зеркало из https://github.com/mozilla/gecko-dev.git
d5ee52a5e8
A top-level make now builds everything, including linux |
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.. | ||
jni | ||
tests/src | ||
DocumentImpl.java.patch | ||
Makefile | ||
Makefile.in | ||
README | ||
TODO | ||
makefile.win | ||
nsIJavaDOM.h | ||
nsJavaDOMCID.h | ||
nsJavaDOMFactory.cpp | ||
nsJavaDOMFactory.h | ||
nsJavaDOMImpl.cpp | ||
nsJavaDOMImpl.h | ||
nsJavaDOMModule.cpp | ||
nsJavaDOMModule.h | ||
nsWebShell.cpp.patch |
README
Using the Java DOM API ---------------------- A Java component obtains a org.w3c.dom.Document by registering for Document load notifications. The Document is passed in along with the notifications. The preferred way for a Java component to register for Document load notifications is to register via the DOMAccessor class. However until OJI is used to obtain JNIEnv one has to apply two patches webshell/src/nsWebShell.cpp.patch java/dom/jni/DocumentImpl.java.patch The first one inits nsJavaDOM component and starts jvm. The second one registers a document load listener via DOMAccessor. Note: any class that implements the DocumentLoadListener interface may stand for TestDocLoadListener. See the section on Building for instructions on how to apply the patches. Makefiles --------- You may have to set DEPTH to point to the mozilla CVS workspace root in Makefile and jni/Makefile. SInce this stuff is not part of the regular SeaMonkeyBuild, Makefiles are not generated from Makefile.in, so just go ahead and hack the Makefile. That is also why I have a separate Makefile.linux for Linux. (Does not work with Linux... last time I checked, the Blackdown JDK had a problem creating the JVM in nsJavaDOMImpl.cpp::Initialize:CreateJavaVM). Building -------- After having done a configure at the top level of SeaMonkey, do a make in the dom and the dom/jni directories. This will copy over a few header files that are needed by the patch to nsWebShell. You can then apply the patch to nsWebShell.cpp by executing `patch nsWebShell.cpp <nsWebShell.cpp.patch` Edit Makefile.in to add -DJAVA_DOM to the list of defines. Then do a gmake in this directory. Similarly apply the DocumetnImpl.java patch. Then recompile the DocumentImpl class. No changes in makefiles needed. Define JDKHOME so that $JDKHOME/bin points to javac. You will also need to get the w3c DOM level 2 interfaces from http://www.w3.org/TR/WD-DOM-Level-2/java-binding.zip and put the class files in your CLASSPATH. DOM2 events ------------ At the moment all DOM2 event-related interfaces are present however they are not fully implemented yet because Mozilla's core DOM does not support DOM2 events fully. Consequences: - some methods throws OperationUnsupportedException() - Some of key codes defined at DOM2 specs are never returned (they are not supported by core DOM) The basic implementation architecture is following: - NodeImpl is extended to support EventTarget interface - for every addEventListener call special NativeDOMProxyListener object is created and is registered with Mozilla's DOM It's task is to propagate event notifications from Mozilla's DOM to target Java EventListener - In order to sucessfully unregister EventListeners we need to save association between java EventListener and corresponding NativeDOMProxyListener object. This is done by storing such associations Vector at NodeImpl - javaDOMEventsGlobals class is used much like javaDOMGlobals for caching (this code may be moved to javaDOMGlobals) NSPR Logging ------------ The NSPR Log module name is javadom. For instructions on how to enable logging, see dist/include/prlog.h Debug output ------------ The debug build of the Java DOM API creates the JVM with the verbose and the verboseGC options turned on, to help in debugging. It also creates two files in the current working directory, dom-java.txt and dom-cpp.txt, which are simple dumps of the DOM, as printed from C++ and from Java. The two should be identical. The code to write these files is, essentially, my regression test. Feel free to add to it. OJI --- Currently the nsJavaDOM component instantiates its own JVM. When an OJI-compatible JVM is available, we will move over to using it. Dependencies ------------ Currently tested on Solaris 7 only with Java 2 SDK 1.2.1. egcs-2.91.66, Sun Workshop C++ 4.2 and 5.0 have been know to compile this code fine. gcc-2.8.1 does *not* work. I have not used anything Java2-specific, and it works with JDK1.1.x too (I have been using JDK 1.1.6 too). References ---------- I highly recommend reading Sheng Liang's new JNI book.