Name

usecanvas — Get/Set the main component used for Scilab graphics.

Calling Sequence

       [canvasused] = usecanvas([usecanvasfordisplay]);
    

Parameters

canvasused

Boolean:

  • %T if a "GLCanvas" is used for graphics display (Mixing uicontrols and graphics not available).

  • %F if a "GLJPanel" is used for graphics display (Mixing uicontrols and graphics available).

usecanvasfordisplay

Boolean:

  • %T to use a "GLCanvas" for graphics display (Mixing uicontrols and graphics not available).

  • %F to use a "GLJPanel" for graphics display (Mixing uicontrols and graphics available).

Description

Scilab uses a "GLJPanel" (a Swing OpenGL component) to display graphics (plot3d, plot, ...). This component uses some high level OpenGL primitives which are not correctly supported on some platforms (depending on the operating system, video cards, drivers ...)

"GLCanvas" (AWT + OpenGL) is an alternative component provided by the Java Framework. Scilab can use it to render graphics. However, using this component disables some capabilities such as mixing plots and uicontrols (see demo GUI/UIcontrol2). That is why it is not the default behavior.

In some particular cases, the use of the "GLCanvas" component is forced when Scilab starts (a warning message is displayed when a graphics function is used for the first time), here is a list of these cases:

Operating System Video Card Details
64-bits Windows All When Scilab is used in a remote session.
Linux NVIDIA Card With free drivers.
ATI Card With free drivers or ATI-drivers with version < 8.52.3 (Installer version < 8.8 / OpenGL version < 2.1.7873).
INTEL Card With Direct Rendering activated.

You can also dynamically activate this component through Scilab using usecanvas:

  • usecanvas(%T) will use "GLCanvas" for plot rendering.

  • usecanvas(%F) will use "GLJPanel" for plot rendering. If your configuration is known as a one having problems with "GLJPanel" (See table above), a warning message will be displayed.

If you believe your configuration is able to use the "GLJPanel" and Scilab automatically forces the use of "GLCanvas", you can test your configuration by swithing to "GLJPanel" (usecanvas(%F)) and try to plot something (plot3d() for example). If Scilab graphics work, please inform us about it by sending an email to scilab.support@scilab.org and giving us your Operating System/Video Card/Video Card driver version: this will help use to improve future versions of Scilab.

Technical Aspects

Since version 5.0, Scilab is doing an advanced use of JOGL (the Java Binding for the OpenGL), which is using the Java2D OpenGL Pipeline. For performance reasons, we use the Java2D OpenGL Pipeline. From a more technical aspect, it uses the internal buffer of the graphic cards called pbuffer.

Problems may occur when the driver of the graphic card does not support properly this approach. As far as we know, there is no free driver under Linux handling this feature. In the proprietary world, the situation is as follows:

  • NVIDIA: Nvidia provides the appropriate proprietary drivers. Scilab's graphics work without any problem with most NVIDIA drivers.

  • ATI: From the driver version 8.8, most ATI graphics supports the pbuffer under Linux.

  • Intel: This is the big drawback of using the pbuffer. There is currently no support of pbuffer by any official Intel drivers under Linux.

There is a workaround for Linux to tackle this issue, but a solution is to use a software accelerated driver. To do it, in /etc/X11/xorg.conf, look for the Section "Device" and change the option Driver to vesa:

 
Section "Device"
        Identifier      "Your Graphic card"
        Driver  "vesa"
[...]
EndSection
 

Unfortunately, this solution makes Scilab pretty slow.

Under Windows, video cards manufacturers update regularly and pbuffers are managed. Please download recent drivers at:

Some troubles can also occur when using Windows 2000 (video drivers are no more updated and no more supported).

In the cases where pBuffer create a problem, waiting for a working pbuffer is not a solution indeed: The OpenGL community is moving away from pbuffers and toward the frame buffer object extension, which is a more portable and higher-performance solution for offscreen rendering than pbuffers.. The JOGL team is working to fix this issue.

For more information about this problem, please refer to:

Examples

 
// Example using GLJPanel (Mixing uicontrols and graphics is available)
usecanvas(%F);
plot2d();
uicontrol("String", "Close the window", "Position", [10 10 100, 25], "Callback", "delete(gcf())");
messagebox("You can see the button on the figure.", "Usecanvas example", "info");

// Example using GLCanvas (Mixing uicontrols and graphics is not available, uicontrols are not visible)
usecanvas(%T);
plot2d();
uicontrol("String", "Close the window", "Position", [10 10 100, 25], "Callback", "delete(gcf())");
messagebox("You can''t see any button on the figure.", "Usecanvas example", "info");
 

Authors

Vincent COUVERT