Jogl FAQ

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JOGL FAQ

Versioning and Releases

What are the Runtime OpenGL Version Requirements ?

The current JOGL2 spec is in WIP state, but mostly finished. We do not require any extra features of GL versions > 1.1, hence it shall just work.

E.g. if you want to

  • support OpenGL platforms not supporting a version > 1.2
  • use GL ≥ 1.3 features optionally

Just query their availability e.g.:

gl.isExtensionAvailable("GL_VERSION_1_3")

If you call a > 1.2 GL function where it is not available, a GLException is thrown.

JOGL requires at least an OpenGL version 1.1, due to it's dynamical function binding starting with OpenGL 1.2.

Use and test Autobuilds

I like to summarize how to manually test the JOGL autobuilds, starting with 2010-11-10.

You can fetch autobuilds from one the autobuild folder.

Runtime Version Check

The simplest verification of a JOGL build is to use the runtime version check.

For JOGL, it should run 2 tests.

  • Just the VersionInfo of the JAR's manifest file
-----------------------------------------------------------------------------------------------------
JOGL Platform: Linux 2.6.35.7-x86_64-k10-x8-risa (os), amd64 (arch)
JOGL Platform: littleEndian true, 32Bit false, a-ptr bit-size 64
JOGL Platform: Java 1.6.0_21, Sun Microsystems Inc., http://java.sun.com/, is JavaSE: true

JOGL package javax.media.opengl
JOGL Implementation-Title = Java Bindings for OpenGL Runtime Environment
JOGL Implementation-Version = 2.0-b211-20101110
JOGL Specification-Vendor = JogAmp Community
JOGL Manifest-Version = 1.0
JOGL Created-By = 1.6.0_21-b06 (Sun Microsystems Inc.)
JOGL Implementation-Vendor = JogAmp Community
JOGL Implementation-Commit = 0893339854e3f4a4fab7b19e073304973e763b10
JOGL Ant-Version = Apache Ant 1.8.0
JOGL Implementation-Vendor-Id = com.jogamp
JOGL Trusted-Library = true
JOGL Specification-Title = Java Bindings for OpenGL API Specification
JOGL Implementation-Branch = master
JOGL Specification-Version = 2.0
JOGL Extension-Name = javax.media.opengl
-----------------------------------------------------------------------------------------------------
  • VersionInfo plus OpenGL platform information
<SKIPPED above VersionInfo>
-----------------------------------------------------------------------------------------------------
JOGL NEWT Test main GLAvailability[Native[GL4bc true[4.1 (compatibility profile, any, new)], 
                                                      GL4 true[4.1 (core profile, any, new)], 
                                                      GL3bc true[3.3 (compatibility profile, any, new)], 
                                                      GL3 true[3.3 (core profile, any, new)], 
                                                      GL2 true[3.0 (compatibility profile, any, new)], 
                                                      GL2ES1 true, GLES1 false, GL2ES2 true, GLES2 false], 
                                                      Profiles[GLProfile[GL2ES2/GL2], GLProfile[GL2ES1/GL2], 
                                                                  GLProfile[GL2/GL2], GLProfile[GL4/GL4], GLProfile[GL3/GL3], 
                                                                  GLProfile[GL4bc/GL4bc], GLProfile[GL2GL3/GL2], 
                                                                  GLProfile[GL3bc/GL3bc], , default GLProfile[GL2/GL2]]]
JOGL NEWT Test main Swap Interval -1
JOGL NEWT Test main GL Profile    GLProfile[GL2/GL2]
JOGL NEWT Test main CTX VERSION   3.0 (compatibility profile, any, new) - 3.0.0 NVIDIA 260.19.12
JOGL NEWT Test main GL            com.jogamp.opengl.impl.gl4.GL4bcImpl@76497934
JOGL NEWT Test main GL_VERSION    3.0.0 NVIDIA 260.19.12
JOGL NEWT Test main GL_EXTENSIONS
JOGL NEWT Test main               GL_ARB_blend_func_extended GL_ARB_color_buffer_float <TRUNCATED>
-----------------------------------------------------------------------------------------------------


The first test does not involve any native method calls and shall always succeed, where the latter initializes the native libraries and OpenGL, which information is being dumped as well.

Both results are dumped to the file

test.log

,

which you should send to us in case of a bugreport.

JOGL Demos

Let’s assume we are in the test directory ‘test’, from which we operate from this point.

  • Get jogl-2.0-pre-20090702-linux-amd64.zip. In case we have build a reference implementation (RI) the substring ‘pre-yyyymmdd-’ will be dropped. Replace the version 2.0 with the latest available and the OS/arch linux-amd64 with your test platform. Extract the archive, ie
    unzip jogl-2.0-pre-20090702-linux-amd64.zip
    . Create a symbolic link or rename the archive directory from jogl-2.0-pre-20090702-linux-amd64 to jogl, ie
    ln -s jogl-2.0-pre-20090702-linux-amd64 jogl
    .
  • If you like to test the binding to NV’s Cg, download and install

We assume java is in your binary search path.

On X11/Unix and MaxOSX you can test the build as follows:

sh java-run-newt.sh demos.es2.RedSquare -GL2 -GL2 -GL2
sh java-run.sh demos.gears.Gears

and with debug output

sh java-dbg-newt.sh demos.es2.RedSquare -GL2 -GL2 -GL2
sh java-dbg.sh demos.gears.Gears

On Windows you shall be able to run:

java-win32.bat demos.es2.RedSquare -GL2 -GL2 -GL2
java-win32.bat demos.gears.Gears

and with debug output

java-win32-dbg.bat demos.es2.RedSquare -GL2 -GL2 -GL2
java-win32-dbg.bat demos.gears.Gears

The windows scripts are pretty simple and flat.

The magic unix scripts offer more features and can be used either in the autobuild environment or in your development one.

  • setenv-jogl.sh <JOGL-PROFILE> [<jogl-build-dir>]

Looks up and invokes profile.jogl, finds gluegen, sets the environment variables (CLASSPATH, LD_LIBRARY_PATH & PATH).

  • jogl/etc/profile.jogl <JOGL-PROFILE> [<jogl-build-dir>]

JOGL profiles are one of JOGL_ALL, JOGL_ES1_MIN, JOGL_ES1_MAX, JOGL_ES2_MIN, JOGL_ES2_MAX, JOGL_GL2ES12_MIN, JOGL_GL2ES12_MAX, JOGL_GL2_MIN, JOGL_GL2_MAX. Looks up the set of JAR files necessary to satisfy the chosen JOGL-PROFILE.

This allows you to test a specific environment, ie ES2 without GL2 and AWT, using JOGL_ES2_MIN. For this case I would recommend the native ES2 implementation from imageon SDK_OGLES2_LINUX_PCEMULATION_2.02.22.0756.

Bugreports & Testing

For all bug reports, please add the following information to your email:

JOGL, Platform and OpenGL Version

Please perform a runtime version check, which provides the following information:

  • Platform
    • OS & version
    • Architecture
    • OpenGL Version
    • Java version (java -version)
  • JOGL version
    • GIT revision
    • Autobuild version

Send us the resulting file

test.log

.

Detailed Bug Information

  • Your Test case
    • Source code, or reference to it if possible
    • Invocation command-line
    • Exceptions, stdout/stderr log file

If possible, please add the following system properties to enable DEBUG logging: -Dnewt.debug=all -Dnativewindow.debug=all -Djogl.debug=all

For example:

java -Djava.awt.headless=true -Dnewt.debug=all -Dnativewindow.debug=all \
-Djogl.debug=all demos.es2.RedSquare 2>&1 | tee RedSquare.report.log

To test applets use the jcontrol panel or edit ~/.java/deployment.properties directly and

  • Add JRE Arguments:
    -Djava.awt.headless=true -Dnewt.debug=all -Dnativewindow.debug=all -Djogl.debug=all
  • Enable logging/trace
  • Show the console window, or just use th latest log-file in
    ~/.java/deployment/log/

Get the Source Code

Create a local copy/branch of the git repository, either anonymous:

or via SSH and your user credential, so you can easily push back your changes to the github server:

How to build

How to participate and use git

Yes, gluegen, jogl and all the stuff has been migrated to git, thanks to the great git toolchain.

In the past we were using a centralized repository only, SVN, and you really needed access to it as a developer.

Thanks to the distributed nature of git, this is no more a real issue. The only thing left is to provide a media to offer your branch to one of us, this can be via email, http, git, ssh, whatever you wish - it's easy. For bigger projects maintained in a branch or if you don't have your own public server to offer yours, we are pleased to grant you write access to our repository!

However, don't just modify the master branch without our permission, or any other existing branch which is not assigned to you! We will just trust you here, but if you misbehave, your privileges will be removed. Instead, create a branch of your own and push it to the server, then you will ask one of us to pull your branch, which we will verify and merge, if it's fine. Thanks to git, this is so easy now. And this is the current way how you collaborate using a distributed SCM.

Common Runtime Problems

X11: OpenGL library is not picked up correctly, no OpenGL available

In case you are running a DRI machine, eg ATI's proprietary driver or an open source one, you may need to ensure that the environment variable LIBGL_DRIVERS_PATH is set properly.

I ran into this while testing the 32bit builds on a 64bit machine as a different user. Since LIBGL_DRIVERS_PATH is only setup for the desktop user on Ubuntu, some /etc/X11/Xsession.d/ script, I couldn't get a GL context to work.

So I had to set mine to the value:

export LIBGL_DRIVERS_PATH=/usr/lib/fglrx/dri:/usr/lib32/fglrx/dri

See also: Ubuntu fglrx bug entry

How to develop Cross-Device Applications

First you have to pick your lowest common denominator of an OpenGL profile, ie OpenGL ES1 or ES2. For either we offer an intersecting desktop GL profile, GL2ES1 or GL2ES2. Use the latter while creating your GLCapabilities. Build and run your application with the minimum GL profile JARS, e.g. on the desktop use:

~/jogl-demos> . ./setenv-jogl.sh JOGL_GL2ES12_MIN ../jogl/build

Here you are on a Unix platform (not Window) and your common build subdirectory is 'build'. jogl-demos/setenv-jogl.sh is provided within jogl-demos, which itself utilizes jogl/etc/profile.jogl.

This uses the GlueGen/JOGL JARS:

  • gluegen-rt.jar
  • nativewindow.core.jar
  • jogl.core.jar
  • jogl.util.jar
  • jogl.gl2es12.x11.jar
  • jogl.util.fixedfuncemu.jar
  • newt.core.jar
  • newt.ogl.jar

On a mobile device using CVM, you would use:

  • gluegen-rt-cdc.jar
  • nativewindow.core.cdc.jar
  • jogl.core.cdc.jar
  • jogl.util.cdc.jar
  • jogl.egl.cdc.jar
  • jogl.gles1.cdc.jar or jogl.gles2.cdc.jar
  • jogl.util.fixedfuncemu.cdc.jar
  • newt.core.cdc.jar
  • newt.ogl.cdc.jar

Please check JOGL Deployment also.

Now, the same Java application shall run on all devices, desktop and mobile. See demos.es1.RedSquare of the jogl-demos repository.

On the desktop you may run the ES1 demo:

~/jogl-demos> sh java-run-newt.sh demos.es1.RedSquare -GL2ES1

and the output is:

null RedSquare.run() 0
User screen size 0x0
Detected screen size 1920x1200
GLProfile[GL2ES1/GL2ES12] Entering initialization
GLProfile[GL2ES1/GL2ES12] GL Profile: GLProfile[GL2ES1/GL2ES12]
GLProfile[GL2ES1/GL2ES12] GL:com.sun.opengl.impl.gl2es12.GL2ES12Impl@b815859
GLProfile[GL2ES1/GL2ES12] GL_VERSION=3.0.0 NVIDIA 185.18.14
GLProfile[GL2ES1/GL2ES12] GL_EXTENSIONS: ..

How to use JOGL in Applets (part 1)

A Java Applet using JOGL may utilize 2 methods

Standard JNLP Applets are supported starting with Java 6u14, however, if you run MacOSX or an older version of Java, you may need to use the Applet-Launcher.

Below we utilize both, the standard JNLP mechanism of 6u14 as the default, or falling back to our Applet-Launcher.

You will find the JNLP file applet-gears.jnlp further below, which is being used in case of a JNLP launch, otherwise it is ignored and the archive tags are being used, hence the applet-launcher will be started.

The below demo is online here.

Note: It is important for the startup time to have the same JVM arguments in the applet tags, as well as within the JNLP applet description, here see property sun.java2d.noddraw. Only if JVM arguments of the JNLP applet description are satisfied by the applet tag’s JVM, the plugin will not need to start a new JVM. OF course, the applet tag’s JVM spec may exceed the JNLP applet’s one.

Note: A bug on MacOSX is known, launching 2 JOGL applets in 2 tabs.

<applet code="org.jdesktop.applet.util.JNLPAppletLauncher"
      width=600
      height=400
      archive="http://download.java.net/media/applet-launcher/applet-launcher.jar,
               http://download.java.net/media/jogl/jsr-231-2.x-webstart/nativewindow.all.jar,
               http://download.java.net/media/jogl/jsr-231-2.x-webstart/jogl.all.jar,
               http://download.java.net/media/gluegen/webstart-2.x/gluegen-rt.jar,
               http://download.java.net/media/jogl/jsr-231-2.x-demos-webstart/jogl-demos.jar">
   <param name="codebase_lookup" value="false">
   <param name="subapplet.classname" value="demos.applets.GearsApplet">
   <param name="subapplet.displayname" value="JOGL Gears Applet">
   <param name="noddraw.check" value="true">
   <param name="progressbar" value="true">
   <param name="jnlpNumExtensions" value="1">
   <param name="jnlpExtension1"
          value="http://download.java.net/media/jogl/jsr-231-2.x-webstart/jogl-core.jnlp">
   <param name="java_arguments" value="-Dsun.java2d.noddraw=true">
   <param name="jnlp_href" value="applet-gears.jnlp">
</applet>

Where the referenced JNLP file applet-gears.jnlp looks as follow:

<?xml version="1.0" encoding="utf-8"?>
<jnlp href="applet-gears.jnlp">
  <information>
    <title>JOGL JNLP Applet Gears Demo</title>
    <vendor>Sun Microsystems, Inc.</vendor>
    <homepage href="http://jogl-demos.dev.java.net/"/>
    <description>Gears Demo</description>
    <description kind="short">Brian Paul's Gears demo ported to Java and JOGL.</description>
    <offline-allowed/>
  </information>

    <resources>
      <j2se href="http://java.sun.com/products/autodl/j2se" version="1.4+"/>
      <property name="sun.java2d.noddraw" value="true"/>
      <jar href="http://download.java.net/media/jogl/jsr-231-2.x-demos-webstart/jogl-demos.jar" main="true"/>
      <jar href="http://download.java.net/media/jogl/jsr-231-2.x-demos-webstart/jogl-demos-util.jar"/>
      <extension name="jogl-all-awt" href="http://download.java.net/media/jogl/jsr-231-2.x-webstart/jogl-all-awt.jnlp" />
    </resources>

  <applet-desc
      name="Gears-Applet"
      main-class="demos.applets.GearsApplet"
      width="640"
      height="480">
  </applet-desc>
</jnlp>

What is Newt's Threading Model for native window events ?

As of today, Newt's default threading model to handle native events is the event dispatch thread (EDT) model.

It's introduction was necessary to allow a 'peace of mind', high performance and reactive solution of the dispatch event problem. Some OS, especially MS-Windows, require one to create the native Window and dispatch it's events from the same native thread. As it was easy to handle these requirements from a simple test application, as it is difficult to solve this from a framework operating with multiple temporary threads, a web browser for example.

Newt's EDT impl. creates one EDT per Display and calling thread, as the Display instance is unique per thread.

Using EDT is not mandatory, and you can turn it off in the NewtFactory, and deal with the event dispatch manually.

How to use Newt with multiple Windows & Threads

Newt is capable of handling multiple threads and windows.

For best performance, you may create one thread per window, if possible.

Below you see the invocation of the ES2 RedSquare jogl-demos utilizing multiple threads.

  • Single thread (Unix, Win32)
    java -Djava.awt.headless=true demos.es2.RedSquare -GL2
  • Single thread (MacOSX)
    java -XstartOnFirstThread -Djava.awt.headless=true demos.es2.RedSquare -GL2
  • Multiple threads & windows (Unix, Win32)
    java -Djava.awt.headless=true demos.es2.RedSquare -GL2 -GL2 -GL2 -GL2
  • Multiple threads & windows (MacOSX)
    java -XstartOnFirstThread -Djava.awt.headless=true com.sun.javafx.newt.util.MainThread demos.es2.RedSquare -GL2 -GL2 -GL2 -GL2

The serialization of the main Java class through com.sun.javafx.newt.util.MainThread may be used for all platforms, since it only takes effect on MacOSX. This allows you an almost platform independent invocation of your multithreaded Java applications.

On MacOSX, com.sun.javafx.newt.util.MainThread will occupy the main thread and serializes all native window related tasks through it. This mechanism is thread safe utilizes reentrant locking.

Why using AWT for high performance is not a good idea ?

AWT (on many implementations) holds the lock to the underlying native resources, e.g. X11 display, screen and window surface, hence we have to obey these locks for any GL action bound to such.

This is still pretty standard matter as long these locks only have to be applied to the actual resource in use.

On AWT, it turns out that we have to use the global JAWT toolkit lock for any native operation, ie OpenGL. This might not be a problem for a single threaded GL application, but if you start a multithreaded beast, you will recognize that it will stumble around.

You can verify this behavior with the ES1 RedSquare demo:

  • AWT - No VSync - One Thread
  java demos.es1.RedSquare -awt -swapi 0 -GL2
      5s: 3379f, 675 fps, 1 ms/f; total: 5s, 675 fps, 1 ms/f

Even here you may experience some stuttering ..

If you force disabling the toolkit lock:

     java -Dnativewindow.nolocking=true demos.es1.RedSquare -awt -swapi 0 -GL2

The demo may freeze forever .. due to native locking.

  • NEWT - No VSync - One Thread
    java -Djava.awt.headless=true demos.es1.RedSquare -swapi 0 -GL2
      5s: 5958f, 1191 fps, 0 ms/f; total: 5s, 1191 fps, 0 ms/f

Runs much smoother .. without the stuttering locking experience ..

This becomes much clearer with more threads:

  • AWT - No VSync - Three Threads
    java demos.es1.RedSquare -awt -swapi 0 -GL2 -GL2 -GL2
      5s: 772f, 151 fps, 6 ms/f; total: 5s, 151 fps, 6 ms/f
  • NEWT - No VSync - Three Threads
    java -Djava.awt.headless=true demos.es1.RedSquare -swapi 0 -GL2 -GL2 -GL2
      5s: 1669f, 333 fps, 2 ms/f; total: 5s, 333 fps, 2 ms/f

Why using Swing for high performance is not a good idea ?

First, all this inherents all arguments from 'Why using AWT for high performance is not a good idea ?

Second, it involves compositioning using different methods, some may not be available on some platforms.

From fast to slow:

1.) External Java2D's GLContext and FBO object.
  • GL stuff HW accelerated.
  • Available on some platforms: Linux/Windows Sun's Java2D impl.
  • Setup with System property 'sun.java2d.opengl' to 'true'.
  • Renders directly into Java2D's FBO object, if available.
2.) Own PBuffer GLContext, which has to be composed.
  • GL stuff HW accelerated.
  • Available on most platforms: No dependency to Java2D implementation.
  • Renders into an own offscreen drawable, and copies it over to AWT's BufferedImage.
3.) Own Pixmap GLContext, which has to be composed.
  • GL stuff unlikely hw accelerated.
  • Available on most platforms: No dependency to Java2D impl.
  • Renders into an own offscreen drawable, and copies it over to AWT's BufferedImage.

As you see, no straight forward HW rendering is involved, assuming that even the windowing manager is using offscreen surfaces - you would have 2 compositions here already.

At least (1) would be 'acceptable' here, if available, but if only (2) is available - the performance would not match the state of the art!

Sure, it might be enough for some UIs or static pictures .. or so, otherwise, I would prefer the 'overlay' method, ie using a GLCanvas within a Swing component, while no menu is being shown.

However you do it .. the generic AWT 'restrictions' apply here as well.


Using OpenGL without a visible component

Sometimes you might want to do OpenGL work without a visible GLDrawable or before making your drawable visible.