDecl) t).mods.flags & (Flags.PROTECTED|Flags.PUBLIC)) != 0 ||
duke@1	1381	(((JCVariableDecl) t).mods.flags & (Flags.PRIVATE)) == 0 && ((JCVariableDecl) t).sym.packge().getQualifiedName() == names.java_lang)
duke@1	1382	newdefs.append(t);
duke@1	1383	break;
duke@1	1384	default:
duke@1	1385	break;
duke@1	1386	}
duke@1	1387	}
duke@1	1388	tree.defs = newdefs.toList();
duke@1	1389	super.visitClassDef(tree);
duke@1	1390	}
duke@1	1391	}
duke@1	1392	MethodBodyRemover r = new MethodBodyRemover();
duke@1	1393	return r.translate(cdef);
duke@1	1394	}
duke@1	1395
duke@1	1396	public void reportDeferredDiagnostics() {
duke@1	1397	if (annotationProcessingOccurred
duke@1	1398	&& implicitSourceFilesRead
duke@1	1399	&& implicitSourcePolicy == ImplicitSourcePolicy.UNSET) {
duke@1	1400	if (explicitAnnotationProcessingRequested())
duke@1	1401	log.warning("proc.use.implicit");
duke@1	1402	else
duke@1	1403	log.warning("proc.use.proc.or.implicit");
duke@1	1404	}
duke@1	1405	chk.reportDeferredDiagnostics();
duke@1	1406	}
duke@1	1407
duke@1	1408	/** Close the compiler, flushing the logs
duke@1	1409	*/
duke@1	1410	public void close() {
duke@1	1411	close(true);
duke@1	1412	}
duke@1	1413
duke@1	1414	private void close(boolean disposeNames) {
duke@1	1415	rootClasses = null;
duke@1	1416	reader = null;
duke@1	1417	make = null;
duke@1	1418	writer = null;
duke@1	1419	enter = null;
duke@1	1420	if (todo != null)
duke@1	1421	todo.clear();
duke@1	1422	todo = null;
duke@1	1423	parserFactory = null;
duke@1	1424	syms = null;
duke@1	1425	source = null;
duke@1	1426	attr = null;
duke@1	1427	chk = null;
duke@1	1428	gen = null;
duke@1	1429	flow = null;
duke@1	1430	transTypes = null;
duke@1	1431	lower = null;
duke@1	1432	annotate = null;
duke@1	1433	types = null;
duke@1	1434
duke@1	1435	log.flush();
duke@1	1436	try {
duke@1	1437	fileManager.flush();
duke@1	1438	} catch (IOException e) {
duke@1	1439	throw new Abort(e);
duke@1	1440	} finally {
duke@1	1441	if (names != null && disposeNames)
duke@1	1442	names.dispose();
duke@1	1443	names = null;
duke@1	1444	}
duke@1	1445	}
duke@1	1446
duke@1	1447	/** Output for "-verbose" option.
duke@1	1448	* @param key The key to look up the correct internationalized string.
duke@1	1449	* @param arg An argument for substitution into the output string.
duke@1	1450	*/
duke@1	1451	protected void printVerbose(String key, Object arg) {
duke@1	1452	Log.printLines(log.noticeWriter, log.getLocalizedString("verbose." + key, arg));
duke@1	1453	}
duke@1	1454
duke@1	1455	/** Print numbers of errors and warnings.
duke@1	1456	*/
duke@1	1457	protected void printCount(String kind, int count) {
duke@1	1458	if (count != 0) {
duke@1	1459	String text;
duke@1	1460	if (count == 1)
duke@1	1461	text = log.getLocalizedString("count." + kind, String.valueOf(count));
duke@1	1462	else
duke@1	1463	text = log.getLocalizedString("count." + kind + ".plural", String.valueOf(count));
duke@1	1464	Log.printLines(log.errWriter, text);
duke@1	1465	log.errWriter.flush();
duke@1	1466	}
duke@1	1467	}
duke@1	1468
duke@1	1469	private static long now() {
duke@1	1470	return System.currentTimeMillis();
duke@1	1471	}
duke@1	1472
duke@1	1473	private static long elapsed(long then) {
duke@1	1474	return now() - then;
duke@1	1475	}
duke@1	1476
duke@1	1477	public void initRound(JavaCompiler prev) {
duke@1	1478	keepComments = prev.keepComments;
duke@1	1479	start_msec = prev.start_msec;
duke@1	1480	hasBeenUsed = true;
duke@1	1481	}
duke@1	1482
duke@1	1483	public static void enableLogging() {
duke@1	1484	Logger logger = Logger.getLogger(com.sun.tools.javac.Main.class.getPackage().getName());
duke@1	1485	logger.setLevel(Level.ALL);
duke@1	1486	for (Handler h : logger.getParent().getHandlers()) {
duke@1	1487	h.setLevel(Level.ALL);
duke@1	1488	}
duke@1	1489
duke@1	1490	}
duke@1	1491	}