- 1 General
- 2 Download and Install
- 3 Developer
- 3.1 When should I use GEF and when should I use just Draw2d?
- 3.2 How do I redistribute GEF with my application?
- 3.3 How do I ask questions?
- 3.4 How do I report a bug or request a feature?
- 3.5 Can I develop a standalone GEF application without use of the Eclipse platform?
- 3.6 How can I get started on my GEF-based editor?
- 4 Coding
What is GEF
Why should I use GEF?
GEF enables developers to easily create rich graphical editors within Eclipse. GEF has been used to build a variety of applications, including state diagrams, activity diagrams, class diagrams, GUI builders for AWT, Swing and SWT, and process flow editors. For more information on GEF features, please see the Project Overview.
What version of Eclipse do I need?
A given version of GEF requires the exact same version of the Eclipse Platform. For example, GEF 3.0.1 requires Eclipse 3.0.1.
How do I make a suggestion for this FAQ?
This FAQ is hosted as a Wiki. Anyone can edit this page after creating an account.
Which operating systems does GEF support?
GEF is written in pure Java and should run on all operating systems officially supported by the Eclipse platform. It's primarily tested on Windows and Linux (GTK and Motif). See the readme file that came with your installation of GEF for specific versions.
How is GEF licensed?
GEF is licensed in accordance with the Eclipse Public License. Third party components built using GEF are made available under their own licenses.
Download and Install
How do I Install GEF?
Download the bits manually
Download the version of GEF that matches your installation of Eclipse. (The SDK download contains documentation and source, while the runtime download does not.) Exit Eclipse and unzip into the "eclipse" directory's parent directory. Restart Eclipse and verify that everything is installed. To do so, go to Help->About Eclipse Platform->Plug-in Details. Check the following entries:
Provider Plug-in name Eclipse.org Draw2d Eclipse.org Draw2d Documentation (SDK only) Eclipse.org Graphical Editing Framework Eclipse.org Graphical Editing Framework Documentation (SDK only) Eclipse.org Graphical Editing Framework SDK (SDK only)
The following directories should be present in your eclipse/plugins directory: (Note: Version numbers may differ according to download. This list assumes Eclipse build 2.1.0):
org.eclipse.draw2d.doc.isv_2.1.0 (SDK only) org.eclipse.draw2d_2.1.0 org.eclipse.gef.doc.isv_2.1.0 (SDK only) org.eclipse.gef.source_2.1.0 (SDK only) org.eclipse.gef_2.1.0
The following directories should be present in your eclipse/features directory: (Note: Version numbers may differ according to download. This list assumes Eclipse build 2.1.0):
org.eclipse.gef.source_2.1.0 (SDK only) org.eclipse.gef_2.1.0
Use the Eclipse Update Manager
1. Go to the Help / Software Updates / Find and Install..."
2. Choose the "Search for new features to install" option
3. Add one of the update sites below.
Update site for integration builds: http://download.eclipse.org/tools/gef/update-site/integrations/site.xml
You could also take a look at the Callisto '06 or Europa '07 sites which by design lines up all the components together for a particular milestone and provides a more convenient way to install GEF and its dependencies.
Why isn't GEF showing up in Eclipse?
After installing GEF by extracting it to the necessary directories, it may be necessary to accept the changes within Eclipse. This can be accomplished by going to Help->Software Updates->Manage Configuration and right-clicking on Eclipse Platform. Select "Detected Changes..." from the menu and click Finish to complete the installation. This is the most common cause of the install not showing up in the aforementioned Plug-in Details view.
How do I Run the Logic Example?
Download the example that matches your version of GEF. Exit Eclipse and unzip into the eclipse directory. Restart Eclipse and verify it was installed by going to Help->About Eclipse Platform->Plug-in Details and checking for Logic GEF Example in the list. Next, create a simple Project. Then run the Logic Wizard. The wizard can be found at File->New->Other (Control+N), under the Examples heading. Select the simple project as the container in which the wizard will place the example document. The document should open automatically when you press Finish.
Where do I find the documentation?
The 3.1 documentation is now available online.
The latest documentation is available in the SDK download. After unzipping this build into your Eclipse installation directory, start Eclipse (and possibly restart after updating via the update manager), click on the Help menu and then Help Contents.
How do I checkout GEF via CVS?
Open the CVS Repositories View using the Window menu. Right-click on the view and select "New" --> "Repository Location..." Enter the data shown here. Check out both the GEF and Draw2d plug-ins from the head stream for the most recent versions. File:FAQ CVS.gif
When should I use GEF and when should I use just Draw2d?
The simple answer to this question lies in their names. Draw2d is for drawing. GEF (or Graphical Editing Framework) is for editing.
Draw2d is used for rendering and layout. If all you want is to display data, all you need is Draw2d. If, on the other hand, you want to be able to manipulate that data, you should use GEF. GEF adds important functionality for editing -- commands for changing your model, a palette and tools for selecting and manipulating the edit parts that represent your model, direct edit, accessibility support such as keyboard navigation, native drag and drop, and much more that I've probably missed.
There may be only a few of these functions that you need -- for instance, you may just want to add drag and drop support so that you can drag files from the navigator or a file explorer and drop them onto your application/view, but otherwise only need to display the dropped data and not manipulate it. This is where the line gets blurred. You'll need to weigh the advantages and disadvantages of both options. On the one hand, you could move to GEF, get a bunch of functionality that you don't need and increase the complexity of your code. Or you could stick with Draw2d and implement the functionality you need yourself, maintaining a much simpler implementation. For the above example, I would personally implement the drag and drop function myself and stick with Draw2d. However, you should also consider future needs. You may want more of these functions down the road and moving to GEF now may be helpful.
How do I redistribute GEF with my application?
How do I ask questions?
Questions about the use of GEF in user projects that are not addressed in this FAQ should be posted to the GEF newsgroup. Questions and comments regarding the implementation of GEF itself should be posted to the GEF mailing list.
How do I report a bug or request a feature?
GEF, like the Eclipse project, uses Bugzilla as its bug and feature tracking system. Entering a bug\feature report is as simple as filling in a web form on the eclipse bugzilla page. The first time you enter a bug you will need to create a new bugzilla account for yourself by providing an email address and choosing a password. Before submitting a bug, please be sure to check the list of open GEF bugs and recently closed GEF bugs.
Can I develop a standalone GEF application without use of the Eclipse platform?
The official answer is No, this is not supported. The main reason involves the use of an Eclipse-specific file titled plugin.properties which GEF uses for string externalizations. However, since GEF is an open source project, modifications to the GEF codebase could potentially allow a GEF editor external to Eclipse.
How can I get started on my GEF-based editor?
The best place to investigate initially is the GEF documentation. This provides high-level concepts of GEF and Draw2d. There is also a sample GEF editor that can be downloaded at the GEF download page . The source code is made entirely available.
How do I instrument domain model changes that support undo/redo
You can define custom request types that represent model changes for your domain. An example would be how the logic example increments / decrements the LED model item. The IncrementDecrementAction creates a new request constant --> ... request = new Request(INCREMENT_REQUEST); ...
Then the request is sent to the selected objects on the diagram surface. If the selected object is an LEDEditPart, then it has a custom EditPolicy installed on it's EditPolicy.COMPONENT_ROLE (LEDEditPolicy) that is used to handle model changes. This EditPolicy is instrumented to understand the INCREMENT_REQUEST in it's getCommand method. It then returns a custom command that can handle undo/redo that will get executed on the command stack.
If the request is not understood by the selected EditPart (i.e. no EditPolicy installed on EditPolicy.COMPONENT_ROLE), then a null command is returned. This can indicate to the action that it should be disabled for the user.
How do I do move an element from one container to another
If you're moving an element from one container into another, first you need to consider the model changes that persist the container changes. To do that, an EditPolicy for removing the model element on the source (ContainerEditPolicy) is needed and an EditPolicy for adding the model element (XYLayoutEditPolicy).
If we consider moving a LED from the diagram to a Circuit: First to remove it from the owned container using the OrphanChildCommand in Logic designer which will remove it from the first container. @see LogicContainerEditPolicy#getOrphanChildrenCommand
Then it is added to the target container using an AddCommand @see LogicXYLayoutEditPolicy#getAddCommand
These instrument the model changes. Then the EditParts will listen to the model changes accordingly. Both the DiagramEditPart and CircuitEditPart are LogicContainerEditPart which override the method getModelChildren. Subsequent calls to refreshChildren will synchronize the EditPart children with the model children. Alternatively, for performance they can listen to the model changes specifically which will invoke addChild or removeChild based on the corresponding event. @see LogicEditPart@propertyChange
How do I do "X" when the User double-clicks?
Mouse events are handled by a Draw2D event dispatcher. When using GEF, a DomainEventDispatcher is used which allows heterogeneous handling of mouse events. Mouse presses in general can either be processed by a Figure, or by a Tool. A double-click is also a click, so the first event is a MouseDown, followed by a DoubleClick event. When a MouseDown is dispatched, the event dispatcher will continue to send events to either the Figure or Tool until the Mouse is released. So this means if the Tool processes MouseDown, it continues to get DoubleClick, dragging, and MouseUp. If a Figure consumes the MouseDown event, it will receive these events.
The GEF SelectionTool already processes double-click and will send a SelectionRequest to the target EditPart under the mouse of the type REQ_OPEN. The request is sent by calling EditPart.performRequest(Request). This is the preferred way to do something in response to double-clicks.
Often, GEF clients want to know the location of the context menu so that, for instance, new parts can be created or pasted at that location. The context menu can be brought up via the keyboard (Shift+F10) and there's no guarantee that the mouse cursor will be over the editor (or even the active window) when the context menu comes up. Hence, we recommend to do this in a location-neutral manner. For instance, new parts can be added to the top-left visible corner of the selected container, or the location can be determined based on the location of the part that was copied.
How do I solve Draw2D rendering problems with very large figures
When drawing very large figures with Draw2D, there is sometimes rendering problems on X-Window environments. This is due to a system method call 16 bits limitation (for example we can't draw a line which length is > 32000). To avoid this, client applications using Draw2D should override the default paint methods of Draw2D figures to only ask natively to draw "the visible part" of the figure. Snippet of such code could be found in bugzilla #176984.