/////////////////////////////////////////////////////////////////////////////// // Name: src/msw/toplevel.cpp // Purpose: implements wxTopLevelWindow for MSW // Author: Vadim Zeitlin // Modified by: // Created: 24.09.01 // Copyright: (c) 2001 SciTech Software, Inc. (www.scitechsoft.com) // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #include "wx/toplevel.h" #ifndef WX_PRECOMP #include "wx/app.h" #include "wx/dialog.h" #include "wx/string.h" #include "wx/log.h" #include "wx/intl.h" #include "wx/frame.h" #include "wx/menu.h" #include "wx/containr.h" // wxSetFocusToChild() #include "wx/module.h" #endif //WX_PRECOMP #include "wx/scopeguard.h" #include "wx/tooltip.h" #include "wx/msw/private.h" #include "wx/msw/private/winstyle.h" #include "wx/msw/winundef.h" #include "wx/msw/missing.h" #include "wx/display.h" // NB: wxDlgProc must be defined here and not in dialog.cpp because the latter // is not included by wxUniv build which does need wxDlgProc INT_PTR APIENTRY wxDlgProc(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam); // ---------------------------------------------------------------------------- // wxTLWHiddenParentModule: used to manage the hidden parent window (we need a // module to ensure that the window is always deleted) // ---------------------------------------------------------------------------- class wxTLWHiddenParentModule : public wxModule { public: // module init/finalize virtual bool OnInit() wxOVERRIDE; virtual void OnExit() wxOVERRIDE; // get the hidden window (creates on demand) static HWND GetHWND(); private: // the HWND of the hidden parent static HWND ms_hwnd; // the class used to create it static const wxChar *ms_className; wxDECLARE_DYNAMIC_CLASS(wxTLWHiddenParentModule); }; wxIMPLEMENT_DYNAMIC_CLASS(wxTLWHiddenParentModule, wxModule); // ============================================================================ // wxTopLevelWindowMSW implementation // ============================================================================ wxBEGIN_EVENT_TABLE(wxTopLevelWindowMSW, wxTopLevelWindowBase) EVT_ACTIVATE(wxTopLevelWindowMSW::OnActivate) wxEND_EVENT_TABLE() // ---------------------------------------------------------------------------- // wxTopLevelWindowMSW creation // ---------------------------------------------------------------------------- void wxTopLevelWindowMSW::Init() { m_showCmd = SW_SHOWNORMAL; // Data to save/restore when calling ShowFullScreen m_fsStyle = 0; m_fsOldWindowStyle = 0; m_fsIsMaximized = false; m_fsIsShowing = false; m_menuSystem = NULL; } WXDWORD wxTopLevelWindowMSW::MSWGetStyle(long style, WXDWORD *exflags) const { // let the base class deal with the common styles but fix the ones which // don't make sense for us (we also deal with the borders ourselves) WXDWORD msflags = wxWindow::MSWGetStyle ( (style & ~wxBORDER_MASK) | wxBORDER_NONE, exflags ) & ~WS_CHILD & ~WS_VISIBLE; // first select the kind of window being created // // note that if we don't set WS_POPUP, Windows assumes WS_OVERLAPPED and // creates a window with both caption and border, hence we need to use // WS_POPUP in a few cases just to avoid having caption/border which we // don't want // border and caption styles if ( ( style & wxRESIZE_BORDER ) && !IsAlwaysMaximized()) msflags |= WS_THICKFRAME; else if ( exflags && ((style & wxBORDER_DOUBLE) || (style & wxBORDER_RAISED)) ) *exflags |= WS_EX_DLGMODALFRAME; else if ( !(style & wxBORDER_NONE) ) msflags |= WS_BORDER; else msflags |= WS_POPUP; if ( style & wxCAPTION ) msflags |= WS_CAPTION; else msflags |= WS_POPUP; // next translate the individual flags // WS_EX_CONTEXTHELP is incompatible with WS_MINIMIZEBOX and WS_MAXIMIZEBOX // and is ignored if we specify both of them, but chances are that if we // use wxWS_EX_CONTEXTHELP, we really do want to have the context help // button while wxMINIMIZE/wxMAXIMIZE are included by default, so the help // takes precedence if ( !(GetExtraStyle() & wxWS_EX_CONTEXTHELP) ) { if ( style & wxMINIMIZE_BOX ) msflags |= WS_MINIMIZEBOX; if ( style & wxMAXIMIZE_BOX ) msflags |= WS_MAXIMIZEBOX; } // notice that if wxCLOSE_BOX is specified we need to use WS_SYSMENU too as // otherwise the close box doesn't appear if ( style & (wxSYSTEM_MENU | wxCLOSE_BOX) ) msflags |= WS_SYSMENU; // NB: under CE these 2 styles are not supported currently, we should // call Minimize()/Maximize() "manually" if we want to support them if ( style & wxMINIMIZE ) msflags |= WS_MINIMIZE; if ( style & wxMAXIMIZE ) msflags |= WS_MAXIMIZE; // Keep this here because it saves recoding this function in wxTinyFrame if ( style & wxTINY_CAPTION ) msflags |= WS_CAPTION; if ( exflags ) { if ( !(GetExtraStyle() & wxTOPLEVEL_EX_DIALOG) ) { if ( style & wxFRAME_TOOL_WINDOW ) { // create the palette-like window *exflags |= WS_EX_TOOLWINDOW; // tool windows shouldn't appear on the taskbar (as documented) style |= wxFRAME_NO_TASKBAR; } // We have to solve 2 different problems here: // // 1. frames with wxFRAME_NO_TASKBAR flag shouldn't appear in the // taskbar even if they don't have a parent // // 2. frames without this style should appear in the taskbar even // if they're owned (Windows only puts non owned windows into // the taskbar normally) // // The second one is solved here by using WS_EX_APPWINDOW flag, the // first one is dealt with in our MSWGetParent() method // implementation if ( !(style & wxFRAME_NO_TASKBAR) && GetParent() ) { // need to force the frame to appear in the taskbar *exflags |= WS_EX_APPWINDOW; } //else: nothing to do [here] } if ( GetExtraStyle() & wxWS_EX_CONTEXTHELP ) *exflags |= WS_EX_CONTEXTHELP; if ( style & wxSTAY_ON_TOP ) *exflags |= WS_EX_TOPMOST; } return msflags; } WXHWND wxTopLevelWindowMSW::MSWGetParent() const { // for the frames without wxFRAME_FLOAT_ON_PARENT style we should use NULL // parent HWND or it would be always on top of its parent which is not what // we usually want (in fact, we only want it for frames with the // wxFRAME_FLOAT_ON_PARENT flag) HWND hwndParent = NULL; if ( HasFlag(wxFRAME_FLOAT_ON_PARENT) ) { const wxWindow *parent = GetParent(); if ( !parent ) { // this flag doesn't make sense then and will be ignored wxFAIL_MSG( wxT("wxFRAME_FLOAT_ON_PARENT but no parent?") ); } else { hwndParent = GetHwndOf(parent); } } //else: don't float on parent, must not be owned // now deal with the 2nd taskbar-related problem (see comments above in // MSWGetStyle()) if ( HasFlag(wxFRAME_NO_TASKBAR) && !hwndParent ) { // use hidden parent hwndParent = wxTLWHiddenParentModule::GetHWND(); } return (WXHWND)hwndParent; } WXLRESULT wxTopLevelWindowMSW::MSWWindowProc(WXUINT message, WXWPARAM wParam, WXLPARAM lParam) { WXLRESULT rc = 0; bool processed = false; switch ( message ) { case WM_SYSCOMMAND: { // From MSDN: // // ... the four low-order bits of the wParam parameter are // used internally by the system. To obtain the correct // result when testing the value of wParam, an application // must combine the value 0xFFF0 with the wParam value by // using the bitwise AND operator. unsigned id = wParam & 0xfff0; // Preserve the focus when minimizing/restoring the window: // surprisingly, DefWindowProc() doesn't do it automatically // and so we need to it ourselves. Moreover, our code in // OnActivate() doesn't work in this case as we receive the // deactivation event too late when the window is being // minimized and the focus is already NULL by then. Similarly, // we receive the activation event too early and restoring // focus in it fails because the window is still minimized. So // we need to do it here. if ( id == SC_MINIMIZE ) { // For minimization, it's simple enough: just save the // focus as usual. The important thing is that we're not // minimized yet, so this works correctly. DoSaveLastFocus(); } else if ( id == SC_RESTORE ) { // For restoring, it's trickier as DefWindowProc() sets // focus to the window itself. So run it first and restore // our saved focus only afterwards. processed = true; rc = wxTopLevelWindowBase::MSWWindowProc(message, wParam, lParam); DoRestoreLastFocus(); } else if ( id == SC_KEYMENU ) { // Alt-Backspace is understood as an accelerator for "Undo" // by the native EDIT control, but pressing it results in a // beep by default when the resulting SC_KEYMENU is handled // by DefWindowProc(), so pretend to handle it ourselves if // we're editing a text control to avoid the annoying beep. if ( lParam == VK_BACK ) { if ( wxWindow* const focus = FindFocus() ) { if ( focus->WXGetTextEntry() ) processed = true; } } } #ifndef __WXUNIVERSAL__ // We need to generate events for the custom items added to the // system menu if it had been created (and presumably modified). // As SC_SIZE is the first of the system-defined commands, we // only do this for the custom commands before it and leave // SC_SIZE and everything after it to DefWindowProc(). if ( m_menuSystem && id < SC_SIZE ) { if ( m_menuSystem->MSWCommand(0 /* unused anyhow */, id) ) processed = true; } #endif // #ifndef __WXUNIVERSAL__ } break; } if ( !processed ) rc = wxTopLevelWindowBase::MSWWindowProc(message, wParam, lParam); return rc; } bool wxTopLevelWindowMSW::CreateDialog(const void *dlgTemplate, const wxString& title, const wxPoint& pos, const wxSize& size) { // static cast is valid as we're only ever called for dialogs wxWindow * const parent = static_cast(this)->GetParentForModalDialog(); m_hWnd = (WXHWND)::CreateDialogIndirect ( wxGetInstance(), static_cast(dlgTemplate), parent ? GetHwndOf(parent) : NULL, (DLGPROC)wxDlgProc ); if ( !m_hWnd ) { wxFAIL_MSG(wxT("Failed to create dialog. Incorrect DLGTEMPLATE?")); wxLogSysError(wxT("Can't create dialog using memory template")); return false; } // For some reason, the system menu is activated when we use the // WS_EX_CONTEXTHELP style, so let's set a reasonable icon if ( HasExtraStyle(wxWS_EX_CONTEXTHELP) ) { wxFrame *winTop = wxDynamicCast(wxTheApp->GetTopWindow(), wxFrame); if ( winTop ) { wxIcon icon = winTop->GetIcon(); if ( icon.IsOk() ) { ::SendMessage(GetHwnd(), WM_SETICON, (WPARAM)TRUE, (LPARAM)GetHiconOf(icon)); } } } if ( !title.empty() ) { ::SetWindowText(GetHwnd(), title.t_str()); } SubclassWin(m_hWnd); // move the dialog to its initial position without forcing repainting int x, y, w, h; (void)MSWGetCreateWindowCoords(pos, size, x, y, w, h); if ( x == (int)CW_USEDEFAULT ) { // Let the system position the window, just set its size. ::SetWindowPos(GetHwnd(), 0, 0, 0, w, h, SWP_NOMOVE | SWP_NOZORDER | SWP_NOACTIVATE); } else // Move the window to the desired location and set its size too. { if ( !::MoveWindow(GetHwnd(), x, y, w, h, FALSE) ) { wxLogLastError(wxT("MoveWindow")); } } return true; } bool wxTopLevelWindowMSW::CreateFrame(const wxString& title, const wxPoint& pos, const wxSize& size) { WXDWORD exflags; WXDWORD flags = MSWGetCreateWindowFlags(&exflags); const wxSize sz = IsAlwaysMaximized() ? wxDefaultSize : size; if ( wxApp::MSWGetDefaultLayout(m_parent) == wxLayout_RightToLeft ) exflags |= WS_EX_LAYOUTRTL; return MSWCreate(GetMSWClassName(GetWindowStyle()), title.t_str(), pos, sz, flags, exflags); } bool wxTopLevelWindowMSW::Create(wxWindow *parent, wxWindowID id, const wxString& title, const wxPoint& pos, const wxSize& size, long style, const wxString& name) { wxSize sizeReal = size; if ( !sizeReal.IsFullySpecified() ) { sizeReal.SetDefaults(GetDefaultSize()); } // notice that we should append this window to wxTopLevelWindows list // before calling CreateBase() as it behaves differently for TLW and // non-TLW windows wxTopLevelWindows.Append(this); if ( !CreateBase(parent, id, pos, sizeReal, style, name) ) return false; if ( parent ) parent->AddChild(this); if ( GetExtraStyle() & wxTOPLEVEL_EX_DIALOG ) { // we have different dialog templates to allows creation of dialogs // with & without captions under MSWindows, resizable or not (but a // resizable dialog always has caption - otherwise it would look too // strange) // we need 3 additional WORDs for dialog menu, class and title (as we // don't use DS_SETFONT we don't need the fourth WORD for the font) static const int dlgsize = sizeof(DLGTEMPLATE) + (sizeof(WORD) * 3); DLGTEMPLATE *dlgTemplate = (DLGTEMPLATE *)malloc(dlgsize); wxON_BLOCK_EXIT1(free, dlgTemplate); memset(dlgTemplate, 0, dlgsize); // these values are arbitrary, they won't be used normally anyhow const LONG baseUnits = ::GetDialogBaseUnits(); dlgTemplate->x = 34; dlgTemplate->y = 22; dlgTemplate->cx = ::MulDiv(sizeReal.x, 4, LOWORD(baseUnits)); dlgTemplate->cy = ::MulDiv(sizeReal.y, 8, HIWORD(baseUnits)); // reuse the code in MSWGetStyle() but correct the results slightly for // the dialog // // NB: we need a temporary variable as we can't pass pointer to // dwExtendedStyle directly, it's not aligned correctly for 64 bit // architectures WXDWORD dwExtendedStyle; dlgTemplate->style = MSWGetStyle(style, &dwExtendedStyle); dlgTemplate->dwExtendedStyle = dwExtendedStyle; // all dialogs are popups dlgTemplate->style |= WS_POPUP; if ( wxApp::MSWGetDefaultLayout(m_parent) == wxLayout_RightToLeft ) { dlgTemplate->dwExtendedStyle |= WS_EX_LAYOUTRTL; } // force 3D-look if necessary, it looks impossibly ugly otherwise if ( style & (wxRESIZE_BORDER | wxCAPTION) ) dlgTemplate->style |= DS_MODALFRAME; if ( !CreateDialog(dlgTemplate, title, pos, sizeReal) ) return false; } else // !dialog { if ( !CreateFrame(title, pos, sizeReal) ) return false; } if ( !(GetWindowStyleFlag() & wxCLOSE_BOX) ) { EnableCloseButton(false); } InheritAttributes(); // for standard dialogs the dialog manager generates WM_CHANGEUISTATE // itself but for custom windows we have to do it ourselves in order to // make the keyboard indicators (such as underlines for accelerators and // focus rectangles) work under Win2k+ MSWUpdateUIState(UIS_INITIALIZE); return true; } wxTopLevelWindowMSW::~wxTopLevelWindowMSW() { delete m_menuSystem; SendDestroyEvent(); } // ---------------------------------------------------------------------------- // wxTopLevelWindowMSW showing // ---------------------------------------------------------------------------- void wxTopLevelWindowMSW::DoShowWindow(int nShowCmd) { // After hiding or minimizing an owned window, Windows activates the next // top level window in Z order but it may be different from our owner (to // reproduce this simply Alt-TAB to another application and back before // closing the owned frame) whereas we always want to yield activation to // our parent, so do it explicitly _before_ yielding activation. switch ( nShowCmd ) { case SW_HIDE: case SW_MINIMIZE: if ( HasFlag(wxFRAME_FLOAT_ON_PARENT) ) { wxWindow *parent = GetParent(); if ( parent ) { ::BringWindowToTop(GetHwndOf(parent)); } } break; } ::ShowWindow(GetHwnd(), nShowCmd); #if wxUSE_TOOLTIPS // Don't leave a tooltip hanging around if TLW is hidden now. wxToolTip::UpdateVisibility(); #endif // wxUSE_TOOLTIPS } void wxTopLevelWindowMSW::ShowWithoutActivating() { if ( !wxWindowBase::Show(true) ) return; // We can't show the window in a maximized state without activating it, so // the sequence of hiding the window, calling Maximize() and this function // will end up with the window not being maximized -- but this is arguably // better than activating it and is compatible with the historical // behaviour of this function. DoShowWindow(m_showCmd == SW_MINIMIZE ? SW_SHOWMINNOACTIVE : SW_SHOWNA); } bool wxTopLevelWindowMSW::Show(bool show) { // don't use wxWindow version as we want to call DoShowWindow() ourselves if ( !wxWindowBase::Show(show) ) return false; int nShowCmd; if ( show ) { // If we need to minimize or maximize the window, do it now. if ( m_showCmd == SW_MAXIMIZE || m_showCmd == SW_MINIMIZE ) { nShowCmd = m_showCmd; } else if ( ::IsIconic(GetHwnd()) ) { // We were restored while we were hidden, so now we need to show // the window in its normal state. // // As below, don't activate some kinds of windows. if ( HasFlag(wxFRAME_TOOL_WINDOW) || !IsEnabled() ) nShowCmd = SW_SHOWNOACTIVATE; else nShowCmd = SW_RESTORE; } else // just show { // we shouldn't use SW_SHOW which also activates the window for // tool frames (as they shouldn't steal focus from the main window) // nor for the currently disabled windows as they would be enabled // as a side effect if ( HasFlag(wxFRAME_TOOL_WINDOW) || !IsEnabled() ) nShowCmd = SW_SHOWNA; else nShowCmd = SW_SHOW; } } else // hide { // When hiding the window, remember if it was maximized or iconized in // order to return the correct value from Is{Maximized,Iconized}(). if ( ::IsZoomed(GetHwnd()) ) m_showCmd = SW_MAXIMIZE; else if ( ::IsIconic(GetHwnd()) ) m_showCmd = SW_MINIMIZE; else m_showCmd = SW_SHOW; nShowCmd = SW_HIDE; } #if wxUSE_DEFERRED_SIZING // we only set pending size if we're maximized before being shown, now that // we're shown we don't need it any more (it is reset in size event handler // for child windows but we have to do it ourselves for this parent window) // // make sure to reset it before actually showing the window as this will // generate WM_SIZE events and we want to use the correct client size from // them, not the size returned by WM_NCCALCSIZE in DoGetClientSize() which // turns out to be wrong for maximized windows (see #11762) m_pendingSize = wxDefaultSize; #endif // wxUSE_DEFERRED_SIZING DoShowWindow(nShowCmd); if ( show && nShowCmd == SW_MAXIMIZE ) { // We don't receive WM_SHOWWINDOW when shown in the maximized state, // cf. https://docs.microsoft.com/en-us/windows/desktop/winmsg/wm-showwindow // and so we have to issue the event ourselves in this case. wxShowEvent event(GetId(), true); event.SetEventObject(this); AddPendingEvent(event); } return true; } void wxTopLevelWindowMSW::Raise() { ::SetForegroundWindow(GetHwnd()); } // ---------------------------------------------------------------------------- // wxTopLevelWindowMSW maximize/minimize // ---------------------------------------------------------------------------- void wxTopLevelWindowMSW::Maximize(bool maximize) { // Update m_showCmd to ensure that the window is maximized when it's shown // later even if it's currently hidden. m_showCmd = maximize ? SW_MAXIMIZE : SW_RESTORE; if ( IsShown() ) { // just maximize it directly DoShowWindow(m_showCmd); } else // hidden { // we can't maximize the hidden frame because it shows it as well, // so don't do anything other than updating m_showCmd for now #if wxUSE_DEFERRED_SIZING // after calling Maximize() the client code expects to get the frame // "real" size and doesn't want to know that, because of implementation // details, the frame isn't really maximized yet but will be only once // it's shown, so return our size as it will be then in this case if ( maximize ) { // we must only change pending size here, and not call SetSize() // because otherwise Windows would think that this (full screen) // size is the natural size for the frame and so would use it when // the user clicks on "restore" title bar button instead of the // correct initial frame size // // NB: unfortunately we don't know which display we're on yet so we // have to use the default one m_pendingSize = wxGetClientDisplayRect().GetSize(); } //else: can't do anything in this case, we don't have the old size #endif // wxUSE_DEFERRED_SIZING } } bool wxTopLevelWindowMSW::IsMaximized() const { if ( IsAlwaysMaximized() ) return true; // If the window is shown, just ask Windows if it's maximized. But hidden // windows are not really maximized, even after Maximize() is called on // them, so for them we check if we're scheduled to maximize the window // when it's shown instead. return IsShown() ? ::IsZoomed(GetHwnd()) != 0 : m_showCmd == SW_MAXIMIZE; } void wxTopLevelWindowMSW::Iconize(bool iconize) { if ( iconize == MSWIsIconized() ) { // Do nothing, in particular don't restore non-iconized windows when // Iconize(false) is called as this would wrongly un-maximize them. return; } // Note that we can't change m_showCmd yet as wxFrame WM_SIZE handler uses // its value to determine whether the frame had been iconized before or not // and this handler will be called from inside DoShowWindow() below. const UINT showCmd = iconize ? SW_MINIMIZE : SW_RESTORE; // We can't actually iconize the window if it's currently hidden, as this // would also show it unexpectedly. if ( IsShown() ) { DoShowWindow(showCmd); } // Update the internal flag in any case, so that IsIconized() returns the // correct value, for example. And if the window is currently hidden, this // also ensures that the next call to Show() will show it in an iconized // state instead of showing it normally. m_showCmd = showCmd; } bool wxTopLevelWindowMSW::IsIconized() const { if ( !IsShown() ) { // Hidden windows are never actually iconized at MSW level, but can be // in wx, so use m_showCmd to determine our status. return m_showCmd == SW_MINIMIZE; } // don't use m_showCmd, it may be briefly out of sync with the real state // as it's only modified when we receive a WM_SIZE and we could be called // from an event handler from one of the messages we receive before it, // such as WM_MOVE return MSWIsIconized(); } bool wxTopLevelWindowMSW::MSWIsIconized() const { return ::IsIconic(GetHwnd()) != 0; } void wxTopLevelWindowMSW::Restore() { // Forget any previous minimized/maximized status. m_showCmd = SW_SHOW; // And actually restore the window to its normal state. Note that here, // unlike in Maximize() and Iconize(), we do it even if the window is // currently hidden, i.e. Restore() is supposed to show it in this case. DoShowWindow(SW_RESTORE); } bool wxTopLevelWindowMSW::Destroy() { if ( !wxTopLevelWindowBase::Destroy() ) return false; // Under Windows 10 iconized windows don't get any messages, so delayed // destruction doesn't work for them if we don't force a message dispatch // here (and it doesn't seem useful to test for MSWIsIconized() as doing // this doesn't do any harm for non-iconized windows neither). For that // matter, doing this shouldn't do any harm under previous OS versions // neither, so checking for the OS version doesn't seem useful too. wxWakeUpIdle(); return true; } void wxTopLevelWindowMSW::SetLayoutDirection(wxLayoutDirection dir) { if ( dir == wxLayout_Default ) dir = wxApp::MSWGetDefaultLayout(m_parent); if ( dir != wxLayout_Default ) wxTopLevelWindowBase::SetLayoutDirection(dir); } // ---------------------------------------------------------------------------- // wxTopLevelWindowMSW geometry // ---------------------------------------------------------------------------- void wxTopLevelWindowMSW::DoGetPosition(int *x, int *y) const { if ( IsIconized() ) { WINDOWPLACEMENT wp; wp.length = sizeof(WINDOWPLACEMENT); if ( ::GetWindowPlacement(GetHwnd(), &wp) ) { RECT& rc = wp.rcNormalPosition; // the position returned by GetWindowPlacement() is in workspace // coordinates except for windows with WS_EX_TOOLWINDOW style if ( !HasFlag(wxFRAME_TOOL_WINDOW) ) { // we must use the correct display for the translation as the // task bar might be shown on one display but not the other one wxDisplay dpy(this); const wxPoint ptOfs = dpy.GetClientArea().GetPosition() - dpy.GetGeometry().GetPosition(); rc.left += ptOfs.x; rc.top += ptOfs.y; } if ( x ) *x = rc.left; if ( y ) *y = rc.top; return; } wxLogLastError(wxT("GetWindowPlacement")); } //else: normal case wxTopLevelWindowBase::DoGetPosition(x, y); } void wxTopLevelWindowMSW::DoGetSize(int *width, int *height) const { if ( IsIconized() ) { WINDOWPLACEMENT wp; wp.length = sizeof(WINDOWPLACEMENT); if ( ::GetWindowPlacement(GetHwnd(), &wp) ) { const RECT& rc = wp.rcNormalPosition; if ( width ) *width = rc.right - rc.left; if ( height ) *height = rc.bottom - rc.top; return; } wxLogLastError(wxT("GetWindowPlacement")); } //else: normal case wxTopLevelWindowBase::DoGetSize(width, height); } void wxTopLevelWindowMSW::MSWGetCreateWindowCoords(const wxPoint& pos, const wxSize& size, int& x, int& y, int& w, int& h) const { // let the system position the window if no explicit position was specified if ( pos.x == wxDefaultCoord ) { // if x is set to CW_USEDEFAULT, y parameter is ignored anyhow so we // can just as well set it to CW_USEDEFAULT as well x = y = CW_USEDEFAULT; } else { // OTOH, if x is not set to CW_USEDEFAULT, y shouldn't be set to it // neither because it is not handled as a special value by Windows then // and so we have to choose some default value for it, even if a // completely arbitrary one static const int DEFAULT_Y = 200; x = pos.x; y = pos.y == wxDefaultCoord ? DEFAULT_Y : pos.y; } if ( size.x == wxDefaultCoord || size.y == wxDefaultCoord ) { // We don't use CW_USEDEFAULT here for several reasons: // // 1. It results in huge frames on modern screens (1000*800 is not // uncommon on my 1280*1024 screen) which is way too big for a half // empty frame of most of wxWidgets samples for example) // // 2. It is buggy for frames with wxFRAME_TOOL_WINDOW style for which // the default is for whatever reason 8*8 which breaks client <-> // window size calculations (it would be nice if it didn't, but it // does and the simplest way to fix it seemed to change the broken // default size anyhow) // // 3. There is just no advantage in doing it: with x and y it is // possible that [future versions of] Windows position the new top // level window in some smart way which we can't do, but we can // guess a reasonably good size for a new window just as well // ourselves // wxSize sizeReal = size; sizeReal.SetDefaults(GetDefaultSize()); w = sizeReal.x; h = sizeReal.y; } else { w = size.x; h = size.y; } } // ---------------------------------------------------------------------------- // wxTopLevelWindowMSW fullscreen // ---------------------------------------------------------------------------- bool wxTopLevelWindowMSW::ShowFullScreen(bool show, long style) { if ( show == IsFullScreen() ) { // nothing to do return true; } m_fsIsShowing = show; if ( show ) { m_fsStyle = style; // zap the frame borders // save the 'normal' window style wxMSWWinStyleUpdater updateStyle(GetHwnd()); m_fsOldWindowStyle = updateStyle.Get(); // save the old position, width & height, maximize state m_fsOldSize = GetRect(); m_fsIsMaximized = IsMaximized(); // decide which window style flags to turn off LONG offFlags = 0; if (style & wxFULLSCREEN_NOBORDER) { offFlags |= WS_BORDER; offFlags |= WS_THICKFRAME; } if (style & wxFULLSCREEN_NOCAPTION) offFlags |= WS_CAPTION | WS_SYSMENU; updateStyle.TurnOff(offFlags); // Full screen windows should logically be popups as they don't have // decorations (and are definitely not children) and while not using // this style doesn't seem to make any difference for most windows, it // breaks wxGLCanvas in some cases, see #15434, so just always use it. updateStyle.TurnOn(WS_POPUP); // change our window style to be compatible with full-screen mode updateStyle.Apply(); // resize to the size of the display containing us, falling back to the // primary one const wxRect rect = wxDisplay(this).GetGeometry(); SetSize(rect); // now flush the window style cache and actually go full-screen long flags = SWP_FRAMECHANGED; // showing the frame full screen should also show it if it's still // hidden if ( !IsShown() ) { // don't call wxWindow version to avoid flicker from calling // ::ShowWindow() -- we're going to show the window at the correct // location directly below -- but do call the wxWindowBase version // to sync the internal m_isShown flag wxWindowBase::Show(); flags |= SWP_SHOWWINDOW; } SetWindowPos(GetHwnd(), HWND_TOP, rect.x, rect.y, rect.width, rect.height, flags); // finally send an event allowing the window to relayout itself &c wxSizeEvent event(rect.GetSize(), GetId()); event.SetEventObject(this); HandleWindowEvent(event); } else // stop showing full screen { Maximize(m_fsIsMaximized); SetWindowLong(GetHwnd(),GWL_STYLE, m_fsOldWindowStyle); SetWindowPos(GetHwnd(),HWND_TOP,m_fsOldSize.x, m_fsOldSize.y, m_fsOldSize.width, m_fsOldSize.height, SWP_FRAMECHANGED); } return true; } // ---------------------------------------------------------------------------- // wxTopLevelWindowMSW misc // ---------------------------------------------------------------------------- void wxTopLevelWindowMSW::SetTitle( const wxString& title) { SetLabel(title); } wxString wxTopLevelWindowMSW::GetTitle() const { return GetLabel(); } bool wxTopLevelWindowMSW::DoSelectAndSetIcon(const wxIconBundle& icons, int smX, int smY, int i) { const wxSize size(wxGetSystemMetrics(smX, this), wxGetSystemMetrics(smY, this)); wxIcon icon = icons.GetIcon(size, wxIconBundle::FALLBACK_NEAREST_LARGER); if ( !icon.IsOk() ) return false; ::SendMessage(GetHwnd(), WM_SETICON, i, (LPARAM)GetHiconOf(icon)); return true; } void wxTopLevelWindowMSW::SetIcons(const wxIconBundle& icons) { wxTopLevelWindowBase::SetIcons(icons); if ( icons.IsEmpty() ) { // FIXME: SetIcons(wxNullIconBundle) should unset existing icons, // but we currently don't do that wxASSERT_MSG( m_icons.IsEmpty(), "unsetting icons doesn't work" ); return; } DoSelectAndSetIcon(icons, SM_CXSMICON, SM_CYSMICON, ICON_SMALL); DoSelectAndSetIcon(icons, SM_CXICON, SM_CYICON, ICON_BIG); } // static bool wxTopLevelWindowMSW::MSWEnableCloseButton(WXHWND hwnd, bool enable) { // get system (a.k.a. window) menu HMENU hmenu = GetSystemMenu(hwnd, FALSE /* get it */); if ( !hmenu ) { // no system menu at all -- ok if we want to remove the close button // anyhow, but bad if we want to show it return !enable; } // enabling/disabling the close item from it also automatically // disables/enables the close title bar button if ( ::EnableMenuItem(hmenu, SC_CLOSE, MF_BYCOMMAND | (enable ? MF_ENABLED : MF_GRAYED)) == -1 ) { wxLogLastError(wxT("EnableMenuItem(SC_CLOSE)")); return false; } // update appearance immediately if ( !::DrawMenuBar(hwnd) ) { wxLogLastError(wxT("DrawMenuBar")); } return true; } bool wxTopLevelWindowMSW::EnableCloseButton(bool enable) { return MSWEnableCloseButton(GetHwnd(), enable); } // Window must have wxCAPTION and either wxCLOSE_BOX or wxSYSTEM_MENU for the // button to be visible. Also check for wxMAXIMIZE_BOX because we don't want // to enable a button that is excluded from the current style. bool wxTopLevelWindowMSW::EnableMaximizeButton(bool enable) { if ( ( HasFlag(wxCAPTION) && ( HasFlag(wxCLOSE_BOX) || HasFlag(wxSYSTEM_MENU) ) ) && HasFlag(wxMAXIMIZE_BOX) ) { if ( enable ) { SetWindowStyleFlag(GetWindowStyleFlag() | wxMAXIMIZE_BOX); } else { SetWindowStyleFlag(GetWindowStyleFlag() ^ wxMAXIMIZE_BOX); // Restore the style to our internal store wxWindowBase::SetWindowStyleFlag(GetWindowStyle() | wxMAXIMIZE_BOX); } return true; } return false; } bool wxTopLevelWindowMSW::EnableMinimizeButton(bool enable) { if ( ( HasFlag(wxCAPTION) && ( HasFlag(wxCLOSE_BOX) || HasFlag(wxSYSTEM_MENU) ) ) && HasFlag(wxMINIMIZE_BOX) ) { if ( enable ) { SetWindowStyleFlag(GetWindowStyleFlag() | wxMINIMIZE_BOX); } else { SetWindowStyleFlag(GetWindowStyleFlag() ^ wxMINIMIZE_BOX); // Restore the style to our internal store wxWindowBase::SetWindowStyleFlag(GetWindowStyle() | wxMINIMIZE_BOX); } return true; } return false; } void wxTopLevelWindowMSW::RequestUserAttention(int flags) { #if defined(FLASHW_STOP) WinStruct fwi; fwi.hwnd = GetHwnd(); fwi.dwFlags = FLASHW_ALL; if ( flags & wxUSER_ATTENTION_INFO ) { // just flash a few times fwi.uCount = 3; } else // wxUSER_ATTENTION_ERROR { // flash until the user notices it fwi.dwFlags |= FLASHW_TIMERNOFG; } ::FlashWindowEx(&fwi); #else { wxUnusedVar(flags); ::FlashWindow(GetHwnd(), TRUE); } #endif // defined(FLASHW_STOP) } wxMenu *wxTopLevelWindowMSW::MSWGetSystemMenu() const { #ifndef __WXUNIVERSAL__ if ( !m_menuSystem ) { HMENU hmenu = ::GetSystemMenu(GetHwnd(), FALSE); if ( !hmenu ) { wxLogLastError(wxT("GetSystemMenu()")); return NULL; } wxTopLevelWindowMSW * const self = const_cast(this); self->m_menuSystem = wxMenu::MSWNewFromHMENU(hmenu); // We need to somehow associate this menu with this window to ensure // that we get events from it. A natural idea would be to pretend that // it's attached to our menu bar but this wouldn't work if we don't // have any menu bar which is a common case for applications using // custom items in the system menu (they mostly do it exactly because // they don't have any other menus). // // So reuse the invoking window pointer instead, this is not exactly // correct but doesn't seem to have any serious drawbacks. m_menuSystem->SetInvokingWindow(self); } #endif // #ifndef __WXUNIVERSAL__ return m_menuSystem; } // ---------------------------------------------------------------------------- // Transparency support // --------------------------------------------------------------------------- bool wxTopLevelWindowMSW::SetTransparent(wxByte alpha) { wxMSWWinExStyleUpdater updateExStyle(GetHwnd()); // if setting alpha to fully opaque then turn off the layered style if (alpha == 255) { updateExStyle.TurnOff(WS_EX_LAYERED).Apply(); Refresh(); return true; } // Otherwise, set the layered style if needed and set the alpha value updateExStyle.TurnOn(WS_EX_LAYERED).Apply(); if ( ::SetLayeredWindowAttributes(GetHwnd(), 0, (BYTE)alpha, LWA_ALPHA) ) return true; return false; } bool wxTopLevelWindowMSW::CanSetTransparent() { return true; } void wxTopLevelWindowMSW::DoFreeze() { // do nothing: freezing toplevel window causes paint and mouse events // to go through it any TLWs under it, so the best we can do is to freeze // all children -- and wxWindowBase::Freeze() does that } void wxTopLevelWindowMSW::DoThaw() { // intentionally empty -- see DoFreeze() } // ---------------------------------------------------------------------------- // wxTopLevelWindow event handling // ---------------------------------------------------------------------------- void wxTopLevelWindowMSW::DoSaveLastFocus() { if ( MSWIsIconized() ) return; // remember the last focused child if it is our child wxWindow* const winFocus = FindFocus(); m_winLastFocused = IsDescendant(winFocus) ? winFocus : NULL; } void wxTopLevelWindowMSW::DoRestoreLastFocus() { wxWindow *parent = m_winLastFocused ? m_winLastFocused->GetParent() : NULL; if ( !parent ) { parent = this; } wxWindow* winPtr = m_winLastFocused; wxSetFocusToChild(parent, &winPtr); m_winLastFocused = winPtr; } void wxTopLevelWindowMSW::OnActivate(wxActivateEvent& event) { if ( event.GetActive() ) { // We get WM_ACTIVATE before being restored from iconized state, so we // can be still iconized here. In this case, avoid restoring the focus // as it doesn't work anyhow and we will do when we're really restored. if ( MSWIsIconized() ) { event.Skip(); return; } // restore focus to the child which was last focused unless one of our // children already has it (the frame having focus on itself does not // count, if only because this would be always the case for an MDI // child frame as the MDI parent sets focus to it before it's // activated) wxLogTrace(wxT("focus"), wxT("wxTLW %p activated."), m_hWnd); wxWindow* const winFocus = FindFocus(); if ( winFocus == this || !IsDescendant(winFocus) ) DoRestoreLastFocus(); } else // deactivating { DoSaveLastFocus(); wxLogTrace(wxT("focus"), wxT("wxTLW %p deactivated, last focused: %p."), m_hWnd, m_winLastFocused ? GetHwndOf(m_winLastFocused) : NULL); event.Skip(); } } // the DialogProc for all wxWidgets dialogs INT_PTR APIENTRY wxDlgProc(HWND WXUNUSED(hDlg), UINT message, WPARAM WXUNUSED(wParam), LPARAM WXUNUSED(lParam)) { switch ( message ) { case WM_INITDIALOG: { // for WM_INITDIALOG, returning TRUE tells system to set focus to // the first control in the dialog box, but as we set the focus // ourselves, we return FALSE for it as well return FALSE; } } // for almost all messages, returning FALSE means that we didn't process // the message return FALSE; } // ============================================================================ // wxTLWHiddenParentModule implementation // ============================================================================ HWND wxTLWHiddenParentModule::ms_hwnd = NULL; const wxChar *wxTLWHiddenParentModule::ms_className = NULL; bool wxTLWHiddenParentModule::OnInit() { ms_hwnd = NULL; ms_className = NULL; return true; } void wxTLWHiddenParentModule::OnExit() { if ( ms_hwnd ) { if ( !::DestroyWindow(ms_hwnd) ) { wxLogLastError(wxT("DestroyWindow(hidden TLW parent)")); } ms_hwnd = NULL; } if ( ms_className ) { if ( !::UnregisterClass(ms_className, wxGetInstance()) ) { wxLogLastError(wxT("UnregisterClass(\"wxTLWHiddenParent\")")); } ms_className = NULL; } } /* static */ HWND wxTLWHiddenParentModule::GetHWND() { if ( !ms_hwnd ) { if ( !ms_className ) { static const wxChar *HIDDEN_PARENT_CLASS = wxT("wxTLWHiddenParent"); WNDCLASS wndclass; wxZeroMemory(wndclass); wndclass.lpfnWndProc = DefWindowProc; wndclass.hInstance = wxGetInstance(); wndclass.lpszClassName = HIDDEN_PARENT_CLASS; if ( !::RegisterClass(&wndclass) ) { wxLogLastError(wxT("RegisterClass(\"wxTLWHiddenParent\")")); } else { ms_className = HIDDEN_PARENT_CLASS; } } ms_hwnd = ::CreateWindow(ms_className, wxEmptyString, 0, 0, 0, 0, 0, NULL, (HMENU)NULL, wxGetInstance(), NULL); if ( !ms_hwnd ) { wxLogLastError(wxT("CreateWindow(hidden TLW parent)")); } } return ms_hwnd; }