== AspectJ 1.8.2 _© Copyright 2014 Contributors. All rights reserved._ The full list of resolved issues in 1.8.2 is available https://bugs.eclipse.org/bugs/buglist.cgi?query_format=advanced;bug_status=RESOLVED;bug_status=VERIFIED;bug_status=CLOSED;product=AspectJ;target_milestone=1.8.2;[here] _Release info: 1.8.2 available 14-Aug-2014_ === Notable changes Although only a few bugs have been fixed here, they are quite important ones: ==== Update to more recent Eclipse Compiler AspectJ is now based on a more up to date Eclipse compiler level (git hash 2b07958) so includes all the latest fixes ==== Correct handling of RuntimeInvisibleTypeAnnotations (type annotations without runtime visibility) For anyone weaving code containing these kind of type annotations, this is an important fix. Although AspectJ does not currently support pointcuts matching on these kinds of annotation it was crashing when they were encountered. That is now fixed. ==== Annotation processing A very long standing issue, the AspectJ compiler now supports annotation processors thanks to some work by Sergey Stupin. Here is a short example, a very basic annotation and application: ===== Marker.java [source, java] .... import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; @Retention(RetentionPolicy.RUNTIME) public @interface Marker { } .... ===== Code.java [source, java] .... public class Code { public static void main(String []argv) { new Code().moo(); new Code().boo(); new Code().too(); new Code().woo(); } public void moo() {} @Marker public void boo() {} @Marker public void too() {} public void woo() {} } .... And now a basic annotation processor. This processor will find methods in the source marked with the annotation Marker and for each one generate an aspect tailored to advising that method (this *is* a contrived demo!) ===== DemoProcessor.java [source, java] .... import java.io.*; import javax.tools.*; import java.util.*; import javax.annotation.processing.*; import javax.lang.model.*; import javax.lang.model.element.*; @SupportedAnnotationTypes(value= {"*"}) @SupportedSourceVersion(SourceVersion.RELEASE_6) public class DemoProcessor extends AbstractProcessor { private Filer filer; @Override public void init(ProcessingEnvironment env) { filer = env.getFiler(); } @Override public boolean process(Set elements, RoundEnvironment env) { // Discover anything marked with @Marker for (Element element: env.getElementsAnnotatedWith(Marker.class)) { if (element.getKind() == ElementKind.METHOD) { // For any methods we find, create an aspect: String methodName = element.getSimpleName().toString(); String aspectText = "public aspect Advise_"+methodName+" {\n"+ " before(): execution(* "+methodName+"(..)) {\n"+ " System.out.println(\""+methodName+" running\");\n"+ " }\n"+ "}\n"; try { JavaFileObject file = filer.createSourceFile("Advise_"+methodName, element); file.openWriter().append(aspectText).close(); System.out.println("Generated aspect to advise "+element.getSimpleName()); } catch (IOException ioe) { // already creates message can appear if processor runs more than once if (!ioe.getMessage().contains("already created")) { ioe.printStackTrace(); } } } } return true; } } .... With those sources, we compile the processor: [source, text] .... ajc -1.6 DemoProcessor.java Marker.java .... Now compile the code with the processor specified: [source, text] .... ajc -1.6 -processor DemoProcessor -showWeaveInfo Code.java Marker.java .... [source, text] .... Generated aspect to advise too Generated aspect to advise boo Join point 'method-execution(void Code.boo())' in Type 'Code' (Code.java:14) advised by before advice from 'Advise_boo' (Advise_boo.java:2) Join point 'method-execution(void Code.too())' in Type 'Code' (Code.java:17) advised by before advice from 'Advise_too' (Advise_too.java:2) .... Notice the processor generates the aspects and then they are woven into the code being compiled immediately. Finally we can run it: [source, text] .... java Code boo running too running .... *Note:* There is still work to be done to get annotation processors behaving under AJDT.