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Normally, even when using double buffering, when resizing a window, it seems that it's inevitable that the flickering will happen.

Step 1, the original window.

Step 1

Step 2, the window is resized, but the extra area hasn't been painted.

Step 2

Step 3, the window is resized, and the extra area has been painted.

Step 3

Is it possible somehow to hide setp 2? Can I suspend the resizing process until the painting action is done?

Here's an example:

#include <Windows.h>
#include <windowsx.h>
#include <Uxtheme.h>

#pragma comment(lib, "Uxtheme.lib")

BOOL MainWindow_OnCreate(HWND hWnd, LPCREATESTRUCT lpCreateStruct);
void MainWindow_OnDestroy(HWND hWnd);
void MainWindow_OnSize(HWND hWnd, UINT state, int cx, int cy);
void MainWindow_OnPaint(HWND hWnd);

int APIENTRY wWinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPWSTR lpCmdLine, int nCmdShow)
  WNDCLASSEX wcex = { 0 };
  HWND hWnd;
  MSG msg;
  BOOL ret;

  wcex.cbSize = sizeof(wcex);
  wcex.lpfnWndProc = WindowProc;
  wcex.hInstance = hInstance;
  wcex.hCursor = (HCURSOR)LoadImage(NULL, IDC_ARROW, IMAGE_CURSOR, 0, 0, LR_SHARED);
  wcex.lpszClassName = TEXT("MainWindow");
  wcex.hIconSm = wcex.hIcon;

  if (!RegisterClassEx(&wcex))
    return 1;

  if (!hWnd)
    return 1;

  ShowWindow(hWnd, nCmdShow);

  while ((ret = GetMessage(&msg, NULL, 0, 0)) != 0)
    if (ret == -1)
      return 1;

  return msg.wParam;

  switch (uMsg)
    HANDLE_MSG(hWnd, WM_CREATE, MainWindow_OnCreate);
    HANDLE_MSG(hWnd, WM_DESTROY, MainWindow_OnDestroy);
    HANDLE_MSG(hWnd, WM_SIZE, MainWindow_OnSize);
    HANDLE_MSG(hWnd, WM_PAINT, MainWindow_OnPaint);
    return DefWindowProc(hWnd, uMsg, wParam, lParam);

BOOL MainWindow_OnCreate(HWND hWnd, LPCREATESTRUCT lpCreateStruct)
  return TRUE;

void MainWindow_OnDestroy(HWND hWnd)

void MainWindow_OnSize(HWND hWnd, UINT state, int cx, int cy)
  InvalidateRect(hWnd, NULL, FALSE);

void MainWindow_OnPaint(HWND hWnd)
  HDC hdc;

  BeginPaint(hWnd, &ps);
  hpb = BeginBufferedPaint(ps.hdc, &ps.rcPaint, BPBF_COMPATIBLEBITMAP, NULL, &hdc);

  FillRect(hdc, &ps.rcPaint, GetStockBrush(DKGRAY_BRUSH));
  Sleep(320); // This simulates some slow drawing actions.

  EndBufferedPaint(hpb, TRUE);
  EndPaint(hWnd, &ps);

Is it possible to eliminate the flickering?

share|improve this question
Removing the Sleep does the trick! Difficult to see what else the system can do while you take so long to paint the window. – David Heffernan Aug 26 '12 at 13:44
I added it just to show what's flickering like more clearly. I want a solution even when the drawing actions takes 320ms and still no flickering, just not show the second step. – EFanZh Aug 26 '12 at 13:50
I've already set the hbrBackground to NULL, that was a mistake. – Hans Passant Aug 26 '12 at 14:07
@HansPassant What do you mean by "that was a mistake"? – EFanZh Aug 26 '12 at 14:09
It causes the kind of flicker you describe. Set it to a brush that matches the desired background color so that WM_ERASEBKGND gives you a fast rectangle fill. – Hans Passant Aug 26 '12 at 14:15
up vote 7 down vote accepted

When the window is updated during a drag operation, then the OS has to show something in the extended window region. If you can't provide anything then it will show the background until you do. Since you didn't specify any background you get blackness. Surely you ought to be specifying a background brush? Simply adding the following to your code makes the behaviour more palatable:

wcex.hbrBackground = GetStockBrush(DKGRAY_BRUSH);

However, if you take as long as 320ms to respond to a WM_PAINT then you ruin the resize UI for the user. It becomes jerky and unresponsive. The system is designed around the assumption that you can paint the window quickly enough for dragging to feel smooth. The right way to fix your problem is to make WM_PAINT run in a reasonable time.

If you really can't achieve quick enough painting for smooth dragging then I suggest a couple of alternatives:

  1. Disable window updates during dragging. I'm sure this can be done for individual windows, but I can't remember how to do it off the top of my head.
  2. Paint something fake whilst a resize/drag is active, and postpone the real painting until when the resize/drag has completed. Listening for WM_ENTERSIZEMOVE and WM_EXITSIZEMOVE are the keys to this. This MSDN article illustrates how to do that: http://support.microsoft.com/kb/121541
share|improve this answer
Is there something in DWM I can use to control the composing process? I mean something like, the window informs DWM, "Stop composing the window, until the painting action is done, then compose the fully painted window to screen." – EFanZh Aug 26 '12 at 14:04
OK, but what do you want to be drawn in the expanded client region? Something has to be drawn. – David Heffernan Aug 26 '12 at 14:09
Nothing. The window is expanded, yes, but I don't want to display it to user immediately. I want to display it when I finished painting. – EFanZh Aug 26 '12 at 14:12
A big +1. And, 320ms is really unacceptable for any WM_PAINT. This is a real problem. If it was me, I would asynchronously compose the image and only render a precomposed bitmap on WM_PAINT. During image composition, the system will give you the background brush for free, then maybe you could show a StretchBltd image of the previously composed image just to give the user something during those 320ms. Depends on the content of your window whether that's a good idea or a terrible one. – tenfour Aug 26 '12 at 14:20
I agree with @tenfour. That's really the fundamental problem here. My app has some D3D MDI child windows. And when they resize it takes time to reinitialize the D3D context. Stretch drawing the most recently painted content is the solution that we use. We then draw the proper content when the resize is complete. – David Heffernan Aug 26 '12 at 14:20

Use WM_SIZING instead of WM_SIZE and don't forget about WM_ERASEBKGND.

share|improve this answer
I've already set the hbrBackground to NULL, according to stackoverflow.com/questions/12073721/…, the WM_EREASEBACKGROUND doesn't need to handle anymore. – EFanZh Aug 26 '12 at 13:40
Why would handling WM_SIZING make a difference? – David Heffernan Aug 26 '12 at 13:44
Yep, then just handle WM_SIZING message... – Tutankhamen Aug 26 '12 at 13:45
@David Heffernan WM_SIZE - Sent to a window after its size has changed. WM_SIZING - Sent to a window that the user is resizing. By processing this message, an application can monitor the size and position of the drag rectangle and, if needed, change its size or position. – Tutankhamen Aug 26 '12 at 13:47
WM_SIZE is sent during the drag as well. Sorry. WM_SIZING is meant to allow you to constrain the drag operation. For example to apply a fixed width, variably height constraint. – David Heffernan Aug 26 '12 at 13:49

If you go into the System Properties control panel applet, choose the Advanced tab, and then click Settings... in the Performance group box, you'll see a checkbox setting called Show window contents while dragging. If you uncheck that and try resizing a window, you'll see that only the window frame moves until you complete the drag operation, and then the window repaints just once at the new size. This is how window sizing used to work when we had slow, crufty computers.

Now we don't really want to change the setting globally (which you would do by calling SystemParametersInfo with SPI_SETDRAGFULLWINDOWS, but don't really do that because your users won't like it).

What happens when the user grabs the resize border is that the thread enters a modal loop controlled by the window manager. Your window will get WM_ENTERSIZEMOVE as that loop begins and WM_EXITSIZEMOVE when the operation is complete. At some point you'll also get a WM_GETMINMAXINFO, which probably isn't relevant to what you need to do. You'll also get WM_SIZING, WM_SIZE messages rapidly as the user drags the sizing frame (and the rapid WM_SIZEs often lead to WM_PAINTs).

The global Show window contents while dragging setting is responsible for getting the rapid WM_SIZE messages. If that setting is off, you'll just get one WM_SIZE message when it's all over.

If your window is complicated, you probably have layout code computing stuff (and maybe moving child windows) in the WM_SIZE handler and a lot of painting code in the WM_PAINT handler. If all that code is too slow (as your sample 320 ms delay suggests), then you'll have a flickery, jerky experience.

We really don't want to change the global setting, but it does inspire a solution to your problem:

Do simpler drawing during the resize operation and then do your (slower) complex drawing just once when the operation is over.


  1. Set a flag when you see the WM_ENTERSIZEMOVE.
  2. Change your WM_SIZE handler to check the flag and do nothing if it's set.
  3. Change your WM_PAINT handler to check the flag and do a simple, fast fill of the window in a solid color if it's set.
  4. Clear the flag when you see WM_EXITSIZEMOVE, and then trigger your layout code and invalidate your window so that everything gets updated based on the final size.

If your slow window is a child rather than your application's top-level window, you'll have to signal the child window when the top-level window gets the WM_ENTERSIZEMOVE and WM_EXITSIZEMOVE in order to implement steps 1 and 4.

share|improve this answer

Yes you can entirely delete flickering :)

You can do all the window message handling in one thread, and painting its context in another. Your window always keeps responsive. It works great, can not understand why this is not established best practice.

If you bind a Direct3D context for example, it can have an instant scaling while resizing, completely without having the context updated!

My code looks like this:

int WINAPI wWinMain( HINSTANCE a_hInstance, HINSTANCE a_hPrevInstance, LPWSTR a_lpCmdLine, int a_nCmdShow )
    Win32WindowRunnable* runnableWindow=new Win32WindowRunnable(a_hInstance, a_nCmdShow);
    IThread* threadWindow=new Win32Thread(runnableWindow);

    Scene1* scene=new Scene1(runnableWindow->waitForWindowHandle());
    IThread* threadRender=new Win32Thread(scene);


    delete runnableWindow;
    return 0;

Full source example here: https://github.com/TheWhiteAmbit/TheWhiteAmbit/blob/master/Win32App/Win32Main.cpp

share|improve this answer

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