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author | wisberg <wisberg> | 2006-02-02 23:35:16 +0000 |
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committer | wisberg <wisberg> | 2006-02-02 23:35:16 +0000 |
commit | 19b926e5c905acc5beb3738a5668f9705ea79cf9 (patch) | |
tree | d01f2026d9b5e9a48e15709b3e4e4237833378d0 /docs/faq/faq.xml | |
parent | 32c76aa52cab3f80e3ce8692c01f8fa26ce9baa4 (diff) | |
download | aspectj-19b926e5c905acc5beb3738a5668f9705ea79cf9.tar.gz aspectj-19b926e5c905acc5beb3738a5668f9705ea79cf9.zip |
more detail in memory answers, on incremental mode and strong static reference to singleton aspects
Diffstat (limited to 'docs/faq/faq.xml')
-rw-r--r-- | docs/faq/faq.xml | 22 |
1 files changed, 19 insertions, 3 deletions
diff --git a/docs/faq/faq.xml b/docs/faq/faq.xml index 5162ec343..8001b6a0f 100644 --- a/docs/faq/faq.xml +++ b/docs/faq/faq.xml @@ -22,7 +22,7 @@ 2003-2006 Contributors. All rights reserved. </para> <!-- todo Update me! --> - <para>Last updated January 22, 2006 + <para>Last updated February 2, 2006 </para> <para> For a list of recently-updated FAQ entries, see <xref linkend="q:faqchanges"/> @@ -3156,6 +3156,10 @@ aspect A { <para>When running under an IDE, look to the documentation for the IDE to determine how to increase available memory. </para> + <para>In either case, doing incremental compilations can hold on to + more memory than a one-shot compile process, as the compiler + trades space for time in recompiles. + </para> </answer> </qandaentry> <qandaentry> @@ -3728,12 +3732,14 @@ aspect A { <para>When running classes produced by the AspectJ weaver or compiler, there are no significant hidden uses of memory. As would be expected, each aspect is instantiated. The per-object aspects (like - <literal>pertarget</literal> or <literal>perthis</literal>) also + <literal>pertarget</literal> or <literal>perthis</literal>) + in some implementations use a map to link aspects and the associated object. When using <literal>cflow</literal>-related pointcuts, a <literal>ThreadLocal</literal> is used to track control flow for each affected thread. </para> <para>Of course, the size and code in an aspect can require memory. + Aside from normal Java practices, take care with join point references. When referencing the static part of a join point (e.g., <literal>thisJoinPointStaticPart</literal>), only one object is created. However, if you reference the join point itself @@ -3741,6 +3747,15 @@ aspect A { <literal>JoinPoint</literal> object will be created for each join point running advice. </para> + <para>Aspect instances will be garbage collected just like regular objects + after there are no more strong references to them. For the default + aspect instantiation model, <literal>issingleton</literal>, the aspect + class retains a reference to the singleton instance, in order to + implement <literal>static {AspectClass} aspectOf()</literal>, so + singleton instances will not be garbage collected until the class is. + For long-running or memory-critical programs, consider using weak + references in singleton aspects for state that should be garbage collected. + </para> <para>Finally, when using load-time weaving, the weaver can require memory in its own right. Because the class loader never can know when it is done loading classes, the weaver can hold on @@ -5028,8 +5043,9 @@ aspectj.doc.dir=C:/eclipse/aspectj-workspace/aj-build/dist/ide/eclipse/org.aspec <para> Entries changed recently: <itemizedlist> - <listitem><para><xref linkend="q:howIncrementalWorks"/></para></listitem> <listitem><para><xref linkend="q:runtimeMemory"/></para></listitem> + <listitem><para><xref linkend="q:ajcoom"/></para></listitem> + <listitem><para><xref linkend="q:howIncrementalWorks"/></para></listitem> <listitem><para><xref linkend="q:compilerRequired"/></para></listitem> <listitem><para><xref linkend="q:aspectj5features"/></para></listitem> <listitem><para><xref linkend="q:codeversusannotationstyles"/></para></listitem> |