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src/share/classes/com/sun/tools/javac/processing/JavacProcessingEnvironment.java@9a66ca7c79fa (annotated)

src/share/classes/com/sun/tools/javac/processing/JavacProcessingEnvironment.java

Sat, 01 Dec 2007 00:00:00 +0000

author

duke

date

Sat, 01 Dec 2007 00:00:00 +0000

changeset 1

9a66ca7c79fa

child 12

7366066839bb

permissions

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duke@1	1	/*
duke@1	2	* Copyright 2005-2006 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.processing;
duke@1	27
duke@1	28	import com.sun.source.util.TaskEvent;
duke@1	29	import com.sun.source.util.TaskListener;
duke@1	30	import com.sun.tools.javac.api.JavacTaskImpl;
duke@1	31	import com.sun.tools.javac.util.List;
duke@1	32	import com.sun.tools.javac.util.*;
duke@1	33	import com.sun.tools.javac.code.*;
duke@1	34	import com.sun.tools.javac.code.Symbol.*;
duke@1	35	import com.sun.tools.javac.comp.*;
duke@1	36	import com.sun.tools.javac.jvm.*;
duke@1	37	import com.sun.tools.javac.tree.*;
duke@1	38	import com.sun.tools.javac.parser.*;
duke@1	39	import com.sun.tools.javac.code.Symbol.*;
duke@1	40	import com.sun.tools.javac.model.JavacElements;
duke@1	41	import com.sun.tools.javac.model.JavacTypes;
duke@1	42	import com.sun.tools.javac.tree.JCTree.*;
duke@1	43	import com.sun.tools.javac.main.JavaCompiler;
duke@1	44	import java.io.StringWriter;
duke@1	45
duke@1	46	import javax.annotation.processing.*;
duke@1	47	import javax.lang.model.SourceVersion;
duke@1	48	import javax.lang.model.element.AnnotationMirror;
duke@1	49	import javax.lang.model.element.Element;
duke@1	50	import javax.lang.model.element.TypeElement;
duke@1	51	import javax.lang.model.element.PackageElement;
duke@1	52	import javax.lang.model.util.*;
duke@1	53
duke@1	54	import javax.tools.JavaFileManager;
duke@1	55	import javax.tools.StandardJavaFileManager;
duke@1	56	import javax.tools.JavaFileObject;
duke@1	57	import javax.tools.DiagnosticListener;
duke@1	58	import static javax.tools.StandardLocation.*;
duke@1	59
duke@1	60	import java.lang.reflect.*;
duke@1	61	import java.util.*;
duke@1	62	import java.util.regex.*;
duke@1	63
duke@1	64	import java.net.URLClassLoader;
duke@1	65	import java.net.URL;
duke@1	66	import java.io.Closeable;
duke@1	67	import java.io.File;
duke@1	68	import java.io.PrintWriter;
duke@1	69	import java.io.IOException;
duke@1	70	import java.net.MalformedURLException;
duke@1	71
duke@1	72	/**
duke@1	73	* Objects of this class hold and manage the state needed to support
duke@1	74	* annotation processing.
duke@1	75	*
duke@1	76	* <p><b>This is NOT part of any API supported by Sun Microsystems.
duke@1	77	* If you write code that depends on this, you do so at your own risk.
duke@1	78	* This code and its internal interfaces are subject to change or
duke@1	79	* deletion without notice.</b>
duke@1	80	*/
duke@1	81	public class JavacProcessingEnvironment implements ProcessingEnvironment, Closeable {
duke@1	82	Options options;
duke@1	83
duke@1	84	private final boolean printProcessorInfo;
duke@1	85	private final boolean printRounds;
duke@1	86	private final boolean verbose;
duke@1	87	private final boolean lint;
duke@1	88	private final boolean procOnly;
duke@1	89	private final boolean fatalErrors;
duke@1	90
duke@1	91	private final JavacFiler filer;
duke@1	92	private final JavacMessager messager;
duke@1	93	private final JavacElements elementUtils;
duke@1	94	private final JavacTypes typeUtils;
duke@1	95
duke@1	96	/**
duke@1	97	* Holds relevant state history of which processors have been
duke@1	98	* used.
duke@1	99	*/
duke@1	100	private DiscoveredProcessors discoveredProcs;
duke@1	101
duke@1	102	/**
duke@1	103	* Map of processor-specific options.
duke@1	104	*/
duke@1	105	private final Map<String, String> processorOptions;
duke@1	106
duke@1	107	/**
duke@1	108	*/
duke@1	109	private final Set<String> unmatchedProcessorOptions;
duke@1	110
duke@1	111	/**
duke@1	112	* Annotations implicitly processed and claimed by javac.
duke@1	113	*/
duke@1	114	private final Set<String> platformAnnotations;
duke@1	115
duke@1	116	/**
duke@1	117	* Set of packages given on command line.
duke@1	118	*/
duke@1	119	private Set<PackageSymbol> specifiedPackages = Collections.emptySet();
duke@1	120
duke@1	121	/** The log to be used for error reporting.
duke@1	122	*/
duke@1	123	Log log;
duke@1	124
duke@1	125	/**
duke@1	126	* Source level of the compile.
duke@1	127	*/
duke@1	128	Source source;
duke@1	129
duke@1	130	private Context context;
duke@1	131
duke@1	132	public JavacProcessingEnvironment(Context context, Iterable<? extends Processor> processors) {
duke@1	133	options = Options.instance(context);
duke@1	134	this.context = context;
duke@1	135	log = Log.instance(context);
duke@1	136	source = Source.instance(context);
duke@1	137	printProcessorInfo = options.get("-XprintProcessorInfo") != null;
duke@1	138	printRounds = options.get("-XprintRounds") != null;
duke@1	139	verbose = options.get("-verbose") != null;
duke@1	140	lint = options.lint("processing");
duke@1	141	procOnly = options.get("-proc:only") != null ||
duke@1	142	options.get("-Xprint") != null;
duke@1	143	fatalErrors = options.get("fatalEnterError") != null;
duke@1	144	platformAnnotations = initPlatformAnnotations();
duke@1	145
duke@1	146	// Initialize services before any processors are initialzied
duke@1	147	// in case processors use them.
duke@1	148	filer = new JavacFiler(context);
duke@1	149	messager = new JavacMessager(context, this);
duke@1	150	elementUtils = new JavacElements(context);
duke@1	151	typeUtils = new JavacTypes(context);
duke@1	152	processorOptions = initProcessorOptions(context);
duke@1	153	unmatchedProcessorOptions = initUnmatchedProcessorOptions();
duke@1	154	initProcessorIterator(context, processors);
duke@1	155	}
duke@1	156
duke@1	157	private Set<String> initPlatformAnnotations() {
duke@1	158	Set<String> platformAnnotations = new HashSet<String>();
duke@1	159	platformAnnotations.add("java.lang.Deprecated");
duke@1	160	platformAnnotations.add("java.lang.Override");
duke@1	161	platformAnnotations.add("java.lang.SuppressWarnings");
duke@1	162	platformAnnotations.add("java.lang.annotation.Documented");
duke@1	163	platformAnnotations.add("java.lang.annotation.Inherited");
duke@1	164	platformAnnotations.add("java.lang.annotation.Retention");
duke@1	165	platformAnnotations.add("java.lang.annotation.Target");
duke@1	166	return Collections.unmodifiableSet(platformAnnotations);
duke@1	167	}
duke@1	168
duke@1	169	private void initProcessorIterator(Context context, Iterable<? extends Processor> processors) {
duke@1	170	Paths paths = Paths.instance(context);
duke@1	171	Log log = Log.instance(context);
duke@1	172	Iterator<? extends Processor> processorIterator;
duke@1	173
duke@1	174	if (options.get("-Xprint") != null) {
duke@1	175	try {
duke@1	176	Processor processor = PrintingProcessor.class.newInstance();
duke@1	177	processorIterator = List.of(processor).iterator();
duke@1	178	} catch (Throwable t) {
duke@1	179	AssertionError assertError =
duke@1	180	new AssertionError("Problem instantiating PrintingProcessor.");
duke@1	181	assertError.initCause(t);
duke@1	182	throw assertError;
duke@1	183	}
duke@1	184	} else if (processors != null) {
duke@1	185	processorIterator = processors.iterator();
duke@1	186	} else {
duke@1	187	String processorNames = options.get("-processor");
duke@1	188	JavaFileManager fileManager = context.get(JavaFileManager.class);
duke@1	189	try {
duke@1	190	// If processorpath is not explicitly set, use the classpath.
duke@1	191	ClassLoader processorCL = fileManager.hasLocation(ANNOTATION_PROCESSOR_PATH)
duke@1	192	? fileManager.getClassLoader(ANNOTATION_PROCESSOR_PATH)
duke@1	193	: fileManager.getClassLoader(CLASS_PATH);
duke@1	194
duke@1	195	/*
duke@1	196	* If the "-processor" option is used, search the appropriate
duke@1	197	* path for the named class. Otherwise, use a service
duke@1	198	* provider mechanism to create the processor iterator.
duke@1	199	*/
duke@1	200	if (processorNames != null) {
duke@1	201	processorIterator = new NameProcessIterator(processorNames, processorCL, log);
duke@1	202	} else {
duke@1	203	processorIterator = new ServiceIterator(processorCL, log);
duke@1	204	}
duke@1	205	} catch (SecurityException e) {
duke@1	206	/*
duke@1	207	* A security exception will occur if we can't create a classloader.
duke@1	208	* Ignore the exception if, with hindsight, we didn't need it anyway
duke@1	209	* (i.e. no processor was specified either explicitly, or implicitly,
duke@1	210	* in service configuration file.) Otherwise, we cannot continue.
duke@1	211	*/
duke@1	212	processorIterator = handleServiceLoaderUnavailability("proc.cant.create.loader", e);
duke@1	213	}
duke@1	214	}
duke@1	215	discoveredProcs = new DiscoveredProcessors(processorIterator);
duke@1	216	}
duke@1	217
duke@1	218	/**
duke@1	219	* Returns an empty processor iterator if no processors are on the
duke@1	220	* relevant path, otherwise if processors are present, logs an
duke@1	221	* error. Called when a service loader is unavailable for some
duke@1	222	* reason, either because a service loader class cannot be found
duke@1	223	* or because a security policy prevents class loaders from being
duke@1	224	* created.
duke@1	225	*
duke@1	226	* @param key The resource key to use to log an error message
duke@1	227	* @param e If non-null, pass this exception to Abort
duke@1	228	*/
duke@1	229	private Iterator<Processor> handleServiceLoaderUnavailability(String key, Exception e) {
duke@1	230	JavaFileManager fileManager = context.get(JavaFileManager.class);
duke@1	231
duke@1	232	if (fileManager instanceof JavacFileManager) {
duke@1	233	StandardJavaFileManager standardFileManager = (JavacFileManager) fileManager;
duke@1	234	Iterable<? extends File> workingPath = fileManager.hasLocation(ANNOTATION_PROCESSOR_PATH)
duke@1	235	? standardFileManager.getLocation(ANNOTATION_PROCESSOR_PATH)
duke@1	236	: standardFileManager.getLocation(CLASS_PATH);
duke@1	237
duke@1	238	if (needClassLoader(options.get("-processor"), workingPath) )
duke@1	239	handleException(key, e);
duke@1	240
duke@1	241	} else {
duke@1	242	handleException(key, e);
duke@1	243	}
duke@1	244
duke@1	245	java.util.List<Processor> pl = Collections.emptyList();
duke@1	246	return pl.iterator();
duke@1	247	}
duke@1	248
duke@1	249	/**
duke@1	250	* Handle a security exception thrown during initializing the
duke@1	251	* Processor iterator.
duke@1	252	*/
duke@1	253	private void handleException(String key, Exception e) {
duke@1	254	if (e != null) {
duke@1	255	log.error(key, e.getLocalizedMessage());
duke@1	256	throw new Abort(e);
duke@1	257	} else {
duke@1	258	log.error(key);
duke@1	259	throw new Abort();
duke@1	260	}
duke@1	261	}
duke@1	262
duke@1	263	/**
duke@1	264	* Use a service loader appropriate for the platform to provide an
duke@1	265	* iterator over annotations processors. If
duke@1	266	* java.util.ServiceLoader is present use it, otherwise, use
duke@1	267	* sun.misc.Service, otherwise fail if a loader is needed.
duke@1	268	*/
duke@1	269	private class ServiceIterator implements Iterator<Processor> {
duke@1	270	// The to-be-wrapped iterator.
duke@1	271	private Iterator<?> iterator;
duke@1	272	private Log log;
duke@1	273
duke@1	274	ServiceIterator(ClassLoader classLoader, Log log) {
duke@1	275	Class<?> loaderClass;
duke@1	276	String loadMethodName;
duke@1	277	boolean jusl;
duke@1	278
duke@1	279	this.log = log;
duke@1	280	try {
duke@1	281	try {
duke@1	282	loaderClass = Class.forName("java.util.ServiceLoader");
duke@1	283	loadMethodName = "load";
duke@1	284	jusl = true;
duke@1	285	} catch (ClassNotFoundException cnfe) {
duke@1	286	try {
duke@1	287	loaderClass = Class.forName("sun.misc.Service");
duke@1	288	loadMethodName = "providers";
duke@1	289	jusl = false;
duke@1	290	} catch (ClassNotFoundException cnfe2) {
duke@1	291	// Fail softly if a loader is not actually needed.
duke@1	292	this.iterator = handleServiceLoaderUnavailability("proc.no.service",
duke@1	293	null);
duke@1	294	return;
duke@1	295	}
duke@1	296	}
duke@1	297
duke@1	298	// java.util.ServiceLoader.load or sun.misc.Service.providers
duke@1	299	Method loadMethod = loaderClass.getMethod(loadMethodName,
duke@1	300	Class.class,
duke@1	301	ClassLoader.class);
duke@1	302
duke@1	303	Object result = loadMethod.invoke(null,
duke@1	304	Processor.class,
duke@1	305	classLoader);
duke@1	306
duke@1	307	// For java.util.ServiceLoader, we have to call another
duke@1	308	// method to get the iterator.
duke@1	309	if (jusl) {
duke@1	310	Method m = loaderClass.getMethod("iterator");
duke@1	311	result = m.invoke(result); // serviceLoader.iterator();
duke@1	312	}
duke@1	313
duke@1	314	// The result should now be an iterator.
duke@1	315	this.iterator = (Iterator<?>) result;
duke@1	316	} catch (Throwable t) {
duke@1	317	log.error("proc.service.problem");
duke@1	318	throw new Abort(t);
duke@1	319	}
duke@1	320	}
duke@1	321
duke@1	322	public boolean hasNext() {
duke@1	323	try {
duke@1	324	return iterator.hasNext();
duke@1	325	} catch (Throwable t) {
duke@1	326	if ("ServiceConfigurationError".
duke@1	327	equals(t.getClass().getSimpleName())) {
duke@1	328	log.error("proc.bad.config.file", t.getLocalizedMessage());
duke@1	329	}
duke@1	330	throw new Abort(t);
duke@1	331	}
duke@1	332	}
duke@1	333
duke@1	334	public Processor next() {
duke@1	335	try {
duke@1	336	return (Processor)(iterator.next());
duke@1	337	} catch (Throwable t) {
duke@1	338	if ("ServiceConfigurationError".
duke@1	339	equals(t.getClass().getSimpleName())) {
duke@1	340	log.error("proc.bad.config.file", t.getLocalizedMessage());
duke@1	341	} else {
duke@1	342	log.error("proc.processor.constructor.error", t.getLocalizedMessage());
duke@1	343	}
duke@1	344	throw new Abort(t);
duke@1	345	}
duke@1	346	}
duke@1	347
duke@1	348	public void remove() {
duke@1	349	throw new UnsupportedOperationException();
duke@1	350	}
duke@1	351	}
duke@1	352
duke@1	353
duke@1	354	private static class NameProcessIterator implements Iterator<Processor> {
duke@1	355	Processor nextProc = null;
duke@1	356	Iterator<String> names;
duke@1	357	ClassLoader processorCL;
duke@1	358	Log log;
duke@1	359
duke@1	360	NameProcessIterator(String names, ClassLoader processorCL, Log log) {
duke@1	361	this.names = Arrays.asList(names.split(",")).iterator();
duke@1	362	this.processorCL = processorCL;
duke@1	363	this.log = log;
duke@1	364	}
duke@1	365
duke@1	366	public boolean hasNext() {
duke@1	367	if (nextProc != null)
duke@1	368	return true;
duke@1	369	else {
duke@1	370	if (!names.hasNext())
duke@1	371	return false;
duke@1	372	else {
duke@1	373	String processorName = names.next();
duke@1	374
duke@1	375	Processor processor;
duke@1	376	try {
duke@1	377	try {
duke@1	378	processor =
duke@1	379	(Processor) (processorCL.loadClass(processorName).newInstance());
duke@1	380	} catch (ClassNotFoundException cnfe) {
duke@1	381	log.error("proc.processor.not.found", processorName);
duke@1	382	return false;
duke@1	383	} catch (ClassCastException cce) {
duke@1	384	log.error("proc.processor.wrong.type", processorName);
duke@1	385	return false;
duke@1	386	} catch (Exception e ) {
duke@1	387	log.error("proc.processor.cant.instantiate", processorName);
duke@1	388	return false;
duke@1	389	}
duke@1	390	} catch(Throwable t) {
duke@1	391	throw new AnnotationProcessingError(t);
duke@1	392	}
duke@1	393	nextProc = processor;
duke@1	394	return true;
duke@1	395	}
duke@1	396
duke@1	397	}
duke@1	398	}
duke@1	399
duke@1	400	public Processor next() {
duke@1	401	if (hasNext()) {
duke@1	402	Processor p = nextProc;
duke@1	403	nextProc = null;
duke@1	404	return p;
duke@1	405	} else
duke@1	406	throw new NoSuchElementException();
duke@1	407	}
duke@1	408
duke@1	409	public void remove () {
duke@1	410	throw new UnsupportedOperationException();
duke@1	411	}
duke@1	412	}
duke@1	413
duke@1	414	public boolean atLeastOneProcessor() {
duke@1	415	return discoveredProcs.iterator().hasNext();
duke@1	416	}
duke@1	417
duke@1	418	private Map<String, String> initProcessorOptions(Context context) {
duke@1	419	Options options = Options.instance(context);
duke@1	420	Set<String> keySet = options.keySet();
duke@1	421	Map<String, String> tempOptions = new LinkedHashMap<String, String>();
duke@1	422
duke@1	423	for(String key : keySet) {
duke@1	424	if (key.startsWith("-A") && key.length() > 2) {
duke@1	425	int sepIndex = key.indexOf('=');
duke@1	426	String candidateKey = null;
duke@1	427	String candidateValue = null;
duke@1	428
duke@1	429	if (sepIndex == -1)
duke@1	430	candidateKey = key.substring(2);
duke@1	431	else if (sepIndex >= 3) {
duke@1	432	candidateKey = key.substring(2, sepIndex);
duke@1	433	candidateValue = (sepIndex < key.length()-1)?
duke@1	434	key.substring(sepIndex+1) : null;
duke@1	435	}
duke@1	436	tempOptions.put(candidateKey, candidateValue);
duke@1	437	}
duke@1	438	}
duke@1	439
duke@1	440	return Collections.unmodifiableMap(tempOptions);
duke@1	441	}
duke@1	442
duke@1	443	private Set<String> initUnmatchedProcessorOptions() {
duke@1	444	Set<String> unmatchedProcessorOptions = new HashSet<String>();
duke@1	445	unmatchedProcessorOptions.addAll(processorOptions.keySet());
duke@1	446	return unmatchedProcessorOptions;
duke@1	447	}
duke@1	448
duke@1	449	/**
duke@1	450	* State about how a processor has been used by the tool. If a
duke@1	451	* processor has been used on a prior round, its process method is
duke@1	452	* called on all subsequent rounds, perhaps with an empty set of
duke@1	453	* annotations to process. The {@code annotatedSupported} method
duke@1	454	* caches the supported annotation information from the first (and
duke@1	455	* only) getSupportedAnnotationTypes call to the processor.
duke@1	456	*/
duke@1	457	static class ProcessorState {
duke@1	458	public Processor processor;
duke@1	459	public boolean contributed;
duke@1	460	private ArrayList<Pattern> supportedAnnotationPatterns;
duke@1	461	private ArrayList<String> supportedOptionNames;
duke@1	462
duke@1	463	ProcessorState(Processor p, Log log, Source source, ProcessingEnvironment env) {
duke@1	464	processor = p;
duke@1	465	contributed = false;
duke@1	466
duke@1	467	try {
duke@1	468	processor.init(env);
duke@1	469
duke@1	470	checkSourceVersionCompatibility(source, log);
duke@1	471
duke@1	472	supportedAnnotationPatterns = new ArrayList<Pattern>();
duke@1	473	for (String importString : processor.getSupportedAnnotationTypes()) {
duke@1	474	supportedAnnotationPatterns.add(importStringToPattern(importString,
duke@1	475	processor,
duke@1	476	log));
duke@1	477	}
duke@1	478
duke@1	479	supportedOptionNames = new ArrayList<String>();
duke@1	480	for (String optionName : processor.getSupportedOptions() ) {
duke@1	481	if (checkOptionName(optionName, log))
duke@1	482	supportedOptionNames.add(optionName);
duke@1	483	}
duke@1	484
duke@1	485	} catch (Throwable t) {
duke@1	486	throw new AnnotationProcessingError(t);
duke@1	487	}
duke@1	488	}
duke@1	489
duke@1	490	/**
duke@1	491	* Checks whether or not a processor's source version is
duke@1	492	* compatible with the compilation source version. The
duke@1	493	* processor's source version needs to be greater than or
duke@1	494	* equal to the source version of the compile.
duke@1	495	*/
duke@1	496	private void checkSourceVersionCompatibility(Source source, Log log) {
duke@1	497	SourceVersion procSourceVersion = processor.getSupportedSourceVersion();
duke@1	498
duke@1	499	if (procSourceVersion.compareTo(Source.toSourceVersion(source)) < 0 ) {
duke@1	500	log.warning("proc.processor.incompatible.source.version",
duke@1	501	procSourceVersion,
duke@1	502	processor.getClass().getName(),
duke@1	503	source.name);
duke@1	504	}
duke@1	505	}
duke@1	506
duke@1	507	private boolean checkOptionName(String optionName, Log log) {
duke@1	508	boolean valid = isValidOptionName(optionName);
duke@1	509	if (!valid)
duke@1	510	log.error("proc.processor.bad.option.name",
duke@1	511	optionName,
duke@1	512	processor.getClass().getName());
duke@1	513	return valid;
duke@1	514	}
duke@1	515
duke@1	516	public boolean annotationSupported(String annotationName) {
duke@1	517	for(Pattern p: supportedAnnotationPatterns) {
duke@1	518	if (p.matcher(annotationName).matches())
duke@1	519	return true;
duke@1	520	}
duke@1	521	return false;
duke@1	522	}
duke@1	523
duke@1	524	/**
duke@1	525	* Remove options that are matched by this processor.
duke@1	526	*/
duke@1	527	public void removeSupportedOptions(Set<String> unmatchedProcessorOptions) {
duke@1	528	unmatchedProcessorOptions.removeAll(supportedOptionNames);
duke@1	529	}
duke@1	530	}
duke@1	531
duke@1	532	// TODO: These two classes can probably be rewritten better...
duke@1	533	/**
duke@1	534	* This class holds information about the processors that have
duke@1	535	* been discoverd so far as well as the means to discover more, if
duke@1	536	* necessary. A single iterator should be used per round of
duke@1	537	* annotation processing. The iterator first visits already
duke@1	538	* discovered processors then fails over to the service provided
duke@1	539	* mechanism if additional queries are made.
duke@1	540	*/
duke@1	541	class DiscoveredProcessors implements Iterable<ProcessorState> {
duke@1	542
duke@1	543	class ProcessorStateIterator implements Iterator<ProcessorState> {
duke@1	544	DiscoveredProcessors psi;
duke@1	545	Iterator<ProcessorState> innerIter;
duke@1	546	boolean onProcInterator;
duke@1	547
duke@1	548	ProcessorStateIterator(DiscoveredProcessors psi) {
duke@1	549	this.psi = psi;
duke@1	550	this.innerIter = psi.procStateList.iterator();
duke@1	551	this.onProcInterator = false;
duke@1	552	}
duke@1	553
duke@1	554	public ProcessorState next() {
duke@1	555	if (!onProcInterator) {
duke@1	556	if (innerIter.hasNext())
duke@1	557	return innerIter.next();
duke@1	558	else
duke@1	559	onProcInterator = true;
duke@1	560	}
duke@1	561
duke@1	562	if (psi.processorIterator.hasNext()) {
duke@1	563	ProcessorState ps = new ProcessorState(psi.processorIterator.next(),
duke@1	564	log, source, JavacProcessingEnvironment.this);
duke@1	565	psi.procStateList.add(ps);
duke@1	566	return ps;
duke@1	567	} else
duke@1	568	throw new NoSuchElementException();
duke@1	569	}
duke@1	570
duke@1	571	public boolean hasNext() {
duke@1	572	if (onProcInterator)
duke@1	573	return psi.processorIterator.hasNext();
duke@1	574	else
duke@1	575	return innerIter.hasNext() || psi.processorIterator.hasNext();
duke@1	576	}
duke@1	577
duke@1	578	public void remove () {
duke@1	579	throw new UnsupportedOperationException();
duke@1	580	}
duke@1	581
duke@1	582	/**
duke@1	583	* Run all remaining processors on the procStateList that
duke@1	584	* have not already run this round with an empty set of
duke@1	585	* annotations.
duke@1	586	*/
duke@1	587	public void runContributingProcs(RoundEnvironment re) {
duke@1	588	if (!onProcInterator) {
duke@1	589	Set<TypeElement> emptyTypeElements = Collections.emptySet();
duke@1	590	while(innerIter.hasNext()) {
duke@1	591	ProcessorState ps = innerIter.next();
duke@1	592	if (ps.contributed)
duke@1	593	callProcessor(ps.processor, emptyTypeElements, re);
duke@1	594	}
duke@1	595	}
duke@1	596	}
duke@1	597	}
duke@1	598
duke@1	599	Iterator<? extends Processor> processorIterator;
duke@1	600	ArrayList<ProcessorState> procStateList;
duke@1	601
duke@1	602	public ProcessorStateIterator iterator() {
duke@1	603	return new ProcessorStateIterator(this);
duke@1	604	}
duke@1	605
duke@1	606	DiscoveredProcessors(Iterator<? extends Processor> processorIterator) {
duke@1	607	this.processorIterator = processorIterator;
duke@1	608	this.procStateList = new ArrayList<ProcessorState>();
duke@1	609	}
duke@1	610	}
duke@1	611
duke@1	612	private void discoverAndRunProcs(Context context,
duke@1	613	Set<TypeElement> annotationsPresent,
duke@1	614	List<ClassSymbol> topLevelClasses,
duke@1	615	List<PackageSymbol> packageInfoFiles) {
duke@1	616	// Writer for -XprintRounds and -XprintProcessorInfo data
duke@1	617	PrintWriter xout = context.get(Log.outKey);
duke@1	618
duke@1	619	Map<String, TypeElement> unmatchedAnnotations =
duke@1	620	new HashMap<String, TypeElement>(annotationsPresent.size());
duke@1	621
duke@1	622	for(TypeElement a : annotationsPresent) {
duke@1	623	unmatchedAnnotations.put(a.getQualifiedName().toString(),
duke@1	624	a);
duke@1	625	}
duke@1	626
duke@1	627	// Give "*" processors a chance to match
duke@1	628	if (unmatchedAnnotations.size() == 0)
duke@1	629	unmatchedAnnotations.put("", null);
duke@1	630
duke@1	631	DiscoveredProcessors.ProcessorStateIterator psi = discoveredProcs.iterator();
duke@1	632	// TODO: Create proper argument values; need past round
duke@1	633	// information to fill in this constructor. Note that the 1
duke@1	634	// st round of processing could be the last round if there
duke@1	635	// were parse errors on the initial source files; however, we
duke@1	636	// are not doing processing in that case.
duke@1	637
duke@1	638	Set<Element> rootElements = new LinkedHashSet<Element>();
duke@1	639	rootElements.addAll(topLevelClasses);
duke@1	640	rootElements.addAll(packageInfoFiles);
duke@1	641	rootElements = Collections.unmodifiableSet(rootElements);
duke@1	642
duke@1	643	RoundEnvironment renv = new JavacRoundEnvironment(false,
duke@1	644	false,
duke@1	645	rootElements,
duke@1	646	JavacProcessingEnvironment.this);
duke@1	647
duke@1	648	while(unmatchedAnnotations.size() > 0 && psi.hasNext() ) {
duke@1	649	ProcessorState ps = psi.next();
duke@1	650	Set<String> matchedNames = new HashSet<String>();
duke@1	651	Set<TypeElement> typeElements = new LinkedHashSet<TypeElement>();
duke@1	652	for (String unmatchedAnnotationName : unmatchedAnnotations.keySet()) {
duke@1	653	if (ps.annotationSupported(unmatchedAnnotationName) ) {
duke@1	654	matchedNames.add(unmatchedAnnotationName);
duke@1	655	TypeElement te = unmatchedAnnotations.get(unmatchedAnnotationName);
duke@1	656	if (te != null)
duke@1	657	typeElements.add(te);
duke@1	658	}
duke@1	659	}
duke@1	660
duke@1	661	if (matchedNames.size() > 0 || ps.contributed) {
duke@1	662	boolean processingResult = callProcessor(ps.processor, typeElements, renv);
duke@1	663	ps.contributed = true;
duke@1	664	ps.removeSupportedOptions(unmatchedProcessorOptions);
duke@1	665
duke@1	666	if (printProcessorInfo || verbose) {
duke@1	667	xout.println(Log.getLocalizedString("x.print.processor.info",
duke@1	668	ps.processor.getClass().getName(),
duke@1	669	matchedNames.toString(),
duke@1	670	processingResult));
duke@1	671	}
duke@1	672
duke@1	673	if (processingResult) {
duke@1	674	unmatchedAnnotations.keySet().removeAll(matchedNames);
duke@1	675	}
duke@1	676
duke@1	677	}
duke@1	678	}
duke@1	679	unmatchedAnnotations.remove("");
duke@1	680
duke@1	681	if (lint && unmatchedAnnotations.size() > 0) {
duke@1	682	// Remove annotations processed by javac
duke@1	683	unmatchedAnnotations.keySet().removeAll(platformAnnotations);
duke@1	684	if (unmatchedAnnotations.size() > 0) {
duke@1	685	log = Log.instance(context);
duke@1	686	log.warning("proc.annotations.without.processors",
duke@1	687	unmatchedAnnotations.keySet());
duke@1	688	}
duke@1	689	}
duke@1	690
duke@1	691	// Run contributing processors that haven't run yet
duke@1	692	psi.runContributingProcs(renv);
duke@1	693
duke@1	694	// Debugging
duke@1	695	if (options.get("displayFilerState") != null)
duke@1	696	filer.displayState();
duke@1	697	}
duke@1	698
duke@1	699	/**
duke@1	700	* Computes the set of annotations on the symbol in question.
duke@1	701	* Leave class public for external testing purposes.
duke@1	702	*/
duke@1	703	public static class ComputeAnnotationSet extends
duke@1	704	ElementScanner6<Set<TypeElement>, Set<TypeElement>> {
duke@1	705	final Elements elements;
duke@1	706
duke@1	707	public ComputeAnnotationSet(Elements elements) {
duke@1	708	super();
duke@1	709	this.elements = elements;
duke@1	710	}
duke@1	711
duke@1	712	@Override
duke@1	713	public Set<TypeElement> visitPackage(PackageElement e, Set<TypeElement> p) {
duke@1	714	// Don't scan enclosed elements of a package
duke@1	715	return p;
duke@1	716	}
duke@1	717
duke@1	718	@Override
duke@1	719	public Set<TypeElement> scan(Element e, Set<TypeElement> p) {
duke@1	720	for (AnnotationMirror annotationMirror :
duke@1	721	elements.getAllAnnotationMirrors(e) ) {
duke@1	722	Element e2 = annotationMirror.getAnnotationType().asElement();
duke@1	723	p.add((TypeElement) e2);
duke@1	724	}
duke@1	725	return super.scan(e, p);
duke@1	726	}
duke@1	727	}
duke@1	728
duke@1	729	private boolean callProcessor(Processor proc,
duke@1	730	Set<? extends TypeElement> tes,
duke@1	731	RoundEnvironment renv) {
duke@1	732	try {
duke@1	733	return proc.process(tes, renv);
duke@1	734	} catch (CompletionFailure ex) {
duke@1	735	StringWriter out = new StringWriter();
duke@1	736	ex.printStackTrace(new PrintWriter(out));
duke@1	737	log.error("proc.cant.access", ex.sym, ex.errmsg, out.toString());
duke@1	738	return false;
duke@1	739	} catch (Throwable t) {
duke@1	740	throw new AnnotationProcessingError(t);
duke@1	741	}
duke@1	742	}
duke@1	743
duke@1	744
duke@1	745	// TODO: internal catch clauses?; catch and rethrow an annotation
duke@1	746	// processing error
duke@1	747	public JavaCompiler doProcessing(Context context,
duke@1	748	List<JCCompilationUnit> roots,
duke@1	749	List<ClassSymbol> classSymbols,
duke@1	750	Iterable<? extends PackageSymbol> pckSymbols)
duke@1	751	throws IOException {
duke@1	752
duke@1	753	log = Log.instance(context);
duke@1	754	// Writer for -XprintRounds and -XprintProcessorInfo data
duke@1	755	PrintWriter xout = context.get(Log.outKey);
duke@1	756	TaskListener taskListener = context.get(TaskListener.class);
duke@1	757
duke@1	758
duke@1	759	AnnotationCollector collector = new AnnotationCollector();
duke@1	760
duke@1	761	JavaCompiler compiler = JavaCompiler.instance(context);
duke@1	762	compiler.todo.clear(); // free the compiler's resources
duke@1	763
duke@1	764	int round = 0;
duke@1	765
duke@1	766	// List<JCAnnotation> annotationsPresentInSource = collector.findAnnotations(roots);
duke@1	767	List<ClassSymbol> topLevelClasses = getTopLevelClasses(roots);
duke@1	768
duke@1	769	for (ClassSymbol classSym : classSymbols)
duke@1	770	topLevelClasses = topLevelClasses.prepend(classSym);
duke@1	771	List<PackageSymbol> packageInfoFiles =
duke@1	772	getPackageInfoFiles(roots);
duke@1	773
duke@1	774	Set<PackageSymbol> specifiedPackages = new LinkedHashSet<PackageSymbol>();
duke@1	775	for (PackageSymbol psym : pckSymbols)
duke@1	776	specifiedPackages.add(psym);
duke@1	777	this.specifiedPackages = Collections.unmodifiableSet(specifiedPackages);
duke@1	778
duke@1	779	// Use annotation processing to compute the set of annotations present
duke@1	780	Set<TypeElement> annotationsPresent = new LinkedHashSet<TypeElement>();
duke@1	781	ComputeAnnotationSet annotationComputer = new ComputeAnnotationSet(elementUtils);
duke@1	782	for (ClassSymbol classSym : topLevelClasses)
duke@1	783	annotationComputer.scan(classSym, annotationsPresent);
duke@1	784	for (PackageSymbol pkgSym : packageInfoFiles)
duke@1	785	annotationComputer.scan(pkgSym, annotationsPresent);
duke@1	786
duke@1	787	Context currentContext = context;
duke@1	788
duke@1	789	int roundNumber = 0;
duke@1	790	boolean errorStatus = false;
duke@1	791
duke@1	792	runAround:
duke@1	793	while(true) {
duke@1	794	if (fatalErrors && compiler.errorCount() != 0) {
duke@1	795	errorStatus = true;
duke@1	796	break runAround;
duke@1	797	}
duke@1	798
duke@1	799	this.context = currentContext;
duke@1	800	roundNumber++;
duke@1	801	printRoundInfo(xout, roundNumber, topLevelClasses, annotationsPresent, false);
duke@1	802
duke@1	803	if (taskListener != null)
duke@1	804	taskListener.started(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING_ROUND));
duke@1	805
duke@1	806	try {
duke@1	807	discoverAndRunProcs(currentContext, annotationsPresent, topLevelClasses, packageInfoFiles);
duke@1	808	} finally {
duke@1	809	if (taskListener != null)
duke@1	810	taskListener.finished(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING_ROUND));
duke@1	811	}
duke@1	812
duke@1	813	/*
duke@1	814	* Processors for round n have run to completion. Prepare
duke@1	815	* for round (n+1) by checked for errors raised by
duke@1	816	* annotation processors and then checking for syntax
duke@1	817	* errors on any generated source files.
duke@1	818	*/
duke@1	819	if (messager.errorRaised()) {
duke@1	820	errorStatus = true;
duke@1	821	break runAround;
duke@1	822	} else {
duke@1	823	if (moreToDo()) {
duke@1	824	// annotationsPresentInSource = List.nil();
duke@1	825	annotationsPresent = new LinkedHashSet<TypeElement>();
duke@1	826	topLevelClasses = List.nil();
duke@1	827	packageInfoFiles = List.nil();
duke@1	828
duke@1	829	compiler.close();
duke@1	830	currentContext = contextForNextRound(currentContext, true);
duke@1	831
duke@1	832	JavaFileManager fileManager = currentContext.get(JavaFileManager.class);
duke@1	833
duke@1	834	List<JavaFileObject> fileObjects = List.nil();
duke@1	835	for (JavaFileObject jfo : filer.getGeneratedSourceFileObjects() ) {
duke@1	836	fileObjects = fileObjects.prepend(jfo);
duke@1	837	}
duke@1	838
duke@1	839
duke@1	840	compiler = JavaCompiler.instance(currentContext);
duke@1	841	List<JCCompilationUnit> parsedFiles = compiler.parseFiles(fileObjects);
duke@1	842	roots = cleanTrees(roots).reverse();
duke@1	843
duke@1	844
duke@1	845	for (JCCompilationUnit unit : parsedFiles)
duke@1	846	roots = roots.prepend(unit);
duke@1	847	roots = roots.reverse();
duke@1	848
duke@1	849	// Check for errors after parsing
duke@1	850	if (compiler.parseErrors()) {
duke@1	851	errorStatus = true;
duke@1	852	break runAround;
duke@1	853	} else {
duke@1	854	ListBuffer<ClassSymbol> classes = enterNewClassFiles(currentContext);
duke@1	855	compiler.enterTrees(roots);
duke@1	856
duke@1	857	// annotationsPresentInSource =
duke@1	858	// collector.findAnnotations(parsedFiles);
duke@1	859	classes.appendList(getTopLevelClasses(parsedFiles));
duke@1	860	topLevelClasses = classes.toList();
duke@1	861	packageInfoFiles = getPackageInfoFiles(parsedFiles);
duke@1	862
duke@1	863	annotationsPresent = new LinkedHashSet<TypeElement>();
duke@1	864	for (ClassSymbol classSym : topLevelClasses)
duke@1	865	annotationComputer.scan(classSym, annotationsPresent);
duke@1	866	for (PackageSymbol pkgSym : packageInfoFiles)
duke@1	867	annotationComputer.scan(pkgSym, annotationsPresent);
duke@1	868
duke@1	869	updateProcessingState(currentContext, false);
duke@1	870	}
duke@1	871	} else
duke@1	872	break runAround; // No new files
duke@1	873	}
duke@1	874	}
duke@1	875	runLastRound(xout, roundNumber, errorStatus, taskListener);
duke@1	876
duke@1	877	compiler.close();
duke@1	878	currentContext = contextForNextRound(currentContext, true);
duke@1	879	compiler = JavaCompiler.instance(currentContext);
duke@1	880	filer.newRound(currentContext, true);
duke@1	881	filer.warnIfUnclosedFiles();
duke@1	882	warnIfUnmatchedOptions();
duke@1	883
duke@1	884	/*
duke@1	885	* If an annotation processor raises an error in a round,
duke@1	886	* that round runs to completion and one last round occurs.
duke@1	887	* The last round may also occur because no more source or
duke@1	888	* class files have been generated. Therefore, if an error
duke@1	889	* was raised on either of the last *two* rounds, the compile
duke@1	890	* should exit with a nonzero exit code. The current value of
duke@1	891	* errorStatus holds whether or not an error was raised on the
duke@1	892	* second to last round; errorRaised() gives the error status
duke@1	893	* of the last round.
duke@1	894	*/
duke@1	895	errorStatus = errorStatus || messager.errorRaised();
duke@1	896
duke@1	897
duke@1	898	// Free resources
duke@1	899	this.close();
duke@1	900
duke@1	901	if (taskListener != null)
duke@1	902	taskListener.finished(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING));
duke@1	903
duke@1	904	if (errorStatus) {
duke@1	905	compiler.log.nerrors += messager.errorCount();
duke@1	906	if (compiler.errorCount() == 0)
duke@1	907	compiler.log.nerrors++;
duke@1	908	} else if (procOnly) {
duke@1	909	compiler.todo.clear();
duke@1	910	} else { // Final compilation
duke@1	911	compiler.close();
duke@1	912	currentContext = contextForNextRound(currentContext, true);
duke@1	913	compiler = JavaCompiler.instance(currentContext);
duke@1	914
duke@1	915	if (true) {
duke@1	916	compiler.enterTrees(cleanTrees(roots));
duke@1	917	} else {
duke@1	918	List<JavaFileObject> fileObjects = List.nil();
duke@1	919	for (JCCompilationUnit unit : roots)
duke@1	920	fileObjects = fileObjects.prepend(unit.getSourceFile());
duke@1	921	roots = null;
duke@1	922	compiler.enterTrees(compiler.parseFiles(fileObjects.reverse()));
duke@1	923	}
duke@1	924	}
duke@1	925
duke@1	926	return compiler;
duke@1	927	}
duke@1	928
duke@1	929	// Call the last round of annotation processing
duke@1	930	private void runLastRound(PrintWriter xout,
duke@1	931	int roundNumber,
duke@1	932	boolean errorStatus,
duke@1	933	TaskListener taskListener) throws IOException {
duke@1	934	roundNumber++;
duke@1	935	List<ClassSymbol> noTopLevelClasses = List.nil();
duke@1	936	Set<TypeElement> noAnnotations = Collections.emptySet();
duke@1	937	printRoundInfo(xout, roundNumber, noTopLevelClasses, noAnnotations, true);
duke@1	938
duke@1	939	Set<Element> emptyRootElements = Collections.emptySet(); // immutable
duke@1	940	RoundEnvironment renv = new JavacRoundEnvironment(true,
duke@1	941	errorStatus,
duke@1	942	emptyRootElements,
duke@1	943	JavacProcessingEnvironment.this);
duke@1	944	if (taskListener != null)
duke@1	945	taskListener.started(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING_ROUND));
duke@1	946
duke@1	947	try {
duke@1	948	discoveredProcs.iterator().runContributingProcs(renv);
duke@1	949	} finally {
duke@1	950	if (taskListener != null)
duke@1	951	taskListener.finished(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING_ROUND));
duke@1	952	}
duke@1	953	}
duke@1	954
duke@1	955	private void updateProcessingState(Context currentContext, boolean lastRound) {
duke@1	956	filer.newRound(currentContext, lastRound);
duke@1	957	messager.newRound(currentContext);
duke@1	958
duke@1	959	elementUtils.setContext(currentContext);
duke@1	960	typeUtils.setContext(currentContext);
duke@1	961	}
duke@1	962
duke@1	963	private void warnIfUnmatchedOptions() {
duke@1	964	if (!unmatchedProcessorOptions.isEmpty()) {
duke@1	965	log.warning("proc.unmatched.processor.options", unmatchedProcessorOptions.toString());
duke@1	966	}
duke@1	967	}
duke@1	968
duke@1	969	private void printRoundInfo(PrintWriter xout,
duke@1	970	int roundNumber,
duke@1	971	List<ClassSymbol> topLevelClasses,
duke@1	972	Set<TypeElement> annotationsPresent,
duke@1	973	boolean lastRound) {
duke@1	974	if (printRounds || verbose) {
duke@1	975	xout.println(Log.getLocalizedString("x.print.rounds",
duke@1	976	roundNumber,
duke@1	977	"{" + topLevelClasses.toString(", ") + "}",
duke@1	978	annotationsPresent,
duke@1	979	lastRound));
duke@1	980	}
duke@1	981	}
duke@1	982
duke@1	983	private ListBuffer<ClassSymbol> enterNewClassFiles(Context currentContext) {
duke@1	984	ClassReader reader = ClassReader.instance(currentContext);
duke@1	985	Name.Table names = Name.Table.instance(currentContext);
duke@1	986	ListBuffer<ClassSymbol> list = new ListBuffer<ClassSymbol>();
duke@1	987
duke@1	988	for (Map.Entry<String,JavaFileObject> entry : filer.getGeneratedClasses().entrySet()) {
duke@1	989	Name name = names.fromString(entry.getKey());
duke@1	990	JavaFileObject file = entry.getValue();
duke@1	991	if (file.getKind() != JavaFileObject.Kind.CLASS)
duke@1	992	throw new AssertionError(file);
duke@1	993	ClassSymbol cs = reader.enterClass(name, file);
duke@1	994	list.append(cs);
duke@1	995	}
duke@1	996	return list;
duke@1	997	}
duke@1	998
duke@1	999	/**
duke@1	1000	* Free resources related to annotation processing.
duke@1	1001	*/
duke@1	1002	public void close() {
duke@1	1003	filer.close();
duke@1	1004	discoveredProcs = null;
duke@1	1005	}
duke@1	1006
duke@1	1007	private List<ClassSymbol> getTopLevelClasses(List<? extends JCCompilationUnit> units) {
duke@1	1008	List<ClassSymbol> classes = List.nil();
duke@1	1009	for (JCCompilationUnit unit : units) {
duke@1	1010	for (JCTree node : unit.defs) {
duke@1	1011	if (node.getTag() == JCTree.CLASSDEF) {
duke@1	1012	classes = classes.prepend(((JCClassDecl) node).sym);
duke@1	1013	}
duke@1	1014	}
duke@1	1015	}
duke@1	1016	return classes.reverse();
duke@1	1017	}
duke@1	1018
duke@1	1019	private List<PackageSymbol> getPackageInfoFiles(List<? extends JCCompilationUnit> units) {
duke@1	1020	List<PackageSymbol> packages = List.nil();
duke@1	1021	for (JCCompilationUnit unit : units) {
duke@1	1022	boolean isPkgInfo = unit.sourcefile.isNameCompatible("package-info",
duke@1	1023	JavaFileObject.Kind.SOURCE);
duke@1	1024	if (isPkgInfo) {
duke@1	1025	packages = packages.prepend(unit.packge);
duke@1	1026	}
duke@1	1027	}
duke@1	1028	return packages.reverse();
duke@1	1029	}
duke@1	1030
duke@1	1031	private Context contextForNextRound(Context context, boolean shareNames)
duke@1	1032	throws IOException
duke@1	1033	{
duke@1	1034	Context next = new Context();
duke@1	1035
duke@1	1036	Options options = Options.instance(context);
duke@1	1037	assert options != null;
duke@1	1038	next.put(Options.optionsKey, options);
duke@1	1039
duke@1	1040	PrintWriter out = context.get(Log.outKey);
duke@1	1041	assert out != null;
duke@1	1042	next.put(Log.outKey, out);
duke@1	1043
duke@1	1044	if (shareNames) {
duke@1	1045	Name.Table names = Name.Table.instance(context);
duke@1	1046	assert names != null;
duke@1	1047	next.put(Name.Table.namesKey, names);
duke@1	1048	}
duke@1	1049
duke@1	1050	DiagnosticListener dl = context.get(DiagnosticListener.class);
duke@1	1051	if (dl != null)
duke@1	1052	next.put(DiagnosticListener.class, dl);
duke@1	1053
duke@1	1054	TaskListener tl = context.get(TaskListener.class);
duke@1	1055	if (tl != null)
duke@1	1056	next.put(TaskListener.class, tl);
duke@1	1057
duke@1	1058	JavaFileManager jfm = context.get(JavaFileManager.class);
duke@1	1059	assert jfm != null;
duke@1	1060	next.put(JavaFileManager.class, jfm);
duke@1	1061	if (jfm instanceof JavacFileManager) {
duke@1	1062	((JavacFileManager)jfm).setContext(next);
duke@1	1063	}
duke@1	1064
duke@1	1065	Name.Table names = Name.Table.instance(context);
duke@1	1066	assert names != null;
duke@1	1067	next.put(Name.Table.namesKey, names);
duke@1	1068
duke@1	1069	Keywords keywords = Keywords.instance(context);
duke@1	1070	assert(keywords != null);
duke@1	1071	next.put(Keywords.keywordsKey, keywords);
duke@1	1072
duke@1	1073	JavaCompiler oldCompiler = JavaCompiler.instance(context);
duke@1	1074	JavaCompiler nextCompiler = JavaCompiler.instance(next);
duke@1	1075	nextCompiler.initRound(oldCompiler);
duke@1	1076
duke@1	1077	JavacTaskImpl task = context.get(JavacTaskImpl.class);
duke@1	1078	if (task != null) {
duke@1	1079	next.put(JavacTaskImpl.class, task);
duke@1	1080	task.updateContext(next);
duke@1	1081	}
duke@1	1082
duke@1	1083	context.clear();
duke@1	1084	return next;
duke@1	1085	}
duke@1	1086
duke@1	1087	/*
duke@1	1088	* Called retroactively to determine if a class loader was required,
duke@1	1089	* after we have failed to create one.
duke@1	1090	*/
duke@1	1091	private boolean needClassLoader(String procNames, Iterable<? extends File> workingpath) {
duke@1	1092	if (procNames != null)
duke@1	1093	return true;
duke@1	1094
duke@1	1095	String procPath;
duke@1	1096	URL[] urls = new URL[1];
duke@1	1097	for(File pathElement : workingpath) {
duke@1	1098	try {
duke@1	1099	urls[0] = pathElement.toURI().toURL();
duke@1	1100	if (ServiceProxy.hasService(Processor.class, urls))
duke@1	1101	return true;
duke@1	1102	} catch (MalformedURLException ex) {
duke@1	1103	throw new AssertionError(ex);
duke@1	1104	}
duke@1	1105	catch (ServiceProxy.ServiceConfigurationError e) {
duke@1	1106	log.error("proc.bad.config.file", e.getLocalizedMessage());
duke@1	1107	return true;
duke@1	1108	}
duke@1	1109	}
duke@1	1110
duke@1	1111	return false;
duke@1	1112	}
duke@1	1113
duke@1	1114	private class AnnotationCollector extends TreeScanner {
duke@1	1115	List<JCTree> path = List.nil();
duke@1	1116	static final boolean verbose = false;
duke@1	1117	List<JCAnnotation> annotations = List.nil();
duke@1	1118
duke@1	1119	public List<JCAnnotation> findAnnotations(List<? extends JCTree> nodes) {
duke@1	1120	annotations = List.nil();
duke@1	1121	scan(nodes);
duke@1	1122	List<JCAnnotation> found = annotations;
duke@1	1123	annotations = List.nil();
duke@1	1124	return found.reverse();
duke@1	1125	}
duke@1	1126
duke@1	1127	public void scan(JCTree node) {
duke@1	1128	if (node == null)
duke@1	1129	return;
duke@1	1130	Symbol sym = TreeInfo.symbolFor(node);
duke@1	1131	if (sym != null)
duke@1	1132	path = path.prepend(node);
duke@1	1133	super.scan(node);
duke@1	1134	if (sym != null)
duke@1	1135	path = path.tail;
duke@1	1136	}
duke@1	1137
duke@1	1138	public void visitAnnotation(JCAnnotation node) {
duke@1	1139	annotations = annotations.prepend(node);
duke@1	1140	if (verbose) {
duke@1	1141	StringBuilder sb = new StringBuilder();
duke@1	1142	for (JCTree tree : path.reverse()) {
duke@1	1143	System.err.print(sb);
duke@1	1144	System.err.println(TreeInfo.symbolFor(tree));
duke@1	1145	sb.append(" ");
duke@1	1146	}
duke@1	1147	System.err.print(sb);
duke@1	1148	System.err.println(node);
duke@1	1149	}
duke@1	1150	}
duke@1	1151	}
duke@1	1152
duke@1	1153	private static <T extends JCTree> List<T> cleanTrees(List<T> nodes) {
duke@1	1154	for (T node : nodes)
duke@1	1155	treeCleaner.scan(node);
duke@1	1156	return nodes;
duke@1	1157	}
duke@1	1158
duke@1	1159	private static TreeScanner treeCleaner = new TreeScanner() {
duke@1	1160	public void scan(JCTree node) {
duke@1	1161	super.scan(node);
duke@1	1162	if (node != null)
duke@1	1163	node.type = null;
duke@1	1164	}
duke@1	1165	public void visitTopLevel(JCCompilationUnit node) {
duke@1	1166	node.packge = null;
duke@1	1167	super.visitTopLevel(node);
duke@1	1168	}
duke@1	1169	public void visitClassDef(JCClassDecl node) {
duke@1	1170	node.sym = null;
duke@1	1171	super.visitClassDef(node);
duke@1	1172	}
duke@1	1173	public void visitMethodDef(JCMethodDecl node) {
duke@1	1174	node.sym = null;
duke@1	1175	super.visitMethodDef(node);
duke@1	1176	}
duke@1	1177	public void visitVarDef(JCVariableDecl node) {
duke@1	1178	node.sym = null;
duke@1	1179	super.visitVarDef(node);
duke@1	1180	}
duke@1	1181	public void visitNewClass(JCNewClass node) {
duke@1	1182	node.constructor = null;
duke@1	1183	super.visitNewClass(node);
duke@1	1184	}
duke@1	1185	public void visitAssignop(JCAssignOp node) {
duke@1	1186	node.operator = null;
duke@1	1187	super.visitAssignop(node);
duke@1	1188	}
duke@1	1189	public void visitUnary(JCUnary node) {
duke@1	1190	node.operator = null;
duke@1	1191	super.visitUnary(node);
duke@1	1192	}
duke@1	1193	public void visitBinary(JCBinary node) {
duke@1	1194	node.operator = null;
duke@1	1195	super.visitBinary(node);
duke@1	1196	}
duke@1	1197	public void visitSelect(JCFieldAccess node) {
duke@1	1198	node.sym = null;
duke@1	1199	super.visitSelect(node);
duke@1	1200	}
duke@1	1201	public void visitIdent(JCIdent node) {
duke@1	1202	node.sym = null;
duke@1	1203	super.visitIdent(node);
duke@1	1204	}
duke@1	1205	};
duke@1	1206
duke@1	1207
duke@1	1208	private boolean moreToDo() {
duke@1	1209	return filer.newFiles();
duke@1	1210	}
duke@1	1211
duke@1	1212	/**
duke@1	1213	* {@inheritdoc}
duke@1	1214	*
duke@1	1215	* Command line options suitable for presenting to annotation
duke@1	1216	* processors. "-Afoo=bar" should be "-Afoo" => "bar".
duke@1	1217	*/
duke@1	1218	public Map<String,String> getOptions() {
duke@1	1219	return processorOptions;
duke@1	1220	}
duke@1	1221
duke@1	1222	public Messager getMessager() {
duke@1	1223	return messager;
duke@1	1224	}
duke@1	1225
duke@1	1226	public Filer getFiler() {
duke@1	1227	return filer;
duke@1	1228	}
duke@1	1229
duke@1	1230	public JavacElements getElementUtils() {
duke@1	1231	return elementUtils;
duke@1	1232	}
duke@1	1233
duke@1	1234	public JavacTypes getTypeUtils() {
duke@1	1235	return typeUtils;
duke@1	1236	}
duke@1	1237
duke@1	1238	public SourceVersion getSourceVersion() {
duke@1	1239	return Source.toSourceVersion(source);
duke@1	1240	}
duke@1	1241
duke@1	1242	public Locale getLocale() {
duke@1	1243	return Locale.getDefault();
duke@1	1244	}
duke@1	1245
duke@1	1246	public Set<Symbol.PackageSymbol> getSpecifiedPackages() {
duke@1	1247	return specifiedPackages;
duke@1	1248	}
duke@1	1249
duke@1	1250	// Borrowed from DocletInvoker and apt
duke@1	1251	// TODO: remove from apt's Main
duke@1	1252	/**
duke@1	1253	* Utility method for converting a search path string to an array
duke@1	1254	* of directory and JAR file URLs.
duke@1	1255	*
duke@1	1256	* @param path the search path string
duke@1	1257	* @return the resulting array of directory and JAR file URLs
duke@1	1258	*/
duke@1	1259	public static URL[] pathToURLs(String path) {
duke@1	1260	StringTokenizer st = new StringTokenizer(path, File.pathSeparator);
duke@1	1261	URL[] urls = new URL[st.countTokens()];
duke@1	1262	int count = 0;
duke@1	1263	while (st.hasMoreTokens()) {
duke@1	1264	URL url = fileToURL(new File(st.nextToken()));
duke@1	1265	if (url != null) {
duke@1	1266	urls[count++] = url;
duke@1	1267	}
duke@1	1268	}
duke@1	1269	if (urls.length != count) {
duke@1	1270	URL[] tmp = new URL[count];
duke@1	1271	System.arraycopy(urls, 0, tmp, 0, count);
duke@1	1272	urls = tmp;
duke@1	1273	}
duke@1	1274	return urls;
duke@1	1275	}
duke@1	1276
duke@1	1277	/**
duke@1	1278	* Returns the directory or JAR file URL corresponding to the specified
duke@1	1279	* local file name.
duke@1	1280	*
duke@1	1281	* @param file the File object
duke@1	1282	* @return the resulting directory or JAR file URL, or null if unknown
duke@1	1283	*/
duke@1	1284	private static URL fileToURL(File file) {
duke@1	1285	String name;
duke@1	1286	try {
duke@1	1287	name = file.getCanonicalPath();
duke@1	1288	} catch (IOException e) {
duke@1	1289	name = file.getAbsolutePath();
duke@1	1290	}
duke@1	1291	name = name.replace(File.separatorChar, '/');
duke@1	1292	if (!name.startsWith("/")) {
duke@1	1293	name = "/" + name;
duke@1	1294	}
duke@1	1295	// If the file does not exist, then assume that it's a directory
duke@1	1296	if (!file.isFile()) {
duke@1	1297	name = name + "/";
duke@1	1298	}
duke@1	1299	try {
duke@1	1300	return new URL("file", "", name);
duke@1	1301	} catch (MalformedURLException e) {
duke@1	1302	throw new IllegalArgumentException("file");
duke@1	1303	}
duke@1	1304	}
duke@1	1305
duke@1	1306
duke@1	1307
duke@1	1308	private static final Pattern allMatches = Pattern.compile(".*");
duke@1	1309
duke@1	1310	private static final Pattern noMatches = Pattern.compile("(\\P{all})+");
duke@1	1311	/**
duke@1	1312	* Convert import-style string to regex matching that string. If
duke@1	1313	* the string is a valid import-style string, return a regex that
duke@1	1314	* won't match anything.
duke@1	1315	*/
duke@1	1316	// TODO: remove version in Apt.java
duke@1	1317	public static Pattern importStringToPattern(String s, Processor p, Log log) {
duke@1	1318	if (s.equals("*")) {
duke@1	1319	return allMatches;
duke@1	1320	} else {
duke@1	1321	String t = s;
duke@1	1322	boolean star = false;
duke@1	1323
duke@1	1324	/*
duke@1	1325	* Validate string from factory is legal. If the string
duke@1	1326	* has more than one asterisks or the asterisks does not
duke@1	1327	* appear as the last character (preceded by a period),
duke@1	1328	* the string is not legal.
duke@1	1329	*/
duke@1	1330
duke@1	1331	boolean valid = true;
duke@1	1332	int index = t.indexOf('*');
duke@1	1333	if (index != -1) {
duke@1	1334	// '*' must be last character...
duke@1	1335	if (index == t.length() -1) {
duke@1	1336	// ... and preceeding character must be '.'
duke@1	1337	if ( index-1 >= 0 ) {
duke@1	1338	valid = t.charAt(index-1) == '.';
duke@1	1339	// Strip off ".*$" for identifier checks
duke@1	1340	t = t.substring(0, t.length()-2);
duke@1	1341	}
duke@1	1342	} else
duke@1	1343	valid = false;
duke@1	1344	}
duke@1	1345
duke@1	1346	// Verify string is off the form (javaId \.)+ or javaId
duke@1	1347	if (valid) {
duke@1	1348	String[] javaIds = t.split("\\.", t.length()+2);
duke@1	1349	for(String javaId: javaIds)
duke@1	1350	valid &= SourceVersion.isIdentifier(javaId);
duke@1	1351	}
duke@1	1352
duke@1	1353	if (!valid) {
duke@1	1354	log.warning("proc.malformed.supported.string", s, p.getClass().getName());
duke@1	1355	return noMatches; // won't match any valid identifier
duke@1	1356	}
duke@1	1357
duke@1	1358	String s_prime = s.replaceAll("\\.", "\\\\.");
duke@1	1359
duke@1	1360	if (s_prime.endsWith("*")) {
duke@1	1361	s_prime = s_prime.substring(0, s_prime.length() - 1) + ".+";
duke@1	1362	}
duke@1	1363
duke@1	1364	return Pattern.compile(s_prime);
duke@1	1365	}
duke@1	1366	}
duke@1	1367
duke@1	1368	/**
duke@1	1369	* For internal use by Sun Microsystems only. This method will be
duke@1	1370	* removed without warning.
duke@1	1371	*/
duke@1	1372	public Context getContext() {
duke@1	1373	return context;
duke@1	1374	}
duke@1	1375
duke@1	1376	public String toString() {
duke@1	1377	return "javac ProcessingEnvironment";
duke@1	1378	}
duke@1	1379
duke@1	1380	public static boolean isValidOptionName(String optionName) {
duke@1	1381	for(String s : optionName.split("\\.", -1)) {
duke@1	1382	if (!SourceVersion.isIdentifier(s))
duke@1	1383	return false;
duke@1	1384	}
duke@1	1385	return true;
duke@1	1386	}
duke@1	1387	}