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Life Outside The Sphere
Building Palm Applications with WME

Debugging, profiling, packaging - whatever you want, WSDD can do it all. IBM's WebSphere Device Developer (WSDD) is a sophisticated development platform for IBM's WebSphere Micro Environment (WME, also known as J9). Based on Eclipse, it's just right for those who like to work with Eclipse. The problems start if you prefer to use some other IDE or you believe in automated, continuous integration. This article will show you how to master using WME without WSDD.

WSDD uses Ant build scripts, but effectively hides the implementation of its special tasks for the SmartLinker jxelink and other tools. If you want to build a WSDD project outside of WSDD, you can't rely on automatically generated Ant build files. This makes it hard to build a project from the command line and therefore rules out automatic builds. The necessary tasks are simply not accessible. On top of projects not being exportable, it's fairly difficult for inexperienced users to import an existing project into WSDD.

With this said, why would you use WSDD if it locks you in? Well, as mentioned before, it has a couple of nice features and - this is probably the main reason - if you want to use WME you have to install WSDD. IBM unfortunately does not offer WME without WSDD. Also since Big Blue seems to concentrate its documentation efforts on the IDE rather than the VM, it's only natural to use the IDE for convenience.

Luckily all the WSDD's custom Ant tasks are included as command-line tools in the WME. This allows us to call them using the <exec> task. Admittedly, there is a bit of irony here, because some of these tools were originally written in Java.

Palm as an Example
Let's look at an example that shows how to build a deployable application for J9 on Palm using Ant. To reference the base of the J9 installation, it makes sense to define a corresponding property. The J9 folder is usually installed in a subfolder of IBM/Device Developer/wsddx.y called ive, therefore we name the property ive. For the etymologists among you: ive is short for "IBM VisualAge Embedded," short for "IBM VisualAge Embedded Systems, Java Edition," which is the original name for VAME or "VisualAge Micro Edition," WSDD's successful predecessor (winner of the 2002 JDJ Reader's Choice Award for Best J2ME IDE).

The first step in producing our application is to compile the Java classes. IBM recommends using the J9 compiler j9c. Like all other J9 tools, j9c can be found in the folder ${ive}/bin. Experience shows that you're probably equally well off with a Sun compiler. To compile for a specific profile you have to include its classes in the bootclasspath. Typically you'll find the appropriate classes in ${ive} /lib/jcl<yourProfile>/classes.zip. Don't ask me why IBM doesn't stick to the convention of using JARs instead of zips. However, equipped like this, compiling should be a piece of cake.

<javac srcdir="src" destdir="classes" bootclasspath=

Once you have compiled all the sources, package them into the J9 archive format JXE (Java eXEcutable). This is done with the jxelink SmartLinker - a tool that not only packages, but also completely rearranges the bytecode. For platforms other than Palm and QNX it can even compile bytecode into native code (ahead-of-time compilation, AOT). Because of space constraints I won't delve into the many options of this tool; I'll only describe how to call it from Ant. Also, because there are so many options, it makes sense to use an extra file for them, just like WSDD does. The location of this file can be passed as an argument to the jxelink executable with a prefixed @. To access properties defined in the Ant file, you can declare macros for the link option file, for example:

<arg value="-macro"/>
<arg value="BASEDIR=${basedir}"/>
<arg value="-o"/>
<arg file="jxe/MyApp"/>
<arg value="@${basedir}/palm.link"/>

This code sets the macro BASEDIR to the same value as the property ${basedir} so that we can pass it into the options file ${basedir}/palm.link, then we can reference it with double curly parentheses like this {{BASEDIR}}. For example, if you put the line "-cp "{{BASEDIR}}/SomeLib.jar"" into the link options file, ${base dir}/SomeLib.jar will be added to the SmartLinker's classpath.

As the maximum segment size for the Palm is 64KB, jxelink has to be configured to produce multiple JXE files for applica- tions exceeding this limit. Therefore it usually makes sense to specify a separate output directory. In the previous code snippet we achieve this with the -o option. As a side note, this also means that each of your compiled classes must not be larger than 64KB, which can be tricky when you're using large arrays.

Once you have produced the necessary JXE files, you can proceed to build Palm resource files. If you are familiar with Palm development, you've probably already used the Palm resource compiler PilRC. This free tool compiles GUI definitions into binary resources, which you can use from your code. This makes sense, particularly when you're using the nongraphical CLDC (Connected Limited Device Configuration) because you want to reduce the footprint or escape the MIDP sandbox, but still need to use a GUI.

Like other VMs, J9 comes with wrapper classes for PalmOS (located in ${ive}/ runtimes/ palmos/68k/ ive/lib/ palmos.zip) that let you call the needed OS functions for presenting a GUI defined with PilRC. As the wrapper is fairly thin, this unfortunately means that you have to manually allocate and free memory. To those of us who got to appreciate garbage collection, this is really nasty.... However, to compile our GUI resources we simply invoke PilRC with the <exec> task.

<exec executable="pilrc.exe">
<arg file="MyApp.rcp"/>
<arg path="bin"/>

The first argument is the filename of the resource description file and the second is the output directory for the compiled results. Again, for brevity, I will not explain the PilRC file format as the compiler comes with a comprehensive and easy-to-understand manual.

Now we are getting to the final step: building the PRC (PalmOS Resource Collection) file. For this purpose we use J9's jxe2prc command-line tool. It takes all your compiled code and packages it into an executable PRC file. As we have to pass all the binary resource files on the command line, we need to build a corresponding property that contains all the filenames. We'll build this property by creating a <fileset> that contains all the binary files and then convert this file collection into a single property using the <pathconvert> task. Note that in order to avoid problems with spaces in the base directory, we substitute the base directory ${basedir} with a dot "." using <map>.

<fileset dir="bin" id="bin.files.id">
<include name="*.bin"/>
<pathconvert pathsep=" " property="bin.files" refid="bin.files.id">
<map from="${basedir}" to="."/>

Now that we can reference the files generated by PilRC, we call jxe2prc with the appropriate arguments. These are (in this order):

  • The four character Palm creator ID
  • Your application name
  • The main JXE file and all bin files we just generated
  • Name of the output file

    <arg value="myid"/>
    <arg value="MyApp"/>
    <arg file="jxe/MyApp.jxe"/>
    <arg line="${bin.files}"/>
    <arg file="MyApp.prc"/>


    With the help of the Palm install tool you can now synchronize the freshly built PRC file to your Palm and take your application for a spin - provided that you've already installed J9. This is done by synchronizing the PRC files found in ${ive}/runtimes/ palmos/68k/ive/ bin to your Palm. You'll need only one of the files, either midp20.prc or cldc20.prc, depending on which of the two you want to use.

    Chances are you'll want to try your application out in the emulator before you actually test it on a real device. To conveniently start your application with Ant, first create a Palm emulator session file (psf) with J9 already installed. To create this session, just install the PRC files from ${ive}/runtimes/palmos/ 68k/ive/bin in a session with a clean Palm ROM and save the session - e.g., under j9cldc_run.psf (see sidebar on how to obtain a ROM file). Then start the emulator like this:

    <exec executable="emulator.exe">
    <arg value="-psf"/>
    <arg file="j9cldc_run.psf"/>
    <arg value="-load_apps"/>
    <arg file="MyApp.prc"/>
    <arg value="-run_app"/>
    <arg value="MyApp"/>
    <arg value="-quit_on_exit"/>

    This task will automatically install and start your application. The -quit_on_exit option causes the emulator to automatically shut down once you exit your application. If you don't specify the -quit_on_exit option, it's crucial that you don't save your emulator session. Otherwise you won't have a clean environment the next time you start your application this way.

    If you're like every other developer, something is probably buggy in your application. The emulator lets you write to STDERR and STDOUT, but System.err.println-debugging is a little backward and certainly a time-consuming matter. What you really need is a debugger. As WME supports the Java Debug Wire Protocol (JDWP), you can attach the debugger of your choice to J9. Just take a short detour.

    First you need to tell J9 that it should start in debugging mode. For this purpose, load the j9cldc_run.psf profile you created earlier, open the "Prefs" application, and select "J9 Java VM" (see Figure 1). Then check the "Enable Debug" checkbox (see Figure 2) and save the profile under the name j9cldc_debug.psf. This is now your debug base session.

    Figure 1

    Figure 2

    J9 does not support JDWP directly. When linking with jxelink, all the debug symbols are stripped out of the JXE and put into a symbol file to minimize the JXE's size. Therefore your debugger needs to communicate with J9 through a tool called j9proxy. It takes the debuggee's and the debugger's addresses and the symbol file as arguments. The symbol file is located in the same directory as our JXE file and has the file extension sym.

    All we have to do now is start the j9proxy, our application, and the debugger. We can easily start the proxy and the application in an Ant target.

    <exec executable="emulator.exe">
    <arg value="-psf"/>
    <arg file="j9cldc_debug.psf"/>
    <arg value="-load_apps"/>
    <arg file="MyApp.prc"/>
    <arg value="-run_app"/>
    <arg value="MyApp"/>
    <arg value="-quit_on_exit"/>
    <arg value="localhost:8096"/>
    <arg value="localhost:8097"/>
    <arg file="jxe/MyApp.sym"/>

    Note that we put the two <exec> tasks inside a <parallel> container task in order to start both the application and the proxy at the same time. With this setup we expect the Palm application to fulfill the JDWP server role, listening with a socket on port 8096. Our debugger needs to be configured to use a socket as a transport layer to attach to the proxy, which is listening on port 8097 for the debugger's connection. The proxy in turn connects to the application on the Palm (see Figure 3).

    Figure 3

    Once we've started the Ant target we just need to start our debugger and we're ready to roll. While debugging, resist using the many optimization options jxelink has to offer. Neither obfuscation nor inlining is very conducive to debugging - you may end up waiting for a long time before the application hits any breakpoints, simply because the line of code your breakpoint is referencing may not exist anymore.

    There's no support for profiling J9 for Palm applications, so System.err-timestamps are your best bet. As the time inside the emulator is not the real time and usually goes by faster than on your PC, these timestamps are also a useful reality check about how slow your application would be on a real device.

    All in all IBM delivered a successful J2ME implementation, which can be integrated in a continuous integration software development process - thanks to the included command-line tools. Whether you like WSDD or not is a matter of taste. Anyhow, you can get around it. And if you run into problems on the way, just drop a line to the support newsgroup. Usually the folks from IBM/OTI answer quickly and with great expertise.

    How to Obtain a Palm ROM File
    There are two ways to obtain a Palm ROM file:
    1.  Become a member of the PalmSource (the software side of Palm) developer program and download ROMs from the program's Web site.
    2.  Transfer the ROM from a Palm device to your desktop machine using the ROM Transfer.prc file that comes with the Palm emulator. Directions are included in the emulator's manual.

    Either way works equally well. However, to deliver your application to a wide audience with many different Palm devices, join the Palm developer program and test your application with as many different ROMs as possible.

    MIDP on Tungstens
    The WME release included in WSDD 5.5 officially does not support Palm Tungstens. If you're just interested in deploying MIDP 1.0 applications on the Palm, look at the WME Toolkit for PalmOS developers, which supports Tungstens and is freely available from Palm. The toolkit lets you convert MIDP applications into PRC files for J9. Palm and IBM announced that future Tungsten devices will come with J9 preinstalled. Owners of Tungstens W, T2, and C who bought after October 1, automatically received a WME license bundled with their device. At the time of writing IBM had only published a Technical Preview for their upcoming WSDD 5.6 release, which will also support Palm Tungsten devices.

    What's in an Acronym?
    Confused by all the acronyms? You're not alone. Let's try to get it all straightened out.

  • Java Micro Edition (J2ME): Basically Java for small devices.
  • Connected Limited Device Configuration (CLDC): J2ME configuration for small devices.
  • Mobile Information Device Profile (MIDP): A profile based on CLDC, designed to extend and enhance the J2ME Connected Limited Device Configuration.
  • WebSphere Studio Device Developer (WSDD): An integrated development environment (IDE) for J2ME. Not to be confused with the Web site called WebSphere Developer Domain (WSDD).
  • WebSphere Micro Edition (WME): IBM's implementation of J2ME. This includes the JVM J9, originally written by the IBM subsidiary OTI.
  • Palm Resource Compiler (PilRC): A little freeware tool that compiles textual GUI definitions into binary resources.
  • Java Debug Wire Protocol (JDWP): An element of the Java Platform Debugger Architecture (JPDA) that defines how debugger and debuggee communicate with each other.
  • Palm OS Emulator (POSE): Free hardware emulator for Palm OS, published under GPL. Can only be used for Palm devices with Palm OS versions < 5.0. The emulator mentioned in the article always refers to POSE, not the newer Palm OS Simulator.
  • Palm OS Simulator: Palm OS 5.x recompiled for a desktop machine.
  • IBM VisualAge Embedded (IVE): Short for "IBM VisualAge Embedded Systems, Java Edition", which is the original name for "VisualAge Micro Edition" (VAME), WSDD's predecessor.


  • WME: www.ibm.com/software/wireless/wme/
  • WSDD: www.ibm.com/software/wireless/wsdd/
  • WSDD newsgroup: news:news.software.ibm.com/ibm.software.websphere.studio.device-developer
  • PilRC : www.ardiri.com/index.php?redir=palm&cat=pilrc
  • POSE : www.palmos.com/dev/tech/tools/emulator/
  • Palm Simulator : www.palmos.com/dev/tools/simulator/
  • JPDA/JDWP: http://java.sun.com/products/jpda
  • MIDP WME Toolkit for PalmOS: http://pluggedin.palm.com/regac/pluggedin/Toolkit
  • Project skeleton: www.sys-con.com/java/sourcec.cfm

    Author Bio
    Hendrik Schreiber develops data synchronization solutions utilizing SyncML and J2ME/J2EE for Nexthaus in Raleigh, North Carolina. He is also co-author and author of two German Java-related books, published by Addison-Wesley. [email protected]

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    Copyright ©  2004 SYS-CON Media, Inc.
      E-mail: [email protected]

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