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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2 Final//EN">
<html> <head>
<title>AspectJ 1.9.0.RC4 Readme</title>
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<body>
<div align="right"><small>
&copy; Copyright 2018 Contributors.
All rights reserved.
</small></div>
<p>The full list of resolved issues in 1.9.0 is available 
<a href="https://bugs.eclipse.org/bugs/buglist.cgi?bug_status=RESOLVED&bug_status=VERIFIED&bug_status=CLOSED&f0=OP&f1=OP&f3=CP&f4=CP&j1=OR&list_id=16866879&product=AspectJ&query_format=advanced&target_milestone=1.9.0">here</a></h2>.</p>

<h1>AspectJ 1.9.0</h1>

<h4>Improved runtime interface</h4>
<p>New factory methods have been added to the AspectJ runtime. This is an attempt to more optimally create <tt>thisJoinPoint</tt> and
<tt>thisEnclosingJoinPoint</tt> objects. The generated code that invokes these now also uses the ability 
for the LDC bytecode instruction to load class constants directly (this replaces what was happening
previously where generated code referenced string classnames and classloading was being done from the
aspectj runtime as the woven application was starting).</p>

<p>This is turned on by using <tt>-Xajruntimetarget:1.9</tt>. This option was used previously to enable
users to target an old runtime if they knew that old runtime is all that was available at some deployed target.
The new generation mechanism is not the default, not until it has had a bit more testing out in the wild.</p>

<p>The changes to generated code have a couple of potential side effects:
<ul>
<li><b>overall size</b>: the woven code may be smaller due to the use of smaller string constant pieces in the generated
code (previously strings were smashed together in the generated code and then taken apart by AspectJ at runtime).
Since the pieces are smaller, they can be shared across other uses in the class file.
<li><b>method size</b>: although the overall class may be smaller there are more instructions involved in preparing the
data for invocation of the new joinpoint factory methods. It is possible if you have a lot of joinpoints that we might
blow the 64k instruction limit for the <tt>ajc$preClinit</tt> method (where the factory invocation code is generated).
Please provide feedback if this happens to you!
</ul>

<p>In anticipation of not all build plugins supporting that <tt>-Xajruntimetarget</tt> option, you can now specify
these kinds of option in the <tt>ASPECTJ_OPTS</tt> environment variable. Set that in your environment:</p>
<pre><code>
export ASPECTJ_OPTS="-Xajruntimetarget:1.9"
</code></pre>
<p>And it should get picked up by AspectJ when it runs.</p>

<ul>
<li>1.9.0 available 30-Mar-2018
</ul>

<h1>AspectJ 1.9.0.RC4</h1>

<p>Primary changes in RC4 are to add support for &lt;compilerArg&gt; in the Ant task. This enables users of the Ant task to
pass in options supported by the underlying AspectJ but not yet surfaced elsewhere.  Particularly useful with Java9 which includes
a number of module related commands. For example, here is an iajc usage with compilerArg that is passing <tt>--add-modules java.xml.bind</tt>:

<pre><code>
  &lt;iajc destdir="bin" failonerror="true"
     showWeaveInfo="true" source="1.9" target="1.9"
     debug="true"  fork="true"  maxmem="256m"&gt;
     &lt;compilerArg value="--add-modules"/&gt;
     &lt;compilerArg value="java.xml.bind"/&gt;
    &lt;src path="src" /&gt;
    &lt;classpath&gt;
            &lt;pathelement location="${aspectj.home}/lib/aspectjrt.jar"/&gt;
    &lt;/classpath&gt;
 &lt;/iajc&gt;
</code></pre>

<li>1.9.0.RC4 available 21-Feb-2018</li>

<h1>AspectJ 1.9.0.RC3</h1>

<p>Primary changes in RC3 are to upgrade JDT and pickup all the fixes for Java9 that have gone into it over the last few months.</p>

<li>1.9.0.RC3 available 5-Feb-2018</li>

<h1>AspectJ 1.9.0.RC2</h1>


<ul>
<li>1.9.0.RC2 available 9-Nov-2017
</ul>

<p>Key change in 1.9.0.RC2 is actually to be more tolerant of JDK10. The version handling has been somewhat overhauled so AspectJ 9 will
behave better on Java 10 and future JDKs. This should put AspectJ in a better place if new JDK versions are going
to arrive thick and fast.

<h1>AspectJ 1.9.0.RC1</h1>
<ul>

<li>1.9.0.RC1 available 20-Oct-2017
</ul>

<p>This is the first release candidate of AspectJ 1.9.0 - the version of AspectJ to be based on Java9.  It includes
a recent version of the Eclipse Java9 compiler (from jdt core, commit #062ac5d7a6bf9).</p>


<h4>Automatic Modules</h4>
<p>AspectJ can now be used with the new module system available in Java9. The key jars in AspectJ have been given automatic module names.

The automatic module name is <tt>org.aspectj.runtime</tt> for the <tt>aspectjrt</tt> module:</p>
<pre><code>
$ java --module-path &lt;pathto&gt;/lib/aspectjrt.jar --list-modules | grep aspectj

org.aspectj.runtime file:///&lt;pathto&gt;/lib/aspectjrt.jar automatic

</code></pre>

<p>And similarly <tt>org.aspectj.weaver</tt> and <tt>org.aspectj.tools</tt> for <tt>aspectjweaver</tt> and <tt>aspectjtools</tt> respectively:</p>

<pre><code>
$ java --module-path &lt;pathto&gt;/lib/aspectjweaver.jar --describe-module org.aspectj.weaver

org.aspectj.weaver file:///&lt;pathto&gt;/lib/aspectjweaver.jar automatic
requires java.base mandated
contains aj.org.objectweb.asm
contains aj.org.objectweb.asm.signature
contains org.aspectj.apache.bcel
contains org.aspectj.apache.bcel.classfile
contains org.aspectj.apache.bcel.classfile.annotation
contains org.aspectj.apache.bcel.generic
contains org.aspectj.apache.bcel.util
contains org.aspectj.asm
contains org.aspectj.asm.internal
...
</code></pre>
</p>
<br><br>
<h4>Building woven modules</h4>
<p>AspectJ understands module-info.java source files and building modules that include aspects. Here is an example:</p>

<pre><code>
<b>module-info.java</b>

module demo {
	exports pkg;
	requires org.aspectj.runtime;
}


<b>pkg/Demo.java</b>

package pkg;

public class Demo {
	public static void main(String[] argv) {
		System.out.println("Demo running");
	}
}


<b>otherpkg/Azpect.java</b>

package otherpkg;

public aspect Azpect {
	before(): execution(* *(..)) && !within(Azpect) {
		System.out.println("Azpect running");
	}
}

</code></pre>

<p>We can now build those into a module:</p>

<pre><code>
$ ajc -1.9 module-info.java otherpkg/Azpect.java pkg/Demo.java -outjar demo.jar

...
module-info.java:3 [error] org.aspectj.runtime cannot be resolved to a module
...
</code></pre>

<p>Wait, that failed!  Yes, <tt>aspectjrt.jar</tt> (which includes the required <tt>org.aspectj.weaver</tt> module) wasn't supplied.
We need to pass it on the module-path:</p>

<pre><code>
$ ajc -1.9 --module-path &lt;pathto&gt;/aspectjrt.jar module-info.java otherpkg/Azpect.java pkg/Demo.java -outjar demo.jar

</code></pre>

<p>Now we have a demo module we can run:</p>

<pre><code>
$ java --module-path &lt;pathto&gt;/aspectjrt.jar:demo.jar --module demo/pkg.Demo

Azpect running
Demo running
</code></pre>

<p>That's it!</p>

<br><br>

<h4>Binary weaving with modules</h4>

<p>A module is really just a jar with a module-info descriptor. As such you can simply pass a module on the <tt>inpath</tt>
and binary weave it with other aspects.  Take the module we built above, let's weave into it again:</p>

<pre><code>extra/AnotherAzpect.java

package extra;

public aspect AnotherAzpect {
	before(): execution(* *(..)) && !within(*Azpect) {
		System.out.println("AnotherAzpect running");
	}
}
</code></pre>

<pre><code>
$ ajc -inpath demo.jar AnotherAzpect.java -outjar newdemo.jar</code></pre>

<p>Notice how there was no complaint here that the <tt>org.aspectj.runtime</tt> module hadn't been passed in. That is because <tt>inpath</tt>
was being used which doesn't treat specified jars as modules (and so does not check dependencies). There is no <tt>module-inpath</tt> right now.

<p>Because the new jar produced includes the compiled aspect, the module-info specification inside is still correct, so we can run it
exactly as before:</p>

<pre><code>$ java --module-path ~/installs/aspectj190rc1/lib/aspectjrt.jar:newdemo.jar --module demo/pkg.Demo

Azpect running
AnotherAzpect running
Demo running
</code></pre>
<br><br>

<h4>Faster Spring AOP</h4>
<p>Dave Syer recently created a series of benchmarks for checking the speed of Spring-AspectJ: 
<tt><a href="https://github.com/dsyer/spring-boot-aspectj">https://github.com/dsyer/spring-boot-aspectj</a></tt>

<p>Here we can see the numbers for AspectJ 1.8.11 (on an older Macbook Pro):

<pre><code>
Benchmark                 (scale)  Mode  Cnt   Score   Error  Units
StartupBenchmark.ltw          N/A  avgt   10   2.553 ~ 0.030   s/op
StartupBenchmark.ltw_100      N/A  avgt   10   2.608 ~ 0.046   s/op
StartupBenchmark.spring     v0_10  avgt   10   2.120 ~ 0.148   s/op
StartupBenchmark.spring     v1_10  avgt   10   2.219 ~ 0.066   s/op
StartupBenchmark.spring    v1_100  avgt   10   2.244 ~ 0.030   s/op
StartupBenchmark.spring    v10_50  avgt   10   2.950 ~ 0.026   s/op
StartupBenchmark.spring    v20_50  avgt   10   3.854 ~ 0.090   s/op
StartupBenchmark.spring   v20_100  avgt   10   4.003 ~ 0.038   s/op
StartupBenchmark.spring     a0_10  avgt   10   2.067 ~ 0.019   s/op
StartupBenchmark.spring     a1_10  avgt   10   2.724 ~ 0.023   s/op
StartupBenchmark.spring    a1_100  avgt   10   2.778 ~ 0.057   s/op
StartupBenchmark.spring    a10_50  avgt   10   7.191 ~ 0.134   s/op
StartupBenchmark.spring   a10_100  avgt   10   7.191 ~ 0.168   s/op
StartupBenchmark.spring    a20_50  avgt   10  11.541 ~ 0.158   s/op
StartupBenchmark.spring   a20_100  avgt   10  11.464 ~ 0.157   s/op
</code></pre>

<p>So this is the average startup of an app affected by aspects applying to the beans involved.
Where numbers are referenced the first is the number of aspects/pointcuts and the second
is the number of beans.  The 'a' indicates an annotation based pointcut vs a non-annotation 
based pointcut ('v'). Notice things are much worse for annotation based pointcuts.  At 20
pointcuts and 50 beans the app is 9 seconds slower to startup.
<br>

<p>In AspectJ 1.8.12 and 1.9.0.RC1 some work has been done here. The key change is to recognize that the use
of annotations with runtime retention is much more likely than annotations with class level
retention. Retrieving annotations with class retention is costly because we must open the
bytes for the class file and dig around in there (vs runtime retention which are immediately
accessible by reflection on the types). In 1.8.11 the actual type of the annotation involved
in the matching is ignored and the code will fetch *all* the annotations on the type/method/field
being matched against. So even if the match is looking for a runtime retention annotation, we
were doing the costly thing of fetching any class retention annotations. In 1.8.12/1.9.0.RC1
we take the type of the match annotation into account - allowing us to skip opening the classfiles
in many cases. There is also some deeper work on activating caches that were not previously
being used correctly but the primary change is factoring in the annotation type.

<p>What difference does that make?

AspectJ 1.9.0.RC1:
<pre><code>
Benchmark                 (scale)  Mode  Cnt  Score   Error  Units
StartupBenchmark.ltw          N/A  avgt   10  2.568 ~ 0.035   s/op
StartupBenchmark.ltw_100      N/A  avgt   10  2.622 ~ 0.075   s/op
StartupBenchmark.spring     v0_10  avgt   10  2.096 ~ 0.054   s/op
StartupBenchmark.spring     v1_10  avgt   10  2.206 ~ 0.031   s/op
StartupBenchmark.spring    v1_100  avgt   10  2.252 ~ 0.025   s/op
StartupBenchmark.spring    v10_50  avgt   10  2.979 ~ 0.071   s/op
StartupBenchmark.spring    v20_50  avgt   10  3.851 ~ 0.058   s/op
StartupBenchmark.spring   v20_100  avgt   10  4.000 ~ 0.046   s/op
StartupBenchmark.spring     a0_10  avgt   10  2.071 ~ 0.026   s/op
StartupBenchmark.spring     a1_10  avgt   10  2.182 ~ 0.032   s/op
StartupBenchmark.spring    a1_100  avgt   10  2.272 ~ 0.024   s/op
StartupBenchmark.spring    a10_50  avgt   10  2.557 ~ 0.027   s/op
StartupBenchmark.spring   a10_100  avgt   10  2.598 ~ 0.040   s/op
StartupBenchmark.spring    a20_50  avgt   10  2.961 ~ 0.043   s/op
StartupBenchmark.spring   a20_100  avgt   10  3.093 ~ 0.098   s/op
</code></pre>

<p>Look at the a20_100 case - instead of impacting start time by 9 seconds, it impacts it by 1 second.

<h3>More to come...</h3>

<ul>
<li><p>Eclipse JDT Java 9 support is still being actively worked on and lots of fixes will be coming through over the next few months
and included in AspectJ 1.9.X revisions.</p>

<li><p>AspectJ does not currently modify <tt>module-info.java</tt> files. An aspect from one module applying to code in
another module clearly introduces a dependency between those two modules. There is no reason - other than time! - that
this can't be done. (<a href="https://bugs.eclipse.org/bugs/show_bug.cgi?id=526244">Issue 526244</a>)</p>

<li><p>Related to that AspectJ, on detection of aspects should be able to automatically introduce the <tt>requires org.aspectj.runtime</tt> to
the <tt>module-info</tt>. (<a href="https://bugs.eclipse.org/bugs/show_bug.cgi?id=526242">Issue 526242</a>)</p>

<li><p>Module aware variants of AspectJ paths: <tt>--module-inpath</tt>, <tt>--module-aspectpath</tt>. (<a href="https://bugs.eclipse.org/bugs/show_bug.cgi?id=526243">Issue 526243</a>)</p>
</ul>

<br><br>


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