/****************************** Module Header ******************************\ * Module Name: winmgr.c * * Copyright (c) 1985 - 1999, Microsoft Corporation * * Core Window Manager APIs and support routines. * * History: * 24-Sep-1990 darrinm Generated stubs. * 22-Jan-1991 IanJa Handle revalidation added * 19-Feb-1991 JimA Added enum access checks \***************************************************************************/ #include "precomp.h" #pragma hdrstop /***************************************************************************\ * xxxFlashWindow (API) * * New for 5.0: HIWORD(dwFlags) contains the number of times the window should be * flashed. LOWORD(dwFlags) contains the FLASHW_ bits. * * History: * 27-Nov-1990 DarrinM Ported. * 15-Nov-1997 MCostea Added dwTimeout and windowing the maximised cmd \***************************************************************************/ BOOL xxxFlashWindow( PWND pwnd, DWORD dwFlags, DWORD dwTimeout) { BOOL fStatePrev = FALSE; BOOL fFlashOn; DWORD dwState; CheckLock(pwnd); /* * Get the previous state. If not available (FLASHW_STOP) then * initialize on/off based on frame */ dwState = GetFlashWindowState(pwnd); if (dwState == FLASHW_DONE) { /* * We just need to clean up and to set the activation correctly */ dwState |= FLASHW_KILLTIMER; dwFlags = FLASHW_STOP; goto flash; } if (dwState == FLASHW_STOP) { #if defined(_X86_) /* * If there is a fullscreen cmd window, switch it to window mode * so that the user gets a chance to see the flashing one */ if (gbFullScreen == FULLSCREEN) { _PostMessage(gspwndFullScreen, CM_MODE_TRANSITION, (WPARAM)WINDOWED, (LPARAM)0); } #endif // _X86_ if (TestWF(pwnd, WFFRAMEON)) { dwState = FLASHW_ON | FLASHW_STARTON; } } else if (dwFlags == FLASHW_TIMERCALL) { dwFlags = dwState; } dwFlags &= FLASHW_CALLERBITS; fStatePrev = (dwState & FLASHW_ON); /* * Later5.0 Gerardob * Not sure why we do this check but it used to be here. */ if (pwnd == gspwndAltTab) { return fStatePrev; } /* * Check if we're waiting to come to the foreground to stop. */ if (dwState & FLASHW_FLASHNOFG) { if (gpqForeground == GETPTI(pwnd)->pq) dwFlags = FLASHW_STOP; } flash: /* * Figure out new state */ if (dwFlags != FLASHW_STOP) { fFlashOn = !fStatePrev; } else { fFlashOn = (gpqForeground != NULL) && (gpqForeground->spwndActive == pwnd); } /* * Flash'em */ if ((dwFlags == FLASHW_STOP) || (dwFlags & FLASHW_CAPTION)) { xxxSendMessage(pwnd, WM_NCACTIVATE, fFlashOn, 0L); } if ((dwFlags == FLASHW_STOP) || (dwFlags & FLASHW_TRAY)) { if (IsTrayWindow(pwnd)) { HWND hw = HWq(pwnd); BOOL fShellFlash; if (dwState & FLASHW_DONE) { /* * If the window is not the active one when we're done flashing, * let the tray icon remain activated. The Shell is going to * take care to restore it at the when the window gets activated */ fShellFlash = !fFlashOn; } else { fShellFlash = (dwFlags == FLASHW_STOP ? FALSE : fFlashOn); } xxxCallHook(HSHELL_REDRAW, (WPARAM) hw, (LPARAM) fShellFlash, WH_SHELL); PostShellHookMessages(fShellFlash? HSHELL_FLASH:HSHELL_REDRAW, (LPARAM)hw); } } /* * If we're to continue, check count, set timer and store * state as appropriate. Otherwise, kill timer and remove * state */ if (dwFlags != FLASHW_STOP) { /* * If counting, decrement count when we complete a cycle */ if (HIWORD(dwFlags) != 0) { dwState |= FLASHW_COUNTING; if (!(fFlashOn ^ !!(dwState & FLASHW_STARTON))) { dwFlags -= MAKELONG(0,1); } /* * Make sure we have a timer going. */ if (!(dwState & FLASHW_KILLTIMER)) { dwFlags |= FLASHW_TIMER; } } /* * Set a timer if needed. */ if (dwFlags & FLASHW_TIMER) { dwState |= FLASHW_KILLTIMER; InternalSetTimer(pwnd, IDSYS_FLASHWND, dwTimeout ? dwTimeout : gpsi->dtCaretBlink, xxxSystemTimerProc, TMRF_SYSTEM); } /* * Remember on/off state, propagate public flags * and count then save the state */ if (dwState & FLASHW_COUNTING && HIWORD(dwFlags) == 0) { dwState = FLASHW_DONE; } else { SET_OR_CLEAR_FLAG(dwState, FLASHW_ON, fFlashOn); COPY_FLAG(dwState, dwFlags, FLASHW_CALLERBITS & ~FLASHW_TIMER); } SetFlashWindowState(pwnd, dwState); } else { /* * We're done. */ if (dwState & FLASHW_KILLTIMER) { _KillSystemTimer(pwnd, IDSYS_FLASHWND); } RemoveFlashWindowState(pwnd); } return fStatePrev; } /***************************************************************************\ * xxxEnableWindow (API) * * * History: * 12-Nov-1990 DarrinM Ported. \***************************************************************************/ BOOL xxxEnableWindow( PWND pwnd, BOOL fEnable) { BOOL fOldState, fChange; CheckLock(pwnd); UserAssert(IsWinEventNotifyDeferredOK()); fOldState = TestWF(pwnd, WFDISABLED); if (!fEnable) { fChange = !TestWF(pwnd, WFDISABLED); xxxSendMessage(pwnd, WM_CANCELMODE, 0, 0); if (pwnd == PtiCurrent()->pq->spwndFocus) { xxxSetFocus(NULL); } SetWF(pwnd, WFDISABLED); } else { fChange = TestWF(pwnd, WFDISABLED); ClrWF(pwnd, WFDISABLED); } if (fChange) { xxxWindowEvent(EVENT_OBJECT_STATECHANGE, pwnd, OBJID_WINDOW, INDEXID_CONTAINER, 0); xxxSendMessage(pwnd, WM_ENABLE, fEnable, 0L); } return fOldState; } /***************************************************************************\ * xxxDoSend * * The following code is REALLY BOGUS!!!! Basically it prevents an * app from hooking the WM_GET/SETTEXT messages if they're going to * be called from another app. * * History: * 04-Mar-1992 JimA Ported from Win 3.1 sources. \***************************************************************************/ LRESULT xxxDoSend( PWND pwnd, UINT message, WPARAM wParam, LPARAM lParam) { /* * We compare PROCESSINFO sturctures here so multi-threaded * app can do what the want. */ if (GETPTI(pwnd)->ppi == PtiCurrent()->ppi) { return xxxSendMessage(pwnd, message, wParam, lParam); } else { return xxxDefWindowProc(pwnd, message, wParam, lParam); } } /***************************************************************************\ * xxxGetWindowText (API) * * * History: * 09-Nov-1990 DarrinM Wrote. \***************************************************************************/ int xxxGetWindowText( PWND pwnd, LPTSTR psz, int cchMax) { LARGE_UNICODE_STRING str; UINT nRet, nLen; CheckLock(pwnd); if (cchMax) { /* * Initialize string empty, in case xxxSendMessage aborts validation * If a bogus value was returned, rely on str.Length */ str.bAnsi = FALSE; str.MaximumLength = cchMax * sizeof(WCHAR); str.Buffer = psz; str.Length = 0; *psz = TEXT('\0'); nRet = (UINT)xxxDoSend(pwnd, WM_GETTEXT, cchMax, (LPARAM)&str); nLen = str.Length / sizeof(WCHAR); return (nRet > nLen) ? nLen : nRet; } return 0; } /***************************************************************************\ * xxxSetParent (API) * * Change a windows parent to a new window. These steps are taken: * * 1. The window is hidden (if visible), * 2. Its coordinates are mapped into the new parent's space such that the * window's screen-relative position is unchanged. * 3. The window is unlinked from its old parent and relinked to the new. * 4. xxxSetWindowPos is used to move the window to its new position. * 5. The window is shown again (if originally visible) * * NOTE: If you have a child window and set its parent to be NULL (the * desktop), the WS_CHILD style isn't removed from the window. This bug has * been in windows since 2.x. It turns out the apps group depends on this for * their combo boxes to work. Basically, you end up with a top level window * that never gets activated (our activation code blows it off due to the * WS_CHILD bit). * * History: * 12-Nov-1990 DarrinM Ported. * 19-Feb-1991 JimA Added enum access check * 12-Apr-2001 Mohamed Added the check of parenting your owner. \***************************************************************************/ PWND xxxSetParent( PWND pwnd, PWND pwndNewParent) { POINT pt; BOOL fVisible; PWND pwndOldParent, pwndOldRedirectedParent, pwndNewRedirectedParent; TL tlpwndOldParent; TL tlpwndNewParent; PVOID pvRet; PWND pwndDesktop; PWND pwndT; int flags = SWP_NOZORDER | SWP_NOSIZE; CheckLock(pwnd); CheckLock(pwndNewParent); if (!ValidateParentDepth(pwnd, pwndNewParent)) { RIPERR0(ERROR_INVALID_PARAMETER, RIP_WARNING, "Exceeded nested children limit"); return NULL; } pwndDesktop = PWNDDESKTOP(pwnd); /* * In 1.0x, an app's parent was null, but now it is pwndDesktop. * Need to remember to lock pwndNewParent because we're reassigning * it here. */ if (pwndNewParent == NULL) pwndNewParent = pwndDesktop; /* * Don't ever change the parent of the desktop. */ if ((pwnd == pwndDesktop) || (pwnd == PWNDMESSAGE(pwnd))) { RIPERR0(ERROR_ACCESS_DENIED, RIP_WARNING, "Access denied: can't change parent of the desktop"); return NULL; } /* * Don't let the window become its own parent, grandparent, etc. */ for (pwndT = pwndNewParent; pwndT != NULL; pwndT = pwndT->spwndParent) { if (pwnd == pwndT) { RIPERR0(ERROR_INVALID_PARAMETER, RIP_WARNING, "Attempting to create a parent-child relationship loop."); return NULL; } } /* * Don't let the window become the parent of its owner, or of its owner's * owner, etc. This throws ZOrderByOwner2 into an infinite loop. */ for (pwndT = pwndNewParent->spwndOwner; pwndT != NULL; pwndT = pwndT->spwndOwner) { if (pwnd == pwndT) { RIPERR0(ERROR_INVALID_PARAMETER, RIP_WARNING, "Attempting to create a parent-owner relationship loop."); return NULL; } } /* * We still need pwndNewParent across callbacks... and even though * it was passed in, it may have been reassigned above. */ ThreadLock(pwndNewParent, &tlpwndNewParent); /* * Make the thing disappear from original parent. */ fVisible = xxxShowWindow(pwnd, MAKELONG(SW_HIDE, TEST_PUDF(PUDF_ANIMATE))); /* * Ensure that the window being changed and the new parent * are not in a destroyed state. * * IMPORTANT: After this check, do not leave the critical section * until the window links have been rearranged. */ if (TestWF(pwnd, WFDESTROYED) || TestWF(pwndNewParent, WFDESTROYED)) { ThreadUnlock(&tlpwndNewParent); return NULL; } pwndOldRedirectedParent = GetStyleWindow(pwnd, WEFPREDIRECTED); pwndNewRedirectedParent = GetStyleWindow(pwndNewParent, WEFPREDIRECTED); if ((pwndOldRedirectedParent != NULL) && (pwndOldRedirectedParent != pwnd) && (pwndNewRedirectedParent == NULL)) { ConvertRedirectionDCs(pwnd, NULL); } pwndOldParent = pwnd->spwndParent; ThreadLock(pwndOldParent, &tlpwndOldParent); if (TestWF(pwndOldParent, WEFLAYOUTRTL)) { pt.x = pwnd->rcWindow.right; } else { pt.x = pwnd->rcWindow.left; } pt.y = pwnd->rcWindow.top; _ScreenToClient(pwndOldParent, &pt); UnlinkWindow(pwnd, pwndOldParent); Lock(&pwnd->spwndParent, pwndNewParent); if (pwndNewParent == PWNDDESKTOP(pwnd) && !TestWF(pwnd, WEFTOPMOST)) { /* * Make sure a child who's owner is topmost inherits the topmost * bit. - win31 bug 7568 */ if (TestWF(pwnd, WFCHILD) && (pwnd->spwndOwner) && TestWF(pwnd->spwndOwner, WEFTOPMOST)) { SetWF(pwnd, WEFTOPMOST); } /* * BACKWARD COMPATIBILITY HACK ALERT * * All top level windows must be WS_CLIPSIBLINGs bit set. * The SDM ComboBox() code calls SetParent() with a listbox * window that does not have this set. This causes problems * with InternalInvalidate2() because it does not subtract off * the window from the desktop's update region. * * We must invalidate the DC cache here, too, because if there is * a cache entry lying around, its clipping region will be incorrect. */ if ((pwndNewParent == _GetDesktopWindow()) && !TestWF(pwnd, WFCLIPSIBLINGS)) { SetWF(pwnd, WFCLIPSIBLINGS); zzzInvalidateDCCache(pwnd, IDC_DEFAULT); } /* * This is a top level window but it isn't a topmost window so we * have to link it below all topmost windows. */ LinkWindow(pwnd, CalcForegroundInsertAfter(pwnd), pwndNewParent); } else { /* * If this is a child window or if this is a TOPMOST window, we can * link at the head of the parent chain. */ LinkWindow(pwnd, NULL, pwndNewParent); } /* * If we're a child window, do any necessary attaching and * detaching. */ if (TestwndChild(pwnd)) { /* * Make sure we're not a WFCHILD window that got SetParent()'ed * to the desktop. */ if ((pwnd->spwndParent != PWNDDESKTOP(pwnd)) && GETPTI(pwnd) != GETPTI(pwndOldParent)) { zzzAttachThreadInput(GETPTI(pwnd), GETPTI(pwndOldParent), FALSE); } /* * If the new parent window is on a different thread, and also * isn't the desktop window, attach ourselves appropriately. */ if (pwndNewParent != PWNDDESKTOP(pwnd) && GETPTI(pwnd) != GETPTI(pwndNewParent)) { zzzAttachThreadInput(GETPTI(pwnd), GETPTI(pwndNewParent), TRUE); } } /* * If we are moving under a WS_EX_COMPOSITED parent-chain, we need to turn * off any child windows in the subtree that are WS_EX_COMPOSITED. */ if (GetStyleWindow(pwnd->spwndParent, WEFCOMPOSITED) != NULL) { xxxTurnOffCompositing(pwnd, FALSE); } if (pwndNewParent == PWNDMESSAGE(pwnd) || pwndOldParent == PWNDMESSAGE(pwnd)) flags |= SWP_NOACTIVATE; xxxWindowEvent(EVENT_OBJECT_PARENTCHANGE, pwnd, OBJID_WINDOW, INDEXID_CONTAINER, WEF_USEPWNDTHREAD); /* * We mustn't return an invalid pwndOldParent */ xxxSetWindowPos(pwnd, NULL, pt.x, pt.y, 0, 0, flags); if (fVisible) { xxxShowWindow(pwnd, MAKELONG(SW_SHOWNORMAL, TEST_PUDF(PUDF_ANIMATE))); } /* * returns pwndOldParent if still valid, else NULL. */ pvRet = ThreadUnlock(&tlpwndOldParent); ThreadUnlock(&tlpwndNewParent); return pvRet; } /***************************************************************************\ * xxxFindWindowEx (API) * * Searches for a window among top level windows. The keys used are pszClass, * (the class name) and/or pszName, (the window title name). Either can be * NULL. * * History: * 06-Jun-1994 JohnL Converted xxxFindWindow to xxxFindWindowEx * 10-Nov-1992 mikeke Added 16bit and 32bit only flag * 24-Sep-1990 DarrinM Generated stubs. * 02-Jun-1991 ScottLu Ported from Win3. * 19-Feb-1991 JimA Added enum access check \***************************************************************************/ #define CCHMAXNAME 80 PWND _FindWindowEx( PWND pwndParent, PWND pwndChild, LPCWSTR ccxlpszClass, LPCWSTR ccxlpszName, DWORD dwType) { /* * Note that the Class and Name pointers are client-side addresses. */ PBWL pbwl; HWND *phwnd; PWND pwnd; WORD atomClass = 0; LPCWSTR lpName; BOOL fTryMessage = FALSE; if (ccxlpszClass != NULL) { /* * note that we do a version-less check here, then call FindClassAtom right away. */ atomClass = FindClassAtom(ccxlpszClass); if (atomClass == 0) { return NULL; } } /* * Setup parent window */ if (!pwndParent) { pwndParent = _GetDesktopWindow(); /* * If we are starting from the root and no child window * was specified, then check the message window tree too * in case we don't find it on the desktop tree. */ if (!pwndChild) fTryMessage = TRUE; } TryAgain: /* * Setup first child */ if (!pwndChild) { pwndChild = pwndParent->spwndChild; } else { if (pwndChild->spwndParent != pwndParent) { RIPMSG0(RIP_WARNING, "FindWindowEx: Child window doesn't have proper parent"); return NULL; } pwndChild = pwndChild->spwndNext; } /* * Generate a list of top level windows. */ if ((pbwl = BuildHwndList(pwndChild, BWL_ENUMLIST, NULL)) == NULL) { return NULL; } /* * Set pwnd to NULL in case the window list is empty. */ pwnd = NULL; try { for (phwnd = pbwl->rghwnd; *phwnd != (HWND)1; phwnd++) { /* * Validate this hwnd since we left the critsec earlier (below * in the loop we send a message! */ if ((pwnd = RevalidateHwnd(*phwnd)) == NULL) continue; /* * make sure this window is of the right type */ if (dwType != FW_BOTH) { if (((dwType == FW_16BIT) && !(GETPTI(pwnd)->TIF_flags & TIF_16BIT)) || ((dwType == FW_32BIT) && (GETPTI(pwnd)->TIF_flags & TIF_16BIT))) continue; } /* * If the class is specified and doesn't match, skip this window * note that we do a version-less check here, use pcls->atomNVClassName */ if (!atomClass || (atomClass == pwnd->pcls->atomNVClassName)) { if (!ccxlpszName) break; if (pwnd->strName.Length) { lpName = pwnd->strName.Buffer; } else { lpName = szNull; } /* * Is the text the same? If so, return with this window! */ if (_wcsicmp(ccxlpszName, lpName) == 0) break; } /* * The window did not match. */ pwnd = NULL; } } except (W32ExceptionHandler(FALSE, RIP_WARNING)) { pwnd = NULL; } FreeHwndList(pbwl); if (!pwnd && fTryMessage) { fTryMessage = FALSE; pwndParent = _GetMessageWindow(); pwndChild = NULL; goto TryAgain; } return ((*phwnd == (HWND)1) ? NULL : pwnd); } /***************************************************************************\ * UpdateCheckpoint * * Checkpoints the current window size/position/state and returns a pointer * to the structure. * * History: \***************************************************************************/ PCHECKPOINT UpdateCheckpoint( PWND pwnd) { RECT rc; GetRect(pwnd, &rc, GRECT_WINDOW | GRECT_PARENTCOORDS); return CkptRestore(pwnd, &rc); } /***************************************************************************\ * GetWindowPlacement * * History: * 02-Mar-1992 MikeKe From Win 3.1 \***************************************************************************/ BOOL _GetWindowPlacement( PWND pwnd, PWINDOWPLACEMENT pwp) { CHECKPOINT * pcp; /* * this will set the normal or the minimize point in the checkpoint, * so that all elements will be up to date. */ pcp = UpdateCheckpoint(pwnd); if (!pcp) return FALSE; if (TestWF(pwnd, WFMINIMIZED)) { pwp->showCmd = SW_SHOWMINIMIZED; } else if (TestWF(pwnd, WFMAXIMIZED)) { pwp->showCmd = SW_SHOWMAXIMIZED; } else { pwp->showCmd = SW_SHOWNORMAL; } CopyRect(&pwp->rcNormalPosition, &pcp->rcNormal); if (pcp->fMinInitialized) { pwp->ptMinPosition = pcp->ptMin; } else { pwp->ptMinPosition.x = pwp->ptMinPosition.y = -1; } /* * We never ever save the position of "normal" maximized windows. Other * wise, when the size border changes dimensions, the max pos would be * invalid, and you would never be able to reset it. */ if (pcp->fMaxInitialized && !TestWF(pwnd, WFREALLYMAXIMIZABLE)) { pwp->ptMaxPosition = pcp->ptMax; } else { pwp->ptMaxPosition.x = pwp->ptMaxPosition.y = -1; } if ((pwnd->spwndParent == PWNDDESKTOP(pwnd)) && !TestWF(pwnd, WEFTOOLWINDOW)) { PMONITOR pMonitor; pMonitor = _MonitorFromRect(&pwp->rcNormalPosition, MONITOR_DEFAULTTOPRIMARY); /* * Convert min, normal positions to be relative to the working area. * The max pos already is (always is saved that way). * * working area, except for maximized position, which is always * working area relative. */ if (pcp->fMinInitialized) { pwp->ptMinPosition.x -= (pMonitor->rcWork.left - pMonitor->rcMonitor.left); pwp->ptMinPosition.y -= (pMonitor->rcWork.top - pMonitor->rcMonitor.top); } OffsetRect(&pwp->rcNormalPosition, pMonitor->rcMonitor.left - pMonitor->rcWork.left, pMonitor->rcMonitor.top - pMonitor->rcWork.top); } pwp->flags = 0; /* * B#3276 * Don't allow WPF_SETMINPOSITION on top-level windows. */ if (TestwndChild(pwnd) && pcp->fDragged) pwp->flags |= WPF_SETMINPOSITION; if (pcp->fWasMaximizedBeforeMinimized || TestWF(pwnd, WFMAXIMIZED)) pwp->flags |= WPF_RESTORETOMAXIMIZED; pwp->length = sizeof(WINDOWPLACEMENT); return TRUE; } /***************************************************************************\ * CheckPlacementBounds * * History: * 02-Mar-1992 MikeKe From Win 3.1 \***************************************************************************/ VOID CheckPlacementBounds( LPRECT lprc, LPPOINT ptMin, LPPOINT ptMax, PMONITOR pMonitor) { int xIcon; int yIcon; int sTop; int sBottom; int sLeft; int sRight; /* * Check Normal Window Placement */ /* * Possible values for these sign variables are : * -1 : less than the minimum for that dimension * 0 : within the range for that dimension * 1 : more than the maximum for that dimension */ sTop = (lprc->top < pMonitor->rcWork.top) ? -1 : ((lprc->top > pMonitor->rcWork.bottom) ? 1 : 0); sBottom = (lprc->bottom < pMonitor->rcWork.top) ? -1 : ((lprc->bottom > pMonitor->rcWork.bottom) ? 1 : 0); sLeft = (lprc->left < pMonitor->rcWork.left) ? -1 : ((lprc->left > pMonitor->rcWork.right) ? 1 : 0); sRight = (lprc->right < pMonitor->rcWork.left) ? -1 : ((lprc->right > pMonitor->rcWork.right) ? 1 : 0); if ((sTop * sBottom > 0) || (sLeft * sRight > 0)) { /* * Window is TOTALLY outside monitor bounds. The resolution and/or * configuration of monitors probably changed since the last time * we ran this app. * * Slide it FULLY onto the monitor at the nearest position. */ int size; if (sTop < 0) { lprc->bottom -= lprc->top; lprc->top = pMonitor->rcWork.top; } else if (sBottom > 0) { size = lprc->bottom - lprc->top; lprc->top = max(pMonitor->rcWork.bottom - size, pMonitor->rcWork.top); lprc->bottom = lprc->top + size; } if (sLeft < 0) { lprc->right -= lprc->left; lprc->left = pMonitor->rcWork.left; } else if (sRight > 0) { size = lprc->right - lprc->left; lprc->left = max(pMonitor->rcWork.right - size, pMonitor->rcWork.left); lprc->right = lprc->left + size; } } /* * Check Iconic Window Placement */ if (ptMin->x != -1) { xIcon = SYSMET(CXMINSPACING); yIcon = SYSMET(CYMINSPACING); sTop = (ptMin->y < pMonitor->rcWork.top) ? -1 : ((ptMin->y > pMonitor->rcWork.bottom) ? 1 : 0); sBottom = (ptMin->y + yIcon < pMonitor->rcWork.top) ? -1 : ((ptMin->y + yIcon > pMonitor->rcWork.bottom) ? 1 : 0); sLeft = (ptMin->x < pMonitor->rcWork.left) ? -1 : ((ptMin->x > pMonitor->rcWork.right) ? 1 : 0); sRight = (ptMin->x + xIcon < pMonitor->rcWork.left) ? -1 : ((ptMin->x + xIcon > pMonitor->rcWork.right) ? 1 : 0); /* * Icon is TOTALLY outside monitor bounds; repark it. */ if ((sTop * sBottom > 0) || (sLeft * sRight > 0)) ptMin->x = ptMin->y = -1; } /* * Check Maximized Window Placement */ if (ptMax->x != -1 && (ptMax->x + pMonitor->rcWork.left >= pMonitor->rcWork.right || ptMax->y + pMonitor->rcWork.top >= pMonitor->rcWork.bottom)) { /* * window is TOTALLY below beyond maximum dimensions; zero the * position so that the window will at least be clipped to the * monitor. */ ptMax->x = 0; ptMax->y = 0; } } /***************************************************************************\ * WPUpdateCheckPointSettings * * History: * 02/23/98 GerardoB Extracted from xxxSetWindowPlacement \***************************************************************************/ void WPUpdateCheckPointSettings (PWND pwnd, UINT uWPFlags) { CHECKPOINT * pcp; UserAssert(TestWF(pwnd, WFMINIMIZED)); if (pcp = UpdateCheckpoint(pwnd)) { /* * Save settings in the checkpoint struct */ if (uWPFlags & WPF_SETMINPOSITION) pcp->fDragged = TRUE; if (uWPFlags & WPF_RESTORETOMAXIMIZED) { pcp->fWasMaximizedBeforeMinimized = TRUE; } else { pcp->fWasMaximizedBeforeMinimized = FALSE; } } } /***************************************************************************\ * xxxSetWindowPlacement * * History: * 02-Mar-1992 MikeKe From Win 3.1 \***************************************************************************/ BOOL xxxSetWindowPlacement( PWND pwnd, PWINDOWPLACEMENT pwp) { CHECKPOINT * pcp; PMONITOR pMonitor; RECT rc; POINT ptMin; POINT ptMax; BOOL fMin; BOOL fMax; UINT uSWPFlags; BOOL fRealAsync; CheckLock(pwnd); CopyRect(&rc, &pwp->rcNormalPosition); if (pwnd->spwndParent == PWNDDESKTOP(pwnd)) { pMonitor = _MonitorFromRect(&rc, MONITOR_DEFAULTTOPRIMARY); } ptMin = pwp->ptMinPosition; fMin = ((ptMin.x != -1) && (ptMin.y != -1)); ptMax = pwp->ptMaxPosition; fMax = ((ptMax.x != -1) && (ptMax.y != -1)); /* * Convert back to working rectangle coordinates */ if ( pwnd->spwndParent == PWNDDESKTOP(pwnd) && !TestWF(pwnd, WEFTOOLWINDOW)) { OffsetRect( &rc, pMonitor->rcWork.left - pMonitor->rcMonitor.left, pMonitor->rcWork.top - pMonitor->rcMonitor.top); if (fMin) { ptMin.x += pMonitor->rcWork.left - pMonitor->rcMonitor.left; ptMin.y += pMonitor->rcWork.top - pMonitor->rcMonitor.top; } CheckPlacementBounds(&rc, &ptMin, &ptMax, pMonitor); } if (pcp = UpdateCheckpoint(pwnd)) { /* * Save settings in the checkpoint struct */ CopyRect(&pcp->rcNormal, &rc); pcp->ptMin = ptMin; pcp->fMinInitialized = fMin; pcp->fDragged = (pwp->flags & WPF_SETMINPOSITION) ? TRUE : FALSE; pcp->ptMax = ptMax; pcp->fMaxInitialized = fMax; pcp->fWasMaximizedBeforeMinimized = FALSE; } /* * WPF_ASYNCWINDOWPLACEMENT new for NT5. */ uSWPFlags = SWP_NOZORDER | SWP_NOACTIVATE | ((pwp->flags & WPF_ASYNCWINDOWPLACEMENT) ? SWP_ASYNCWINDOWPOS : 0); if (TestWF(pwnd, WFMINIMIZED)) { if ((!pcp || pcp->fDragged) && fMin) { xxxSetWindowPos(pwnd, PWND_TOP, ptMin.x, ptMin.y, 0, 0, SWP_NOSIZE | uSWPFlags); } } else if (TestWF(pwnd, WFMAXIMIZED)) { if (pcp != NULL) { if (TestWF(pwnd, WFREALLYMAXIMIZABLE)) pcp->fMaxInitialized = FALSE; if (pcp->fMaxInitialized) { if (pwnd->spwndParent == PWNDDESKTOP(pwnd)) { ptMax.x += pMonitor->rcWork.left; ptMax.y += pMonitor->rcWork.top; } xxxSetWindowPos(pwnd, PWND_TOP, ptMax.x, ptMax.y, 0, 0, SWP_NOSIZE | uSWPFlags); } } } else { xxxSetWindowPos(pwnd, PWND_TOP, rc.left, rc.top, rc.right - rc.left, rc.bottom - rc.top, uSWPFlags); } /* * xxxSetWindowPos is only assync when the window's thread is on a * different queue than the current thread's. See AsyncWindowPos. */ fRealAsync = (pwp->flags & WPF_ASYNCWINDOWPLACEMENT) && (GETPTI(pwnd)->pq != PtiCurrent()->pq); if (fRealAsync) { _ShowWindowAsync(pwnd, pwp->showCmd, pwp->flags); } else { xxxShowWindow(pwnd, MAKELONG(pwp->showCmd, TEST_PUDF(PUDF_ANIMATE))); } if (TestWF(pwnd, WFMINIMIZED) && !fRealAsync) { WPUpdateCheckPointSettings(pwnd, pwp->flags); } return TRUE; } /***************************************************************************\ * xxxSetInternalWindowPos * * Sets a window to the size, position and state it was most recently * in. Side effect (possibly bug): shows and activates the window as well. * * History: * 28-Mar-1991 DavidPe Ported from Win 3.1 sources. \***************************************************************************/ BOOL xxxSetInternalWindowPos( PWND pwnd, UINT cmdShow, LPRECT lprcWin, LPPOINT lpptMin) { CHECKPOINT * pcp; PMONITOR pMonitor; CheckLock(pwnd); if ((pcp = UpdateCheckpoint(pwnd)) == NULL) { return FALSE; } if (lprcWin) { pcp->rcNormal = *lprcWin; if (pwnd->spwndParent == PWNDDESKTOP(pwnd)) { pMonitor = _MonitorFromRect(lprcWin, MONITOR_DEFAULTTOPRIMARY); OffsetRect( &pcp->rcNormal, pMonitor->rcWork.left - pMonitor->rcMonitor.left, pMonitor->rcWork.top - pMonitor->rcMonitor.top); } } if (lpptMin && (lpptMin->x != -1)) { pcp->ptMin = *lpptMin; if (pwnd->spwndParent == PWNDDESKTOP(pwnd)) { pMonitor = _MonitorFromRect(&pcp->rcNormal, MONITOR_DEFAULTTOPRIMARY); pcp->ptMin.x += pMonitor->rcWork.left - pMonitor->rcMonitor.left; pcp->ptMin.y += pMonitor->rcWork.top - pMonitor->rcMonitor.top; } pcp->fDragged = TRUE; pcp->fMinInitialized = TRUE; } else { pcp->fMinInitialized = FALSE; pcp->fDragged = FALSE; } if (TestWF(pwnd, WFMINIMIZED)) { /* * need to move the icon */ if (pcp->fMinInitialized) { xxxSetWindowPos(pwnd, PWND_TOP, pcp->ptMin.x, pcp->ptMin.y, 0, 0, SWP_NOSIZE | SWP_NOZORDER | SWP_NOACTIVATE); } } else if (!TestWF(pwnd, WFMAXIMIZED) && lprcWin) { /* * need to set the size and the position */ xxxSetWindowPos(pwnd, NULL, lprcWin->left, lprcWin->top, lprcWin->right - lprcWin->left, lprcWin->bottom - lprcWin->top, SWP_NOZORDER); } xxxShowWindow(pwnd, MAKELONG(cmdShow, TEST_PUDF(PUDF_ANIMATE))); return TRUE; } /***************************************************************************\ * _GetDesktopWindow (API) * * History: * 07-Nov-1990 DarrinM Implemented. \***************************************************************************/ PWND _GetDesktopWindow(VOID) { PTHREADINFO pti = PtiCurrent(); PDESKTOPINFO pdi; if (pti == NULL) return NULL; pdi = pti->pDeskInfo; return pdi == NULL ? NULL : pdi->spwnd; } /***************************************************************************\ * _GetDesktopWindow (API) * * History: * 07-Nov-1990 DarrinM Implemented. \***************************************************************************/ PWND _GetMessageWindow(VOID) { PTHREADINFO pti = PtiCurrent(); PDESKTOP pdi; if (pti == NULL) return NULL; pdi = pti->rpdesk; return pdi == NULL ? NULL : pdi->spwndMessage; } /**************************************************************************\ * TestWindowProcess * * History: * 14-Nov-1994 JimA Created. \**************************************************************************/ BOOL TestWindowProcess( PWND pwnd) { return (PpiCurrent() == GETPTI(pwnd)->ppi); } /***************************************************************************\ * ValidateDepth * * The function conveniently simulates recursion by utilizing the fact * that from any sibling in the Next chain we can correctly get to the * parent window and that two siblings in the Next chain cannot have * different parents. * * 12-Mar-1997 vadimg created \***************************************************************************/ #define NESTED_WINDOW_LIMIT 100 BOOL ValidateParentDepth(PWND pwnd, PWND pwndParent) { UINT cDepth = 1, cDepthMax; PWND pwndStop; /* * Calculate the depth of the parent chain. */ while (pwndParent != NULL) { pwndParent = pwndParent->spwndParent; cDepth++; } cDepthMax = cDepth; /* * When pwnd is NULL, it means that we want to add one more * level to the existing depth of pwndParent. */ if (pwnd == NULL || pwnd->spwndChild == NULL) { goto Exit; } else { pwndStop = pwnd->spwndParent; } Restart: if (pwnd->spwndChild != NULL) { pwnd = pwnd->spwndChild; cDepth++; } else if (pwnd->spwndNext != NULL) { pwnd = pwnd->spwndNext; } else { if (cDepth > cDepthMax) { cDepthMax = cDepth; } /* * Find a parent with siblings and recurse on them. Terminate * when we reach the parent of the original pwnd. */ do { pwnd = pwnd->spwndParent; cDepth--; if (pwnd == pwndStop) goto Exit; } while (pwnd->spwndNext == NULL); pwnd = pwnd->spwndNext; } goto Restart; Exit: return (cDepthMax <= NESTED_WINDOW_LIMIT); } /***************************************************************************\ * ValidateOwnerDepth * * pwndOwner is the new intended owner, we basically add 1 to the current * nested owner chain depth. We assume that the actual window does not have * any ownees. In reality, it can through SetWindowLong, but finding the * maximum depth of the ownee chain is really tricky - just look in swp.c. * * 12-Mar-1997 vadimg created \***************************************************************************/ BOOL ValidateOwnerDepth(PWND pwnd, PWND pwndOwner) { UINT cDepth = 1; while (pwndOwner != NULL) { /* * Do not allow loops in the owner chain. */ if (pwndOwner == pwnd) { return FALSE; } pwndOwner = pwndOwner->spwndOwner; cDepth++; } return (cDepth <= NESTED_WINDOW_LIMIT); }