The latest version of this document can be found on the web at Eclipse Release Notes 4.6 (Neon). There may or may not be changes made after the product is released. You can tell by checking the "last revised" date near the top of this page.
In order to remain current, each Eclipse Project release targets reasonably current operating environments.
Most of the Eclipse SDK is "pure" Java code and has no direct dependence on the underlying operating system. The chief dependence is therefore on the Java Platform itself. Portions are targeted to specific classes of operating environments, requiring their source code to only reference facilities available in particular class libraries (e.g. J2ME Foundation 1.1, J2SE 1.4, Java 5, etc).
In general, the 4.6 release of the Eclipse Project is developed on Java SE 8 VMs. As such, the Eclipse SDK as a whole is targeted at all modern, desktop Java VMs.
Appendix 1 contains a table that indicates the class library level required for each bundle.
There are many different implementations of the Java Platform running atop a variety of operating systems. We focus our testing on a handful of popular combinations of operating system and Java Platform; these are our reference platforms. Eclipse undoubtedly runs fine in many operating environments beyond the reference platforms we test. However, since we do not systematically test them we cannot vouch for them. Problems encountered when running Eclipse on a non-reference platform that cannot be recreated on any reference platform will be given lower priority than problems with running Eclipse on a reference platform.
Eclipse 4.6 is tested and validated on a number of reference platforms. For the complete list, see Target Environments in the 4.6 Plan.
As stated above, we expect that Eclipse works fine on other current Java VM and OS versions but we cannot flag these as reference platforms without significant community support for testing them.
The Eclipse SDK is designed as the basis for internationalized products. The user interface elements provided by the Eclipse SDK components, including dialogs and error messages, are externalized. The English strings are provided as the default resource bundles.
Latin-1, DBCS, and BiDi locales are supported by the Eclipse SDK on all reference platforms.
The Eclipse SDK supports GB 18030 (level 1), the Chinese code page standard, on Windows, Linux and the Macintosh.
German and Japanese locales are tested.
Eclipse 4.6 is compatible with Eclipse 4.5 (and all earlier 3.x versions).
API Contract Compatibility: Eclipse SDK 4.6 is upwards contract-compatible with Eclipse SDK 4.5 except in those areas noted in the Eclipse 4.6 Plug-in Migration Guide. Programs that use affected APIs and extension points will need to be ported to Eclipse SDK 4.6 APIs. Downward contract compatibility is not supported. There is no guarantee that compliance with Eclipse SDK 4.6 APIs would ensure compliance with Eclipse SDK 4.5 APIs. Refer to Evolving Java-based APIs for a discussion of the kinds of API changes that maintain contract compatibility.
Binary (plug-in) Compatibility: Eclipse SDK 4.6 is upwards binary-compatible with Eclipse SDK 4.5 except in those areas noted in the Eclipse 4.6 Plug-in Migration Guide . Downward plug-in compatibility is not supported. Plug-ins for Eclipse SDK 4.6 will not be usable in Eclipse SDK 4.5. Refer to Evolving Java-based APIs for a discussion of the kinds of API changes that maintain binary compatibility.
Source Compatibility: Eclipse SDK 4.6 is upwards source-compatible with Eclipse SDK 4.5 except in the areas noted in the Eclipse 4.6 Plug-in Migration Guide . This means that source files written to use Eclipse SDK 4.5 APIs might successfully compile and run against Eclipse SDK 4.6 APIs, although this is not guaranteed. Downward source compatibility is not supported. If source files use new Eclipse SDK APIs, they will not be usable with an earlier version of the Eclipse SDK.
Workspace Compatibility: Eclipse SDK 4.6 is upwards workspace-compatible with earlier 3.x and 4.x versions of the Eclipse SDK unless noted. This means that workspaces and projects created with Eclipse SDK 4.5, 4.4, 4.3, 4.2, ... 3.0 can be successfully opened by Eclipse SDK 4.6 and upgraded to a 4.6 workspace. This includes both hidden metadata, which is localized to a particular workspace, as well as metadata files found within a workspace project (e.g., the .project file), which may propagate between workspaces via file copying or team repositories. Individual plug-ins developed for Eclipse SDK 4.6 should provide similar upwards compatibility for their hidden and visible workspace metadata created by earlier versions; 4.6 plug-in developers are responsible for ensuring that their plug-ins recognize metadata from earlier versions and process it appropriately. User interface session state may be discarded when a workspace is upgraded. Downward workspace compatibility is not supported. A workspace created (or opened) by a product based on Eclipse 4.6 will be unusable with a product based on an earlier version of Eclipse. Visible metadata files created (or overwritten) by Eclipse 4.6 will generally be unusable with earlier versions of Eclipse.
Non-compliant usage of API's: All non-API methods and classes, and certainly everything in a package with "internal" in its name or x-internal in the bundle manifest entry, are considered implementation details which may vary between operating environment and are subject to change without notice. Client plug-ins that directly depend on anything other than what is specified in the Eclipse SDK API are inherently unsupportable and receive no guarantees about compatibility within a single release much less with earlier releases. Refer to How to Use the Eclipse API for information about how to write compliant plug-ins.
Note: Bug numbers refer to the Eclipse project bug database at http://bugs.eclipse.org/bugs/
Here are some common problems that can cause Eclipse not to start:
-vm
command-line argument. (See also the Running Eclipse section below.)
* run-java-tool is not available for sun-jdk-1.6 on i686
* IMPORTANT: some Java tools are not available on some VMs on some architectures
eclipse -vm `java-config
--java` (bug 176021)
-configuration
command line argument. (bug 67719)
Eclipse will fail to launch if installed in a directory whose path contains certain invalid characters, including :%#<>"!. The workaround is to install Eclipse in a directory whose path does not contain invalid characters. (bugs 3109 and 17281)
The Oracle JVM may hang indefinitely during class loading if it runs out of permanent generation memory. This will cause CPU usage to stay at 100% until the process is ended. See the section Running Eclipse for details on addressing this VM problem.
The most common problems surrounding GCJ are:
The two most common workarounds are:
To download Eclipse, try one of the links below:
It is imperative that 64-bit builds are downloaded and used if a 64-bit Java runtime environment has been installed. Below are two sample tarball names of version 4.6 of the Eclipse SDK packaged
for 32-bit and 64-bit processors.
eclipse-SDK-4.6-linux-gtk.tar.gz (32-bit)
eclipse-SDK-4.6-linux-gtk-x86_64.tar.gz (64-bit)
To run Eclipse with an alternate Java runtime environment, the path to the Java virtual machine's binary must be identified. With an Eclipse installation from the distribution, altering the $PATH
variable to include the path to the alternate Java runtime environment is often not enough as the Eclipse that Linux distributions package often performs a scan internally to pick up GCJ by itself
whilst ignoring what's on the $PATH. An example of the terminal's output is shown below:
searching for compatible vm...
testing /usr/lib/jvm/java-gcj...found
Once the path to the virtual machine's binary has been identified, try running Eclipse with the following command:
./eclipse -vm /path/to/jre/bin/java
For an actual example, it might look something like the following:
./eclipse -vm /usr/lib/jvm/sun-java-6/bin/java
./eclipse -vm /opt/sun-jdk-1.6.0.02/bin/java
If this seems to solve the problem, it is likely that the problem really was related to the use of GCJ as the Java runtime for running Eclipse. The eclipse.ini file located within Eclipse's folder
can be altered to automatically pass this argument to Eclipse at startup. An example of its content is presented below:
-showsplash
org.eclipse.platform
-vm
/opt/sun-jdk-1.6.0.02/bin/java
-vmargs
-Xms40m
-Xmx512m
Note that every argument must be on its own line. More information about the eclipse.ini file can be found at http://wiki.eclipse.org/Eclipse.ini.
If problems persists after downloading an installation of Eclipse from eclipse.org and using a supported Java runtime environment (a list of which may be found above), you can seek further assistance through the forums, the IRC channel, and/or bugzilla.
If you set the context class loader for the current thread, you are competing with other users of the thread (all of Eclipse), so the results will be unpredictable. However, there should be no problem in practice provided you reset the context class loader back to its original value when your use in the current thread is complete. (bug 8907)
If Plugin.startup
code is too complex and performs tasks such as creating an executable extension, a deadlock situation can be created. Only simple
bookkeeping tasks should be performed in Plugin.startup
code. (bug
5875)
If your plug-in ships with a plug-in manifest and not an OSGi bundle manifest, is shipped as a JAR file, and contains a nested JAR file then there may be problems in
the automatic generation of the bundle manifest file. The packages defined in the nested JAR may not be exported correctly in the Export-packages
bundle manifest header. To work
around this you should ship your plug-in with a bundle manifest. (bug
97689)
If you are running in debug mode on Mac OS, the default location for the .options file is inside the application bundle in the Eclipse.app/Contents/MacOS directory (like the eclipse.ini). (bug 88782)
There may be issues when using a JNI implementation that uses FindClass in a function where the JNIEnv pointer is not available, such as in a C callback (bug 125250). The reason is that FindClass, in this case, uses the application class loader to find the class. If the desired class is in the classpath used for the application classloader (e.g. defined by the VM argument -cp <classpath>), as it would typically be in a stand-alone application, there is no problem. However, under Eclipse, the application classloader does not have access to classes contained in plug-ins. Eclipse uses its own class loader to find classes contained in plug-ins.
The proper plug-in class loader is used by FindClass in JNI functions which are passed the JNIEnv pointer, but not when you have to use AttachCurrentThread to get the JNIEnv pointer. In this case the application classloader is used.
For example, the following will fail because AttachCurrentThread is used to get the JNIEnv pointer:
static JavaVM* jvm; // Global variable
void myCallback(void) {
JNIEnv* env;
jvm->AttachCurrentThread((void**)&env, NULL);
// Fails if some/class is not in the application classloader:
jclass cls = env->FindClass("some/class");
jmethodID methodID = env->GetMethodID(cls, "methodName",
"(Ljava/lang/String;)V or whatever signature");
env->CallVoidMethod(callback, methodID, ...);
jvm->DetachCurrentThread();
}
}
A solution is to cache the method ID, for example:
static jmethodID mid; // Global variable
JNIEXPORT jint JNICALL JNI_OnLoad(JavaVM *vm, void *reserved) {
...
// Store the JavaVM pointer
jvm = vm;
// Find the class and store the method ID
// Will use the class loader that loaded the JNI library
jclass cls = env->FindClass(className"some/class");
if(!cls) goto ERR;
mid = env->GetMethodID(cls, "methodName",
"(Ljava/lang/String;)V or whatever signature");
if(!mid) goto ERR;
...
}
void myCallback(void) {
JNIEnv* env;
jvm->AttachCurrentThread((void**)&env, NULL);
env->CallVoidMethod(callback, mid, ...);
// Handle error ...
jvm->DetachCurrentThread();
}
}
Including the class files for custom Ant tasks or Ant types in the regular code JAR for your plug-in causes problems. These class files must be provided in a separate
JAR that is contributed to the org.eclipse.ant.core.antTasks
or antTypes
extension point (and not declared as a library in the plug-in's manifest). This ensures that
the Ant tasks and types are loaded by the special Ant class loader and not by a plug-in classloader. (bug
34466).
Since there are differences when running Ant from the commandline and within Eclipse, some extra steps may be needed to have XDoclet support function correctly within Eclipse. Problems may occur creating XDoclet subtasks. The workarounds and full discussion can be found in bug report. (bug 37070)
Code completion provided by the Ant editor does not respect the user-specified version of org.eclipse.ant.core plug-in or ANT_HOME. Code completion proposals are mostly based on Ant 1.6.x with some updates to Ant 1.8.3 (bug bug 193046)
When debugging Ant builds within Eclipse, setting -logger
as a program argument will be ignored.
If you rename an existing external tool builder that is configured to run during auto-builds, you will get the following error: Errors during build. Errors running builder "Integrated External Tool Builder" on project <PROJECT_NAME>. The builder launch configuration could not be found. The workaround is to first disable the builder for auto-builds and then rename the builder. (bug 118294)
The Ant editor is slow on saving with buildfiles that have <import> declarations of buildfiles that have numerous <macrodef>s. See bug 125117 for a possible workaround
In Ant 1.8.x, if you try to use a task that requires additional libraries and you do not have the libraries on the Ant classpath, the build will now properly report as failed. In previous versions of Ant, the build would still report that it had succeeded even though it actually failed to run any of the tasks from additional bundles. See bug 344518.
For more information on tasks that require additional bundles please refer to the Ant 1.8.2 release notes and the Optional Tasks section in the Ant manual.
The default Welcome implementation is HTML-based and requires a supported browser in order to work. If no supported browser can be found, Welcome falls back to its Forms-based implementation, which has a different (simpler) appearance. Consult the SWT FAQ for supported browsers and setting up your browser to work with eclipse.
The Help browser's Print, Synchronize, and Bookmark buttons do not work for pages that are not actually installed with the product. However, you can always use the print command in the browser's context menu to print the page you're reading. (bug 44216)
- In the Control Panel, open Internet Options, select the Connections tab and choose LAN Settings.
- If your host was configured to use DHCP for IP assignment, make sure that the "Automatically detect settings" check box is cleared.
- If you use a proxy server, ensure that the "Bypass proxy server for local addresses" is selected.
- In "Advanced" settings for proxies, add "127.0.0.1;localhost" to the "Exceptions" if these addresses are not listed.
- If you are using an automatic configuration script for proxy settings, and are not sure that the script is correct, clear the "Use automatic configuration script" check box.
If you are experiencing problems when not connected to the network, you must install the loopback adapter from the Windows installation CD. (bug 831)
The dirty state for an OLE document is not updated properly. This causes Eclipse to prompt to save the contents of the editor when the document is closed, even if the contents have already been saved. (bug 2564)
If an OLE document crashes, Eclipse can crash, or the workbench menus can become inconsistent.
Currently there is no way on the Max or Linux platforms to define the height for controls contributed to toolbars, nor will those platforms respect the size
returned by the control's computeSize
method. If you encounter this issue there is currently no truly viable workaround. (bug
183003)
The native launcher checks the JVM but PDE launches simply use java and don't go through the native launchers. The workaround is to add the appropriate JVM arg to your launch config or to the Preferences > Java > Installed JREs. (bug 339763)
Capabilities used to hide GUI elements like menu entries work for commands and individual actionSet entries, but Capabilities have not been fully implemented. (bug 359778)
The SWT Browser widget uses a platform-specific web browser to render HTML. The org.eclipse.swt.SWTError exception ("No more handles") is thrown on platforms that don't meet the requirements for running the Browser widget. Supported platforms and prerequisites are listed on the SWT FAQ item "Which platforms support the SWT Browser?".
Recent Linux versions such as Ubuntu 16.04 do not have the Webkit libraries installed by default, causing the instantiation of the Browser widget to fail. This means that the Internal Web Browser view in Eclipse won't be usable. When running with GTK3, even the Welcome page appears blank (bug 492379). The workaround is to install the Webkit libraries (libwebkitgtk-3.0 for GTK3 and libwebkitgtk-1.0 for GTK2) from the OS package repositories before using Eclipse and/or SWT.
Creation of an SWT Mozilla style Browser with XULRunner 31 run-time crashes on Linux. The workaround is to use other supported XULRunner run-times or webkit which is the default on Linux. (bug 467646)
When typing Japanese text, the conversion to Kanji must be done one ideogram at a time. (bug 226636)
Workaround is to pin the launched eclipse application and not the launcher, for more details, refer bug 314805
BIDI Segments in Text controls only work on Windows and GTK. (bug 388578)
When the orientation of characters under the left and right edges of the block selection rectangle are not the same, the actual selection ranges (in memory) differ from the visual representation of the selection. (bug 277929)
The following are known problems with the CVS repository provider only, and do not apply to other repository providers. Additional information on how to use CVS from Eclipse can be found in the Eclipse CVS FAQ.
If a connection initially fails due to a network problem, the connection may continue to fail even when the network problem is fixed. In order to establish the connection you must exit and restart Eclipse. (bug 9295)
Eclipse sometimes performs multiple commands within a single connection to the server. This may cause problems with CVS servers that are running server scripts in response to certain commands. (bugs 23575 and 23581)
There is a bug in the CVS server related to some compression levels. If you get this error, changing the compression level on the CVS preference page may help. (bug 15724)
There are a few situations that can result in an "Unknown response" error messages when using the ext connection method. One situation involves using an external communications client (e.g. rsh or ssh) that adds CRs to the communications channel (bug 21180). Another involves Eclipse not properly reading the stderr output of the external communications tool. (bug 11633)
New in 3.0 is the ability to disable capabilities and the CVS support in Eclipse can be disabled. However, for backwards compatibility the CVS capability is auto-enabled in existing workspaces that already contain CVS projects. The auto-enabling function may not run if the team support plugin is not loaded at startup. (bug 66977)
eclipse -Dorg.eclipse.core.net.enableGnome
eclipse.exe -clean
A previously configured extension location may be temporarily removed if the install is moved or mounted under a different path. This only happens when the link file that configures the extension location uses a relative path that points to a directory under the Eclipse install. On a second startup using the same install path, the extension location is added again (bug 95403).
org.eclipse.jdt.core.formatter.CodeFormatter#K_SINGLE_LINE_COMMENT
org.eclipse.jdt.core.formatter.CodeFormatter#K_MULTI_LINE_COMMENT
org.eclipse.jdt.core.formatter.CodeFormatter#K_JAVA_DOC
This will be fixed in a future release (bug 233967).
Search does not find references to constant fields inside binaries because the Java Language Specification mandates that constant field values be inlined in the class file's byte codes, leaving no trace of a field reference. (bug 12044)
The cut, copy, and paste actions do not work for linked files and folders appearing in views that show Java elements, including the Package Explorer. The workaround is to use these actions from the Navigator view instead. (bug 34568)
Applying a working set consisting entirely of elements from the JRE System library container as a filter to the packages view might result in an empty Package Explorer. (bug 30442)
Developers debugging applications on Sun's 1.6.0_14 virtual machine should be aware that breakpoints are unreliable (i.e. do not always suspend execution). The problem
occurs on Windows and Linux platforms. This is an issue with the VM and not with Eclipse. The workaround is to use the -XX:+UseParallelGC
VM option. (bug
279137).
Exception breakpoints can be configured with location filters (inclusive and exclusive). When an unchecked exception is configured to not suspend execution in a specific class, execution will still suspend when the user preference to suspend on uncaught exceptions is on. (bug 66770)
You get a java.lang.NoClassDefFoundError
when running Java programs with non-Latin characters in the package or class names. The workaround is to package
the class files as a JAR file and run the program out of the JAR and not from the file system directly. (bug
4181)
Most class libraries do not properly support the creation of a system process (via java.lang.Runtime.exec(...)
) when the specified command line contains
GB18030 characters. This limitation means the debugger cannot launch applications when the command line it generates contains GB18030 characters. (bug
32206)
Automatic JRE detection fails when the JRE is stored in a directory containing GB18030 characters in its name. (bug 33844)
Most class libraries do not properly support the creation of a system process (via java.lang.Runtime.exec(...)
) when the specified command line contains
GB18030 characters. Since Javadoc is created using the Javadoc executable provided with the JDK, generating Javadoc fails if the package or class name contains GB18030 characters. (bug
32215)
If a debug session suspends on a java.lang.StackOverflowError
exception (due to an exception breakpoint), the debugger may not be able to retrieve any
debug information from the target JVM. As well, the debugger may not be able to reliably interact with the target JVM past this point. (bug
19217)
The debugger uses threads in the target JVM to perform evaluations (both explicit evaluations that the user requests, and implicit evaluations such as toString()
invocations in the Variables view). The Java Debug Interface (JDI) requires that the thread in which an evaluation is performed be suspended by a user event (that is, a breakpoint or step
request). Evaluations cannot be performed on threads suspended by the suspend action. As well, when a breakpoint is configured to suspend the JVM rather than just the individual thread, the
threads which did not encounter the breakpoint are not in a valid state to perform an evaluation. When an evaluation is attempted in a thread that is not in a valid state to perform an
evaluation, an error message will appear to the effect of "Thread must be suspended by step or breakpoint to perform method invocation". (bug
34440)
Setting a breakpoint inside a scrapbook page is not supported.
Terminating a launch, debug target, or system process associated with a debug target running on the IBM 1.3 JVM on the Linux platform does not work when the associated debug target has a suspended thread. To remove such debug targets from the debug UI, select Terminate and Remove from the debug view's pop-up menu (or use the shortcut "delete" key). Associated system processes in the OS may not be properly cleaned up. If a debug target has no suspended threads, termination works properly. (bug 1631)
Java 6 annotation processors are supported in the batch compiler and in the IDE. By design, Java 6 processors are only executed during a build, not while editing. (bug 188558)
Java 5 annotation processors are supported in the IDE only. Java 5 processors can be executed while editing, as well as during a build. Slow annotation processors can cause a slowdown of the editing experience. If this occurs, you may wish to turn off Enable processing in editor on the Java Compiler > Annotation Processing properties page of your Java project.
Java indexing encounters problems when a folder is used both as a source folder in a project and as a class folder in another project. Hence, when this peculiar setup is used, the Java Search might miss matches located in such a folder. To avoid this kind of problem, it is strongly advised to use different folders for sources and binary classes. (bug 309903)
When a non-source page of the feature manifest editor is used, PDE will convert changes back into XML by regenerating the file. Although the overall content and most of the comments are preserved, some comments may be lost. (bug 59502)
In the plug-in import wizard, when you choose to import plug-ins as "projects with source folders", PDE will not unzip the source for the org.apache.ant. This is because the source ZIPs contains code that will not compile when unzipped as it requires additional JARs that are not part of the SDK. To avoid the creation of plug-in projects that won't compile, PDE will import these plug-ins as binary and attach source, so you would still be able to read the source, you just won't be able to modify it. Also, PDE will not unzip the source for the org.eclipse.swt plug-ins. In this case, it is because, when shipped, the swt code is spread across a plug-in and a fragment, and when unzipped, it will require circular dependencies between the plug-in and fragment projects. These circular dependencies are at minimum marked as warnings by the JDT compiler and may result in unpredictable build behavior. Therefore, PDE always imports org.eclipse.swt as binary with source attached. (bug 66314)
Non-default key bindings currently do not work in fields on non-source pages of the PDE manifest editors. (bug 19482)
When exporting a plug-in using the plug-in, feature or product wizards, some classes might be dropped from the resulting archive if their fully qualified name is too long. This typical path limitation can be worked around by creating the jar of the problematic plug-in by using the Jar export wizard. (bug 97150)
When exporting multiple plug-ins and one is stored outside of the workspace, compile errors occurs on export. To work around the problem, you can either export the plug-ins one by one, or change their location. (bug 98579)
When running a headless build using the scripts provided by pde build, the properties builder
and buildDirectory
must refer to a fully
qualified path. (bug
139554)
When running an Eclipse application (self-hosting) importing plug-ins will not work correctly if the plug-in being imported exists in the host Eclipse's workspace. This is because PDE modifies the target platform of the application to point at the running plug-ins from the host (target weaving). This also affects the PDE test suite. (bug 294005)
If a workspace is reused on a machine with a different architecture, the PDE models used to build plug-ins may silently fail. To work around this problem, delete the metadata in <workspace>/.metadata/.plugins/org.eclipse.pde.core. (bug 350172)
The Eclipse platform 4.6 release will not allow the API Tools @noreference tag on interface fields. This was changed because all interface fields are constant fields that cannot support the @noreference restriction. The tag was allowed in previous releases and this usage will now be considered an API change requiring a @since tag. It is recommended that you create an API Tools filter for the missing @since tag problem. This filter can be removed as soon as the API baseline has been regenerated. (bug 402393)
After installing the Eclipse SDK in a directory, you can start the Workbench by running the Eclipse executable included with the release (you also need a Java SE 8 JRE,
not included with the Eclipse SDK). On Windows, the executable file is called eclipse.exe , and is located in the eclipse
sub-directory of the install. If installed at
c:\eclipse-SDK-4.6-win32
, the executable is c:\eclipse-SDK-4.6-win32\eclipse\eclipse.exe
. Note: Set-up on most other operating environments is analogous.
Special instructions for Mac OS X are listed
below.
with the <memory size>
value set to greater than "1024M" (1024 megabytes -- the default).
Here is a typical Eclipse command line:
To create a Windows shortcut to an installed Eclipse:
eclipse.exe
in Windows Explorer and use Create Shortcut on the content menu.
On MacOS X you can only launch a UI program more than once if you have separate copies of the program on disk. The reason for this behavior is that every UI application on Mac can open multiple documents, so typically there is no need to open a program twice. Since Eclipse cannot open more than one workspace, this means you have to make a copy of the Eclipse install if you want to open more then one workspace at the same time (bug 139319).
If you need to launch Eclipse from the command line, you can create a symbolic link such as "eclipse". It should point to the eclipse executable inside the application bundle and takes the same arguments as "eclipse.exe" on other platforms.
On Mac OS X 10.4 and later, you may notice a slow down when working with significant numbers of resources if you allow Spotlight to index your workspace. To prevent this, start System Preferences, select the Spotlight icon, then the Privacy tab, then click the Add button ("+") and find your workspace directory in the dialog that appears.
The startup speed of a shared install can be improved if proper cache information is stored in the shared install area. To achieve this, after unzipping Eclipse distribution, run Eclipse once with the "-initialize" option from an account that has a write access to the install directory. See shared installs in Eclipse Help for more information.
For example, export LD_LIBRARY_PATH=/opt/gtk_64bit/lib/hpux64/
"eclipse -vmargs -Dosgi.locking=none"
The GTK libraries must be available on the library path (i.e. LD_LIBRARY_PATH).
If you weren't previously using "-data" to specify your workspace, follow these steps to upgrade:
workspace
". If you are using a shortcut or script to launch Eclipse, then it will be under the current working directory of that shortcut or script in a sub-directory
called "workspace". For Windows users, this is specified by the "Start in:" argument in your shortcut properties.
-data
" command line argument to
pre-select the workspace location).
-data
" command line argument to
pre-select the workspace location).
-DresolveReferencedLibrariesForContainers=true
) to the -vmargs
list on start-up, or
Special care is required when a project in a team repository is being loaded and operated on by developers using Eclipse-based products based on different feature or plug-in versions. The general problem is that the existence, contents, and interpretation of metadata files in the workspaces may be specific to a particular feature or plug-in version, and differ between versions. The workspace compatibility guarantees only cover cases where all developers upgrade their Eclipse workspaces in lock step. In those cases there should be no problem with shared metadata. However, when some developers are working in Eclipse 4.6 while others are working in Eclipse 3.x, there are no such guarantees. This section provides advice for what to do and not to do. It addresses the specific issues with the Eclipse SDK.
The typical failure mode is noticed by the 4.6 user. 4.6 metadata is lost when a 4.5 user saves changes and then commits the updated metadata files to the repository. Here's how things typically go awry:
See the table in the Eclipse 4.6 Project Plan Appendix for the list of the minimum execution environment (Java class library) requirements of each bundle.
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Other company, product, and service names may be trademarks or service marks of others.
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