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AspectJ tools most notably contains the AspectJ compiler (AJC). AJC applies aspects to Java classes during
compilation, fully replacing Javac for plain Java classes and also compiling native AspectJ or annotation-based
@AspectJ syntax. Furthermore, AJC can weave aspects into existing class files in a post-compile binary weaving step.
This library is a superset of AspectJ weaver and hence also of AspectJ runtime.
/* *******************************************************************
* Copyright (c) 2002-2010 Contributors
* All rights reserved.
* This program and the accompanying materials are made available
* under the terms of the Eclipse Public License v 2.0
* which accompanies this distribution and is available at
* https://www.eclipse.org/org/documents/epl-2.0/EPL-2.0.txt
* ******************************************************************/
package org.aspectj.weaver.bcel;
import java.io.ByteArrayInputStream;
import java.io.File;
import java.io.FileFilter;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.jar.Attributes;
import java.util.jar.Attributes.Name;
import java.util.jar.JarEntry;
import java.util.jar.JarFile;
import java.util.jar.Manifest;
import java.util.zip.ZipEntry;
import java.util.zip.ZipInputStream;
import java.util.zip.ZipOutputStream;
import org.aspectj.apache.bcel.classfile.ClassParser;
import org.aspectj.apache.bcel.classfile.JavaClass;
import org.aspectj.asm.AsmManager;
import org.aspectj.asm.IProgramElement;
import org.aspectj.asm.internal.AspectJElementHierarchy;
import org.aspectj.bridge.IMessage;
import org.aspectj.bridge.ISourceLocation;
import org.aspectj.bridge.Message;
import org.aspectj.bridge.MessageUtil;
import org.aspectj.bridge.SourceLocation;
import org.aspectj.bridge.WeaveMessage;
import org.aspectj.bridge.context.CompilationAndWeavingContext;
import org.aspectj.bridge.context.ContextToken;
import org.aspectj.util.FileUtil;
import org.aspectj.util.FuzzyBoolean;
import org.aspectj.weaver.Advice;
import org.aspectj.weaver.AdviceKind;
import org.aspectj.weaver.AnnotationAJ;
import org.aspectj.weaver.AnnotationOnTypeMunger;
import org.aspectj.weaver.BCException;
import org.aspectj.weaver.CompressingDataOutputStream;
import org.aspectj.weaver.ConcreteTypeMunger;
import org.aspectj.weaver.CrosscuttingMembersSet;
import org.aspectj.weaver.CustomMungerFactory;
import org.aspectj.weaver.IClassFileProvider;
import org.aspectj.weaver.IUnwovenClassFile;
import org.aspectj.weaver.IWeaveRequestor;
import org.aspectj.weaver.NewParentTypeMunger;
import org.aspectj.weaver.ReferenceType;
import org.aspectj.weaver.ReferenceTypeDelegate;
import org.aspectj.weaver.ResolvedType;
import org.aspectj.weaver.ResolvedTypeMunger;
import org.aspectj.weaver.Shadow;
import org.aspectj.weaver.ShadowMunger;
import org.aspectj.weaver.UnresolvedType;
import org.aspectj.weaver.WeaverMessages;
import org.aspectj.weaver.WeaverStateInfo;
import org.aspectj.weaver.World;
import org.aspectj.weaver.model.AsmRelationshipProvider;
import org.aspectj.weaver.patterns.AndPointcut;
import org.aspectj.weaver.patterns.BindingPattern;
import org.aspectj.weaver.patterns.BindingTypePattern;
import org.aspectj.weaver.patterns.ConcreteCflowPointcut;
import org.aspectj.weaver.patterns.DeclareAnnotation;
import org.aspectj.weaver.patterns.DeclareParents;
import org.aspectj.weaver.patterns.DeclareTypeErrorOrWarning;
import org.aspectj.weaver.patterns.FastMatchInfo;
import org.aspectj.weaver.patterns.IfPointcut;
import org.aspectj.weaver.patterns.KindedPointcut;
import org.aspectj.weaver.patterns.NameBindingPointcut;
import org.aspectj.weaver.patterns.NotPointcut;
import org.aspectj.weaver.patterns.OrPointcut;
import org.aspectj.weaver.patterns.Pointcut;
import org.aspectj.weaver.patterns.PointcutRewriter;
import org.aspectj.weaver.patterns.WithinPointcut;
import org.aspectj.weaver.tools.Trace;
import org.aspectj.weaver.tools.TraceFactory;
/**
*
* @author PARC
* @author Andy Clement
* @author Alexandre Vasseur
*/
public class BcelWeaver {
public static final String CLOSURE_CLASS_PREFIX = "$Ajc";
public static final String SYNTHETIC_CLASS_POSTFIX = "$ajc";
private static Trace trace = TraceFactory.getTraceFactory().getTrace(BcelWeaver.class);
private transient final BcelWorld world;
private final CrosscuttingMembersSet xcutSet;
private boolean inReweavableMode = false;
private transient List addedClasses = new ArrayList<>();
private transient List deletedTypenames = new ArrayList<>();
// These four are setup by prepareForWeave
private transient List shadowMungerList = null;
private transient List typeMungerList = null;
private transient List lateTypeMungerList = null;
private transient List declareParentsList = null;
private Manifest manifest = null;
private boolean needToReweaveWorld = false;
private boolean isBatchWeave = true;
private ZipOutputStream zipOutputStream;
private CustomMungerFactory customMungerFactory;
public BcelWeaver(BcelWorld world) {
super();
if (trace.isTraceEnabled()) {
trace.enter("", this, world);
}
this.world = world;
this.xcutSet = world.getCrosscuttingMembersSet();
if (trace.isTraceEnabled()) {
trace.exit("");
}
}
/**
* Add the given aspect to the weaver. The type is resolved to support DOT for static inner classes as well as DOLLAR
*
* @param aspectName
* @return aspect
*/
public ResolvedType addLibraryAspect(String aspectName) {
if (trace.isTraceEnabled()) {
trace.enter("addLibraryAspect", this, aspectName);
}
// 1 - resolve as is
UnresolvedType unresolvedT = UnresolvedType.forName(aspectName);
unresolvedT.setNeedsModifiableDelegate(true);
ResolvedType type = world.resolve(unresolvedT, true);
if (type.isMissing()) {
// fallback on inner class lookup mechanism
String fixedName = aspectName;
int hasDot = fixedName.lastIndexOf('.');
while (hasDot > 0) {
// System.out.println("BcelWeaver.addLibraryAspect " + fixedName);
char[] fixedNameChars = fixedName.toCharArray();
fixedNameChars[hasDot] = '$';
fixedName = new String(fixedNameChars);
hasDot = fixedName.lastIndexOf('.');
UnresolvedType ut = UnresolvedType.forName(fixedName);
ut.setNeedsModifiableDelegate(true);
type = world.resolve(ut, true);
if (!type.isMissing()) {
break;
}
}
}
// System.out.println("type: " + type + " for " + aspectName);
if (type.isAspect()) {
// Bug 119657 ensure we use the unwoven aspect
WeaverStateInfo wsi = type.getWeaverState();
if (wsi != null && wsi.isReweavable()) {
BcelObjectType classType = getClassType(type.getName());
JavaClass wovenJavaClass = classType.getJavaClass();
byte[] bytes = wsi.getUnwovenClassFileData(wovenJavaClass.getBytes());
JavaClass unwovenJavaClass = Utility.makeJavaClass(wovenJavaClass.getFileName(), bytes);
world.storeClass(unwovenJavaClass);
classType.setJavaClass(unwovenJavaClass, true);
// classType.setJavaClass(Utility.makeJavaClass(classType.
// getJavaClass().getFileName(),
// wsi.getUnwovenClassFileData(classType.getJavaClass().getBytes(
// ))));
}
// TODO AV - happens to reach that a lot of time: for each type
// flagged reweavable X for each aspect in the weaverstate
// => mainly for nothing for LTW - pbly for something in incremental
// build...
xcutSet.addOrReplaceAspect(type);
if (trace.isTraceEnabled()) {
trace.exit("addLibraryAspect", type);
}
if (type.getSuperclass().isAspect()) {
// If the supertype includes ITDs and the user has not included
// that aspect in the aop.xml, they will
// not get picked up, which can give unusual behaviour! See bug
// 223094
// This change causes us to pick up the super aspect regardless
// of what was said in the aop.xml - giving
// predictable behaviour. If the user also supplied it, there
// will be no problem other than the second
// addition overriding the first
addLibraryAspect(type.getSuperclass().getName());
}
return type;
} else {
if (type.isMissing()) {
// May not be found if not visible to the classloader that can see the aop.xml during LTW
IMessage message = new Message("The specified aspect '"+aspectName+"' cannot be found", null, true);
world.getMessageHandler().handleMessage(message);
} else {
IMessage message = new Message("Cannot register '"+aspectName+"' because the type found with that name is not an aspect", null, true);
world.getMessageHandler().handleMessage(message);
}
return null;
}
}
/**
*
* @param inFile directory containing classes or zip/jar class archive
*/
public void addLibraryJarFile(File inFile) throws IOException {
List addedAspects = null;
if (inFile.isDirectory()) {
addedAspects = addAspectsFromDirectory(inFile);
} else {
addedAspects = addAspectsFromJarFile(inFile);
}
for (ResolvedType addedAspect : addedAspects) {
xcutSet.addOrReplaceAspect(addedAspect);
}
}
private List addAspectsFromJarFile(File inFile) throws FileNotFoundException, IOException {
ZipInputStream inStream = new ZipInputStream(new FileInputStream(inFile)); // ??? buffered
List addedAspects = new ArrayList<>();
try {
while (true) {
ZipEntry entry = inStream.getNextEntry();
if (entry == null) {
break;
}
if (entry.isDirectory() || !entry.getName().endsWith(".class")) {
continue;
}
// FIXME ASC performance? of this alternative soln.
int size = (int) entry.getSize();
ClassParser parser = new ClassParser(new ByteArrayInputStream(FileUtil.readAsByteArray(inStream)), entry.getName());
JavaClass jc = parser.parse();
inStream.closeEntry();
ResolvedType type = world.addSourceObjectType(jc, false).getResolvedTypeX();
type.setBinaryPath(inFile.getAbsolutePath());
if (type.isAspect()) {
addedAspects.add(type);
} else {
world.demote(type);
}
}
} finally {
inStream.close();
}
return addedAspects;
}
/**
* Look for .class files that represent aspects in the supplied directory - return the list of accumulated aspects.
*
* @param directory the directory in which to look for Aspect .class files
* @return the list of discovered aspects
* @throws FileNotFoundException
* @throws IOException
*/
private List addAspectsFromDirectory(File directory) throws FileNotFoundException, IOException {
List addedAspects = new ArrayList<>();
File[] classFiles = FileUtil.listFiles(directory, new FileFilter() {
public boolean accept(File pathname) {
return pathname.getName().endsWith(".class");
}
});
for (File classFile : classFiles) {
FileInputStream fis = new FileInputStream(classFile);
byte[] classBytes = FileUtil.readAsByteArray(fis);
ResolvedType aspectType = isAspect(classBytes, classFile.getAbsolutePath(), directory);
if (aspectType != null) {
addedAspects.add(aspectType);
}
fis.close();
}
return addedAspects;
}
/**
* Determine if the supplied bytes represent an aspect, if they do then create a ResolvedType instance for the aspect and return
* it, otherwise return null
*
* @param classbytes the classbytes that might represent an aspect
* @param name the name of the class
* @param directory directory which contained the class file
* @return a ResolvedType if the classbytes represent an aspect, otherwise null
*/
private ResolvedType isAspect(byte[] classbytes, String name, File dir) throws IOException {
ClassParser parser = new ClassParser(new ByteArrayInputStream(classbytes), name);
JavaClass jc = parser.parse();
ResolvedType type = world.addSourceObjectType(jc, false).getResolvedTypeX();
String typeName = type.getName().replace('.', File.separatorChar);
int end = name.lastIndexOf(typeName + ".class");
String binaryPath = null;
// if end is -1 then something weird happened, the class file is not in
// the correct place, something like
// bin/A.class when the declaration for A specifies it is in a package.
if (end == -1) {
binaryPath = dir.getAbsolutePath();
} else {
binaryPath = name.substring(0, end - 1);
}
type.setBinaryPath(binaryPath);
if (type.isAspect()) {
return type;
} else {
// immediately demote the type we just added since it will have
// have been stuffed into the permanent map (assumed to be
// an aspect)
world.demote(type);
return null;
}
}
// // The ANT copy task should be used to copy resources across.
// private final static boolean
// CopyResourcesFromInpathDirectoriesToOutput=false;
/**
* Add any .class files in the directory to the outdir. Anything other than .class files in the directory (or its
* subdirectories) are considered resources and are also copied.
*
*/
public List addDirectoryContents(File inFile, File outDir) throws IOException {
List addedClassFiles = new ArrayList<>();
// Get a list of all files (i.e. everything that isnt a directory)
File[] files = FileUtil.listFiles(inFile, new FileFilter() {
public boolean accept(File f) {
boolean accept = !f.isDirectory();
return accept;
}
});
// For each file, add it either as a real .class file or as a resource
for (File file : files) {
addedClassFiles.add(addClassFile(file, inFile, outDir));
}
return addedClassFiles;
}
/**
* Adds all class files in the jar
*/
public List addJarFile(File inFile, File outDir, boolean canBeDirectory) {
// System.err.println("? addJarFile(" + inFile + ", " + outDir + ")");
List addedClassFiles = new ArrayList<>();
needToReweaveWorld = true;
JarFile inJar = null;
try {
// Is this a directory we are looking at?
if (inFile.isDirectory() && canBeDirectory) {
addedClassFiles.addAll(addDirectoryContents(inFile, outDir));
} else {
inJar = new JarFile(inFile);
try {
addManifest(inJar.getManifest());
Enumeration entries = inJar.entries();
while (entries.hasMoreElements()) {
JarEntry entry = entries.nextElement();
InputStream inStream = inJar.getInputStream(entry);
byte[] bytes = FileUtil.readAsByteArray(inStream);
String filename = entry.getName();
// System.out.println("? addJarFile() filename='" + filename
// + "'");
UnwovenClassFile classFile = new UnwovenClassFile(new File(outDir, filename).getAbsolutePath(), bytes);
if (filename.endsWith(".class")) {
ReferenceType type = this.addClassFile(classFile, false);
StringBuilder sb = new StringBuilder();
sb.append(inFile.getAbsolutePath());
sb.append("!");
sb.append(entry.getName());
type.setBinaryPath(sb.toString());
addedClassFiles.add(classFile);
}
// else if (!entry.isDirectory()) {
//
// /* bug-44190 Copy meta-data */
// addResource(filename,classFile);
// }
inStream.close();
}
} finally {
inJar.close();
}
inJar.close();
}
} catch (FileNotFoundException ex) {
IMessage message = new Message("Could not find input jar file " + inFile.getPath() + ", ignoring", new SourceLocation(
inFile, 0), false);
world.getMessageHandler().handleMessage(message);
} catch (IOException ex) {
IMessage message = new Message("Could not read input jar file " + inFile.getPath() + "(" + ex.getMessage() + ")",
new SourceLocation(inFile, 0), true);
world.getMessageHandler().handleMessage(message);
} finally {
if (inJar != null) {
try {
inJar.close();
} catch (IOException ex) {
IMessage message = new Message("Could not close input jar file " + inFile.getPath() + "(" + ex.getMessage()
+ ")", new SourceLocation(inFile, 0), true);
world.getMessageHandler().handleMessage(message);
}
}
}
return addedClassFiles;
}
public boolean needToReweaveWorld() {
return needToReweaveWorld;
}
/**
* Should be addOrReplace
*/
public ReferenceType addClassFile(UnwovenClassFile classFile, boolean fromInpath) {
addedClasses.add(classFile);
ReferenceType type = world.addSourceObjectType(classFile.getJavaClass(), false).getResolvedTypeX();
if (fromInpath) {
type.setBinaryPath(classFile.getFilename());
}
return type;
}
public UnwovenClassFile addClassFile(File classFile, File inPathDir, File outDir) throws IOException {
FileInputStream fis = new FileInputStream(classFile);
byte[] bytes = FileUtil.readAsByteArray(fis);
// String relativePath = files[i].getPath();
// ASSERT:
// files[i].getAbsolutePath().startsWith(inFile.getAbsolutePath()
// or we are in trouble...
String filename = classFile.getAbsolutePath().substring(inPathDir.getAbsolutePath().length() + 1);
UnwovenClassFile ucf = new UnwovenClassFile(new File(outDir, filename).getAbsolutePath(), bytes);
if (filename.endsWith(".class")) {
// System.err.println(
// "BCELWeaver: processing class from input directory "+classFile);
StringBuilder sb = new StringBuilder();
sb.append(inPathDir.getAbsolutePath());
sb.append("!");
sb.append(filename);
ReferenceType type = this.addClassFile(ucf, false);
type.setBinaryPath(sb.toString());
}
fis.close();
return ucf;
}
public void deleteClassFile(String typename) {
deletedTypenames.add(typename);
world.deleteSourceObjectType(UnresolvedType.forName(typename));
}
// ---- weave preparation
public void setIsBatchWeave(boolean b) {
isBatchWeave = b;
}
public void prepareForWeave() {
if (trace.isTraceEnabled()) {
trace.enter("prepareForWeave", this);
}
needToReweaveWorld = xcutSet.hasChangedSinceLastReset();
// update mungers
for (UnwovenClassFile jc : addedClasses) {
String name = jc.getClassName();
ResolvedType type = world.resolve(name);
// No overweaving guard. If you have one then when overweaving is on the
// addOrReplaceAspect will not be called when the aspect delegate changes from
// EclipseSourceType to BcelObjectType. This will mean the mungers
// are not picked up.
if (type.isAspect()) {
needToReweaveWorld |= xcutSet.addOrReplaceAspect(type);
}
}
for (String name : deletedTypenames) {
if (xcutSet.deleteAspect(UnresolvedType.forName(name))) {
needToReweaveWorld = true;
}
}
shadowMungerList = xcutSet.getShadowMungers();
// world.debug("shadow mungers=" + shadowMungerList);
rewritePointcuts(shadowMungerList);
// Sometimes an error occurs during rewriting pointcuts (for example, if
// ambiguous bindings
// are detected) - we ought to fail the prepare when this happens
// because continuing with
// inconsistent pointcuts could lead to problems
typeMungerList = xcutSet.getTypeMungers();
lateTypeMungerList = xcutSet.getLateTypeMungers();
declareParentsList = xcutSet.getDeclareParents();
addCustomMungers();
// The ordering here used to be based on a string compare on toString()
// for the two mungers -
// that breaks for the @AJ style where advice names aren't
// programmatically generated. So we
// have changed the sorting to be based on source location in the file -
// this is reliable, in
// the case of source locations missing, we assume they are 'sorted' -
// i.e. the order in
// which they were added to the collection is correct, this enables the
// @AJ stuff to work properly.
// When @AJ processing starts filling in source locations for mungers,
// this code may need
// a bit of alteration...
shadowMungerList.sort(new Comparator() {
public int compare(ShadowMunger sm1, ShadowMunger sm2) {
if (sm1.getSourceLocation() == null) {
return (sm2.getSourceLocation() == null ? 0 : 1);
}
if (sm2.getSourceLocation() == null) {
return -1;
}
return (sm2.getSourceLocation().getOffset() - sm1.getSourceLocation().getOffset());
}
});
if (inReweavableMode) {
world.showMessage(IMessage.INFO, WeaverMessages.format(WeaverMessages.REWEAVABLE_MODE), null, null);
}
if (trace.isTraceEnabled()) {
trace.exit("prepareForWeave");
}
}
private void addCustomMungers() {
if (customMungerFactory != null) {
for (UnwovenClassFile jc : addedClasses) {
String name = jc.getClassName();
ResolvedType type = world.resolve(name);
if (type.isAspect()) {
Collection shadowMungers = customMungerFactory.createCustomShadowMungers(type);
if (shadowMungers != null) {
shadowMungerList.addAll(shadowMungers);
}
Collection typeMungers = customMungerFactory.createCustomTypeMungers(type);
if (typeMungers != null) {
typeMungerList.addAll(typeMungers);
}
}
}
}
}
public void setCustomMungerFactory(CustomMungerFactory factory) {
customMungerFactory = factory;
}
/*
* Rewrite all of the pointcuts in the world into their most efficient form for subsequent matching. Also ensure that if
* pc1.equals(pc2) then pc1 == pc2 (for non-binding pcds) by making references all point to the same instance. Since pointcuts
* remember their match decision on the last shadow, this makes matching faster when many pointcuts share common elements, or
* even when one single pointcut has one common element (which can be a side-effect of DNF rewriting).
*/
private void rewritePointcuts(List shadowMungers) {
PointcutRewriter rewriter = new PointcutRewriter();
for (ShadowMunger munger : shadowMungers) {
Pointcut p = munger.getPointcut();
Pointcut newP = rewriter.rewrite(p);
// validateBindings now whilst we still have around the pointcut
// that resembles what the user actually wrote in their program
// text.
if (munger instanceof Advice) {
Advice advice = (Advice) munger;
if (advice.getSignature() != null) {
final int numFormals;
final String names[];
// If the advice is being concretized in a @AJ aspect *and*
// the advice was declared in
// an @AJ aspect (it could have been inherited from a code
// style aspect) then
// evaluate the alternative set of formals. pr125699
if ((advice.getConcreteAspect().isAnnotationStyleAspect() && advice.getDeclaringAspect() != null && advice
.getDeclaringAspect().resolve(world).isAnnotationStyleAspect())
|| advice.isAnnotationStyle()) {
numFormals = advice.getBaseParameterCount();
int numArgs = advice.getSignature().getParameterTypes().length;
if (numFormals > 0) {
names = advice.getSignature().getParameterNames(world);
validateBindings(newP, p, numArgs, names);
}
} else {
numFormals = advice.getBaseParameterCount();
if (numFormals > 0) {
names = advice.getBaseParameterNames(world);
validateBindings(newP, p, numFormals, names);
}
}
}
}
newP.m_ignoreUnboundBindingForNames = p.m_ignoreUnboundBindingForNames;
munger.setPointcut(newP);
}
// now that we have optimized individual pointcuts, optimize
// across the set of pointcuts....
// Use a map from key based on pc equality, to value based on
// pc identity.
Map pcMap = new HashMap<>();
for (ShadowMunger munger: shadowMungers) {
Pointcut p = munger.getPointcut();
Pointcut newP = shareEntriesFromMap(p, pcMap);
newP.m_ignoreUnboundBindingForNames = p.m_ignoreUnboundBindingForNames;
munger.setPointcut(newP);
}
}
private Pointcut shareEntriesFromMap(Pointcut p, Map pcMap) {
// some things cant be shared...
if (p instanceof NameBindingPointcut) {
return p;
}
if (p instanceof IfPointcut) {
return p;
}
if (p instanceof ConcreteCflowPointcut) {
return p;
}
if (p instanceof AndPointcut) {
AndPointcut apc = (AndPointcut) p;
Pointcut left = shareEntriesFromMap(apc.getLeft(), pcMap);
Pointcut right = shareEntriesFromMap(apc.getRight(), pcMap);
return new AndPointcut(left, right);
} else if (p instanceof OrPointcut) {
OrPointcut opc = (OrPointcut) p;
Pointcut left = shareEntriesFromMap(opc.getLeft(), pcMap);
Pointcut right = shareEntriesFromMap(opc.getRight(), pcMap);
return new OrPointcut(left, right);
} else if (p instanceof NotPointcut) {
NotPointcut npc = (NotPointcut) p;
Pointcut not = shareEntriesFromMap(npc.getNegatedPointcut(), pcMap);
return new NotPointcut(not);
} else {
// primitive pcd
if (pcMap.containsKey(p)) { // based on equality
return pcMap.get(p); // same instance (identity)
} else {
pcMap.put(p, p);
return p;
}
}
}
// userPointcut is the pointcut that the user wrote in the program text.
// dnfPointcut is the same pointcut rewritten in DNF
// numFormals is the number of formal parameters in the pointcut
// if numFormals > 0 then every branch of a disjunction must bind each
// formal once and only once.
// in addition, the left and right branches of a disjunction must hold on
// join point kinds in common.
private void validateBindings(Pointcut dnfPointcut, Pointcut userPointcut, int numFormals, String[] names) {
if (numFormals == 0) {
return; // nothing to check
}
if (dnfPointcut.couldMatchKinds() == Shadow.NO_SHADOW_KINDS_BITS) {
return; // cant have problems if you dont match!
}
if (dnfPointcut instanceof OrPointcut) {
OrPointcut orBasedDNFPointcut = (OrPointcut) dnfPointcut;
Pointcut[] leftBindings = new Pointcut[numFormals];
Pointcut[] rightBindings = new Pointcut[numFormals];
validateOrBranch(orBasedDNFPointcut, userPointcut, numFormals, names, leftBindings, rightBindings);
} else {
Pointcut[] bindings = new Pointcut[numFormals];
validateSingleBranch(dnfPointcut, userPointcut, numFormals, names, bindings);
}
}
private void validateOrBranch(OrPointcut pc, Pointcut userPointcut, int numFormals, String[] names, Pointcut[] leftBindings,
Pointcut[] rightBindings) {
Pointcut left = pc.getLeft();
Pointcut right = pc.getRight();
if (left instanceof OrPointcut) {
Pointcut[] newRightBindings = new Pointcut[numFormals];
validateOrBranch((OrPointcut) left, userPointcut, numFormals, names, leftBindings, newRightBindings);
} else {
if (left.couldMatchKinds() != Shadow.NO_SHADOW_KINDS_BITS) {
validateSingleBranch(left, userPointcut, numFormals, names, leftBindings);
}
}
if (right instanceof OrPointcut) {
Pointcut[] newLeftBindings = new Pointcut[numFormals];
validateOrBranch((OrPointcut) right, userPointcut, numFormals, names, newLeftBindings, rightBindings);
} else {
if (right.couldMatchKinds() != Shadow.NO_SHADOW_KINDS_BITS) {
validateSingleBranch(right, userPointcut, numFormals, names, rightBindings);
}
}
int kindsInCommon = left.couldMatchKinds() & right.couldMatchKinds();
if (kindsInCommon != Shadow.NO_SHADOW_KINDS_BITS && couldEverMatchSameJoinPoints(left, right)) {
// we know that every branch binds every formal, so there is no
// ambiguity if each branch binds it in exactly the same way...
List ambiguousNames = new ArrayList<>();
for (int i = 0; i < numFormals; i++) {
if (leftBindings[i] == null) {
if (rightBindings[i] != null) {
ambiguousNames.add(names[i]);
}
} else if (!leftBindings[i].equals(rightBindings[i])) {
ambiguousNames.add(names[i]);
}
}
if (!ambiguousNames.isEmpty()) {
raiseAmbiguityInDisjunctionError(userPointcut, ambiguousNames);
}
}
}
// pc is a pointcut that does not contain any disjunctions
// check that every formal is bound (negation doesn't count).
// we know that numFormals > 0 or else we would not be called
private void validateSingleBranch(Pointcut pc, Pointcut userPointcut, int numFormals, String[] names, Pointcut[] bindings) {
boolean[] foundFormals = new boolean[numFormals];
for (int i = 0; i < foundFormals.length; i++) {
foundFormals[i] = false;
}
validateSingleBranchRecursion(pc, userPointcut, foundFormals, names, bindings);
for (int i = 0; i < foundFormals.length; i++) {
if (!foundFormals[i]) {
boolean ignore = false;
// ATAJ soften the unbound error for implicit bindings like
// JoinPoint in @AJ style
for (int j = 0; j < userPointcut.m_ignoreUnboundBindingForNames.length; j++) {
if (names[i] != null && names[i].equals(userPointcut.m_ignoreUnboundBindingForNames[j])) {
ignore = true;
break;
}
}
if (!ignore) {
raiseUnboundFormalError(names[i], userPointcut);
}
}
}
}
// each formal must appear exactly once
private void validateSingleBranchRecursion(Pointcut pc, Pointcut userPointcut, boolean[] foundFormals, String[] names,
Pointcut[] bindings) {
if (pc instanceof NotPointcut) {
// nots can only appear at leaves in DNF
NotPointcut not = (NotPointcut) pc;
if (not.getNegatedPointcut() instanceof NameBindingPointcut) {
NameBindingPointcut nnbp = (NameBindingPointcut) not.getNegatedPointcut();
if (!nnbp.getBindingAnnotationTypePatterns().isEmpty() && !nnbp.getBindingTypePatterns().isEmpty()) {
raiseNegationBindingError(userPointcut);
}
}
} else if (pc instanceof AndPointcut) {
AndPointcut and = (AndPointcut) pc;
validateSingleBranchRecursion(and.getLeft(), userPointcut, foundFormals, names, bindings);
validateSingleBranchRecursion(and.getRight(), userPointcut, foundFormals, names, bindings);
} else if (pc instanceof NameBindingPointcut) {
List bindingTypePatterns = ((NameBindingPointcut) pc).getBindingTypePatterns();
for (BindingTypePattern bindingTypePattern: bindingTypePatterns) {
int index = bindingTypePattern.getFormalIndex();
bindings[index] = pc;
if (foundFormals[index]) {
raiseAmbiguousBindingError(names[index], userPointcut);
} else {
foundFormals[index] = true;
}
}
List bindingAnnotationTypePatterns = ((NameBindingPointcut) pc).getBindingAnnotationTypePatterns();
for (BindingPattern bindingAnnotationTypePattern: bindingAnnotationTypePatterns) {
int index = bindingAnnotationTypePattern.getFormalIndex();
bindings[index] = pc;
if (foundFormals[index]) {
raiseAmbiguousBindingError(names[index], userPointcut);
} else {
foundFormals[index] = true;
}
}
} else if (pc instanceof ConcreteCflowPointcut) {
ConcreteCflowPointcut cfp = (ConcreteCflowPointcut) pc;
int[] slots = cfp.getUsedFormalSlots();
for (int slot : slots) {
bindings[slot] = cfp;
if (foundFormals[slot]) {
raiseAmbiguousBindingError(names[slot], userPointcut);
} else {
foundFormals[slot] = true;
}
}
}
}
// By returning false from this method, we are allowing binding of the same
// variable on either side of an or.
// Be conservative :- have to consider overriding, varargs, autoboxing,
// the effects of itds (on within for example), interfaces, the fact that
// join points can have multiple signatures and so on.
private boolean couldEverMatchSameJoinPoints(Pointcut left, Pointcut right) {
if (left instanceof OrPointcut) {
OrPointcut leftOrPointcut = (OrPointcut) left;
if (couldEverMatchSameJoinPoints(leftOrPointcut.getLeft(), right)) {
return true;
}
if (couldEverMatchSameJoinPoints(leftOrPointcut.getRight(), right)) {
return true;
}
return false;
}
if (right instanceof OrPointcut) {
OrPointcut rightOrPointcut = (OrPointcut) right;
if (couldEverMatchSameJoinPoints(left, rightOrPointcut.getLeft())) {
return true;
}
if (couldEverMatchSameJoinPoints(left, rightOrPointcut.getRight())) {
return true;
}
return false;
}
// look for withins
WithinPointcut leftWithin = (WithinPointcut) findFirstPointcutIn(left, WithinPointcut.class);
WithinPointcut rightWithin = (WithinPointcut) findFirstPointcutIn(right, WithinPointcut.class);
if ((leftWithin != null) && (rightWithin != null)) {
if (!leftWithin.couldEverMatchSameJoinPointsAs(rightWithin)) {
return false;
}
}
// look for kinded
KindedPointcut leftKind = (KindedPointcut) findFirstPointcutIn(left, KindedPointcut.class);
KindedPointcut rightKind = (KindedPointcut) findFirstPointcutIn(right, KindedPointcut.class);
if ((leftKind != null) && (rightKind != null)) {
if (!leftKind.couldEverMatchSameJoinPointsAs(rightKind)) {
return false;
}
}
return true;
}
private Pointcut findFirstPointcutIn(Pointcut toSearch, Class toLookFor) {
if (toSearch instanceof NotPointcut) {
return null;
}
if (toLookFor.isInstance(toSearch)) {
return toSearch;
}
if (toSearch instanceof AndPointcut) {
AndPointcut apc = (AndPointcut) toSearch;
Pointcut left = findFirstPointcutIn(apc.getLeft(), toLookFor);
if (left != null) {
return left;
}
return findFirstPointcutIn(apc.getRight(), toLookFor);
}
return null;
}
/**
* @param userPointcut
*/
private void raiseNegationBindingError(Pointcut userPointcut) {
world.showMessage(IMessage.ERROR, WeaverMessages.format(WeaverMessages.NEGATION_DOESNT_ALLOW_BINDING), userPointcut
.getSourceContext().makeSourceLocation(userPointcut), null);
}
private void raiseAmbiguousBindingError(String name, Pointcut pointcut) {
world.showMessage(IMessage.ERROR, WeaverMessages.format(WeaverMessages.AMBIGUOUS_BINDING, name), pointcut
.getSourceContext().makeSourceLocation(pointcut), null);
}
/**
* @param userPointcut
*/
private void raiseAmbiguityInDisjunctionError(Pointcut userPointcut, List names) {
StringBuffer formalNames = new StringBuffer(names.get(0).toString());
for (int i = 1; i < names.size(); i++) {
formalNames.append(", ");
formalNames.append(names.get(i));
}
world.showMessage(IMessage.ERROR, WeaverMessages.format(WeaverMessages.AMBIGUOUS_BINDING_IN_OR, formalNames), userPointcut
.getSourceContext().makeSourceLocation(userPointcut), null);
}
/**
* @param name
* @param userPointcut
*/
private void raiseUnboundFormalError(String name, Pointcut userPointcut) {
world.showMessage(IMessage.ERROR, WeaverMessages.format(WeaverMessages.UNBOUND_FORMAL, name),
userPointcut.getSourceLocation(), null);
}
public void addManifest(Manifest newManifest) {
// System.out.println("? addManifest() newManifest=" + newManifest);
if (manifest == null) {
manifest = newManifest;
}
}
public Manifest getManifest(boolean shouldCreate) {
if (manifest == null && shouldCreate) {
String WEAVER_MANIFEST_VERSION = "1.0";
Attributes.Name CREATED_BY = new Name("Created-By");
String WEAVER_CREATED_BY = "AspectJ Compiler";
manifest = new Manifest();
Attributes attributes = manifest.getMainAttributes();
attributes.put(Name.MANIFEST_VERSION, WEAVER_MANIFEST_VERSION);
attributes.put(CREATED_BY, WEAVER_CREATED_BY);
}
return manifest;
}
// ---- weaving
// FOR TESTING
public Collection weave(File file) throws IOException {
OutputStream os = FileUtil.makeOutputStream(file);
this.zipOutputStream = new ZipOutputStream(os);
prepareForWeave();
Collection c = weave(new IClassFileProvider() {
public boolean isApplyAtAspectJMungersOnly() {
return false;
}
public Iterator getClassFileIterator() {
return addedClasses.iterator();
}
public IWeaveRequestor getRequestor() {
return new IWeaveRequestor() {
public void acceptResult(IUnwovenClassFile result) {
try {
writeZipEntry(result.getFilename(), result.getBytes());
} catch (IOException ex) {
}
}
public void processingReweavableState() {
}
public void addingTypeMungers() {
}
public void weavingAspects() {
}
public void weavingClasses() {
}
public void weaveCompleted() {
}
};
}
});
// /* BUG 40943*/
// dumpResourcesToOutJar();
zipOutputStream.close(); // this flushes and closes the acutal file
return c;
}
private Set candidatesForRemoval = null;
// variation of "weave" that sources class files from an external source.
public Collection weave(IClassFileProvider input) throws IOException {
if (trace.isTraceEnabled()) {
trace.enter("weave", this, input);
}
ContextToken weaveToken = CompilationAndWeavingContext.enteringPhase(CompilationAndWeavingContext.WEAVING, "");
Collection wovenClassNames = new ArrayList<>();
IWeaveRequestor requestor = input.getRequestor();
if (world.getModel() != null && world.isMinimalModel()) {
candidatesForRemoval = new HashSet<>();
}
if (world.getModel() != null && !isBatchWeave) {
AsmManager manager = world.getModelAsAsmManager();
for (Iterator i = input.getClassFileIterator(); i.hasNext();) {
UnwovenClassFile classFile = i.next();
// remove all relationships where this file being woven is
// the target of the relationship
manager.removeRelationshipsTargettingThisType(classFile.getClassName());
}
}
// Go through the types and ensure any 'damaged' during compile time are
// repaired prior to weaving
for (Iterator i = input.getClassFileIterator(); i.hasNext();) {
UnwovenClassFile classFile = i.next();
if (classFile.shouldBeWoven()) {
String className = classFile.getClassName();
ResolvedType theType = world.resolve(className);
if (theType != null) {
theType.ensureConsistent();
}
}
}
// special case for AtAspectJMungerOnly - see #113587
if (input.isApplyAtAspectJMungersOnly()) {
ContextToken atAspectJMungersOnly = CompilationAndWeavingContext.enteringPhase(
CompilationAndWeavingContext.PROCESSING_ATASPECTJTYPE_MUNGERS_ONLY, "");
requestor.weavingAspects();
// ContextToken aspectToken =
CompilationAndWeavingContext.enteringPhase(CompilationAndWeavingContext.WEAVING_ASPECTS, "");
for (Iterator i = input.getClassFileIterator(); i.hasNext();) {
UnwovenClassFile classFile = i.next();
if (classFile.shouldBeWoven()) {
String className = classFile.getClassName();
ResolvedType theType = world.resolve(className);
if (theType.isAnnotationStyleAspect()) {
BcelObjectType classType = BcelWorld.getBcelObjectType(theType);
if (classType == null) {
throw new BCException("Can't find bcel delegate for " + className + " type=" + theType.getClass());
}
LazyClassGen clazz = classType.getLazyClassGen();
BcelPerClauseAspectAdder selfMunger = new BcelPerClauseAspectAdder(theType, theType.getPerClause().getKind());
selfMunger.forceMunge(clazz, true);
classType.finishedWith();
UnwovenClassFile[] newClasses = getClassFilesFor(clazz);
for (UnwovenClassFile newClass : newClasses) {
requestor.acceptResult(newClass);
}
wovenClassNames.add(classFile.getClassName());
}
}
}
requestor.weaveCompleted();
CompilationAndWeavingContext.leavingPhase(atAspectJMungersOnly);
return wovenClassNames;
}
requestor.processingReweavableState();
ContextToken reweaveToken = CompilationAndWeavingContext.enteringPhase(
CompilationAndWeavingContext.PROCESSING_REWEAVABLE_STATE, "");
prepareToProcessReweavableState();
// clear all state from files we'll be reweaving
for (Iterator i = input.getClassFileIterator(); i.hasNext();) {
UnwovenClassFile classFile = i.next();
if (classFile.shouldBeWoven()) {
String className = classFile.getClassName();
BcelObjectType classType = getClassType(className);
// null return from getClassType() means the delegate is an eclipse
// source type - so
// there *cant* be any reweavable state... (he bravely claimed...)
if (classType != null) {
ContextToken tok = CompilationAndWeavingContext.enteringPhase(
CompilationAndWeavingContext.PROCESSING_REWEAVABLE_STATE, className);
processReweavableStateIfPresent(className, classType);
CompilationAndWeavingContext.leavingPhase(tok);
}
}
}
CompilationAndWeavingContext.leavingPhase(reweaveToken);
ContextToken typeMungingToken = CompilationAndWeavingContext.enteringPhase(
CompilationAndWeavingContext.PROCESSING_TYPE_MUNGERS, "");
requestor.addingTypeMungers();
// We process type mungers in two groups, first mungers that change the
// type
// hierarchy, then 'normal' ITD type mungers.
// Process the types in a predictable order (rather than the order
// encountered).
// For class A, the order is superclasses of A then superinterfaces of A
// (and this mechanism is applied recursively)
List typesToProcess = new ArrayList<>();
for (Iterator iter = input.getClassFileIterator(); iter.hasNext();) {
UnwovenClassFile clf = iter.next();
if (clf.shouldBeWoven()) {
typesToProcess.add(clf.getClassName());
}
}
while (typesToProcess.size() > 0) {
weaveParentsFor(typesToProcess, typesToProcess.get(0), null);
}
for (Iterator i = input.getClassFileIterator(); i.hasNext();) {
UnwovenClassFile classFile = i.next();
if (classFile.shouldBeWoven()) {
String className = classFile.getClassName();
addNormalTypeMungers(className);
}
}
CompilationAndWeavingContext.leavingPhase(typeMungingToken);
requestor.weavingAspects();
ContextToken aspectToken = CompilationAndWeavingContext.enteringPhase(CompilationAndWeavingContext.WEAVING_ASPECTS, "");
// first weave into aspects
for (Iterator i = input.getClassFileIterator(); i.hasNext();) {
UnwovenClassFile classFile = i.next();
if (classFile.shouldBeWoven()) {
String className = classFile.getClassName();
ResolvedType theType = world.resolve(className);
if (theType.isAspect()) {
BcelObjectType classType = BcelWorld.getBcelObjectType(theType);
if (classType == null) {
// Sometimes.. if the Bcel Delegate couldn't be found then a
// problem occurred at compile time - on
// a previous compiler run. In this case I assert the
// delegate will still be an EclipseSourceType
// and we can ignore the problem here (the original compile
// error will be reported again from
// the eclipse source type) - pr113531
ReferenceTypeDelegate theDelegate = ((ReferenceType) theType).getDelegate();
if (theDelegate.getClass().getName().endsWith("EclipseSourceType")) {
continue;
}
throw new BCException("Can't find bcel delegate for " + className + " type=" + theType.getClass());
}
weaveAndNotify(classFile, classType, requestor);
wovenClassNames.add(className);
}
}
}
CompilationAndWeavingContext.leavingPhase(aspectToken);
requestor.weavingClasses();
ContextToken classToken = CompilationAndWeavingContext.enteringPhase(CompilationAndWeavingContext.WEAVING_CLASSES, "");
// then weave into non-aspects
for (Iterator i = input.getClassFileIterator(); i.hasNext();) {
UnwovenClassFile classFile = i.next();
if (classFile.shouldBeWoven()) {
String className = classFile.getClassName();
ResolvedType theType = world.resolve(className);
if (!theType.isAspect()) {
BcelObjectType classType = BcelWorld.getBcelObjectType(theType);
if (classType == null) {
// bug 119882 - see above comment for bug 113531
ReferenceTypeDelegate theDelegate = ((ReferenceType) theType).getDelegate();
// TODO urgh - put a method on the interface to check this,
// string compare is hideous
if (theDelegate.getClass().getName().endsWith("EclipseSourceType")) {
continue;
}
throw new BCException("Can't find bcel delegate for " + className + " type=" + theType.getClass());
}
weaveAndNotify(classFile, classType, requestor);
wovenClassNames.add(className);
}
}
}
CompilationAndWeavingContext.leavingPhase(classToken);
addedClasses.clear();
deletedTypenames.clear();
requestor.weaveCompleted();
CompilationAndWeavingContext.leavingPhase(weaveToken);
if (trace.isTraceEnabled()) {
trace.exit("weave", wovenClassNames);
}
if (world.getModel() != null && world.isMinimalModel()) {
candidatesForRemoval.clear();
}
return wovenClassNames;
}
public void allWeavingComplete() {
warnOnUnmatchedAdvice();
}
/**
* In 1.5 mode and with XLint:adviceDidNotMatch enabled, put out messages for any mungers that did not match anything.
*/
private void warnOnUnmatchedAdvice() {
class AdviceLocation {
private final int lineNo;
private final UnresolvedType inAspect;
public AdviceLocation(BcelAdvice advice) {
this.lineNo = advice.getSourceLocation().getLine();
this.inAspect = advice.getDeclaringAspect();
}
@Override
public boolean equals(Object obj) {
if (!(obj instanceof AdviceLocation)) {
return false;
}
AdviceLocation other = (AdviceLocation) obj;
if (this.lineNo != other.lineNo) {
return false;
}
if (!this.inAspect.equals(other.inAspect)) {
return false;
}
return true;
}
@Override
public int hashCode() {
return 37 + 17 * lineNo + 17 * inAspect.hashCode();
}
}
// FIXME asc Should be factored out into Xlint code and done
// automatically for all xlint messages, ideally.
// if a piece of advice hasn't matched anywhere and we are in -1.5 mode,
// put out a warning
if (world.isInJava5Mode() && world.getLint().adviceDidNotMatch.isEnabled()) {
List l = world.getCrosscuttingMembersSet().getShadowMungers();
Set alreadyWarnedLocations = new HashSet<>();
for (ShadowMunger element : l) {
// This will stop us incorrectly reporting deow checkers:
if (element instanceof BcelAdvice) {
BcelAdvice ba = (BcelAdvice) element;
if (ba.getKind() == AdviceKind.CflowEntry || ba.getKind() == AdviceKind.CflowBelowEntry) {
continue;
}
if (!ba.hasMatchedSomething()) {
// Because we implement some features of AJ itself by
// creating our own kind of mungers, you sometimes
// find that ba.getSignature() is not a BcelMethod - for
// example it might be a cflow entry munger.
if (ba.getSignature() != null) {
// check we haven't already warned on this advice and line
// (cflow creates multiple mungers for the same advice)
AdviceLocation loc = new AdviceLocation(ba);
if (alreadyWarnedLocations.contains(loc)) {
continue;
} else {
alreadyWarnedLocations.add(loc);
}
if (!(ba.getSignature() instanceof BcelMethod)
|| !Utility.isSuppressing(ba.getSignature(), "adviceDidNotMatch")) {
world.getLint().adviceDidNotMatch.signal(ba.getDeclaringAspect().toString(), new SourceLocation(
element.getSourceLocation().getSourceFile(), element.getSourceLocation().getLine()));
}
}
}
}
}
}
}
/**
* 'typeToWeave' is one from the 'typesForWeaving' list. This routine ensures we process supertypes (classes/interfaces) of
* 'typeToWeave' that are in the 'typesForWeaving' list before 'typeToWeave' itself. 'typesToWeave' is then removed from the
* 'typesForWeaving' list.
*
* Note: Future gotcha in here ... when supplying partial hierarchies, this algorithm may break down. If you have a hierarchy
* A>B>C and only give A and C to the weaver, it may choose to weave them in either order - but you'll probably have other
* problems if you are supplying partial hierarchies like that !
*/
private void weaveParentsFor(List typesForWeaving, String typeToWeave, ResolvedType resolvedTypeToWeave) {
if (resolvedTypeToWeave == null) {
// resolve it if the caller could not pass in the resolved type
resolvedTypeToWeave = world.resolve(typeToWeave);
}
ResolvedType superclassType = resolvedTypeToWeave.getSuperclass();
String superclassTypename = (superclassType == null ? null : superclassType.getName());
// PR336654 added the 'typesForWeaving.contains(superclassTypename)' clause.
// Without it we can delete all type mungers on the parents and yet we only
// add back in the declare parents related ones, not the regular ITDs.
if (superclassType != null && !superclassType.isTypeHierarchyComplete() && superclassType.isExposedToWeaver()
&& typesForWeaving.contains(superclassTypename)) {
weaveParentsFor(typesForWeaving, superclassTypename, superclassType);
}
ResolvedType[] interfaceTypes = resolvedTypeToWeave.getDeclaredInterfaces();
for (ResolvedType resolvedSuperInterface : interfaceTypes) {
if (!resolvedSuperInterface.isTypeHierarchyComplete()) {
String interfaceTypename = resolvedSuperInterface.getName();
if (resolvedSuperInterface.isExposedToWeaver()) { // typesForWeaving.contains(interfaceTypename)) {
weaveParentsFor(typesForWeaving, interfaceTypename, resolvedSuperInterface);
}
}
}
ContextToken tok = CompilationAndWeavingContext.enteringPhase(CompilationAndWeavingContext.PROCESSING_DECLARE_PARENTS,
resolvedTypeToWeave.getName());
// If A was processed before B (and was declared 'class A implements B') then there is no need to complete B again, it
// will have been done whilst processing A.
if (!resolvedTypeToWeave.isTypeHierarchyComplete()) {
weaveParentTypeMungers(resolvedTypeToWeave);
}
CompilationAndWeavingContext.leavingPhase(tok);
typesForWeaving.remove(typeToWeave);
resolvedTypeToWeave.tagAsTypeHierarchyComplete();
}
public void prepareToProcessReweavableState() {
}
public void processReweavableStateIfPresent(String className, BcelObjectType classType) {
// If the class is marked reweavable, check any aspects around when it
// was built are in this world
WeaverStateInfo wsi = classType.getWeaverState();
// System.out.println(">> processReweavableStateIfPresent " + className + " wsi=" + wsi);
if (wsi != null && wsi.isReweavable()) { // Check all necessary types
// are around!
world.showMessage(IMessage.INFO, WeaverMessages.format(WeaverMessages.PROCESSING_REWEAVABLE, className, classType
.getSourceLocation().getSourceFile()), null, null);
Set aspectsPreviouslyInWorld = wsi.getAspectsAffectingType();
// keep track of them just to ensure unique missing aspect error
// reporting
Set alreadyConfirmedReweavableState = new HashSet<>();
for (String requiredTypeSignature : aspectsPreviouslyInWorld) {
// for (Iterator iter = aspectsPreviouslyInWorld.iterator(); iter.hasNext();) {
// String requiredTypeName = (String) iter.next();
if (!alreadyConfirmedReweavableState.contains(requiredTypeSignature)) {
ResolvedType rtx = world.resolve(UnresolvedType.forSignature(requiredTypeSignature), true);
boolean exists = !rtx.isMissing();
if (!world.isOverWeaving()) {
if (!exists) {
world.getLint().missingAspectForReweaving.signal(new String[] { rtx.getName(), className },
classType.getSourceLocation(), null);
// world.showMessage(IMessage.ERROR, WeaverMessages.format(WeaverMessages.MISSING_REWEAVABLE_TYPE,
// requiredTypeName, className), classType.getSourceLocation(), null);
} else {
// weaved in aspect that are not declared in aop.xml
// trigger an error for now
// may cause headhache for LTW and packaged lib
// without aop.xml in
// see #104218
if (!xcutSet.containsAspect(rtx)) {
world.showMessage(IMessage.ERROR, WeaverMessages.format(
WeaverMessages.REWEAVABLE_ASPECT_NOT_REGISTERED, rtx.getName(), className), null, null);
} else if (!world.getMessageHandler().isIgnoring(IMessage.INFO)) {
world.showMessage(IMessage.INFO, WeaverMessages.format(WeaverMessages.VERIFIED_REWEAVABLE_TYPE,
rtx.getName(), rtx.getSourceLocation().getSourceFile()), null, null);
}
alreadyConfirmedReweavableState.add(requiredTypeSignature);
}
}
}
}
// old:
// classType.setJavaClass(Utility.makeJavaClass(classType.getJavaClass
// ().getFileName(), wsi.getUnwovenClassFileData()));
// new: reweavable default with clever diff
if (!world.isOverWeaving()) {
byte[] ucfd = wsi.getUnwovenClassFileData();
if (ucfd.length == 0) {
// Size 0 indicates the class was previously overwoven, so you need to be overweaving now!
world.getMessageHandler().handleMessage(
MessageUtil.error(
WeaverMessages.format(WeaverMessages.MUST_KEEP_OVERWEAVING_ONCE_START,
className)));
// onType.getName(), annoX.getTypeName(), annoX.getValidTargets()),
// decA.getSourceLocation()));
} else {
byte[] bytes = wsi.getUnwovenClassFileData(classType.getJavaClass().getBytes());
JavaClass newJavaClass = Utility.makeJavaClass(classType.getJavaClass().getFileName(), bytes);
classType.setJavaClass(newJavaClass, true);
classType.getResolvedTypeX().ensureConsistent();
}
}
// } else {
// classType.resetState();
}
}
private void weaveAndNotify(UnwovenClassFile classFile, BcelObjectType classType, IWeaveRequestor requestor) throws IOException {
trace.enter("weaveAndNotify", this, new Object[] { classFile, classType, requestor });
ContextToken tok = CompilationAndWeavingContext.enteringPhase(CompilationAndWeavingContext.WEAVING_TYPE, classType
.getResolvedTypeX().getName());
LazyClassGen clazz = weaveWithoutDump(classFile, classType);
classType.finishedWith();
// clazz is null if the classfile was unchanged by weaving...
if (clazz != null) {
UnwovenClassFile[] newClasses = getClassFilesFor(clazz);
// OPTIMIZE can we avoid using the string name at all in
// UnwovenClassFile instances?
// Copy the char[] across as it means the
// WeaverAdapter.removeFromMap() can be fast!
if (newClasses[0].getClassName().equals(classFile.getClassName())) {
newClasses[0].setClassNameAsChars(classFile.getClassNameAsChars());
}
for (UnwovenClassFile newClass : newClasses) {
requestor.acceptResult(newClass);
}
} else {
requestor.acceptResult(classFile);
}
classType.weavingCompleted();
CompilationAndWeavingContext.leavingPhase(tok);
trace.exit("weaveAndNotify");
}
/**
* helper method - will return NULL if the underlying delegate is an EclipseSourceType and not a BcelObjectType
*/
public BcelObjectType getClassType(String forClass) {
return BcelWorld.getBcelObjectType(world.resolve(forClass));
}
public void addParentTypeMungers(String typeName) {
weaveParentTypeMungers(world.resolve(typeName));
}
public void addNormalTypeMungers(String typeName) {
weaveNormalTypeMungers(world.resolve(typeName));
}
public UnwovenClassFile[] getClassFilesFor(LazyClassGen clazz) {
List childClasses = clazz.getChildClasses(world);
UnwovenClassFile[] ret = new UnwovenClassFile[1 + childClasses.size()];
ret[0] = new UnwovenClassFile(clazz.getFileName(), clazz.getClassName(), clazz.getJavaClassBytesIncludingReweavable(world));
int index = 1;
for (UnwovenClassFile.ChildClass element : childClasses) {
UnwovenClassFile childClass = new UnwovenClassFile(clazz.getFileName() + "$" + element.name, element.bytes);
ret[index++] = childClass;
}
return ret;
}
/**
* Weaves new parents and annotations onto a type ("declare parents" and "declare @type")
*
* Algorithm: 1. First pass, do parents then do annotations. During this pass record: - any parent mungers that don't match but
* have a non-wild annotation type pattern - any annotation mungers that don't match 2. Multiple subsequent passes which go over
* the munger lists constructed in the first pass, repeatedly applying them until nothing changes. FIXME asc confirm that
* algorithm is optimal ??
*/
public void weaveParentTypeMungers(ResolvedType onType) {
if (onType.isRawType() || onType.isParameterizedType()) {
onType = onType.getGenericType();
}
onType.clearInterTypeMungers();
List decpToRepeat = new ArrayList<>();
boolean aParentChangeOccurred = false;
boolean anAnnotationChangeOccurred = false;
// First pass - apply all decp mungers
for (DeclareParents decp : declareParentsList) {
boolean typeChanged = applyDeclareParents(decp, onType);
if (typeChanged) {
aParentChangeOccurred = true;
} else {
decpToRepeat.add(decp);
}
}
// Still first pass - apply all dec @type mungers
for (DeclareAnnotation decA : xcutSet.getDeclareAnnotationOnTypes()) {
boolean typeChanged = applyDeclareAtType(decA, onType, true);
if (typeChanged) {
anAnnotationChangeOccurred = true;
}
}
while ((aParentChangeOccurred || anAnnotationChangeOccurred) && !decpToRepeat.isEmpty()) {
anAnnotationChangeOccurred = aParentChangeOccurred = false;
List decpToRepeatNextTime = new ArrayList<>();
for (DeclareParents decp : decpToRepeat) {
boolean typeChanged = applyDeclareParents(decp, onType);
if (typeChanged) {
aParentChangeOccurred = true;
} else {
decpToRepeatNextTime.add(decp);
}
}
for (DeclareAnnotation decA : xcutSet.getDeclareAnnotationOnTypes()) {
boolean typeChanged = applyDeclareAtType(decA, onType, false);
if (typeChanged) {
anAnnotationChangeOccurred = true;
}
}
decpToRepeat = decpToRepeatNextTime;
}
}
/**
* Apply a declare @type - return true if we change the type
*/
private boolean applyDeclareAtType(DeclareAnnotation decA, ResolvedType onType, boolean reportProblems) {
boolean didSomething = false;
if (decA.matches(onType)) {
AnnotationAJ theAnnotation = decA.getAnnotation();
// can be null for broken code!
if (theAnnotation == null) {
return false;
}
if (onType.hasAnnotation(theAnnotation.getType())) {
// Could put out a lint here for an already annotated type ...
// if (reportProblems) {
// world.getLint().elementAlreadyAnnotated.signal(
// new
// String[]{onType.toString(),decA.getAnnotationTypeX().toString
// ()},
// onType.getSourceLocation(),new
// ISourceLocation[]{decA.getSourceLocation()});
// }
return false;
}
AnnotationAJ annoX = decA.getAnnotation();
// check the annotation is suitable for the target
boolean problemReported = verifyTargetIsOK(decA, onType, annoX, reportProblems);
if (!problemReported) {
AsmRelationshipProvider.addDeclareAnnotationRelationship(world.getModelAsAsmManager(), decA.getSourceLocation(),
onType.getSourceLocation(), false);
// TAG: WeavingMessage
if (!getWorld().getMessageHandler().isIgnoring(IMessage.WEAVEINFO)) {
getWorld().getMessageHandler().handleMessage(
WeaveMessage.constructWeavingMessage(
WeaveMessage.WEAVEMESSAGE_ANNOTATES,
new String[] { onType.toString(), Utility.beautifyLocation(onType.getSourceLocation()),
decA.getAnnotationString(), "type", decA.getAspect().toString(),
Utility.beautifyLocation(decA.getSourceLocation()) }));
}
didSomething = true;
ResolvedTypeMunger newAnnotationTM = new AnnotationOnTypeMunger(annoX);
newAnnotationTM.setSourceLocation(decA.getSourceLocation());
onType.addInterTypeMunger(new BcelTypeMunger(newAnnotationTM, decA.getAspect().resolve(world)), false);
decA.copyAnnotationTo(onType);
}
}
return didSomething;
}
/**
* Checks for an @target() on the annotation and if found ensures it allows the annotation to be attached to the target type
* that matched.
*/
private boolean verifyTargetIsOK(DeclareAnnotation decA, ResolvedType onType, AnnotationAJ annoX, boolean outputProblems) {
boolean problemReported = false;
if (annoX.specifiesTarget()) {
if ((onType.isAnnotation() && !annoX.allowedOnAnnotationType()) || (!annoX.allowedOnRegularType())) {
if (outputProblems) {
if (decA.isExactPattern()) {
world.getMessageHandler().handleMessage(
MessageUtil.error(
WeaverMessages.format(WeaverMessages.INCORRECT_TARGET_FOR_DECLARE_ANNOTATION,
onType.getName(), annoX.getTypeName(), annoX.getValidTargets()),
decA.getSourceLocation()));
} else {
if (world.getLint().invalidTargetForAnnotation.isEnabled()) {
world.getLint().invalidTargetForAnnotation.signal(new String[] { onType.getName(), annoX.getTypeName(),
annoX.getValidTargets() }, decA.getSourceLocation(),
new ISourceLocation[] { onType.getSourceLocation() });
}
}
}
problemReported = true;
}
}
return problemReported;
}
/**
* Apply a single declare parents - return true if we change the type
*/
private boolean applyDeclareParents(DeclareParents p, ResolvedType onType) {
boolean didSomething = false;
List newParents = p.findMatchingNewParents(onType, true);
if (!newParents.isEmpty()) {
didSomething = true;
BcelWorld.getBcelObjectType(onType);
// System.err.println("need to do declare parents for: " + onType);
for (ResolvedType newParent : newParents) {
// We set it here so that the imminent matching for ITDs can
// succeed - we still haven't done the necessary changes to the class file
// itself (like transform super calls) - that is done in
// BcelTypeMunger.mungeNewParent()
// classType.addParent(newParent);
onType.addParent(newParent);
NewParentTypeMunger newParentMunger = new NewParentTypeMunger(newParent, p.getDeclaringType());
if (p.isMixin()) {
newParentMunger.setIsMixin(true);
}
newParentMunger.setSourceLocation(p.getSourceLocation());
onType.addInterTypeMunger(new BcelTypeMunger(newParentMunger, xcutSet.findAspectDeclaringParents(p)), false);
}
}
return didSomething;
}
public void weaveNormalTypeMungers(ResolvedType onType) {
ContextToken tok = CompilationAndWeavingContext.enteringPhase(CompilationAndWeavingContext.PROCESSING_TYPE_MUNGERS,
onType.getName());
if (onType.isRawType() || onType.isParameterizedType()) {
onType = onType.getGenericType();
}
for (ConcreteTypeMunger m : typeMungerList) {
if (!m.isLateMunger() && m.matches(onType)) {
onType.addInterTypeMunger(m, false);
}
}
CompilationAndWeavingContext.leavingPhase(tok);
}
// exposed for ClassLoader dynamic weaving
public LazyClassGen weaveWithoutDump(UnwovenClassFile classFile, BcelObjectType classType) throws IOException {
return weave(classFile, classType, false);
}
// FOR TESTING
LazyClassGen weave(UnwovenClassFile classFile, BcelObjectType classType) throws IOException {
LazyClassGen ret = weave(classFile, classType, true);
return ret;
}
private LazyClassGen weave(UnwovenClassFile classFile, BcelObjectType classType, boolean dump) throws IOException {
try {
if (classType.isSynthetic()) { // Don't touch synthetic classes
if (dump) {
dumpUnchanged(classFile);
}
return null;
}
ReferenceType resolvedClassType = classType.getResolvedTypeX();
if (world.isXmlConfigured() && world.getXmlConfiguration().excludesType(resolvedClassType)) {
if (!world.getMessageHandler().isIgnoring(IMessage.INFO)) {
world.getMessageHandler().handleMessage(
MessageUtil.info("Type '" + resolvedClassType.getName()
+ "' not woven due to exclusion via XML weaver exclude section"));
}
if (dump) {
dumpUnchanged(classFile);
}
return null;
}
List shadowMungers = fastMatch(shadowMungerList, resolvedClassType);
List typeMungers = classType.getResolvedTypeX().getInterTypeMungers();
resolvedClassType.checkInterTypeMungers();
// Decide if we need to do actual weaving for this class
boolean mightNeedToWeave = shadowMungers.size() > 0 || typeMungers.size() > 0 || classType.isAspect()
|| world.getDeclareAnnotationOnMethods().size() > 0 || world.getDeclareAnnotationOnFields().size() > 0;
// May need bridge methods if on 1.5 and something in our hierarchy is
// affected by ITDs
boolean mightNeedBridgeMethods = world.isInJava5Mode() && !classType.isInterface()
&& resolvedClassType.getInterTypeMungersIncludingSupers().size() > 0;
LazyClassGen clazz = null;
if (mightNeedToWeave || mightNeedBridgeMethods) {
clazz = classType.getLazyClassGen();
// System.err.println("got lazy gen: " + clazz + ", " +
// clazz.getWeaverState());
try {
boolean isChanged = false;
if (mightNeedToWeave) {
isChanged = BcelClassWeaver.weave(world, clazz, shadowMungers, typeMungers, lateTypeMungerList,
inReweavableMode);
}
checkDeclareTypeErrorOrWarning(world, classType);
if (mightNeedBridgeMethods) {
isChanged = BcelClassWeaver.calculateAnyRequiredBridgeMethods(world, clazz) || isChanged;
}
if (isChanged) {
if (dump) {
dump(classFile, clazz);
}
return clazz;
}
} catch (RuntimeException re) {
String classDebugInfo = null;
try {
classDebugInfo = clazz.toLongString();
} catch (Throwable e) {
new RuntimeException("Crashed whilst crashing with this exception: " + e, e).printStackTrace();
// recover from crash whilst producing debug string
classDebugInfo = clazz.getClassName();
}
String messageText = "trouble in: \n" + classDebugInfo;
getWorld().getMessageHandler().handleMessage(new Message(messageText, IMessage.ABORT, re, null));
} catch (Error re) {
String classDebugInfo = null;
try {
classDebugInfo = clazz.toLongString();
} catch (OutOfMemoryError oome) {
System.err.println("Ran out of memory creating debug info for an error");
re.printStackTrace(System.err);
// recover from crash whilst producing debug string
classDebugInfo = clazz.getClassName();
} catch (Throwable e) {
// recover from crash whilst producing debug string
classDebugInfo = clazz.getClassName();
}
String messageText = "trouble in: \n" + classDebugInfo;
getWorld().getMessageHandler().handleMessage(new Message(messageText, IMessage.ABORT, re, null));
}
} else {
checkDeclareTypeErrorOrWarning(world, classType);
}
// this is very odd return behavior trying to keep everyone happy
// can we remove it from the model now? we know it contains no relationship endpoints...
AsmManager model = world.getModelAsAsmManager();
if (world.isMinimalModel() && model != null && !classType.isAspect()) {
AspectJElementHierarchy hierarchy = (AspectJElementHierarchy) model.getHierarchy();
String pkgname = classType.getResolvedTypeX().getPackageName();
String tname = classType.getResolvedTypeX().getSimpleBaseName();
IProgramElement typeElement = hierarchy.findElementForType(pkgname, tname);
if (typeElement != null && hasInnerType(typeElement)) {
// Cannot remove it right now (has inner type), schedule it
// for possible deletion later if all inner types are
// removed
candidatesForRemoval.add(typeElement);
}
if (typeElement != null && !hasInnerType(typeElement)) {
IProgramElement parent = typeElement.getParent();
// parent may have children: PACKAGE DECL, IMPORT-REFERENCE, TYPE_DECL
if (parent != null) {
// if it was the only type we should probably remove
// the others too.
parent.removeChild(typeElement);
if (parent.getKind().isSourceFile()) {
removeSourceFileIfNoMoreTypeDeclarationsInside(hierarchy, typeElement, parent);
} else {
hierarchy.forget(null, typeElement);
// At this point, the child has been removed. We
// should now check if the parent is in our
// 'candidatesForRemoval' set. If it is then that
// means we were going to remove it but it had a
// child. Now we can check if it still has a child -
// if it doesn't it can also be removed!
walkUpRemovingEmptyTypesAndPossiblyEmptySourceFile(hierarchy, tname, parent);
}
}
}
}
if (dump) {
dumpUnchanged(classFile);
return clazz;
} else {
// ATAJ: the class was not weaved, but since it gets there early it
// may have new generated inner classes
// attached to it to support LTW perX aspectOf support (see
// BcelPerClauseAspectAdder)
// that aggressively defines the inner $mayHaveAspect
// interface.
if (clazz != null && !clazz.getChildClasses(world).isEmpty()) {
return clazz;
}
return null;
}
} finally {
world.demote();
}
}
private void walkUpRemovingEmptyTypesAndPossiblyEmptySourceFile(AspectJElementHierarchy hierarchy, String tname,
IProgramElement typeThatHasChildRemoved) {
// typeThatHasChildRemoved might be a source file, type or a method/ctor
// - for a method/ctor find the type/sourcefile
while (typeThatHasChildRemoved != null
&& !(typeThatHasChildRemoved.getKind().isType() || typeThatHasChildRemoved.getKind().isSourceFile())) {
// this will take us 'up' through methods that contain anonymous
// inner classes
typeThatHasChildRemoved = typeThatHasChildRemoved.getParent();
}
// now typeThatHasChildRemoved points to the type or sourcefile that has
// had something removed
if (candidatesForRemoval.contains(typeThatHasChildRemoved) && !hasInnerType(typeThatHasChildRemoved)) {
// now we can get rid of it
IProgramElement parent = typeThatHasChildRemoved.getParent();
if (parent != null) {
parent.removeChild(typeThatHasChildRemoved);
candidatesForRemoval.remove(typeThatHasChildRemoved);
if (parent.getKind().isSourceFile()) {
removeSourceFileIfNoMoreTypeDeclarationsInside(hierarchy, typeThatHasChildRemoved, parent);
// System.out.println("Removed on second pass: " +
// typeThatHasChildRemoved.getName());
} else {
// System.out.println("On later pass, parent of type " +
// typeThatHasChildRemoved.getName()
// + " was found not to be a sourcefile, recursing up...");
walkUpRemovingEmptyTypesAndPossiblyEmptySourceFile(hierarchy, tname, parent);
}
}
}
}
private void removeSourceFileIfNoMoreTypeDeclarationsInside(AspectJElementHierarchy hierarchy, IProgramElement typeElement,
IProgramElement sourceFileNode) {
IProgramElement compilationUnit = sourceFileNode;
boolean anyOtherTypeDeclarations = false;
for (IProgramElement child : compilationUnit.getChildren()) {
IProgramElement.Kind k = child.getKind();
if (k.isType()) {
anyOtherTypeDeclarations = true;
break;
}
}
// If the compilation unit node contained no
// other types, there is no need to keep it
if (!anyOtherTypeDeclarations) {
IProgramElement cuParent = compilationUnit.getParent();
if (cuParent != null) {
compilationUnit.setParent(null);
cuParent.removeChild(compilationUnit);
}
// need to update some caches and structures too?
hierarchy.forget(sourceFileNode, typeElement);
} else {
hierarchy.forget(null, typeElement);
}
}
// ---- writing
// TODO could be smarter - really only matters if inner type has been woven, but there is a chance we haven't woven it *yet*
private boolean hasInnerType(IProgramElement typeNode) {
for (IProgramElement child : typeNode.getChildren()) {
IProgramElement.Kind kind = child.getKind();
if (kind.isType()) {
return true;
}
// if (kind == IProgramElement.Kind.ASPECT) {
// return true;
// }
if (kind.isType() || kind == IProgramElement.Kind.METHOD || kind == IProgramElement.Kind.CONSTRUCTOR) {
boolean b = hasInnerType(child);
if (b) {
return b;
}
}
}
return false;
}
private void checkDeclareTypeErrorOrWarning(BcelWorld world2, BcelObjectType classType) {
List dteows = world.getDeclareTypeEows();
for (DeclareTypeErrorOrWarning dteow : dteows) {
if (dteow.getTypePattern().matchesStatically(classType.getResolvedTypeX())) {
if (dteow.isError()) {
world.getMessageHandler().handleMessage(
MessageUtil.error(dteow.getMessage(), classType.getResolvedTypeX().getSourceLocation()));
} else {
world.getMessageHandler().handleMessage(
MessageUtil.warn(dteow.getMessage(), classType.getResolvedTypeX().getSourceLocation()));
}
}
}
}
private void dumpUnchanged(UnwovenClassFile classFile) throws IOException {
if (zipOutputStream != null) {
writeZipEntry(getEntryName(classFile.getJavaClass().getClassName()), classFile.getBytes());
} else {
classFile.writeUnchangedBytes();
}
}
private String getEntryName(String className) {
// XXX what does bcel's getClassName do for inner names
return className.replace('.', '/') + ".class";
}
private void dump(UnwovenClassFile classFile, LazyClassGen clazz) throws IOException {
if (zipOutputStream != null) {
String mainClassName = classFile.getJavaClass().getClassName();
writeZipEntry(getEntryName(mainClassName), clazz.getJavaClass(world).getBytes());
List childClasses = clazz.getChildClasses(world);
if (!childClasses.isEmpty()) {
for (UnwovenClassFile.ChildClass c : childClasses) {
writeZipEntry(getEntryName(mainClassName + "$" + c.name), c.bytes);
}
}
} else {
classFile.writeWovenBytes(clazz.getJavaClass(world).getBytes(), clazz.getChildClasses(world));
}
}
private void writeZipEntry(String name, byte[] bytes) throws IOException {
ZipEntry newEntry = new ZipEntry(name); // ??? get compression scheme
// right
zipOutputStream.putNextEntry(newEntry);
zipOutputStream.write(bytes);
zipOutputStream.closeEntry();
}
/**
* Perform a fast match of the specified list of shadowmungers against the specified type. A subset of those that might match is
* returned.
*
* @param list list of all shadow mungers that might match
* @param type the target type
* @return a list of shadow mungers that might match with those that cannot (according to fast match rules) removed
*/
private List fastMatch(List list, ResolvedType type) {
if (list == null) {
return Collections.emptyList();
}
boolean isOverweaving = world.isOverWeaving();
WeaverStateInfo typeWeaverState = (isOverweaving ? type.getWeaverState() : null);
// here we do the coarsest grained fast match with no kind constraints
// this will remove all obvious non-matches and see if we need to do any
// weaving
FastMatchInfo info = new FastMatchInfo(type, null, world);
List result = new ArrayList<>();
if (world.areInfoMessagesEnabled() && world.isTimingEnabled()) {
for (ShadowMunger munger : list) {
if (typeWeaverState != null) { // will only be null if overweaving is ON and there is weaverstate
ResolvedType declaringAspect = munger.getDeclaringType();
if (typeWeaverState.isAspectAlreadyApplied(declaringAspect)) {
continue;
}
}
Pointcut pointcut = munger.getPointcut();
long starttime = System.nanoTime();
FuzzyBoolean fb = pointcut.fastMatch(info);
long endtime = System.nanoTime();
world.recordFastMatch(pointcut, endtime - starttime);
if (fb.maybeTrue()) {
result.add(munger);
}
}
} else {
for (ShadowMunger munger : list) {
if (typeWeaverState != null) { // will only be null if overweaving is ON and there is weaverstate
ResolvedType declaringAspect = munger.getConcreteAspect();// getDeclaringType();
if (typeWeaverState.isAspectAlreadyApplied(declaringAspect)) {
continue;
}
}
Pointcut pointcut = munger.getPointcut();
FuzzyBoolean fb = pointcut.fastMatch(info);
if (fb.maybeTrue()) {
result.add(munger);
}
}
}
return result;
}
public void setReweavableMode(boolean xNotReweavable) {
inReweavableMode = !xNotReweavable;
WeaverStateInfo.setReweavableModeDefaults(!xNotReweavable, false, true);
}
public boolean isReweavable() {
return inReweavableMode;
}
public World getWorld() {
return world;
}
public void tidyUp() {
if (trace.isTraceEnabled()) {
trace.enter("tidyUp", this);
}
shadowMungerList = null; // setup by prepareForWeave
typeMungerList = null; // setup by prepareForWeave
lateTypeMungerList = null; // setup by prepareForWeave
declareParentsList = null; // setup by prepareForWeave
if (trace.isTraceEnabled()) {
trace.exit("tidyUp");
}
}
public void write(CompressingDataOutputStream dos) throws IOException {
xcutSet.write(dos);
}
// only called for testing
public void setShadowMungers(List shadowMungers) {
shadowMungerList = shadowMungers;
}
}