i want to repaint part of the window not the whole thing. i have no idea how to. im using win32 please no mfc........
thanks in advance
// create rect structure
RECT rect2;
rect2.left=0;
rect2.top=0;
rect2.right=225;
rect2.bottom=300;
// calling invalidateRect when left mouse button is donw
case WM_LBUTTONDOWN:
InvalidateRect(hWnd, &rect2, false);
break;
Pass the rectangle of the portion of window, which you want to re-paint, in InvalidateRect() method. Read here for details.
Is this for a game engine? It appears so since you are concerned about cpu usage on a full redraw.
If it is, then I'd recommend blitting to a back buffer image, keeping track of what portion of your back buffer has changed and copying only that portion to the screen once you are done rendering. This is called double buffering and will also take care of flickering issues you might see.
What's wrong with RedrawWindow ?
As other answers have pointed out; when handling WM_PAINT you need to get the update rectangle/region and draw/blit accordingly.
see:
+ The WM_PAINT Message
+ Retrieving the Update Region
+ Invalidating and Validating the Update Region
+ Synchronous and Asynchronous Drawing
Related
I'm asking this question ahead of time, since I haven't gotten around to attempting an actual, real implementation yet. Win32 (C++) is turning out to be a colossal pain to program. But, my question is this:
I want to make my application's window become fully transparent with a dotted perimeter when resizing the window. How would I accomplish this? Think of what happens in Windows 3/3.1 (I believe it was this version) when resizing a window. Everything goes transparent, with a dotted-outline where the mouse is moving, then it repaints the entire contents. That's what I'm trying to achieve.
A while ago, I tried handling the WM_(ENTER/EXIT)SIZEMOVE messages and make use of SetWindowLong() to set the WS_EX_TRANSPARENT extended style, but my window became (indefinitely) pass-through, and when the window's focus was killed, it could never again regain focus.
Do I need to handle other messages like WM_NCLBUTTON(DOWN/UP)? I have a boolean flag to tell me when to halt drawing during resizing, and the logic for determining when I'm resizing works perfectly, but I cannot get the visuals to work. I'm not sure which parts of the Win32 API to actually use. I've done some research, and uxtheme.lib/.h seems promising, but I'm not sure how that would work with WM_NCPAINT, which I have been using with (some) luck.
EDIT
I need to clarify something, in case anyone was confused or unsure of what I meant. What I meant by the Windows 3.1/3 resizing scenario is that once WM_ENTERSIZEMOVE has occurred, the window (controls, caption, frame) should be made entirely invisible, and the window's nonclient-region's perimeter should display a dotted-outline of sorts. Then, only until the resize has been finished, when WM_EXITSIZEMOVE has occurred should the entire window (controls, caption, frame) be fully redrawn, updated, and returned to its normal, functional state. Sorry for any miscommunication!
I found the answer... After so long, finally found it. Here's where I found it! http://www.catch22.net/tuts/win32/docking-toolbars-part-2# - Hope it helps anyone else possibly in my shoes!
And it turns out that the solution was rather simple. In fact, the core concept of what is explained is near-completely what I was thinking, yet I just had no idea how to implement it. The solution involves overriding the default WM_NCLBUTTONDOWN, WM_MOUSEMOVE, WM_LBUTTONUP (specifically when initiating a window movement) messages, and drawing a patterned rectangle which follows the position of the cursor. Then, afterwards, calling SetWindowPos or some other similar function to relocate the window.
Basically, block Windows from attempting to display anything graphics related until the resizing has been finished. Then, and only then, make Windows move the entire window in one huge, foul swoop.
Based on Remy's comment, there is a global option and corresponding registry setting for this, so perhaps try setting the registry setting when the move starts and restoring it when the move finishes.
Unfortunately this doesn't work as Windows appears only to pick up the setting on restart, broadcasting WM_SETTINGCHANGE also doesn't trigger it, which is a pity as doing something yourself that the OS already has an implementation of do is rather a poor state of affairs.
First, I'm new here, so hello world!
I'm working on a little lightweight controls library. Each control is an instance of a class named "GraphicElement", and doesn't have a handle. I created an event dispatcher and it works as expected but I struggle with the painting of my controls. They are stored in a tree, and I paint them as I go through this tree. I also use a back buffer to ensure the window's content doesn't flicker.
Everything works fine, but when I move one of the controls, this happens:
.
Of course, I can invalidate and repaint the whole window, which theoretically solves my problem, but I'd like to avoid doing so, especially when it's not necessary and for performance reasons.
Here's an example:
I'd like to move R2, then repaint the empty spot (I mean the old location of R2) without redrawing R4 and R5 (and maybe many others).
How to repaint the part of the background which "disappeared" ? Will I have to repaint the whole background, and so all my controls ?
I won't post all my code here because it's pretty long and it also handles other things like events, but as I said before, I draw my controls as I iterate through a tree, so there's nothing crazy in it.
Thank you in advance for your help, and sorry if I'm being not clear.
EDIT: Here's some code, but as I said before if I invalidate the client area of the window it works like a charm, but I want to avoid doing that.
This method ("render") is called when Windows sends a WM_PAINT message :
m_hdcMem = CreateCompatibleDC(hdc);
m_bmpMem = CreateCompatibleBitmap(hdc, m_rect.right - m_rect.left, m_rect.bottom - m_rect.top);
m_bmpOld = (HBITMAP)SelectObject(m_hdcMem, m_bmpMem);
m_background->predraw(m_hdcMem); // draws the client area, which is an instance of GraphicElement
BitBlt(hdc, m_rect.left, m_rect.top, m_rect.right - m_rect.left, m_rect.bottom - m_rect.top, m_hdcMem, 0, 0, SRCCOPY);
SelectObject(m_hdcMem, m_bmpOld);
DeleteObject(m_bmpMem);
DeleteDC(m_hdcMem);
And here's the method "predraw" :
draw(hdc); // draws the current control
for (std::vector<GraphicElement*>::iterator it = m_children.begin(); it != m_children.end(); ++it)
(*it)->predraw(hdc); // "predraws" the other controls
Finally, when a control gets resized or moved, its area is invalidated using this function :
InvalidateRect(m_parentHwnd, lpRect, FALSE); // If I invalidate the whole window, my code works perfectly, but I'd like to know how to paint parts of my window
I don't know what you mean by "lightweight control that doesn't have a handle", but I guess they are simple C++ classes (and not true "controls) that must be drawn on the parent window's client area.
The "problem" is that the WM_PAINT message is a low-priority one, sent if the window has an invalid part in its client area, just before the application yields.
The documentation you should read first is: Painting and Drawing
The implementation I would suggest, as I have used it quite a few times and works really well, is a combination of both methods:
Process the WM_PAINT message (and the BeginPaint()/EndPaint() functions) to paint the whole client window (or a part of it, using the rcPaint member of the PAINTSTRUCT structure, if a more "optimized" implementation is desired). Please note that the WM_PAINT message may be sent as a result of moving, resizing, bringing the window in foreground, or revealing a part of the window previously obscured by another one, that is due to user actions, in addition to programmatically invalidating the whole or part of it. So in response to this message you should draw the parent window and all the controls in their current position.
Use the GetDC()/ReleaseDC() functions to draw only the part of the window affected by actions like adding, deleting, or moving a control. This kind of drawing takes place immediately, not waiting for the WM_PAINT message to be sent. You should fill the area previously occupied by the control and draw the control in its new position. You should not invalidate any part of the client area, as this would cause another WM_PAINT message to be sent.
The control drawing functions should be taking a HDC parameter (among any others needed), so as to be usable by both drawing methods (the handles returned by either the BeginPaint() or the GetDC() functions).
I have used this technique to make image-processing applications (eg have the user selecting a part of the image and drawing/restoring the rectangle selected) and unattended monitor applications.
An alternative, simpler implementation (employing only "Painting" but not "Drawing") could be:
When a control is resized or moved invalidate only the old and new areas occupied by the control.
Processing of the WM_PAINT message generally as above, but it should be modified so as to fill only the rectangle in the rcPaint member of the PAINTSTRUCT structure, and draw only the controls intersecting with the above rectangle.
I have a C++ windows API program which displays text using TextOut function
TCHAR buffer[] = _T("Hello");
TCHAR buffer1[] = _T("How to clear this one\?");
TextOut(hdc,200,170,buffer,_tcslen(buffer));
TextOut(hdc, 200, 185, buffer1, _tcslen(buffer1));
My further text output has been overwritten like this
how to clear the previous one and add this one.
I found that doing TextOut function on the same location like this
TextOut(hdc,200,170,buffer,_tcslen(buffer));
TextOut(hdc, 200, 170, buffer1, _tcslen(buffer1));
will replace the previous one but for some other reasons I cannot do this
what is the actual way of clearing the screen.
Is there anything in windows like system("cls") for console
Thank you
The question is improperly posed, as it seems that you think that the drawable surface of a window is somehow persistent - it isn't, the system is free to forget about all of its content and call your WM_PAINT handler to have it redrawn back to the state where it was. For this reason, the question feels strange: it's not that you erase some content that is already there (the window content is ephemeral), you arrange so that your paint code no longer paints what you don't want and force a repaint.
So, if you are doing your drawing in WM_PAINT like you should, you should set some kind of flag (or probably, clear the data structures that store the elements to draw) that tells your repaint code not to draw the text and do an InvalidateRect(hwnd, TRUE) to have your window background repainted and your WM_PAINT called.
My fear however is that you are not doing painting in WM_PAINT as you should, but scattered in other places using GetDC and the like (tip: in normal applications there's almost no place where you need GetDC or CreateDC); in this case, you are already doing it wrong (as you can see by minimizing and restoring your window), and you should learn how to do it properly before going on.
Is it necessary to invalidate the update region before immediate painting (in response to a user action) if I use Direct2D? Or is calling RenderTarget::BeginDraw() enough? I need to quickly repaint some part of the window outside of the WM_PAINT message. If I don't invalidate the update region, sometimes the whole client area of the window becomes black, no drawings are visible. But if I do invalidate the update region, the system sends a WM_PAINT message before I validate the update region back, which causes unnecessary drawing operations to be performed. How should I implement the immediate drawing operations outside the WM_PAINT message handler if I use Direct2D?
Invalidating and validating are ways to get a WM_PAINT message and to handle one. If you're painting outside of a WM_PAINT handler, you shouldn't be invalidating or validating as part of that drawing.
That said, it's very uncommon to paint outside of the WM_PAINT handler. It can be very hard to get it right. My advice would be to get everything working via a traditional WM_PAINT handler first, and then decide whether it's really necessary to do some painting outside that handler.
Typically when using Direct2D in a game-like application you perform no drawing in WM_PAINT and draw using Direct2D many times per second. Another common technique, for cases where you draw something once and do not create a new drawing many times per second is storing the drawing in a back buffer of some sort; that way you can 'blit' it to the screen in response to a WM_PAINT message.
Of course, this could be different for your case, depending on the type of program you are creating.
When the user grabs a corner of a resizable window, and then moves it, windows first moves the contents of the window around, then issues a WM_SIZE to the window being resized.
Thus, in a dialog where I want to control the movement of various child controls, and I want to eliminate flickering, the user first sees what windows OS thinks the window will look like (because, AFAICT, the OS uses a bitblt approach to moving things around inside the window before sending the WM_SIZE) - and only then does my dialog get to handle moving its child controls around, or resize them, etc., after which it must force things to repaint, which now causes flicker (at the very least).
My main question is: Is there a way to force windows NOT to do this stupid bitblt thing? Its definitely going to be wrong in the case of a window with controls that move as the window is resized, or that resize themselves as their parent is resized. Either way, having the OS do a pre-paint just screws the works.
I thought for a time that it might be related to CS_HREDRAW and CSVREDRAW class flags. However, the reality is that I don't want the OS to ask me to erase the window - I just want to do the repainting myself without the OS first changing the contents of my window (i.e. I want the display to be what it was before the user started resizing - without any bitblit'ing from the OS). And I don't want the OS to tell every control that it needs to be redrawn either (unless it happened to be one that was in fact obscured or revealed by the resize.
What I really want:
To move & resize child controls before anything gets updated onscreen.
Draw all of the moved or resized child controls completely so that they appear without artifacts at their new size & location.
Draw the spaces inbetween the child controls without impacting the child controls themselves.
NOTE: Steps 2 and 3 could be reversed.
The above three things appear to happen correctly when I use DeferSetWindowPos() in combination with the dialog resource marked as WS_CLIPCHILDREN.
I'd get an additional small benefit if I could do the above to a memory DC, and then only do a single bitblt at the end of the WM_SIZE handler.
I have played with this for a while now, and I cannot escape two things:
I still am unable to suppress Windows from doing a 'predictive bitblt'. Answer: See below for a solution that overrides WM_NCCALCSIZE to disable this behavior.
I cannot see how one can build a dialog where its child controls draw to a double buffer. Answer: See John's answer (marked as answer) below for how to ask Windows OS to double buffer your dialog (note: this disallows any GetDC() in-between paint operations, according to the docs).
My Final Solution (Thank you everyone who contributed, esp. John K.):
After much sweat and tears, I have found that the following technique works flawlessly, both in Aero and in XP or with Aero disabled. Flicking is non-existent(1).
Hook the dialog proc.
Override WM_NCCALCSIZE to force Windows to validate the entire client area, and not bitblt anything.
Override WM_SIZE to do all of your moves & resizes using BeginDeferWindowPos/DeferWindowPos/EndDeferWindowPos for all visible windows.
Ensure that the dialog window has the WS_CLIPCHILDREN style.
Do NOT use CS_HREDRAW|CS_VREDRAW (dialogs don't, so generally not an issue).
The layout code is up to you - its easy enough to find examples on CodeGuru or CodeProject of layout managers, or to roll your own.
Here are some code excerpts that should get you most of the way:
LRESULT ResizeManager::WinProc(HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam)
{
switch (msg)
{
case WM_ENTERSIZEMOVE:
m_bResizeOrMove = true;
break;
case WM_NCCALCSIZE:
// The WM_NCCALCSIZE idea was given to me by John Knoeller:
// see: http://stackoverflow.com/questions/2165759/how-do-i-force-windows-not-to-redraw-anything-in-my-dialog-when-the-user-is-resiz
//
// The default implementation is to simply return zero (0).
//
// The MSDN docs indicate that this causes Windows to automatically move all of the child controls to follow the client's origin
// and experience shows that it bitblts the window's contents before we get a WM_SIZE.
// Hence, our child controls have been moved, everything has been painted at its new position, then we get a WM_SIZE.
//
// Instead, we calculate the correct client rect for our new size or position, and simply tell windows to preserve this (don't repaint it)
// and then we execute a new layout of our child controls during the WM_SIZE handler, using DeferWindowPos to ensure that everything
// is moved, sized, and drawn in one go, minimizing any potential flicker (it has to be drawn once, over the top at its new layout, at a minimum).
//
// It is important to note that we must move all controls. We short-circuit the normal Windows logic that moves our child controls for us.
//
// Other notes:
// Simply zeroing out the source and destination client rectangles (rgrc[1] and rgrc[2]) simply causes Windows
// to invalidate the entire client area, exacerbating the flicker problem.
//
// If we return anything but zero (0), we absolutely must have set up rgrc[0] to be the correct client rect for the new size / location
// otherwise Windows sees our client rect as being equal to our proposed window rect, and from that point forward we're missing our non-client frame
// only override this if we're handling a resize or move (I am currently unaware of how to distinguish between them)
// though it may be adequate to test for wparam != 0, as we are
if (bool bCalcValidRects = wparam && m_bResizeOrMove)
{
NCCALCSIZE_PARAMS * nccs_params = (NCCALCSIZE_PARAMS *)lparam;
// ask the base implementation to compute the client coordinates from the window coordinates (destination rect)
m_ResizeHook.BaseProc(hwnd, msg, FALSE, (LPARAM)&nccs_params->rgrc[0]);
// make the source & target the same (don't bitblt anything)
// NOTE: we need the target to be the entire new client rectangle, because we want windows to perceive it as being valid (not in need of painting)
nccs_params->rgrc[1] = nccs_params->rgrc[2];
// we need to ensure that we tell windows to preserve the client area we specified
// if I read the docs correctly, then no bitblt should occur (at the very least, its a benign bitblt since it is from/to the same place)
return WVR_ALIGNLEFT|WVR_ALIGNTOP;
}
break;
case WM_SIZE:
ASSERT(m_bResizeOrMove);
Resize(hwnd, LOWORD(lparam), HIWORD(lparam));
break;
case WM_EXITSIZEMOVE:
m_bResizeOrMove = false;
break;
}
return m_ResizeHook.BaseProc(hwnd, msg, wparam, lparam);
}
The resizing is really done by the Resize() member, like so:
// execute the resizing of all controls
void ResizeManager::Resize(HWND hwnd, long cx, long cy)
{
// defer the moves & resizes for all visible controls
HDWP hdwp = BeginDeferWindowPos(m_resizables.size());
ASSERT(hdwp);
// reposition everything without doing any drawing!
for (ResizeAgentVector::const_iterator it = m_resizables.begin(), end = m_resizables.end(); it != end; ++it)
VERIFY(hdwp == it->Reposition(hdwp, cx, cy));
// now, do all of the moves & resizes at once
VERIFY(EndDeferWindowPos(hdwp));
}
And perhaps the final tricky bit can be seen in the ResizeAgent's Reposition() handler:
HDWP ResizeManager::ResizeAgent::Reposition(HDWP hdwp, long cx, long cy) const
{
// can't very well move things that no longer exist
if (!IsWindow(hwndControl))
return hdwp;
// calculate our new rect
const long left = IsFloatLeft() ? cx - offset.left : offset.left;
const long right = IsFloatRight() ? cx - offset.right : offset.right;
const long top = IsFloatTop() ? cy - offset.top : offset.top;
const long bottom = IsFloatBottom() ? cy - offset.bottom : offset.bottom;
// compute height & width
const long width = right - left;
const long height = bottom - top;
// we can defer it only if it is visible
if (IsWindowVisible(hwndControl))
return ::DeferWindowPos(hdwp, hwndControl, NULL, left, top, width, height, SWP_NOZORDER|SWP_NOACTIVATE);
// do it immediately for an invisible window
MoveWindow(hwndControl, left, top, width, height, FALSE);
// indicate that the defer operation should still be valid
return hdwp;
}
The 'tricky' being that we avoid trying to mess with any windows that have been destroyed, and we don't try to defer a SetWindowPos against a window that is not visible (as this is documented as "will fail".
I've tested the above in a real project that hides some controls, and makes use of fairly complex layouts with excellent success. There is zero flickering(1) even without Aero, even when you resize using the upper left corner of the dialog window (most resizable windows will show the most flickering and problems when you grab that handle - IE, FireFox, etc.).
If there is interest enough, I could be persuaded to edit my findings with a real example implementation for CodeProject.com or somewhere similar. Message me.
(1) Please note that it is impossible to avoid one draw over the top of whatever used to be there. For every part of the dialog that has not changed, the user can see nothing (no flicker whatsoever). But where things have changed, there is a change visible to the user - this is impossible to avoid, and is a 100% solution.
You can't prevent painting during resizing, but you can (with care) prevent repainting which is where flicker comes from. first, the bitblt.
There a two ways to stop the bitblt thing.
If you own the class of the top level window, then just register it with the CS_HREDRAW | CS_VREDRAW styles. This will cause a resize of your window to invalidate the entire client area, rather than trying to guess which bits are not going to change and bitblting.
If you don't own the class, but do have the ability to control message handling (true for most dialog boxes). The default processing of WM_NCCALCSIZE is where the class styles CS_HREDRAW and CS_VREDRAW are handled, The default behavior is to return WVR_HREDRAW | WVR_VREDRAW from processing WM_NCCALCSIZE when the class has CS_HREDRAW | CS_VREDRAW.
So if you can intercept WM_NCCALCSIZE, you can force the return of these values after calling DefWindowProc to do the other normal processing.
You can listen to WM_ENTERSIZEMOVE and WM_EXITSIZEMOVE to know when resizing of your window starts and stops, and use that to temporarily disable or modify the way your drawing and/or layout code works to minimize the flashing. What exactly you want to do to modify this code will depend on what your normal code normally does in WM_SIZE WM_PAINT and WM_ERASEBKGND.
When you paint the background of your dialog box, you need to not paint behind any of the child windows. making sure that the dialog has WS_CLIPCHILDREN solves this, so you have this handled already.
When you do move the child windows, Make sure that you use BeginDeferWindowPos / EndDefwindowPos so that all of the repainting happens at once. Otherwise you will get a bunch of flashing as each window redraws their nonclient area on each SetWindowPos call.
If I understood the question properly, it's exactly the question Raymond addressed today.
Here's a 2018 update, since I just ran through the very same gauntlet as you.
The "final solution" in your question, and the related answers, that mention tricks with WM_NCCALCSIZE and CS_HREDRAW|CS_VREDRAW are good for preventing Windows XP/Vista/7 from doing the BitBlt that molests your client area during resizing. It might even be useful to mention a similar trick: you can intercept WM_WINDOWPOSCHANGING (first passing it onto DefWindowProc) and set WINDOWPOS.flags |= SWP_NOCOPYBITS, which disables the BitBlt inside the internal call to SetWindowPos() that Windows makes during window resizing. This has the same eventual effect of skipping the BitBlt.
And some people mentioned that your WM_NCCALCSIZE trick no longer works in Windows 10. I think that might be because the code you wrote returns WVR_ALIGNLEFT|WVR_ALIGNTOP when it should be returning WVR_VALIDRECTS in order for the two rectangles you constructed (nccs_params->rgrc[1] and nccs_params->rgrc[2]) to be used by Windows, at least according to the very skimpy dox in the MSDN pages for WM_NCCALCSIZE and NCCALCSIZE_PARAMS. It's possible that Windows 10 is more strict about that return value; I would try it out.
However, even if we assume that we can convince Windows 10 not to do BitBlt inside SetWindowPos(), it turns out there's a new problem...
Windows 10 (and possibly also Windows 8) adds another layer of client area molestation on top of the old legacy molestation from XP/Vista/7.
Under Windows 10, apps do not draw directly to the framebuffer, but instead draw into offscreen buffers that the Aero Window manager (DWM.exe) composites.
It turns out that DWM will sometimes decide to "help" you by drawing its own content over your client area (sort of like a BitBlt but even more perverse and even further out of your control).
So in order to be free of client area molestation, we still need to get WM_NCCALCSIZE under control but we also need to prevent DWM from messing with your pixels.
I was fighting with exactly the same problem and created a roundup Question/Answer which brings together 10 years of posts on this topic and offers some new insights (too long to paste the content here in this question). The BitBlt mentioned above is no longer the only problem, as of Windows Vista. Enjoy:
How to smooth ugly jitter/flicker/jumping when resizing windows, especially dragging left/top border (Win 7-10; bg, bitblt and DWM)?
For some controls, you can use WM_PRINT message to make the control draw into a DC. But that doesn't really solve your primary problem, which is that you want Windows to NOT draw anything during resize, but to let you do it all.
And the answer is that you just can't do what you want as long as you have child windows.
The way I ended up solving this eventually in my own code is to switch to using Windowless Controls. Since they have no window of their own, they always draw at the same time (and into the same DC) as their parent window. This allows me to use simple double buffering to completely remove flicker. I can even trivially suppress painting of the children when I need to just by not calling their draw routine inside the parent's draw routine.
This is the only way I know of to completely get rid of flicker and tearing during resize operations.
If you can find a place to plug it in, CWnd::LockWindowUpdates() will prevent any drawing from occuring until after you unlock the updates.
But keep in mind this is a hack, and a fairly ugly one at that. Your window will look terrible during resizes. If the problem you are having is flickering during resizes, then the best thing to do is diagnose the flickering, rather than hiding the flickering by blocking paints.
One thing to look for are redraw commands that get called too often during the resize. If you r window's controls are calling RedrawWindow() with the RDW_UPDATENOW flag specified, it is going to repaint then and there. But you can strip out that flag and specify RDW_INVALIDATE instead, which tells the control to invalidate the window without repainting. It will repaint at idle time, keeping the display fresh without spazzing out.
There are various approaches, but I found the only one that can be used generally is double buffering: draw to an offscreen buffer, then blit the entire buffer to screen.
That comes for free in Vista Aero and above, so your pain might be shortlived.
I am not aware of a general double-buffering implementation for windows and system controls under XP, However, here are some things to explore:
Keith Rule's CMemDC for double-buffering anything you draw yourself with GDI
WS_EX_COMPOSITED Window style (see the remarks section, and something here on stackoverflow)
there is only one way to effectively diagnose repainting problems - remote debugging.
Get a 2nd PC. Install MSVSMON on it. Add a post build step or utility project that copies your build products to the remote PC.
Now you should be able to place breakpoints in WM_PAINT handlers, WM_SIZE handlers and so on and actually trace through your dialog code as it performs the size and redraw. If you download symbols from the MS symbol servers you will be able to see full call stacks.
Some well placed breakpoints - in your WM_PAINT, WM_ERAGEBKGND handlers and you should have a good idea of why your window is being synchronously repainted early during the WM_SIZE cycle.
There are a LOT of windows in the system that consist of a parent window with layered child controls - explorer windows are massivly complicated with listviews, treeviews preview panels etc. Explorer does not have a flicker problem on resizing, so It is celarly possible to get flicker free resizing of parent windows :- what you need to do is catch the repaints, figure out what caused them, and, well, ensure that the cause is removed.
What appears to work:
Use the WS_CLIPCHILDREN on the parent dialog (can be set in WM_INITDIALOG)
During WM_SIZE, loop through the child controls moving and resizing them using DeferSetWindowPos().
This is very close to perfect, in my testing under Windows 7 with Aero.