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This OSGi bundle wraps aspectjrt and aspectjweaver ${pkgVersion} jar files.
/* *******************************************************************
* Copyright (c) 2002 Palo Alto Research Center, Incorporated (PARC).
* All rights reserved.
* This program and the accompanying materials are made available
* under the terms of the Eclipse Public License v1.0
* which accompanies this distribution and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* PARC initial implementation
* Alexandre Vasseur support for @AJ aspects
* ******************************************************************/
package org.aspectj.weaver.bcel;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Map;
import org.aspectj.apache.bcel.Constants;
import org.aspectj.apache.bcel.classfile.LocalVariable;
import org.aspectj.apache.bcel.classfile.LocalVariableTable;
import org.aspectj.apache.bcel.generic.InstructionConstants;
import org.aspectj.apache.bcel.generic.InstructionFactory;
import org.aspectj.apache.bcel.generic.InstructionHandle;
import org.aspectj.apache.bcel.generic.InstructionList;
import org.aspectj.apache.bcel.generic.LineNumberTag;
import org.aspectj.apache.bcel.generic.LocalVariableTag;
import org.aspectj.bridge.ISourceLocation;
import org.aspectj.bridge.Message;
import org.aspectj.weaver.Advice;
import org.aspectj.weaver.AdviceKind;
import org.aspectj.weaver.AjAttribute;
import org.aspectj.weaver.BCException;
import org.aspectj.weaver.IEclipseSourceContext;
import org.aspectj.weaver.ISourceContext;
import org.aspectj.weaver.Lint;
import org.aspectj.weaver.Member;
import org.aspectj.weaver.ReferenceType;
import org.aspectj.weaver.ReferenceTypeDelegate;
import org.aspectj.weaver.ResolvedMember;
import org.aspectj.weaver.ResolvedMemberImpl;
import org.aspectj.weaver.ResolvedType;
import org.aspectj.weaver.Shadow;
import org.aspectj.weaver.ShadowMunger;
import org.aspectj.weaver.UnresolvedType;
import org.aspectj.weaver.WeaverMessages;
import org.aspectj.weaver.World;
import org.aspectj.weaver.ast.Literal;
import org.aspectj.weaver.ast.Test;
import org.aspectj.weaver.patterns.ExactTypePattern;
import org.aspectj.weaver.patterns.ExposedState;
import org.aspectj.weaver.patterns.PerClause;
import org.aspectj.weaver.patterns.Pointcut;
/**
* Advice implemented for BCEL
*
* @author Erik Hilsdale
* @author Jim Hugunin
* @author Andy Clement
*/
class BcelAdvice extends Advice {
/**
* If a match is not entirely statically determinable, this captures the runtime test that must succeed in order for the advice
* to run.
*/
private Test runtimeTest;
private ExposedState exposedState;
private int containsInvokedynamic = 0;// 0 = dontknow, 1=no, 2=yes
public BcelAdvice(AjAttribute.AdviceAttribute attribute, Pointcut pointcut, Member adviceSignature, ResolvedType concreteAspect) {
super(attribute, pointcut, simplify(attribute.getKind(), adviceSignature));
this.concreteAspect = concreteAspect;
}
public boolean bindsProceedingJoinPoint() {
UnresolvedType[] parameterTypes = signature.getParameterTypes();
for (int i=0;i typeVariableMap) {
Pointcut pc = getPointcut().parameterizeWith(typeVariableMap, declaringType.getWorld());
BcelAdvice ret = null;
Member adviceSignature = signature;
// allows for around advice where the return value is a type variable (see pr115250)
if (signature instanceof ResolvedMember && signature.getDeclaringType().isGenericType()) {
adviceSignature = ((ResolvedMember) signature).parameterizedWith(declaringType.getTypeParameters(), declaringType,
declaringType.isParameterizedType());
}
ret = new BcelAdvice(this.attribute, pc, adviceSignature, this.concreteAspect);
return ret;
}
@Override
public boolean match(Shadow shadow, World world) {
if (world.areAllLintIgnored()) {
return super.match(shadow, world);
} else {
suppressLintWarnings(world);
boolean ret = super.match(shadow, world);
clearLintSuppressions(world, this.suppressedLintKinds);
return ret;
}
}
@Override
public void specializeOn(Shadow shadow) {
if (getKind() == AdviceKind.Around) {
((BcelShadow) shadow).initializeForAroundClosure();
}
// XXX this case is just here for supporting lazy test code
if (getKind() == null) {
exposedState = new ExposedState(0);
return;
}
if (getKind().isPerEntry()) {
exposedState = new ExposedState(0);
} else if (getKind().isCflow()) {
exposedState = new ExposedState(nFreeVars);
} else if (getSignature() != null) {
exposedState = new ExposedState(getSignature());
} else {
exposedState = new ExposedState(0);
return; // XXX this case is just here for supporting lazy test code
}
World world = shadow.getIWorld();
if (!world.areAllLintIgnored()) {
suppressLintWarnings(world);
}
exposedState.setConcreteAspect(concreteAspect);
runtimeTest = getPointcut().findResidue(shadow, exposedState);
if (!world.areAllLintIgnored()) {
clearLintSuppressions(world, this.suppressedLintKinds);
}
// these initializations won't be performed by findResidue, but need to be
// so that the joinpoint is primed for weaving
if (getKind() == AdviceKind.PerThisEntry) {
shadow.getThisVar();
} else if (getKind() == AdviceKind.PerTargetEntry) {
shadow.getTargetVar();
}
// make sure thisJoinPoint parameters are initialized
if ((getExtraParameterFlags() & ThisJoinPointStaticPart) != 0) {
((BcelShadow) shadow).getThisJoinPointStaticPartVar();
((BcelShadow) shadow).getEnclosingClass().warnOnAddedStaticInitializer(shadow, getSourceLocation());
}
if ((getExtraParameterFlags() & ThisJoinPoint) != 0) {
boolean hasGuardTest = runtimeTest != Literal.TRUE && getKind() != AdviceKind.Around;
boolean isAround = getKind() == AdviceKind.Around;
((BcelShadow) shadow).requireThisJoinPoint(hasGuardTest, isAround);
((BcelShadow) shadow).getEnclosingClass().warnOnAddedStaticInitializer(shadow, getSourceLocation());
if (!hasGuardTest && world.getLint().multipleAdviceStoppingLazyTjp.isEnabled()) {
// collect up the problematic advice
((BcelShadow) shadow).addAdvicePreventingLazyTjp(this);
}
}
if ((getExtraParameterFlags() & ThisEnclosingJoinPointStaticPart) != 0) {
((BcelShadow) shadow).getThisEnclosingJoinPointStaticPartVar();
((BcelShadow) shadow).getEnclosingClass().warnOnAddedStaticInitializer(shadow, getSourceLocation());
}
}
private boolean canInline(Shadow s) {
if (attribute.isProceedInInners()) {
return false;
}
// XXX this guard seems to only be needed for bad test cases
if (concreteAspect == null || concreteAspect.isMissing()) {
return false;
}
if (concreteAspect.getWorld().isXnoInline()) {
return false;
}
// System.err.println("isWoven? " + ((BcelObjectType)concreteAspect).getLazyClassGen().getWeaverState());
BcelObjectType boType = BcelWorld.getBcelObjectType(concreteAspect);
if (boType == null) {
// Could be a symptom that the aspect failed to build last build... return the default answer of false
return false;
}
// Need isJava8 check
// Does the advice contain invokedynamic...
if (boType.javaClass.getMajor() >= Constants.MAJOR_1_8) {
if (containsInvokedynamic == 0) {
containsInvokedynamic = 1;
LazyMethodGen lmg = boType.getLazyClassGen().getLazyMethodGen(this.signature.getName(), this.signature.getSignature(), true);
// Check Java8 supertypes
ResolvedType searchType = concreteAspect;
while (lmg == null) {
searchType = searchType.getSuperclass();
if (searchType == null) break;
ReferenceTypeDelegate rtd = ((ReferenceType)searchType).getDelegate();
if (rtd instanceof BcelObjectType) {
BcelObjectType bot = (BcelObjectType)rtd;
if (bot.javaClass.getMajor() < Constants.MAJOR_1_8) {
break;
}
lmg = bot.getLazyClassGen().getLazyMethodGen(this.signature.getName(), this.signature.getSignature(), true);
}
}
if (lmg != null) {
InstructionList ilist = lmg.getBody();
for (InstructionHandle src = ilist.getStart(); src != null; src = src.getNext()) {
if (src.getInstruction().opcode == Constants.INVOKEDYNAMIC) {
containsInvokedynamic = 2;
break;
}
}
}
}
}
if (containsInvokedynamic == 2) {
return false;
}
return boType.getLazyClassGen().isWoven();
}
private boolean aspectIsBroken() {
if (concreteAspect instanceof ReferenceType) {
ReferenceTypeDelegate rtDelegate = ((ReferenceType) concreteAspect).getDelegate();
if (!(rtDelegate instanceof BcelObjectType)) {
return true;
}
}
return false;
}
@Override
public boolean implementOn(Shadow s) {
hasMatchedAtLeastOnce = true;
// pr263323 - if the aspect is broken then the delegate will not be usable for weaving
if (aspectIsBroken()) {
return false;
}
BcelShadow shadow = (BcelShadow) s;
// remove any unnecessary exceptions if the compiler option is set to
// error or warning and if this piece of advice throws exceptions
// (bug 129282). This may be expanded to include other compiler warnings
// at the moment it only deals with 'declared exception is not thrown'
if (!shadow.getWorld().isIgnoringUnusedDeclaredThrownException() && !getThrownExceptions().isEmpty()) {
Member member = shadow.getSignature();
if (member instanceof BcelMethod) {
removeUnnecessaryProblems((BcelMethod) member, ((BcelMethod) member).getDeclarationLineNumber());
} else {
// we're in a call shadow therefore need the line number of the
// declared method (which may be in a different type). However,
// we want to remove the problems from the CompilationResult
// held within the current type's EclipseSourceContext so need
// the enclosing shadow too
ResolvedMember resolvedMember = shadow.getSignature().resolve(shadow.getWorld());
if (resolvedMember instanceof BcelMethod && shadow.getEnclosingShadow() instanceof BcelShadow) {
Member enclosingMember = shadow.getEnclosingShadow().getSignature();
if (enclosingMember instanceof BcelMethod) {
removeUnnecessaryProblems((BcelMethod) enclosingMember,
((BcelMethod) resolvedMember).getDeclarationLineNumber());
}
}
}
}
if (shadow.getIWorld().isJoinpointSynchronizationEnabled() && shadow.getKind() == Shadow.MethodExecution
&& (s.getSignature().getModifiers() & Modifier.SYNCHRONIZED) != 0) {
shadow.getIWorld().getLint().advisingSynchronizedMethods.signal(new String[] { shadow.toString() },
shadow.getSourceLocation(), new ISourceLocation[] { getSourceLocation() });
}
// FIXME AV - see #75442, this logic is not enough so for now comment it out until we fix the bug
// // callback for perObject AJC MightHaveAspect postMunge (#75442)
// if (getConcreteAspect() != null
// && getConcreteAspect().getPerClause() != null
// && PerClause.PEROBJECT.equals(getConcreteAspect().getPerClause().getKind())) {
// final PerObject clause;
// if (getConcreteAspect().getPerClause() instanceof PerFromSuper) {
// clause = (PerObject)((PerFromSuper) getConcreteAspect().getPerClause()).lookupConcretePerClause(getConcreteAspect());
// } else {
// clause = (PerObject) getConcreteAspect().getPerClause();
// }
// if (clause.isThis()) {
// PerObjectInterfaceTypeMunger.registerAsAdvisedBy(s.getThisVar().getType(), getConcreteAspect());
// } else {
// PerObjectInterfaceTypeMunger.registerAsAdvisedBy(s.getTargetVar().getType(), getConcreteAspect());
// }
// }
if (runtimeTest == Literal.FALSE) { // not usually allowed, except in one case (260384)
Member sig = shadow.getSignature();
if (sig.getArity() == 0 && shadow.getKind() == Shadow.MethodCall && sig.getName().charAt(0) == 'c'
&& sig.getReturnType().equals(ResolvedType.OBJECT) && sig.getName().equals("clone")) {
return false;
}
}
if (getKind() == AdviceKind.Before) {
shadow.weaveBefore(this);
} else if (getKind() == AdviceKind.AfterReturning) {
shadow.weaveAfterReturning(this);
} else if (getKind() == AdviceKind.AfterThrowing) {
UnresolvedType catchType = hasExtraParameter() ? getExtraParameterType() : UnresolvedType.THROWABLE;
shadow.weaveAfterThrowing(this, catchType);
} else if (getKind() == AdviceKind.After) {
shadow.weaveAfter(this);
} else if (getKind() == AdviceKind.Around) {
// Note: under regular LTW the aspect is usually loaded after the first use of any class affected by it.
// This means that as long as the aspect has not been thru the LTW, it's woven state is unknown
// and thus canInline(s) will return false.
// To force inlining (test), ones can do Class aspect = FQNAspect.class in the clinit of the target class
// FIXME AV : for AJC compiled @AJ aspect (or any code style aspect), the woven state can never be known
// if the aspect belongs to a parent classloader. In that case the aspect will never be inlined.
// It might be dangerous to change that especially for @AJ aspect non compiled with AJC since if those
// are not weaved (f.e. use of some limited LTW etc) then they cannot be prepared for inlining.
// One solution would be to flag @AJ aspect with an annotation as "prepared" and query that one.
LazyClassGen enclosingClass = shadow.getEnclosingClass();
if (enclosingClass != null && enclosingClass.isInterface() && shadow.getEnclosingMethod().getName().charAt(0) == '<') {
// Do not add methods with bodies to an interface (252198, 163005)
shadow.getWorld().getLint().cannotAdviseJoinpointInInterfaceWithAroundAdvice.signal(shadow.toString(),
shadow.getSourceLocation());
return false;
}
if (!canInline(s)) {
shadow.weaveAroundClosure(this, hasDynamicTests());
} else {
shadow.weaveAroundInline(this, hasDynamicTests());
}
} else if (getKind() == AdviceKind.InterInitializer) {
shadow.weaveAfterReturning(this);
} else if (getKind().isCflow()) {
shadow.weaveCflowEntry(this, getSignature());
} else if (getKind() == AdviceKind.PerThisEntry) {
shadow.weavePerObjectEntry(this, (BcelVar) shadow.getThisVar());
} else if (getKind() == AdviceKind.PerTargetEntry) {
shadow.weavePerObjectEntry(this, (BcelVar) shadow.getTargetVar());
} else if (getKind() == AdviceKind.Softener) {
shadow.weaveSoftener(this, ((ExactTypePattern) exceptionType).getType());
} else if (getKind() == AdviceKind.PerTypeWithinEntry) {
// PTWIMPL Entry to ptw is the static initialization of a type that matched the ptw type pattern
shadow.weavePerTypeWithinAspectInitialization(this, shadow.getEnclosingType());
} else {
throw new BCException("unimplemented kind: " + getKind());
}
return true;
}
private void removeUnnecessaryProblems(BcelMethod method, int problemLineNumber) {
ISourceContext sourceContext = method.getSourceContext();
if (sourceContext instanceof IEclipseSourceContext) {
((IEclipseSourceContext) sourceContext).removeUnnecessaryProblems(method, problemLineNumber);
}
}
// ---- implementations
private Collection collectCheckedExceptions(UnresolvedType[] excs) {
if (excs == null || excs.length == 0) {
return Collections.emptyList();
}
Collection ret = new ArrayList();
World world = concreteAspect.getWorld();
ResolvedType runtimeException = world.getCoreType(UnresolvedType.RUNTIME_EXCEPTION);
ResolvedType error = world.getCoreType(UnresolvedType.ERROR);
for (int i = 0, len = excs.length; i < len; i++) {
ResolvedType t = world.resolve(excs[i], true);
if (t.isMissing()) {
world.getLint().cantFindType
.signal(WeaverMessages.format(WeaverMessages.CANT_FIND_TYPE_EXCEPTION_TYPE, excs[i].getName()),
getSourceLocation());
// IMessage msg = new Message(
// WeaverMessages.format(WeaverMessages.CANT_FIND_TYPE_EXCEPTION_TYPE,excs[i].getName()),
// "",IMessage.ERROR,getSourceLocation(),null,null);
// world.getMessageHandler().handleMessage(msg);
}
if (!(runtimeException.isAssignableFrom(t) || error.isAssignableFrom(t))) {
ret.add(t);
}
}
return ret;
}
private Collection thrownExceptions = null;
@Override
public Collection getThrownExceptions() {
if (thrownExceptions == null) {
// ??? can we really lump in Around here, how does this interact with Throwable
if (concreteAspect != null && concreteAspect.getWorld() != null && // null tests for test harness
(getKind().isAfter() || getKind() == AdviceKind.Before || getKind() == AdviceKind.Around)) {
World world = concreteAspect.getWorld();
ResolvedMember m = world.resolve(signature);
if (m == null) {
thrownExceptions = Collections.emptyList();
} else {
thrownExceptions = collectCheckedExceptions(m.getExceptions());
}
} else {
thrownExceptions = Collections.emptyList();
}
}
return thrownExceptions;
}
/**
* The munger must not check for the advice exceptions to be declared by the shadow in the case of @AJ aspects so that around
* can throws Throwable
*
* @return
*/
@Override
public boolean mustCheckExceptions() {
if (getConcreteAspect() == null) {
return true;
}
return !getConcreteAspect().isAnnotationStyleAspect();
}
// only call me after prepare has been called
@Override
public boolean hasDynamicTests() {
// if (hasExtraParameter() && getKind() == AdviceKind.AfterReturning) {
// UnresolvedType extraParameterType = getExtraParameterType();
// if (! extraParameterType.equals(UnresolvedType.OBJECT)
// && ! extraParameterType.isPrimitive())
// return true;
// }
return runtimeTest != null && !(runtimeTest == Literal.TRUE);// || pointcutTest == Literal.NO_TEST);
}
/**
* get the instruction list for the really simple version of this advice. Is broken apart for other advice, but if you want it
* in one block, this is the method to call.
*
* @param s The shadow around which these instructions will eventually live.
* @param extraArgVar The var that will hold the return value or thrown exception for afterX advice
* @param ifNoAdvice The instructionHandle to jump to if the dynamic tests for this munger fails.
*/
InstructionList getAdviceInstructions(BcelShadow s, BcelVar extraArgVar, InstructionHandle ifNoAdvice) {
BcelShadow shadow = s;
InstructionFactory fact = shadow.getFactory();
BcelWorld world = shadow.getWorld();
InstructionList il = new InstructionList();
// we test to see if we have the right kind of thing...
// after throwing does this just by the exception mechanism.
if (hasExtraParameter() && getKind() == AdviceKind.AfterReturning) {
UnresolvedType extraParameterType = getExtraParameterType();
if (!extraParameterType.equals(UnresolvedType.OBJECT) && !extraParameterType.isPrimitiveType()) {
il.append(BcelRenderer.renderTest(fact, world,
Test.makeInstanceof(extraArgVar, getExtraParameterType().resolve(world)), null, ifNoAdvice, null));
}
}
il.append(getAdviceArgSetup(shadow, extraArgVar, null));
il.append(getNonTestAdviceInstructions(shadow));
InstructionHandle ifYesAdvice = il.getStart();
il.insert(getTestInstructions(shadow, ifYesAdvice, ifNoAdvice, ifYesAdvice));
// If inserting instructions at the start of a method, we need a nice line number for this entry
// in the stack trace
if (shadow.getKind() == Shadow.MethodExecution && getKind() == AdviceKind.Before) {
int lineNumber = 0;
// Uncomment this code if you think we should use the method decl line number when it exists...
// // If the advised join point is in a class built by AspectJ, we can use the declaration line number
// boolean b = shadow.getEnclosingMethod().getMemberView().hasDeclarationLineNumberInfo();
// if (b) {
// lineNumber = shadow.getEnclosingMethod().getMemberView().getDeclarationLineNumber();
// } else { // If it wasn't, the best we can do is the line number of the first instruction in the method
lineNumber = shadow.getEnclosingMethod().getMemberView().getLineNumberOfFirstInstruction();
// }
InstructionHandle start = il.getStart();
if (lineNumber > 0) {
start.addTargeter(new LineNumberTag(lineNumber));
}
// Fix up the local variables: find any that have a startPC of 0 and ensure they target the new start of the method
LocalVariableTable lvt = shadow.getEnclosingMethod().getMemberView().getMethod().getLocalVariableTable();
if (lvt != null) {
LocalVariable[] lvTable = lvt.getLocalVariableTable();
for (int i = 0; i < lvTable.length; i++) {
LocalVariable lv = lvTable[i];
if (lv.getStartPC() == 0) {
start.addTargeter(new LocalVariableTag(lv.getSignature(), lv.getName(), lv.getIndex(), 0));
}
}
}
}
return il;
}
public InstructionList getAdviceArgSetup(BcelShadow shadow, BcelVar extraVar, InstructionList closureInstantiation) {
InstructionFactory fact = shadow.getFactory();
BcelWorld world = shadow.getWorld();
InstructionList il = new InstructionList();
// if (targetAspectField != null) {
// il.append(fact.createFieldAccess(
// targetAspectField.getDeclaringType().getName(),
// targetAspectField.getName(),
// BcelWorld.makeBcelType(targetAspectField.getType()),
// Constants.GETSTATIC));
// }
//
// System.err.println("BcelAdvice: " + exposedState);
if (exposedState.getAspectInstance() != null) {
il.append(BcelRenderer.renderExpr(fact, world, exposedState.getAspectInstance()));
}
// pr121385
boolean x = this.getDeclaringAspect().resolve(world).isAnnotationStyleAspect();
final boolean isAnnotationStyleAspect = getConcreteAspect() != null && getConcreteAspect().isAnnotationStyleAspect() && x;
boolean previousIsClosure = false;
for (int i = 0, len = exposedState.size(); i < len; i++) {
if (exposedState.isErroneousVar(i)) {
continue; // Erroneous vars have already had error msgs reported!
}
BcelVar v = (BcelVar) exposedState.get(i);
if (v == null) {
// if not @AJ aspect, go on with the regular binding handling
if (!isAnnotationStyleAspect) {
} else {
// ATAJ: for @AJ aspects, handle implicit binding of xxJoinPoint
// if (getKind() == AdviceKind.Around) {
// previousIsClosure = true;
// il.append(closureInstantiation);
if ("Lorg/aspectj/lang/ProceedingJoinPoint;".equals(getSignature().getParameterTypes()[i].getSignature())) {
// make sure we are in an around, since we deal with the closure, not the arg here
if (getKind() != AdviceKind.Around) {
previousIsClosure = false;
getConcreteAspect()
.getWorld()
.getMessageHandler()
.handleMessage(
new Message("use of ProceedingJoinPoint is allowed only on around advice (" + "arg "
+ i + " in " + toString() + ")", this.getSourceLocation(), true));
// try to avoid verify error and pass in null
il.append(InstructionConstants.ACONST_NULL);
} else {
if (previousIsClosure) {
il.append(InstructionConstants.DUP);
} else {
previousIsClosure = true;
il.append(closureInstantiation.copy());
shadow.closureVarInitialized = true;
}
}
} else if ("Lorg/aspectj/lang/JoinPoint$StaticPart;".equals(getSignature().getParameterTypes()[i]
.getSignature())) {
previousIsClosure = false;
if ((getExtraParameterFlags() & ThisJoinPointStaticPart) != 0) {
shadow.getThisJoinPointStaticPartBcelVar().appendLoad(il, fact);
}
} else if ("Lorg/aspectj/lang/JoinPoint;".equals(getSignature().getParameterTypes()[i].getSignature())) {
previousIsClosure = false;
if ((getExtraParameterFlags() & ThisJoinPoint) != 0) {
il.append(shadow.loadThisJoinPoint());
}
} else if ("Lorg/aspectj/lang/JoinPoint$EnclosingStaticPart;".equals(getSignature().getParameterTypes()[i]
.getSignature())) {
previousIsClosure = false;
if ((getExtraParameterFlags() & ThisEnclosingJoinPointStaticPart) != 0) {
shadow.getThisEnclosingJoinPointStaticPartBcelVar().appendLoad(il, fact);
}
} else if (hasExtraParameter()) {
previousIsClosure = false;
extraVar.appendLoadAndConvert(il, fact, getExtraParameterType().resolve(world));
} else {
previousIsClosure = false;
getConcreteAspect()
.getWorld()
.getMessageHandler()
.handleMessage(
new Message("use of ProceedingJoinPoint is allowed only on around advice (" + "arg " + i
+ " in " + toString() + ")", this.getSourceLocation(), true));
// try to avoid verify error and pass in null
il.append(InstructionConstants.ACONST_NULL);
}
}
} else {
UnresolvedType desiredTy = getBindingParameterTypes()[i];
v.appendLoadAndConvert(il, fact, desiredTy.resolve(world));
}
}
// ATAJ: for code style aspect, handles the extraFlag as usual ie not
// in the middle of the formal bindings but at the end, in a rock solid ordering
if (!isAnnotationStyleAspect) {
if (getKind() == AdviceKind.Around) {
il.append(closureInstantiation);
} else if (hasExtraParameter()) {
extraVar.appendLoadAndConvert(il, fact, getExtraParameterType().resolve(world));
}
// handle thisJoinPoint parameters
// these need to be in that same order as parameters in
// org.aspectj.ajdt.internal.compiler.ast.AdviceDeclaration
if ((getExtraParameterFlags() & ThisJoinPointStaticPart) != 0) {
shadow.getThisJoinPointStaticPartBcelVar().appendLoad(il, fact);
}
if ((getExtraParameterFlags() & ThisJoinPoint) != 0) {
il.append(shadow.loadThisJoinPoint());
}
if ((getExtraParameterFlags() & ThisEnclosingJoinPointStaticPart) != 0) {
shadow.getThisEnclosingJoinPointStaticPartBcelVar().appendLoad(il, fact);
}
}
return il;
}
public InstructionList getNonTestAdviceInstructions(BcelShadow shadow) {
return new InstructionList(Utility.createInvoke(shadow.getFactory(), shadow.getWorld(), getOriginalSignature()));
}
@Override
public Member getOriginalSignature() {
Member sig = getSignature();
if (sig instanceof ResolvedMember) {
ResolvedMember rsig = (ResolvedMember) sig;
if (rsig.hasBackingGenericMember()) {
return rsig.getBackingGenericMember();
}
}
return sig;
}
public InstructionList getTestInstructions(BcelShadow shadow, InstructionHandle sk, InstructionHandle fk, InstructionHandle next) {
// System.err.println("test: " + pointcutTest);
return BcelRenderer.renderTest(shadow.getFactory(), shadow.getWorld(), runtimeTest, sk, fk, next);
}
public int compareTo(Object other) {
if (!(other instanceof BcelAdvice)) {
return 0;
}
BcelAdvice o = (BcelAdvice) other;
// System.err.println("compareTo: " + this + ", " + o);
if (kind.getPrecedence() != o.kind.getPrecedence()) {
if (kind.getPrecedence() > o.kind.getPrecedence()) {
return +1;
} else {
return -1;
}
}
if (kind.isCflow()) {
// System.err.println("sort: " + this + " innerCflowEntries " + innerCflowEntries);
// System.err.println(" " + o + " innerCflowEntries " + o.innerCflowEntries);
boolean isBelow = (kind == AdviceKind.CflowBelowEntry);
if (this.innerCflowEntries.contains(o)) {
return isBelow ? +1 : -1;
} else if (o.innerCflowEntries.contains(this)) {
return isBelow ? -1 : +1;
} else {
return 0;
}
}
if (kind.isPerEntry() || kind == AdviceKind.Softener) {
return 0;
}
// System.out.println("compare: " + this + " with " + other);
World world = concreteAspect.getWorld();
int ret = concreteAspect.getWorld().compareByPrecedence(concreteAspect, o.concreteAspect);
if (ret != 0) {
return ret;
}
ResolvedType declaringAspect = getDeclaringAspect().resolve(world);
ResolvedType o_declaringAspect = o.getDeclaringAspect().resolve(world);
if (declaringAspect == o_declaringAspect) {
if (kind.isAfter() || o.kind.isAfter()) {
return this.getStart() < o.getStart() ? -1 : +1;
} else {
return this.getStart() < o.getStart() ? +1 : -1;
}
} else if (declaringAspect.isAssignableFrom(o_declaringAspect)) {
return -1;
} else if (o_declaringAspect.isAssignableFrom(declaringAspect)) {
return +1;
} else {
return 0;
}
}
public BcelVar[] getExposedStateAsBcelVars(boolean isAround) {
// ATAJ aspect
if (isAround) {
// the closure instantiation has the same mapping as the extracted method from wich it is called
if (getConcreteAspect() != null && getConcreteAspect().isAnnotationStyleAspect()) {
return BcelVar.NONE;
}
}
// System.out.println("vars: " + Arrays.asList(exposedState.vars));
if (exposedState == null) {
return BcelVar.NONE;
}
int len = exposedState.vars.length;
BcelVar[] ret = new BcelVar[len];
for (int i = 0; i < len; i++) {
ret[i] = (BcelVar) exposedState.vars[i];
}
return ret; // (BcelVar[]) exposedState.vars;
}
protected void suppressLintWarnings(World inWorld) {
if (suppressedLintKinds == null) {
if (signature instanceof BcelMethod) {
this.suppressedLintKinds = Utility.getSuppressedWarnings(signature.getAnnotations(), inWorld.getLint());
} else {
this.suppressedLintKinds = Collections.emptyList();
return;
}
}
inWorld.getLint().suppressKinds(suppressedLintKinds);
}
protected void clearLintSuppressions(World inWorld, Collection toClear) {
inWorld.getLint().clearSuppressions(toClear);
}
/**
* For testing only
*/
public BcelAdvice(AdviceKind kind, Pointcut pointcut, Member signature, int extraArgumentFlags, int start, int end,
ISourceContext sourceContext, ResolvedType concreteAspect) {
this(new AjAttribute.AdviceAttribute(kind, pointcut, extraArgumentFlags, start, end, sourceContext), pointcut, signature,
concreteAspect);
thrownExceptions = Collections.emptyList(); // !!! interaction with unit tests
}
}