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I am using D3DImage to display a sequence of frames that are rendered unto the same Direct3D Surface one after the other. My current logic is thus:

  • Display last rendered frame (i.e.D3DImage.Lock()/AddDirtyRect()/Unlock())
  • Start rendering next frame
  • Wait for next frame to be ready and that it's time to display it
  • Display last rendered frame
  • ...

The problem with this approach is that when we are done calling Unlock() on D3DImage, the image isn't actually copied, it's only scheduled to be copied on the next WPF render. It's therefore possible that we render a new frame on the Direct3D surface before WPF has had the chance to display it. The net result is that we see missed frames on the display.

Right now I'm experimenting with using a separate Direct3D texture for rendering and performing a copy to a "display texture" just before display, which is giving better results but incurs substantial overhead. It would be preferrable to just be able to know when D3DImage is done refreshing and start rendering the next frame immediately after. Is this possible, if so how? Or do you have a better idea altogether?


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Does CompositionTarget.Rendering help? – Kent Boogaart May 10 '13 at 14:19
My understanding is that this event is called just before a render, not after. If we have to wait for the next Rendering event to know the previous has completed, then it's too late to start rendering the frame. Ideally we'd like to get called on WPF's render thread right after it's done redrawing the D3DImage or its containing UIElement. – Asik May 10 '13 at 14:22
Can you do all your rendering work ahead of time (eagerly) but then use CompositionTarget.Rendering as a trigger to call Unlock() (if your render is ready) on your D3DImage and schedule another render? This means you would only ever be rendering and displaying images at most (but possibly less than) at WPF's frame rate. – Kent Boogaart May 10 '13 at 15:04
That reduces the likeliness but doesn't eliminate the possible race condition of scheduling another render right after Unlock(): the frame could finish rendering before the control is actually redrawn. – Asik May 10 '13 at 15:25
I don't follow. Once you call Unlock() you can immediately start another render into your D3DImage. Calling Lock() will block until the WPF render thread has copied the back buffer to the front buffer. Once you've finished your render, you would wait until the next CompositionTarget.Rendering before calling Unlock() and repeating the process again. It simply doesn't matter if you finish rendering before the control is redrawn, because it's redrawing from the front buffer, not the back buffer (which is what you're modifying). – Kent Boogaart May 10 '13 at 15:36

The CompositionTarget.Rendering event is called when WPF is going to render, so that's when you should do your Lock() and Unlock(). After the Unlock(), you can kick off the next render.

You should also check the RenderingTime because the event may fire multiple times per frame. Try something like this:

private void HandleWpfCompositionTargetRendering(object sender, EventArgs e)
    RenderingEventArgs rea = e as RenderingEventArgs;

    // It's possible for Rendering to call back twice in the same frame
    // so only render when we haven't already rendered in this frame.
    if (this.lastRenderTime == rea.RenderingTime)

    if (this.renderIsFinished)
        // Lock();
        // SetBackBuffer(...);
        // AddDirtyRect(...);
        // Unlock();

        this.renderIsFinished = false;
        // Fire event to start new render
        // the event needs to set this.renderIsFinished = true when the render is done

        // Remember last render time
        this.lastRenderTime = rea.RenderingTime;

Update to address comments

Are you sure that there's a race condition? This page says that the back buffer gets copied when you call Unlock().

And if there really is a race condition, how about putting Lock/Unlock around the render code? This page says that Lock() will block until the copy is finished.

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As I was saying in the comments, this doesn't eliminate the race condition. The Rendering event is called on the UI thread, but the actual refresh takes place on WPF's render thread some (small) time after the event. Therefore scheduling a render right after Unlock() always risks overwriting the frame before it's been rendered. – Asik May 10 '13 at 16:39
@Asik Please see my update. – shoelzer May 10 '13 at 16:52
Yes there is a race condition as the documentation suggests (it is "marked for rendering") and I've looked at the code in reflector. I've also validated in about 4 different ways that every time I call Lock()/Unlock(), the contents of my d3d frame are a separate new frame, so the issue here is really getting D3DImage to copy the buffer before I render the next. Additional calls to Lock()/Unlock() don't help; Lock() only blocks when the control is currently rendering. – Asik May 10 '13 at 17:07
@Asik If Lock() blocks while the control is rendering, isn't that exactly what you need? After Lock() returns, you know you can start rendering because the control is done. – shoelzer May 10 '13 at 18:05
I don't know if the control is rendering or not when I call Lock. This happens on WPF's render thread at time I have no grasp on. Therefore I don't know whether Lock() will wait for the buffer to be copied or not. – Asik May 10 '13 at 18:09
up vote 0 down vote accepted

It looks like the clean way of doing this, in order to render in parallel with the UI, is to render into a separate D3D surface, and copy it to the display surface (i.e. the one passed to SetBackBuffer) between the calls to Lock() and Unlock(). So the algorithm becomes:

  1. Copy and display the last rendered frame, i.e.
    • Lock()
    • Copy from render to display surface
    • SetBackBuffer(displaySurface)
    • AddDirtyRect()
    • Unlock()
  2. Schedule a new render to the render surface
  3. Wait for it to complete and that the timing is ok to display it
  4. Goto 1

The documentation for D3DImage explicitely states:

Do not update the Direct3D surface while the D3DImage is unlocked.

The sore point here is the copy, which is potentially costly (i.e. >2ms if the hardware is busy). In order to use the display surface while the D3DImage is unlocked (avoiding a potentially costly operation at render time), one would have to resort to disassembly and reflection to hook into D3DImage's own rendering...

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