I have a full size QGLWidget which paints the application background using QPainter (might change to native openGL commands in the future).

On top of this QGLWidget I use QWidgets (non-GL) for the user interface elements. These are, for example, QLineEdits and QPushButtons. I put them into a custom painted QWidget which uses semi-transparent background painting. The paintEvents of the QLineEdit and QPushButton are overwritten and use semi-transparent backgrounds, too.

The whole UI should look like the following (This is a screenshot where I disabled OpenGL and used QWidget instead of QGLWidget for the background. Note the semi-transparent top bar which also draws a shadow (within its own region)):


When the QLineEdit has the focus, it should have a higher opacity but still not fully opaque:


So now, with OpenGL enabled (The background then is a QGLWidget), the semi-transparent widgets above don't paint on top of the background but on (it seems to be) uninitialized data. The image shining through the top bar is sometimes the whole window itself and sometimes other windows currently being on my desktop.

This currently looks like the following (In this screenshot, the data on which the semi-transparent painting operations are painted on seems to be an image of the widget itself, having an offset.):


When I wrote text into the line edit (here: "This is some text which has been there before!"), removed it and set the focus back to the background widget (so the magnifier icon and the placeholder text appear), the previously painted things still shine through (Note that the visible border should not be visible anymore, but also still shines through):


So the problem is: Instead of being painted on top of the underlying widgets, the semi-transparent widget is painted on top of the old results, initially being something like "uninitialized memory".

Why does this happen? How can I solve the problem?

Things you should know before answering:

  • The background scene is a composition of tiles which are rendered off-screen. So it can be painted very fast and repainting of the background for every little change of the overlay isn't problematic.
  • The top bar is a custom QWidget with manual painting and arrangement of the contained two widgets (the button and line edit).
  • The two widgets overwrite the paintEvent, only draw their own (semi-transparent) background when they have focus and don't use frames already provided by Qt. So the white border in the second screenshot is drawn in my custom paintEvent.
  • I want the background and the composition of overlay widgets to be separately implementable. The background is an AbstractMapView which has some concrete map view classes. The whole window is an AbstractView (there are multiple concrete views, too), which contains both a concrete map view and the overlay widgets, composed in a way itself decides. Therefore, I don't want the logic of the overlay widgets to be part of the underlying map view. (I hope you understood this, as it is a bit complicated.)

This sounds like an issue where the GL content (i.e. your background aka the QGLWidget) is not in the Qt context. While I'm not a pro on GL painting with Qt, you may want to look at this discussion regarding GL painting and a QLabel for some direction/potential hints.


In short, we here at the office use OpenGL painting and offscreen rendering of maps and it's very important to make sure Qt is aware of the pixels so your foreground widgets can have the semi-transparency applied to their backgrounds.

The particular product we use also renders the map in tiles and supports providing the GL output in a buffer (i.e. it's call a snapshot and is provided as a bitmap) at which point we use the paintEvent of a regular QWidget to paint the buffer so that the painted pixels are in Qt context.

  • Thanks for pointing out the issue and for the link. However, the suggested solution (using a graphics scene) sounds way too heavy. You say: "it's very important to make sure Qt is aware of the pixels so your foreground widgets can have the semi-transparency applied to their backgrounds". How did you manage this? Is there a possible solution without a graphics scene? Also note that I want to draw widgets, not only graphics items. – leemes Jul 23 '12 at 11:19
  • @leemes Spoke to our painting expert, updated my answer to provide you a bit more info, in short, make the GL output available in a buffer and paint it to screen using Qt's facilities. – Matthew Jul 23 '12 at 12:57
  • Thank you very much. I see still one drawback: The rendered map will be copied into RAM (into my process). Am I correct? As you say, as Qt needs to "know" those pixels this is a necessary step. So it can't be any better than that? – leemes Jul 23 '12 at 13:07
  • @leemes from my understanding yes the rendered map/output would be copied into RAM and be part of your process. Unfortunately I am not aware of any other methods for bringing graphical output (e.g. the pixels) into the Qt context without using Qt's painting facilities. That said we use this method here at work on several programs many with real time requirements and it works very well. – Matthew Jul 23 '12 at 13:43

You can define a Qframe with Qt::SplashScreen flag as the search box and set its opacity. Put your widgets inside it such as the search textbox and positon it where it should appear on the mainwindow. It will also be a good idea to reposition it as the mainwindow is moved or resized overriding its moveEvent.

  • Setting the Qt::SplashScreen flag doesn't seem to have any effect with regard to the OP's problem. – Jason R Jun 2 '13 at 18:17

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