/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define COMPILE_MULTIMON_STUBS #pragma warning(push) #pragma warning(disable:4996) // 'GetVersionExA': was declared deprecated #include #pragma warning(pop) #include #include #include #include #ifndef WM_GETOBJECT // TESTME does this ever happen ? # define WM_GETOBJECT 0x003D #endif #include #if !defined WIN32_LEAN_AND_MEAN # define WIN32_LEAN_AND_MEAN #endif #include #include #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::container; using namespace ::com::sun::star::beans; #ifndef SPI_GETWHEELSCROLLCHARS # define SPI_GETWHEELSCROLLCHARS 0x006C #endif #ifndef SPI_SETWHEELSCROLLCHARS # define SPI_SETWHEELSCROLLCHARS 0x006D #endif #ifndef WM_MOUSEHWHEEL # define WM_MOUSEHWHEEL 0x020E #endif #ifndef IDC_PEN # define IDC_PEN MAKEINTRESOURCE(32631) #endif const unsigned int WM_USER_SYSTEM_WINDOW_ACTIVATED = RegisterWindowMessageW(L"SYSTEM_WINDOW_ACTIVATED"); bool WinSalFrame::mbInReparent = false; // Macros for support of WM_UNICHAR & Keyman 6.0 //#define Uni_UTF32ToSurrogate1(ch) (((unsigned long) (ch) - 0x10000) / 0x400 + 0xD800) #define Uni_UTF32ToSurrogate2(ch) ((static_cast(ch) - 0x10000) % 0x400 + 0xDC00) #define Uni_SupplementaryPlanesStart 0x10000 static void UpdateFrameGeometry( HWND hWnd, WinSalFrame* pFrame ); static void SetMaximizedFrameGeometry( HWND hWnd, WinSalFrame* pFrame, RECT* pParentRect = nullptr ); static void ImplSaveFrameState( WinSalFrame* pFrame ) { // save position, size and state for GetWindowState() if ( !pFrame->mbFullScreen ) { bool bVisible = (GetWindowStyle( pFrame->mhWnd ) & WS_VISIBLE) != 0; if ( IsIconic( pFrame->mhWnd ) ) { pFrame->maState.mnState |= WindowStateState::Minimized; if ( bVisible ) pFrame->mnShowState = SW_SHOWMAXIMIZED; } else if ( IsZoomed( pFrame->mhWnd ) ) { pFrame->maState.mnState &= ~WindowStateState::Minimized; pFrame->maState.mnState |= WindowStateState::Maximized; if ( bVisible ) pFrame->mnShowState = SW_SHOWMAXIMIZED; pFrame->mbRestoreMaximize = true; WINDOWPLACEMENT aPlacement; aPlacement.length = sizeof(aPlacement); if( GetWindowPlacement( pFrame->mhWnd, &aPlacement ) ) { RECT aRect = aPlacement.rcNormalPosition; RECT aRect2 = aRect; AdjustWindowRectEx( &aRect2, GetWindowStyle( pFrame->mhWnd ), FALSE, GetWindowExStyle( pFrame->mhWnd ) ); long nTopDeco = abs( aRect.top - aRect2.top ); long nLeftDeco = abs( aRect.left - aRect2.left ); long nBottomDeco = abs( aRect.bottom - aRect2.bottom ); long nRightDeco = abs( aRect.right - aRect2.right ); pFrame->maState.mnX = aRect.left + nLeftDeco; pFrame->maState.mnY = aRect.top + nTopDeco; pFrame->maState.mnWidth = aRect.right - aRect.left - nLeftDeco - nRightDeco; pFrame->maState.mnHeight = aRect.bottom - aRect.top - nTopDeco - nBottomDeco; } } else { RECT aRect; GetWindowRect( pFrame->mhWnd, &aRect ); // to be consistent with Unix, the frame state is without(!) decoration RECT aRect2 = aRect; AdjustWindowRectEx( &aRect2, GetWindowStyle( pFrame->mhWnd ), FALSE, GetWindowExStyle( pFrame->mhWnd ) ); long nTopDeco = abs( aRect.top - aRect2.top ); long nLeftDeco = abs( aRect.left - aRect2.left ); long nBottomDeco = abs( aRect.bottom - aRect2.bottom ); long nRightDeco = abs( aRect.right - aRect2.right ); pFrame->maState.mnState &= ~WindowStateState(WindowStateState::Minimized | WindowStateState::Maximized); // subtract decoration pFrame->maState.mnX = aRect.left+nLeftDeco; pFrame->maState.mnY = aRect.top+nTopDeco; pFrame->maState.mnWidth = aRect.right-aRect.left-nLeftDeco-nRightDeco; pFrame->maState.mnHeight = aRect.bottom-aRect.top-nTopDeco-nBottomDeco; if ( bVisible ) pFrame->mnShowState = SW_SHOWNORMAL; pFrame->mbRestoreMaximize = false; } } } // if pParentRect is set, the workarea of the monitor that contains pParentRect is returned void ImplSalGetWorkArea( HWND hWnd, RECT *pRect, const RECT *pParentRect ) { // check if we or our parent is fullscreen, then the taskbar should be ignored bool bIgnoreTaskbar = false; WinSalFrame* pFrame = GetWindowPtr( hWnd ); if( pFrame ) { vcl::Window *pWin = pFrame->GetWindow(); while( pWin ) { WorkWindow *pWorkWin = (pWin->GetType() == WindowType::WORKWINDOW) ? static_cast(pWin) : nullptr; if( pWorkWin && pWorkWin->ImplGetWindowImpl()->mbReallyVisible && pWorkWin->IsFullScreenMode() ) { bIgnoreTaskbar = true; break; } else pWin = pWin->ImplGetWindowImpl()->mpParent; } } // calculates the work area taking multiple monitors into account static int nMonitors = GetSystemMetrics( SM_CMONITORS ); if( nMonitors == 1 ) { if( bIgnoreTaskbar ) { pRect->left = pRect->top = 0; pRect->right = GetSystemMetrics( SM_CXSCREEN ); pRect->bottom = GetSystemMetrics( SM_CYSCREEN ); } else SystemParametersInfoW( SPI_GETWORKAREA, 0, pRect, 0 ); } else { if( pParentRect != nullptr ) { // return the size of the monitor where pParentRect lives HMONITOR hMonitor; MONITORINFO mi; // get the nearest monitor to the passed rect. hMonitor = MonitorFromRect(pParentRect, MONITOR_DEFAULTTONEAREST); // get the work area or entire monitor rect. mi.cbSize = sizeof(mi); GetMonitorInfo(hMonitor, &mi); if( !bIgnoreTaskbar ) *pRect = mi.rcWork; else *pRect = mi.rcMonitor; } else { // return the union of all monitors pRect->left = GetSystemMetrics( SM_XVIRTUALSCREEN ); pRect->top = GetSystemMetrics( SM_YVIRTUALSCREEN ); pRect->right = pRect->left + GetSystemMetrics( SM_CXVIRTUALSCREEN ); pRect->bottom = pRect->top + GetSystemMetrics( SM_CYVIRTUALSCREEN ); // virtualscreen does not take taskbar into account, so use the corresponding // diffs between screen and workarea from the default screen // however, this is still not perfect: the taskbar might not be on the primary screen if( !bIgnoreTaskbar ) { RECT wRect, scrRect; SystemParametersInfoW( SPI_GETWORKAREA, 0, &wRect, 0 ); scrRect.left = 0; scrRect.top = 0; scrRect.right = GetSystemMetrics( SM_CXSCREEN ); scrRect.bottom = GetSystemMetrics( SM_CYSCREEN ); pRect->left += wRect.left; pRect->top += wRect.top; pRect->right -= scrRect.right - wRect.right; pRect->bottom -= scrRect.bottom - wRect.bottom; } } } } SalFrame* ImplSalCreateFrame( WinSalInstance* pInst, HWND hWndParent, SalFrameStyleFlags nSalFrameStyle ) { WinSalFrame* pFrame = new WinSalFrame; HWND hWnd; DWORD nSysStyle = 0; DWORD nExSysStyle = 0; bool bSubFrame = false; static const char* pEnvSynchronize = getenv("SAL_SYNCHRONIZE"); if ( pEnvSynchronize ) // no buffering of drawing commands GdiSetBatchLimit( 1 ); static const char* pEnvTransparentFloats = getenv("SAL_TRANSPARENT_FLOATS" ); // determine creation data if ( nSalFrameStyle & (SalFrameStyleFlags::PLUG | SalFrameStyleFlags::SYSTEMCHILD) ) { nSysStyle |= WS_CHILD; if( nSalFrameStyle & SalFrameStyleFlags::SYSTEMCHILD ) nSysStyle |= WS_CLIPSIBLINGS; } else { // #i87402# commenting out WS_CLIPCHILDREN // this breaks SalFrameStyleFlags::SYSTEMCHILD handling, which is not // used currently. Probably SalFrameStyleFlags::SYSTEMCHILD should be // removed again. // nSysStyle |= WS_CLIPCHILDREN; if ( hWndParent ) { nSysStyle |= WS_POPUP; bSubFrame = true; pFrame->mbNoIcon = true; } else { // Only with WS_OVERLAPPED we get a useful default position/size if ( (nSalFrameStyle & (SalFrameStyleFlags::SIZEABLE | SalFrameStyleFlags::MOVEABLE)) == (SalFrameStyleFlags::SIZEABLE | SalFrameStyleFlags::MOVEABLE) ) nSysStyle |= WS_OVERLAPPED; else { nSysStyle |= WS_POPUP; if ( !(nSalFrameStyle & SalFrameStyleFlags::MOVEABLE) ) nExSysStyle |= WS_EX_TOOLWINDOW; // avoid taskbar appearance, for eg splash screen } } if ( nSalFrameStyle & SalFrameStyleFlags::MOVEABLE ) { pFrame->mbCaption = true; nSysStyle |= WS_SYSMENU | WS_CAPTION; if ( !hWndParent ) nSysStyle |= WS_SYSMENU | WS_MINIMIZEBOX; else nExSysStyle |= WS_EX_DLGMODALFRAME; if ( nSalFrameStyle & SalFrameStyleFlags::SIZEABLE ) { pFrame->mbSizeBorder = true; nSysStyle |= WS_THICKFRAME; if ( !hWndParent ) nSysStyle |= WS_MAXIMIZEBOX; } else pFrame->mbFixBorder = true; if ( nSalFrameStyle & SalFrameStyleFlags::DEFAULT ) nExSysStyle |= WS_EX_APPWINDOW; } if( nSalFrameStyle & SalFrameStyleFlags::TOOLWINDOW // #100656# toolwindows lead to bad alt-tab behaviour, if they have the focus // you must press it twice to leave the application // so toolwindows are only used for non sizeable windows // which are typically small, so a small caption makes sense // #103578# looked too bad - above changes reverted /* && !(nSalFrameStyle & SalFrameStyleFlags::SIZEABLE) */ ) { pFrame->mbNoIcon = true; nExSysStyle |= WS_EX_TOOLWINDOW; if ( pEnvTransparentFloats /*&& !(nSalFrameStyle & SalFrameStyleFlags::MOVEABLE) */) nExSysStyle |= WS_EX_LAYERED; } } if ( nSalFrameStyle & SalFrameStyleFlags::FLOAT ) { nExSysStyle |= WS_EX_TOOLWINDOW; pFrame->mbFloatWin = true; if (pEnvTransparentFloats) nExSysStyle |= WS_EX_LAYERED; } if (nSalFrameStyle & SalFrameStyleFlags::TOOLTIP) nExSysStyle |= WS_EX_TOPMOST; // init frame data pFrame->mnStyle = nSalFrameStyle; // determine show style pFrame->mnShowState = SW_SHOWNORMAL; if ( (nSysStyle & (WS_POPUP | WS_MAXIMIZEBOX | WS_THICKFRAME)) == (WS_MAXIMIZEBOX | WS_THICKFRAME) ) { if ( GetSystemMetrics( SM_CXSCREEN ) <= 1024 ) pFrame->mnShowState = SW_SHOWMAXIMIZED; else { if ( nSalFrameStyle & SalFrameStyleFlags::DEFAULT ) { SalData* pSalData = GetSalData(); pFrame->mnShowState = pSalData->mnCmdShow; if ( (pFrame->mnShowState != SW_SHOWMINIMIZED) && (pFrame->mnShowState != SW_MINIMIZE) && (pFrame->mnShowState != SW_SHOWMINNOACTIVE) ) { if ( (pFrame->mnShowState == SW_SHOWMAXIMIZED) || (pFrame->mnShowState == SW_MAXIMIZE) ) pFrame->mbOverwriteState = false; pFrame->mnShowState = SW_SHOWMAXIMIZED; } else pFrame->mbOverwriteState = false; } else { // Document Windows are also maximized, if the current Document Window // is also maximized HWND hWnd2 = GetForegroundWindow(); if ( hWnd2 && IsMaximized( hWnd2 ) && (GetWindowInstance( hWnd2 ) == pInst->mhInst) && ((GetWindowStyle( hWnd2 ) & (WS_POPUP | WS_MAXIMIZEBOX | WS_THICKFRAME)) == (WS_MAXIMIZEBOX | WS_THICKFRAME)) ) pFrame->mnShowState = SW_SHOWMAXIMIZED; } } } // create frame LPCWSTR pClassName; if ( bSubFrame ) { if ( nSalFrameStyle & (SalFrameStyleFlags::MOVEABLE|SalFrameStyleFlags::NOSHADOW) ) // check if shadow not wanted pClassName = SAL_SUBFRAME_CLASSNAMEW; else pClassName = SAL_TMPSUBFRAME_CLASSNAMEW; // undecorated floaters will get shadow on XP } else { if ( nSalFrameStyle & SalFrameStyleFlags::MOVEABLE ) pClassName = SAL_FRAME_CLASSNAMEW; else pClassName = SAL_TMPSUBFRAME_CLASSNAMEW; } hWnd = CreateWindowExW( nExSysStyle, pClassName, L"", nSysStyle, CW_USEDEFAULT, 0, CW_USEDEFAULT, 0, hWndParent, nullptr, pInst->mhInst, pFrame ); SAL_WARN_IF(!hWnd, "vcl", "CreateWindowExW failed: " << WindowsErrorString(GetLastError())); #if OSL_DEBUG_LEVEL > 1 // set transparency value if( GetWindowExStyle( hWnd ) & WS_EX_LAYERED ) SetLayeredWindowAttributes( hWnd, 0, 230, 0x00000002 /*LWA_ALPHA*/ ); #endif if ( !hWnd ) { delete pFrame; return nullptr; } // If we have a Window with a Caption Bar and without // a MaximizeBox, we change the SystemMenu if ( (nSysStyle & (WS_CAPTION | WS_MAXIMIZEBOX)) == (WS_CAPTION) ) { HMENU hSysMenu = GetSystemMenu( hWnd, FALSE ); if ( hSysMenu ) { if ( !(nSysStyle & (WS_MINIMIZEBOX | WS_MAXIMIZEBOX)) ) DeleteMenu( hSysMenu, SC_RESTORE, MF_BYCOMMAND ); else EnableMenuItem( hSysMenu, SC_RESTORE, MF_BYCOMMAND | MF_GRAYED | MF_DISABLED ); if ( !(nSysStyle & WS_MINIMIZEBOX) ) DeleteMenu( hSysMenu, SC_MINIMIZE, MF_BYCOMMAND ); if ( !(nSysStyle & WS_MAXIMIZEBOX) ) DeleteMenu( hSysMenu, SC_MAXIMIZE, MF_BYCOMMAND ); if ( !(nSysStyle & WS_THICKFRAME) ) DeleteMenu( hSysMenu, SC_SIZE, MF_BYCOMMAND ); } } if ( (nSysStyle & WS_SYSMENU) && !(nSalFrameStyle & SalFrameStyleFlags::CLOSEABLE) ) { HMENU hSysMenu = GetSystemMenu( hWnd, FALSE ); if ( hSysMenu ) EnableMenuItem( hSysMenu, SC_CLOSE, MF_BYCOMMAND | MF_GRAYED | MF_DISABLED ); } // reset input context pFrame->mhDefIMEContext = ImmAssociateContext( hWnd, nullptr ); // determine output size and state RECT aRect; GetClientRect( hWnd, &aRect ); pFrame->mnWidth = aRect.right; pFrame->mnHeight = aRect.bottom; ImplSaveFrameState( pFrame ); pFrame->mbDefPos = true; UpdateFrameGeometry( hWnd, pFrame ); if( pFrame->mnShowState == SW_SHOWMAXIMIZED ) { // #96084 set a useful internal window size because // the window will not be maximized (and the size updated) before show() SetMaximizedFrameGeometry( hWnd, pFrame ); } return pFrame; } // helper that only creates the HWND // to allow for easy reparenting of system windows, (i.e. destroy and create new) HWND ImplSalReCreateHWND( HWND hWndParent, HWND oldhWnd, bool bAsChild ) { HINSTANCE hInstance = GetSalData()->mhInst; sal_uLong nSysStyle = GetWindowLongW( oldhWnd, GWL_STYLE ); sal_uLong nExSysStyle = GetWindowLongW( oldhWnd, GWL_EXSTYLE ); if( bAsChild ) { nSysStyle = WS_CHILD; nExSysStyle = 0; } LPCWSTR pClassName = SAL_SUBFRAME_CLASSNAMEW; return CreateWindowExW( nExSysStyle, pClassName, L"", nSysStyle, CW_USEDEFAULT, 0, CW_USEDEFAULT, 0, hWndParent, nullptr, hInstance, GetWindowPtr( oldhWnd ) ); } // translation table from System keycodes into StartView keycodes #define KEY_TAB_SIZE 146 static const sal_uInt16 aImplTranslateKeyTab[KEY_TAB_SIZE] = { // StarView-Code System-Code Index 0, // 0 0, // VK_LBUTTON 1 0, // VK_RBUTTON 2 0, // VK_CANCEL 3 0, // VK_MBUTTON 4 0, // 5 0, // 6 0, // 7 KEY_BACKSPACE, // VK_BACK 8 KEY_TAB, // VK_TAB 9 0, // 10 0, // 11 0, // VK_CLEAR 12 KEY_RETURN, // VK_RETURN 13 0, // 14 0, // 15 0, // VK_SHIFT 16 0, // VK_CONTROL 17 0, // VK_MENU 18 0, // VK_PAUSE 19 0, // VK_CAPITAL 20 0, // VK_HANGUL 21 0, // 22 0, // 23 0, // 24 KEY_HANGUL_HANJA, // VK_HANJA 25 0, // 26 KEY_ESCAPE, // VK_ESCAPE 27 0, // 28 0, // 29 0, // 30 0, // 31 KEY_SPACE, // VK_SPACE 32 KEY_PAGEUP, // VK_PRIOR 33 KEY_PAGEDOWN, // VK_NEXT 34 KEY_END, // VK_END 35 KEY_HOME, // VK_HOME 36 KEY_LEFT, // VK_LEFT 37 KEY_UP, // VK_UP 38 KEY_RIGHT, // VK_RIGHT 39 KEY_DOWN, // VK_DOWN 40 0, // VK_SELECT 41 0, // VK_PRINT 42 0, // VK_EXECUTE 43 0, // VK_SNAPSHOT 44 KEY_INSERT, // VK_INSERT 45 KEY_DELETE, // VK_DELETE 46 KEY_HELP, // VK_HELP 47 KEY_0, // 48 KEY_1, // 49 KEY_2, // 50 KEY_3, // 51 KEY_4, // 52 KEY_5, // 53 KEY_6, // 54 KEY_7, // 55 KEY_8, // 56 KEY_9, // 57 0, // 58 0, // 59 0, // 60 0, // 61 0, // 62 0, // 63 0, // 64 KEY_A, // 65 KEY_B, // 66 KEY_C, // 67 KEY_D, // 68 KEY_E, // 69 KEY_F, // 70 KEY_G, // 71 KEY_H, // 72 KEY_I, // 73 KEY_J, // 74 KEY_K, // 75 KEY_L, // 76 KEY_M, // 77 KEY_N, // 78 KEY_O, // 79 KEY_P, // 80 KEY_Q, // 81 KEY_R, // 82 KEY_S, // 83 KEY_T, // 84 KEY_U, // 85 KEY_V, // 86 KEY_W, // 87 KEY_X, // 88 KEY_Y, // 89 KEY_Z, // 90 0, // VK_LWIN 91 0, // VK_RWIN 92 KEY_CONTEXTMENU, // VK_APPS 93 0, // 94 0, // 95 KEY_0, // VK_NUMPAD0 96 KEY_1, // VK_NUMPAD1 97 KEY_2, // VK_NUMPAD2 98 KEY_3, // VK_NUMPAD3 99 KEY_4, // VK_NUMPAD4 100 KEY_5, // VK_NUMPAD5 101 KEY_6, // VK_NUMPAD6 102 KEY_7, // VK_NUMPAD7 103 KEY_8, // VK_NUMPAD8 104 KEY_9, // VK_NUMPAD9 105 KEY_MULTIPLY, // VK_MULTIPLY 106 KEY_ADD, // VK_ADD 107 KEY_DECIMAL, // VK_SEPARATOR 108 KEY_SUBTRACT, // VK_SUBTRACT 109 KEY_DECIMAL, // VK_DECIMAL 110 KEY_DIVIDE, // VK_DIVIDE 111 KEY_F1, // VK_F1 112 KEY_F2, // VK_F2 113 KEY_F3, // VK_F3 114 KEY_F4, // VK_F4 115 KEY_F5, // VK_F5 116 KEY_F6, // VK_F6 117 KEY_F7, // VK_F7 118 KEY_F8, // VK_F8 119 KEY_F9, // VK_F9 120 KEY_F10, // VK_F10 121 KEY_F11, // VK_F11 122 KEY_F12, // VK_F12 123 KEY_F13, // VK_F13 124 KEY_F14, // VK_F14 125 KEY_F15, // VK_F15 126 KEY_F16, // VK_F16 127 KEY_F17, // VK_F17 128 KEY_F18, // VK_F18 129 KEY_F19, // VK_F19 130 KEY_F20, // VK_F20 131 KEY_F21, // VK_F21 132 KEY_F22, // VK_F22 133 KEY_F23, // VK_F23 134 KEY_F24, // VK_F24 135 0, // 136 0, // 137 0, // 138 0, // 139 0, // 140 0, // 141 0, // 142 0, // 143 0, // NUMLOCK 144 0 // SCROLLLOCK 145 }; static UINT ImplSalGetWheelScrollLines() { UINT nScrLines = 0; HWND hWndMsWheel = FindWindowW( MSH_WHEELMODULE_CLASS, MSH_WHEELMODULE_TITLE ); if ( hWndMsWheel ) { UINT nGetScrollLinesMsgId = RegisterWindowMessageW( MSH_SCROLL_LINES ); nScrLines = static_cast(SendMessageW( hWndMsWheel, nGetScrollLinesMsgId, 0, 0 )); } if ( !nScrLines ) if( !SystemParametersInfoW( SPI_GETWHEELSCROLLLINES, 0, &nScrLines, 0 ) ) nScrLines = 0 ; if ( !nScrLines ) nScrLines = 3; return nScrLines; } static UINT ImplSalGetWheelScrollChars() { UINT nScrChars = 0; if( !SystemParametersInfoW( SPI_GETWHEELSCROLLCHARS, 0, &nScrChars, 0 ) ) { return 3; } // system settings successfully read return nScrChars; } static void ImplSalAddBorder( const WinSalFrame* pFrame, int& width, int& height ) { // transform client size into window size RECT aWinRect; aWinRect.left = 0; aWinRect.right = width-1; aWinRect.top = 0; aWinRect.bottom = height-1; AdjustWindowRectEx( &aWinRect, GetWindowStyle( pFrame->mhWnd ), FALSE, GetWindowExStyle( pFrame->mhWnd ) ); width = aWinRect.right - aWinRect.left + 1; height = aWinRect.bottom - aWinRect.top + 1; } static void ImplSalCalcFullScreenSize( const WinSalFrame* pFrame, int& rX, int& rY, int& rDX, int& rDY ) { // set window to screen size int nFrameX; int nFrameY; int nCaptionY; int nScreenX = 0; int nScreenY = 0; int nScreenDX = 0; int nScreenDY = 0; if ( pFrame->mbSizeBorder ) { nFrameX = GetSystemMetrics( SM_CXSIZEFRAME ); nFrameY = GetSystemMetrics( SM_CYSIZEFRAME ); } else if ( pFrame->mbFixBorder ) { nFrameX = GetSystemMetrics( SM_CXFIXEDFRAME ); nFrameY = GetSystemMetrics( SM_CYFIXEDFRAME ); } else if ( pFrame->mbBorder ) { nFrameX = GetSystemMetrics( SM_CXBORDER ); nFrameY = GetSystemMetrics( SM_CYBORDER ); } else { nFrameX = 0; nFrameY = 0; } if ( pFrame->mbCaption ) nCaptionY = GetSystemMetrics( SM_CYCAPTION ); else nCaptionY = 0; try { sal_Int32 nMonitors = Application::GetScreenCount(); if( (pFrame->mnDisplay >= 0) && (pFrame->mnDisplay < nMonitors) ) { tools::Rectangle aRect = Application::GetScreenPosSizePixel( pFrame->mnDisplay ); nScreenX = aRect.Left(); nScreenY = aRect.Top(); nScreenDX = aRect.GetWidth(); nScreenDY = aRect.GetHeight(); } else { tools::Rectangle aCombined = Application::GetScreenPosSizePixel( 0 ); for( sal_Int32 i = 1 ; i < nMonitors ; i++ ) { aCombined.Union( Application::GetScreenPosSizePixel( i ) ); } nScreenX = aCombined.Left(); nScreenY = aCombined.Top(); nScreenDX = aCombined.GetWidth(); nScreenDY = aCombined.GetHeight(); } } catch( Exception& ) { } if( !nScreenDX || !nScreenDY ) { nScreenDX = GetSystemMetrics( SM_CXSCREEN ); nScreenDY = GetSystemMetrics( SM_CYSCREEN ); } rX = nScreenX -nFrameX; rY = nScreenY -(nFrameY+nCaptionY); rDX = nScreenDX+(nFrameX*2); rDY = nScreenDY+(nFrameY*2)+nCaptionY; } static void ImplSalFrameFullScreenPos( WinSalFrame* pFrame, bool bAlways = false ) { if ( bAlways || !IsIconic( pFrame->mhWnd ) ) { // set window to screen size int nX; int nY; int nWidth; int nHeight; ImplSalCalcFullScreenSize( pFrame, nX, nY, nWidth, nHeight ); SetWindowPos( pFrame->mhWnd, nullptr, nX, nY, nWidth, nHeight, SWP_NOZORDER | SWP_NOACTIVATE ); } } namespace { void SetForegroundWindow_Impl(HWND hwnd) { if (!Application::IsHeadlessModeEnabled()) SetForegroundWindow(hwnd); } } WinSalFrame::WinSalFrame() { SalData* pSalData = GetSalData(); mhWnd = nullptr; mhCursor = LoadCursor( nullptr, IDC_ARROW ); mhDefIMEContext = nullptr; mpLocalGraphics = nullptr; mpThreadGraphics = nullptr; mnShowState = SW_SHOWNORMAL; mnWidth = 0; mnHeight = 0; mnMinWidth = 0; mnMinHeight = 0; mnMaxWidth = SHRT_MAX; mnMaxHeight = SHRT_MAX; mnInputLang = 0; mnInputCodePage = 0; mbGraphics = false; mbCaption = false; mbBorder = false; mbFixBorder = false; mbSizeBorder = false; mbFullScreenCaption = false; mbFullScreen = false; mbPresentation = false; mbInShow = false; mbRestoreMaximize = false; mbInMoveMsg = false; mbInSizeMsg = false; mbFullScreenToolWin = false; mbDefPos = true; mbOverwriteState = true; mbIME = false; mbHandleIME = false; mbSpezIME = false; mbAtCursorIME = false; mbCandidateMode = false; mbFloatWin = false; mbNoIcon = false; mSelectedhMenu = nullptr; mLastActivatedhMenu = nullptr; mpClipRgnData = nullptr; mbFirstClipRect = true; mpNextClipRect = nullptr; mnDisplay = 0; mbPropertiesStored = false; // get data, when making 1st frame if ( !pSalData->mpFirstFrame ) { if ( !aSalShlData.mnWheelScrollLines ) aSalShlData.mnWheelScrollLines = ImplSalGetWheelScrollLines(); if ( !aSalShlData.mnWheelScrollChars ) aSalShlData.mnWheelScrollChars = ImplSalGetWheelScrollChars(); } // insert frame in framelist mpNextFrame = pSalData->mpFirstFrame; pSalData->mpFirstFrame = this; } void WinSalFrame::updateScreenNumber() { if( mnDisplay == -1 ) // spans all monitors return; WinSalSystem* pSys = static_cast(ImplGetSalSystem()); if( pSys ) { const std::vector& rMonitors = pSys->getMonitors(); Point aPoint( maGeometry.nX, maGeometry.nY ); size_t nMon = rMonitors.size(); for( size_t i = 0; i < nMon; i++ ) { if( rMonitors[i].m_aArea.IsInside( aPoint ) ) { mnDisplay = static_cast(i); maGeometry.nDisplayScreenNumber = static_cast(i); } } } } bool WinSalFrame::ReleaseFrameGraphicsDC( WinSalGraphics* pGraphics ) { assert( pGraphics ); SalData* pSalData = GetSalData(); HDC hDC = pGraphics->getHDC(); if ( !hDC ) return false; if ( pGraphics->getDefPal() ) SelectPalette( hDC, pGraphics->getDefPal(), TRUE ); pGraphics->DeInitGraphics(); SendMessageW( pSalData->mpInstance->mhComWnd, SAL_MSG_RELEASEDC, reinterpret_cast(mhWnd), reinterpret_cast(hDC) ); if ( pGraphics == mpThreadGraphics ) pSalData->mnCacheDCInUse--; pGraphics->setHDC(nullptr); return true; } WinSalFrame::~WinSalFrame() { SalData* pSalData = GetSalData(); if( mpClipRgnData ) delete [] reinterpret_cast(mpClipRgnData); // remove frame from framelist WinSalFrame** ppFrame = &pSalData->mpFirstFrame; for(; (*ppFrame != this) && *ppFrame; ppFrame = &(*ppFrame)->mpNextFrame ); if( *ppFrame ) *ppFrame = mpNextFrame; mpNextFrame = nullptr; // destroy the thread SalGraphics if ( mpThreadGraphics ) { ReleaseFrameGraphicsDC( mpThreadGraphics ); delete mpThreadGraphics; mpThreadGraphics = nullptr; } // destroy the local SalGraphics if ( mpLocalGraphics ) { ReleaseFrameGraphicsDC( mpLocalGraphics ); delete mpLocalGraphics; mpLocalGraphics = nullptr; } if ( mhWnd ) { // reset mouse leave data if ( pSalData->mhWantLeaveMsg == mhWnd ) { pSalData->mhWantLeaveMsg = nullptr; if ( pSalData->mpMouseLeaveTimer ) { delete pSalData->mpMouseLeaveTimer; pSalData->mpMouseLeaveTimer = nullptr; } } // remove windows properties if ( mbPropertiesStored ) SetApplicationID( OUString() ); // destroy system frame if ( !DestroyWindow( mhWnd ) ) SetWindowPtr( mhWnd, nullptr ); mhWnd = nullptr; } } bool WinSalFrame::InitFrameGraphicsDC( WinSalGraphics *pGraphics, HDC hDC, HWND hWnd ) { SalData* pSalData = GetSalData(); assert( pGraphics ); pGraphics->setHWND( hWnd ); HDC hCurrentDC = pGraphics->getHDC(); assert( !hCurrentDC || (hCurrentDC == hDC) ); if ( hCurrentDC ) return true; pGraphics->setHDC( hDC ); if ( !hDC ) return false; if ( pSalData->mhDitherPal ) { pGraphics->setDefPal(SelectPalette( hDC, pSalData->mhDitherPal, TRUE )); RealizePalette( hDC ); } pGraphics->InitGraphics(); if ( pGraphics == mpThreadGraphics ) pSalData->mnCacheDCInUse++; return true; } SalGraphics* WinSalFrame::AcquireGraphics() { if ( mbGraphics || !mhWnd ) return nullptr; SalData* pSalData = GetSalData(); WinSalGraphics *pGraphics = nullptr; HDC hDC = nullptr; // Other threads get an own DC, because Windows modify in the // other case our DC (changing clip region), when they send a // WM_ERASEBACKGROUND message if ( !pSalData->mpInstance->IsMainThread() ) { // We use only three CacheDC's for all threads, because W9x is limited // to max. 5 Cache DC's per thread if ( pSalData->mnCacheDCInUse >= 3 ) return nullptr; if ( !mpThreadGraphics ) mpThreadGraphics = new WinSalGraphics(WinSalGraphics::WINDOW, true, mhWnd, this); pGraphics = mpThreadGraphics; assert( !pGraphics->getHDC() ); hDC = reinterpret_cast(static_cast(SendMessageW( pSalData->mpInstance->mhComWnd, SAL_MSG_GETCACHEDDC, reinterpret_cast(mhWnd), 0 ))); } else { if ( !mpLocalGraphics ) mpLocalGraphics = new WinSalGraphics(WinSalGraphics::WINDOW, true, mhWnd, this); pGraphics = mpLocalGraphics; hDC = pGraphics->getHDC(); if ( !hDC ) hDC = GetDC( mhWnd ); } mbGraphics = InitFrameGraphicsDC( pGraphics, hDC, mhWnd ); return mbGraphics ? pGraphics : nullptr; } void WinSalFrame::ReleaseGraphics( SalGraphics* pGraphics ) { if ( mpThreadGraphics == pGraphics ) ReleaseFrameGraphicsDC( mpThreadGraphics ); mbGraphics = false; } bool WinSalFrame::PostEvent(std::unique_ptr pData) { bool const ret = PostMessageW(mhWnd, SAL_MSG_USEREVENT, 0, reinterpret_cast(pData.release())); SAL_WARN_IF(!ret, "vcl", "ERROR: PostMessage() failed!"); return ret; } void WinSalFrame::SetTitle( const OUString& rTitle ) { static_assert( sizeof( WCHAR ) == sizeof( sal_Unicode ), "must be the same size" ); SetWindowTextW( mhWnd, o3tl::toW(rTitle.getStr()) ); } void WinSalFrame::SetIcon( sal_uInt16 nIcon ) { // If we have a window without an Icon (for example a dialog), ignore this call if ( mbNoIcon ) return; // 0 means default (class) icon HICON hIcon = nullptr, hSmIcon = nullptr; if ( !nIcon ) nIcon = 1; ImplLoadSalIcon( nIcon, hIcon, hSmIcon ); SAL_WARN_IF( !hIcon , "vcl", "WinSalFrame::SetIcon(): Could not load large icon !" ); SAL_WARN_IF( !hSmIcon , "vcl", "WinSalFrame::SetIcon(): Could not load small icon !" ); SendMessageW( mhWnd, WM_SETICON, ICON_BIG, reinterpret_cast(hIcon) ); SendMessageW( mhWnd, WM_SETICON, ICON_SMALL, reinterpret_cast(hSmIcon) ); } void WinSalFrame::SetMenu( SalMenu* pSalMenu ) { WinSalMenu* pWMenu = static_cast(pSalMenu); if( pSalMenu && pWMenu->mbMenuBar ) ::SetMenu( mhWnd, pWMenu->mhMenu ); } void WinSalFrame::DrawMenuBar() { ::DrawMenuBar( mhWnd ); } static HWND ImplGetParentHwnd( HWND hWnd ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if( !pFrame || !pFrame->GetWindow()) return ::GetParent( hWnd ); vcl::Window *pRealParent = pFrame->GetWindow()->ImplGetWindowImpl()->mpRealParent; if( pRealParent ) return static_cast(pRealParent->ImplGetWindowImpl()->mpFrame)->mhWnd; else return ::GetParent( hWnd ); } SalFrame* WinSalFrame::GetParent() const { return GetWindowPtr( ImplGetParentHwnd( mhWnd ) ); } static void ImplSalShow( HWND hWnd, bool bVisible, bool bNoActivate ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return; if ( bVisible ) { pFrame->mbDefPos = false; pFrame->mbOverwriteState = true; pFrame->mbInShow = true; // #i4715, save position RECT aRectPreMatrox, aRectPostMatrox; GetWindowRect( hWnd, &aRectPreMatrox ); vcl::DeletionListener aDogTag( pFrame ); if( bNoActivate ) ShowWindow( hWnd, SW_SHOWNOACTIVATE ); else ShowWindow( hWnd, pFrame->mnShowState ); if( aDogTag.isDeleted() ) return; if (pFrame->mbFloatWin && !(pFrame->mnStyle & SalFrameStyleFlags::NOSHADOW)) { // erase the window immediately to improve XP shadow effect // otherwise the shadow may appears long time before the rest of the window // especially when accessibility is on HDC dc = GetDC( hWnd ); RECT aRect; GetClientRect( hWnd, &aRect ); FillRect( dc, &aRect, reinterpret_cast(COLOR_MENU+1) ); // choose the menucolor, because its mostly noticeable for menus ReleaseDC( hWnd, dc ); } // #i4715, matrox centerpopup might have changed our position // reposition popups without caption (menus, dropdowns, tooltips) GetWindowRect( hWnd, &aRectPostMatrox ); if( (GetWindowStyle( hWnd ) & WS_POPUP) && !pFrame->mbCaption && (aRectPreMatrox.left != aRectPostMatrox.left || aRectPreMatrox.top != aRectPostMatrox.top) ) SetWindowPos( hWnd, nullptr, aRectPreMatrox.left, aRectPreMatrox.top, 0, 0, SWP_NOZORDER | SWP_NOACTIVATE | SWP_NOSIZE ); if( aDogTag.isDeleted() ) return; vcl::Window *pClientWin = pFrame->GetWindow()->ImplGetClientWindow(); if ( pFrame->mbFloatWin || ( pClientWin && (pClientWin->GetStyle() & WB_SYSTEMFLOATWIN) ) ) pFrame->mnShowState = SW_SHOWNOACTIVATE; else pFrame->mnShowState = SW_SHOW; // hide toolbar for W98 if ( pFrame->mbPresentation ) { HWND hWndParent = ::GetParent( hWnd ); if ( hWndParent ) SetForegroundWindow_Impl( hWndParent ); SetForegroundWindow_Impl( hWnd ); } pFrame->mbInShow = false; pFrame->updateScreenNumber(); // Direct Paint only, if we get the SolarMutex if ( ImplSalYieldMutexTryToAcquire() ) { UpdateWindow( hWnd ); ImplSalYieldMutexRelease(); } } else { ShowWindow( hWnd, SW_HIDE ); } } void WinSalFrame::SetExtendedFrameStyle( SalExtStyle ) { } void WinSalFrame::Show( bool bVisible, bool bNoActivate ) { // Post this Message to the window, because this only works // in the thread of the window, which has create this window. // We post this message to avoid deadlocks if ( GetSalData()->mnAppThreadId != GetCurrentThreadId() ) { bool const ret = PostMessageW(mhWnd, SAL_MSG_SHOW, WPARAM(bVisible), LPARAM(bNoActivate)); SAL_WARN_IF(!ret, "vcl", "ERROR: PostMessage() failed!"); } else ImplSalShow( mhWnd, bVisible, bNoActivate ); } void WinSalFrame::SetMinClientSize( long nWidth, long nHeight ) { mnMinWidth = nWidth; mnMinHeight = nHeight; } void WinSalFrame::SetMaxClientSize( long nWidth, long nHeight ) { mnMaxWidth = nWidth; mnMaxHeight = nHeight; } void WinSalFrame::SetPosSize( long nX, long nY, long nWidth, long nHeight, sal_uInt16 nFlags ) { bool bVisible = (GetWindowStyle( mhWnd ) & WS_VISIBLE) != 0; if ( !bVisible ) { vcl::Window *pClientWin = GetWindow()->ImplGetClientWindow(); if ( mbFloatWin || ( pClientWin && (pClientWin->GetStyle() & WB_SYSTEMFLOATWIN) ) ) mnShowState = SW_SHOWNOACTIVATE; else mnShowState = SW_SHOWNORMAL; } else { if ( IsIconic( mhWnd ) || IsZoomed( mhWnd ) ) ShowWindow( mhWnd, SW_RESTORE ); } SalEvent nEvent = SalEvent::NONE; UINT nPosSize = 0; RECT aClientRect, aWindowRect; GetClientRect( mhWnd, &aClientRect ); // x,y always 0,0, but width and height without border GetWindowRect( mhWnd, &aWindowRect ); // x,y in screen coordinates, width and height with border if ( !(nFlags & (SAL_FRAME_POSSIZE_X | SAL_FRAME_POSSIZE_Y)) ) nPosSize |= SWP_NOMOVE; else { //SAL_WARN_IF( !nX || !nY, "vcl", " Windowposition of (0,0) requested!" ); nEvent = SalEvent::Move; } if ( !(nFlags & (SAL_FRAME_POSSIZE_WIDTH | SAL_FRAME_POSSIZE_HEIGHT)) ) nPosSize |= SWP_NOSIZE; else nEvent = (nEvent == SalEvent::Move) ? SalEvent::MoveResize : SalEvent::Resize; if ( !(nFlags & SAL_FRAME_POSSIZE_X) ) nX = aWindowRect.left; if ( !(nFlags & SAL_FRAME_POSSIZE_Y) ) nY = aWindowRect.top; if ( !(nFlags & SAL_FRAME_POSSIZE_WIDTH) ) nWidth = aClientRect.right-aClientRect.left; if ( !(nFlags & SAL_FRAME_POSSIZE_HEIGHT) ) nHeight = aClientRect.bottom-aClientRect.top; // Calculate window size including the border RECT aWinRect; aWinRect.left = 0; aWinRect.right = static_cast(nWidth)-1; aWinRect.top = 0; aWinRect.bottom = static_cast(nHeight)-1; AdjustWindowRectEx( &aWinRect, GetWindowStyle( mhWnd ), FALSE, GetWindowExStyle( mhWnd ) ); nWidth = aWinRect.right - aWinRect.left + 1; nHeight = aWinRect.bottom - aWinRect.top + 1; if ( !(nPosSize & SWP_NOMOVE) && ::GetParent( mhWnd ) ) { RECT aParentRect; GetClientRect( ImplGetParentHwnd( mhWnd ), &aParentRect ); if( AllSettings::GetLayoutRTL() ) nX = (aParentRect.right - aParentRect.left) - nWidth-1 - nX; //#110386#, do not transform coordinates for system child windows if( !(GetWindowStyle( mhWnd ) & WS_CHILD) ) { POINT aPt; aPt.x = nX; aPt.y = nY; HWND parentHwnd = ImplGetParentHwnd( mhWnd ); WinSalFrame* pParentFrame = GetWindowPtr( parentHwnd ); if ( pParentFrame && pParentFrame->mnShowState == SW_SHOWMAXIMIZED ) { // #i42485#: parent will be shown maximized in which case // a ClientToScreen uses the wrong coordinates (i.e. those from the restore pos) // so use the (already updated) frame geometry for the transformation aPt.x += pParentFrame->maGeometry.nX; aPt.y += pParentFrame->maGeometry.nY; } else ClientToScreen( parentHwnd, &aPt ); nX = aPt.x; nY = aPt.y; // the position is set mbDefPos = false; } } // #i3338# to be conformant to UNIX we must position the client window, ie without the decoration // #i43250# if the position was read from the system (GetWindowRect(), see above), it must not be modified if ( nFlags & SAL_FRAME_POSSIZE_X ) nX += aWinRect.left; if ( nFlags & SAL_FRAME_POSSIZE_Y ) nY += aWinRect.top; int nScreenX; int nScreenY; int nScreenWidth; int nScreenHeight; RECT aRect; ImplSalGetWorkArea( mhWnd, &aRect, nullptr ); nScreenX = aRect.left; nScreenY = aRect.top; nScreenWidth = aRect.right-aRect.left; nScreenHeight = aRect.bottom-aRect.top; if ( mbDefPos && (nPosSize & SWP_NOMOVE)) // we got no positioning request, so choose default position { // center window HWND hWndParent = ::GetParent( mhWnd ); // Search for TopLevel Frame while ( hWndParent && (GetWindowStyle( hWndParent ) & WS_CHILD) ) hWndParent = ::GetParent( hWndParent ); // if the Window has a Parent, then center the window to // the parent, in the other case to the screen if ( hWndParent && !IsIconic( hWndParent ) && (GetWindowStyle( hWndParent ) & WS_VISIBLE) ) { RECT aParentRect; GetWindowRect( hWndParent, &aParentRect ); int nParentWidth = aParentRect.right-aParentRect.left; int nParentHeight = aParentRect.bottom-aParentRect.top; // We don't center, when Parent is smaller than our window if ( (nParentWidth-GetSystemMetrics( SM_CXFIXEDFRAME ) <= nWidth) && (nParentHeight-GetSystemMetrics( SM_CYFIXEDFRAME ) <= nHeight) ) { int nOff = GetSystemMetrics( SM_CYSIZEFRAME ) + GetSystemMetrics( SM_CYCAPTION ); nX = aParentRect.left+nOff; nY = aParentRect.top+nOff; } else { nX = (nParentWidth-nWidth)/2 + aParentRect.left; nY = (nParentHeight-nHeight)/2 + aParentRect.top; } } else { POINT pt; GetCursorPos( &pt ); RECT aRect2; aRect2.left = pt.x; aRect2.top = pt.y; aRect2.right = pt.x+2; aRect2.bottom = pt.y+2; // dualmonitor support: // Get screensize of the monitor with the mouse pointer ImplSalGetWorkArea( mhWnd, &aRect2, &aRect2 ); nX = ((aRect2.right-aRect2.left)-nWidth)/2 + aRect2.left; nY = ((aRect2.bottom-aRect2.top)-nHeight)/2 + aRect2.top; } //if ( bVisible ) // mbDefPos = FALSE; mbDefPos = false; // center only once nPosSize &= ~SWP_NOMOVE; // activate positioning nEvent = SalEvent::MoveResize; } // Adjust Window in the screen bool bCheckOffScreen = true; // but don't do this for floaters or ownerdraw windows that are currently moved interactively if( (mnStyle & SalFrameStyleFlags::FLOAT) && !(mnStyle & SalFrameStyleFlags::OWNERDRAWDECORATION) ) bCheckOffScreen = false; if( mnStyle & SalFrameStyleFlags::OWNERDRAWDECORATION ) { // may be the window is currently being moved (mouse is captured), then no check is required if( mhWnd == ::GetCapture() ) bCheckOffScreen = false; else bCheckOffScreen = true; } if( bCheckOffScreen ) { if ( nX+nWidth > nScreenX+nScreenWidth ) nX = (nScreenX+nScreenWidth) - nWidth; if ( nY+nHeight > nScreenY+nScreenHeight ) nY = (nScreenY+nScreenHeight) - nHeight; if ( nX < nScreenX ) nX = nScreenX; if ( nY < nScreenY ) nY = nScreenY; } UINT nPosFlags = SWP_NOACTIVATE | SWP_NOOWNERZORDER | nPosSize; // bring floating windows always to top if( !(mnStyle & SalFrameStyleFlags::FLOAT) ) nPosFlags |= SWP_NOZORDER; // do not change z-order SetWindowPos( mhWnd, HWND_TOP, nX, nY, static_cast(nWidth), static_cast(nHeight), nPosFlags ); UpdateFrameGeometry( mhWnd, this ); // Notification -- really ??? if( nEvent != SalEvent::NONE ) CallCallback( nEvent, nullptr ); } void WinSalFrame::ImplSetParentFrame( HWND hNewParentWnd, bool bAsChild ) { // save hwnd, will be overwritten in WM_CREATE during createwindow HWND hWndOld = mhWnd; HWND hWndOldParent = ::GetParent( hWndOld ); SalData* pSalData = GetSalData(); if( hNewParentWnd == hWndOldParent ) return; ::std::vector< WinSalFrame* > children; ::std::vector< WinSalObject* > systemChildren; // search child windows WinSalFrame *pFrame = pSalData->mpFirstFrame; while( pFrame ) { HWND hWndParent = ::GetParent( pFrame->mhWnd ); if( mhWnd == hWndParent ) children.push_back( pFrame ); pFrame = pFrame->mpNextFrame; } // search system child windows (plugins etc.) WinSalObject *pObject = pSalData->mpFirstObject; while( pObject ) { HWND hWndParent = ::GetParent( pObject->mhWnd ); if( mhWnd == hWndParent ) systemChildren.push_back( pObject ); pObject = pObject->mpNextObject; } // to recreate the DCs, if they were destroyed bool bHadLocalGraphics = false, bHadThreadGraphics = false; HFONT hFont = nullptr; HPEN hPen = nullptr; HBRUSH hBrush = nullptr; int oldCount = pSalData->mnCacheDCInUse; // release the thread DC if ( mpThreadGraphics ) { // save current gdi objects before hdc is gone HDC hDC = mpThreadGraphics->getHDC(); if ( hDC ) { hFont = static_cast(GetCurrentObject( hDC, OBJ_FONT )); hPen = static_cast(GetCurrentObject( hDC, OBJ_PEN )); hBrush = static_cast(GetCurrentObject( hDC, OBJ_BRUSH )); } bHadThreadGraphics = ReleaseFrameGraphicsDC( mpThreadGraphics ); assert( (bHadThreadGraphics && hDC) || (!bHadThreadGraphics && !hDC) ); } // release the local DC if ( mpLocalGraphics ) bHadLocalGraphics = ReleaseFrameGraphicsDC( mpLocalGraphics ); // create a new hwnd with the same styles HWND hWndParent = hNewParentWnd; // forward to main thread HWND hWnd = reinterpret_cast(static_cast(SendMessageW( pSalData->mpInstance->mhComWnd, bAsChild ? SAL_MSG_RECREATECHILDHWND : SAL_MSG_RECREATEHWND, reinterpret_cast(hWndParent), reinterpret_cast(mhWnd) ))); // succeeded ? SAL_WARN_IF( !IsWindow( hWnd ), "vcl", "WinSalFrame::SetParent not successful"); // re-create thread DC if( bHadThreadGraphics ) { HDC hDC = reinterpret_cast(static_cast( SendMessageW( pSalData->mpInstance->mhComWnd, SAL_MSG_GETCACHEDDC, reinterpret_cast(hWnd), 0 ))); InitFrameGraphicsDC( mpThreadGraphics, hDC, hWnd ); if ( hDC ) { // re-select saved gdi objects if( hFont ) SelectObject( hDC, hFont ); if( hPen ) SelectObject( hDC, hPen ); if( hBrush ) SelectObject( hDC, hBrush ); SAL_WARN_IF( oldCount != pSalData->mnCacheDCInUse, "vcl", "WinSalFrame::SetParent() hDC count corrupted"); } } // re-create local DC if( bHadLocalGraphics ) InitFrameGraphicsDC( mpLocalGraphics, GetDC( hWnd ), hWnd ); // TODO: add SetParent() call for SalObjects SAL_WARN_IF( !systemChildren.empty(), "vcl", "WinSalFrame::SetParent() parent of living system child window will be destroyed!"); // reparent children before old parent is destroyed for (auto & child : children) child->ImplSetParentFrame( hWnd, false ); children.clear(); systemChildren.clear(); // Now destroy original HWND in the thread where it was created. SendMessageW( GetSalData()->mpInstance->mhComWnd, SAL_MSG_DESTROYHWND, WPARAM(0), reinterpret_cast(hWndOld)); } void WinSalFrame::SetParent( SalFrame* pNewParent ) { WinSalFrame::mbInReparent = true; ImplSetParentFrame( static_cast(pNewParent)->mhWnd, false ); WinSalFrame::mbInReparent = false; } bool WinSalFrame::SetPluginParent( SystemParentData* pNewParent ) { if ( pNewParent->hWnd == nullptr ) { pNewParent->hWnd = GetDesktopWindow(); } WinSalFrame::mbInReparent = true; ImplSetParentFrame( pNewParent->hWnd, true ); WinSalFrame::mbInReparent = false; return true; } void WinSalFrame::GetWorkArea( tools::Rectangle &rRect ) { RECT aRect; ImplSalGetWorkArea( mhWnd, &aRect, nullptr ); rRect.SetLeft( aRect.left ); rRect.SetRight( aRect.right-1 ); rRect.SetTop( aRect.top ); rRect.SetBottom( aRect.bottom-1 ); } void WinSalFrame::GetClientSize( long& rWidth, long& rHeight ) { rWidth = maGeometry.nWidth; rHeight = maGeometry.nHeight; } void WinSalFrame::SetWindowState( const SalFrameState* pState ) { // Check if the window fits into the screen, in case the screen // resolution changed int nX; int nY; int nWidth; int nHeight; int nScreenX; int nScreenY; int nScreenWidth; int nScreenHeight; RECT aRect; ImplSalGetWorkArea( mhWnd, &aRect, nullptr ); // #102500# allow some overlap, the window could have been made a little larger than the physical screen nScreenX = aRect.left-10; nScreenY = aRect.top-10; nScreenWidth = aRect.right-aRect.left+20; nScreenHeight = aRect.bottom-aRect.top+20; UINT nPosSize = 0; RECT aWinRect; GetWindowRect( mhWnd, &aWinRect ); // to be consistent with Unix, the frame state is without(!) decoration // ->add the decoration RECT aRect2 = aWinRect; AdjustWindowRectEx( &aRect2, GetWindowStyle( mhWnd ), FALSE, GetWindowExStyle( mhWnd ) ); long nTopDeco = abs( aWinRect.top - aRect2.top ); long nLeftDeco = abs( aWinRect.left - aRect2.left ); long nBottomDeco = abs( aWinRect.bottom - aRect2.bottom ); long nRightDeco = abs( aWinRect.right - aRect2.right ); // adjust window position/size to fit the screen if ( !(pState->mnMask & (WindowStateMask::X | WindowStateMask::Y)) ) nPosSize |= SWP_NOMOVE; if ( !(pState->mnMask & (WindowStateMask::Width | WindowStateMask::Height)) ) nPosSize |= SWP_NOSIZE; if ( pState->mnMask & WindowStateMask::X ) nX = static_cast(pState->mnX) - nLeftDeco; else nX = aWinRect.left; if ( pState->mnMask & WindowStateMask::Y ) nY = static_cast(pState->mnY) - nTopDeco; else nY = aWinRect.top; if ( pState->mnMask & WindowStateMask::Width ) nWidth = static_cast(pState->mnWidth) + nLeftDeco + nRightDeco; else nWidth = aWinRect.right-aWinRect.left; if ( pState->mnMask & WindowStateMask::Height ) nHeight = static_cast(pState->mnHeight) + nTopDeco + nBottomDeco; else nHeight = aWinRect.bottom-aWinRect.top; // Adjust Window in the screen: // if it does not fit into the screen do nothing, ie default pos/size will be used // if there is an overlap with the screen border move the window while keeping its size if( nWidth > nScreenWidth || nHeight > nScreenHeight ) nPosSize |= (SWP_NOMOVE | SWP_NOSIZE); if ( nX+nWidth > nScreenX+nScreenWidth ) nX = (nScreenX+nScreenWidth) - nWidth; if ( nY+nHeight > nScreenY+nScreenHeight ) nY = (nScreenY+nScreenHeight) - nHeight; if ( nX < nScreenX ) nX = nScreenX; if ( nY < nScreenY ) nY = nScreenY; // set Restore-Position WINDOWPLACEMENT aPlacement; aPlacement.length = sizeof( aPlacement ); GetWindowPlacement( mhWnd, &aPlacement ); // set State bool bVisible = (GetWindowStyle( mhWnd ) & WS_VISIBLE) != 0; bool bUpdateHiddenFramePos = false; if ( !bVisible ) { aPlacement.showCmd = SW_HIDE; if ( mbOverwriteState ) { if ( pState->mnMask & WindowStateMask::State ) { if ( pState->mnState & WindowStateState::Minimized ) mnShowState = SW_SHOWMINIMIZED; else if ( pState->mnState & WindowStateState::Maximized ) { mnShowState = SW_SHOWMAXIMIZED; bUpdateHiddenFramePos = true; } else if ( pState->mnState & WindowStateState::Normal ) mnShowState = SW_SHOWNORMAL; } } } else { if ( pState->mnMask & WindowStateMask::State ) { if ( pState->mnState & WindowStateState::Minimized ) { if ( pState->mnState & WindowStateState::Maximized ) aPlacement.flags |= WPF_RESTORETOMAXIMIZED; aPlacement.showCmd = SW_SHOWMINIMIZED; } else if ( pState->mnState & WindowStateState::Maximized ) aPlacement.showCmd = SW_SHOWMAXIMIZED; else if ( pState->mnState & WindowStateState::Normal ) aPlacement.showCmd = SW_RESTORE; } } // if a window is neither minimized nor maximized or need not be // positioned visibly (that is in visible state), do not use // SetWindowPlacement since it calculates including the TaskBar if ( !IsIconic( mhWnd ) && !IsZoomed( mhWnd ) && (!bVisible || (aPlacement.showCmd == SW_RESTORE)) ) { if( bUpdateHiddenFramePos ) { RECT aStateRect; aStateRect.left = nX; aStateRect.top = nY; aStateRect.right = nX+nWidth; aStateRect.bottom = nY+nHeight; // #96084 set a useful internal window size because // the window will not be maximized (and the size updated) before show() SetMaximizedFrameGeometry( mhWnd, this, &aStateRect ); SetWindowPos( mhWnd, nullptr, maGeometry.nX, maGeometry.nY, maGeometry.nWidth, maGeometry.nHeight, SWP_NOZORDER | SWP_NOACTIVATE | nPosSize ); } else SetWindowPos( mhWnd, nullptr, nX, nY, nWidth, nHeight, SWP_NOZORDER | SWP_NOACTIVATE | nPosSize ); } else { if( !(nPosSize & (SWP_NOMOVE|SWP_NOSIZE)) ) { aPlacement.rcNormalPosition.left = nX-nScreenX; aPlacement.rcNormalPosition.top = nY-nScreenY; aPlacement.rcNormalPosition.right = nX+nWidth-nScreenX; aPlacement.rcNormalPosition.bottom = nY+nHeight-nScreenY; } SetWindowPlacement( mhWnd, &aPlacement ); } if( !(nPosSize & SWP_NOMOVE) ) mbDefPos = false; // window was positioned } bool WinSalFrame::GetWindowState( SalFrameState* pState ) { if ( maState.mnWidth && maState.mnHeight ) { *pState = maState; // #94144# allow Minimize again, should be masked out when read from configuration // 91625 - Don't save minimize //if ( !(pState->mnState & WindowStateState::Maximized) ) if ( !(pState->mnState & (WindowStateState::Minimized | WindowStateState::Maximized)) ) pState->mnState |= WindowStateState::Normal; return true; } return false; } void WinSalFrame::SetScreenNumber( unsigned int nNewScreen ) { WinSalSystem* pSys = static_cast(ImplGetSalSystem()); if( pSys ) { const std::vector& rMonitors = pSys->getMonitors(); size_t nMon = rMonitors.size(); if( nNewScreen < nMon ) { Point aOldMonPos, aNewMonPos( rMonitors[nNewScreen].m_aArea.TopLeft() ); Point aCurPos( maGeometry.nX, maGeometry.nY ); for( size_t i = 0; i < nMon; i++ ) { if( rMonitors[i].m_aArea.IsInside( aCurPos ) ) { aOldMonPos = rMonitors[i].m_aArea.TopLeft(); break; } } mnDisplay = nNewScreen; maGeometry.nDisplayScreenNumber = nNewScreen; SetPosSize( aNewMonPos.X() + (maGeometry.nX - aOldMonPos.X()), aNewMonPos.Y() + (maGeometry.nY - aOldMonPos.Y()), 0, 0, SAL_FRAME_POSSIZE_X | SAL_FRAME_POSSIZE_Y ); } } } void WinSalFrame::SetApplicationID( const OUString &rApplicationID ) { // http://msdn.microsoft.com/en-us/library/windows/desktop/dd378430(v=vs.85).aspx // A window's properties must be removed before the window is closed. IPropertyStore *pps; HRESULT hr = SHGetPropertyStoreForWindow(mhWnd, IID_PPV_ARGS(&pps)); if (SUCCEEDED(hr)) { PROPVARIANT pv; if (!rApplicationID.isEmpty()) { hr = InitPropVariantFromString(o3tl::toW(rApplicationID.getStr()), &pv); mbPropertiesStored = true; } else // if rApplicationID we remove the property from the window, if present PropVariantInit(&pv); if (SUCCEEDED(hr)) { hr = pps->SetValue(PKEY_AppUserModel_ID, pv); PropVariantClear(&pv); } pps->Release(); } } void WinSalFrame::ShowFullScreen( bool bFullScreen, sal_Int32 nDisplay ) { if ( (mbFullScreen == bFullScreen) && (!bFullScreen || (mnDisplay == nDisplay)) ) return; mbFullScreen = bFullScreen; mnDisplay = nDisplay; if ( bFullScreen ) { // to hide the Windows taskbar DWORD nExStyle = GetWindowExStyle( mhWnd ); if ( nExStyle & WS_EX_TOOLWINDOW ) { mbFullScreenToolWin = true; nExStyle &= ~WS_EX_TOOLWINDOW; SetWindowExStyle( mhWnd, nExStyle ); } // save old position GetWindowRect( mhWnd, &maFullScreenRect ); // save show state mnFullScreenShowState = mnShowState; if ( !(GetWindowStyle( mhWnd ) & WS_VISIBLE) ) mnShowState = SW_SHOW; // Save caption state. mbFullScreenCaption = mbCaption; if (mbCaption) { DWORD nStyle = GetWindowStyle(mhWnd); SetWindowStyle(mhWnd, nStyle & ~WS_CAPTION); mbCaption = false; } // set window to screen size ImplSalFrameFullScreenPos( this, true ); } else { // when the ShowState has to be reset, hide the window first to // reduce flicker bool bVisible = (GetWindowStyle( mhWnd ) & WS_VISIBLE) != 0; if ( bVisible && (mnShowState != mnFullScreenShowState) ) ShowWindow( mhWnd, SW_HIDE ); if ( mbFullScreenToolWin ) SetWindowExStyle( mhWnd, GetWindowExStyle( mhWnd ) | WS_EX_TOOLWINDOW ); mbFullScreenToolWin = false; // Restore caption state. if (mbFullScreenCaption) { DWORD nStyle = GetWindowStyle(mhWnd); SetWindowStyle(mhWnd, nStyle | WS_CAPTION); } mbCaption = mbFullScreenCaption; SetWindowPos( mhWnd, nullptr, maFullScreenRect.left, maFullScreenRect.top, maFullScreenRect.right-maFullScreenRect.left, maFullScreenRect.bottom-maFullScreenRect.top, SWP_NOZORDER | SWP_NOACTIVATE ); // restore show state if ( mnShowState != mnFullScreenShowState ) { mnShowState = mnFullScreenShowState; if ( bVisible ) { mbInShow = true; ShowWindow( mhWnd, mnShowState ); mbInShow = false; UpdateWindow( mhWnd ); } } } } void WinSalFrame::StartPresentation( bool bStart ) { if ( mbPresentation == bStart ) return; mbPresentation = bStart; SalData* pSalData = GetSalData(); if ( bStart ) { // turn off screen-saver when in Presentation mode SystemParametersInfoW( SPI_GETSCREENSAVEACTIVE, 0, &(pSalData->mbScrSvrEnabled), 0 ); if ( pSalData->mbScrSvrEnabled ) SystemParametersInfoW( SPI_SETSCREENSAVEACTIVE, FALSE, nullptr, 0 ); } else { // turn on screen-saver if ( pSalData->mbScrSvrEnabled ) SystemParametersInfoW( SPI_SETSCREENSAVEACTIVE, pSalData->mbScrSvrEnabled, nullptr, 0 ); } } void WinSalFrame::SetAlwaysOnTop( bool bOnTop ) { HWND hWnd; if ( bOnTop ) hWnd = HWND_TOPMOST; else hWnd = HWND_NOTOPMOST; SetWindowPos( mhWnd, hWnd, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_NOACTIVATE ); } static bool EnableAttachThreadInputHack() { OUString aBootstrapUri; if (osl_getProcessWorkingDir(&aBootstrapUri.pData) != osl_Process_E_None) return false; aBootstrapUri += "/bootstrap.ini"; OUString aSystemFileName; if (osl::FileBase::getSystemPathFromFileURL(aBootstrapUri, aSystemFileName) != osl::FileBase::E_None) return false; if (aSystemFileName.getLength() > MAX_PATH) return false; // this uses the Boost ini parser, instead of tools::Config, as we already use it to read other // values from bootstrap.ini in desktop/win32/source/loader.cxx, because that watchdog process // can't access LO libs. This way the handling is consistent. try { boost::property_tree::ptree pt; std::ifstream aFile(o3tl::toW(aSystemFileName.getStr())); boost::property_tree::ini_parser::read_ini(aFile, pt); const bool bEnabled = pt.get("Win32.EnableAttachThreadInputHack", false); SAL_WARN_IF(bEnabled, "vcl", "AttachThreadInput hack is enabled. Watch out for deadlocks!"); return bEnabled; } catch (...) { return false; } } static void ImplSalToTop( HWND hWnd, SalFrameToTop nFlags ) { static const bool bEnableAttachThreadInputHack = EnableAttachThreadInputHack(); WinSalFrame* pToTopFrame = GetWindowPtr( hWnd ); if( pToTopFrame && (pToTopFrame->mnStyle & SalFrameStyleFlags::SYSTEMCHILD) ) BringWindowToTop( hWnd ); if ( nFlags & SalFrameToTop::ForegroundTask ) { // LO used to always call AttachThreadInput here, which resulted in deadlocks // in some installations for unknown reasons! if (bEnableAttachThreadInputHack) { // This magic code is necessary to connect the input focus of the // current window thread and the thread which owns the window that // should be the new foreground window. HWND hCurrWnd = GetForegroundWindow(); DWORD myThreadID = GetCurrentThreadId(); DWORD currThreadID = GetWindowThreadProcessId(hCurrWnd,nullptr); AttachThreadInput(myThreadID, currThreadID, TRUE); SetForegroundWindow_Impl(hWnd); AttachThreadInput(myThreadID, currThreadID, FALSE); } else SetForegroundWindow_Impl(hWnd); } if ( nFlags & SalFrameToTop::RestoreWhenMin ) { HWND hIconicWnd = hWnd; while ( hIconicWnd ) { if ( IsIconic( hIconicWnd ) ) { WinSalFrame* pFrame = GetWindowPtr( hIconicWnd ); if ( pFrame ) { if ( GetWindowPtr( hWnd )->mbRestoreMaximize ) ShowWindow( hIconicWnd, SW_MAXIMIZE ); else ShowWindow( hIconicWnd, SW_RESTORE ); } else ShowWindow( hIconicWnd, SW_RESTORE ); } hIconicWnd = ::GetParent( hIconicWnd ); } } if ( !IsIconic( hWnd ) && IsWindowVisible( hWnd ) ) { SetFocus( hWnd ); // Windows sometimes incorrectly reports to have the focus; // thus make sure to really get the focus if ( ::GetFocus() == hWnd ) SetForegroundWindow_Impl( hWnd ); } } void WinSalFrame::ToTop( SalFrameToTop nFlags ) { nFlags &= ~SalFrameToTop::GrabFocus; // this flag is not needed on win32 // Post this Message to the window, because this only works // in the thread of the window, which has create this window. // We post this message to avoid deadlocks if ( GetSalData()->mnAppThreadId != GetCurrentThreadId() ) { bool const ret = PostMessageW( mhWnd, SAL_MSG_TOTOP, static_cast(nFlags), 0 ); SAL_WARN_IF(!ret, "vcl", "ERROR: PostMessage() failed!"); } else ImplSalToTop( mhWnd, nFlags ); } void WinSalFrame::SetPointer( PointerStyle ePointerStyle ) { struct ImplPtrData { HCURSOR mhCursor; LPCTSTR mnSysId; UINT mnOwnId; }; static o3tl::enumarray aImplPtrTab = { ImplPtrData{ nullptr, IDC_ARROW, 0 }, // POINTER_ARROW { nullptr, nullptr, SAL_RESID_POINTER_NULL }, // POINTER_NULL { nullptr, IDC_WAIT, 0 }, // POINTER_WAIT { nullptr, IDC_IBEAM, 0 }, // POINTER_TEXT { nullptr, IDC_HELP, 0 }, // POINTER_HELP { nullptr, IDC_CROSS, 0 }, // POINTER_CROSS { nullptr, IDC_SIZEALL, 0 }, // POINTER_MOVE { nullptr, IDC_SIZENS, 0 }, // POINTER_NSIZE { nullptr, IDC_SIZENS, 0 }, // POINTER_SSIZE { nullptr, IDC_SIZEWE, 0 }, // POINTER_WSIZE { nullptr, IDC_SIZEWE, 0 }, // POINTER_ESIZE { nullptr, IDC_SIZENWSE, 0 }, // POINTER_NWSIZE { nullptr, IDC_SIZENESW, 0 }, // POINTER_NESIZE { nullptr, IDC_SIZENESW, 0 }, // POINTER_SWSIZE { nullptr, IDC_SIZENWSE, 0 }, // POINTER_SESIZE { nullptr, IDC_SIZENS, 0 }, // POINTER_WINDOW_NSIZE { nullptr, IDC_SIZENS, 0 }, // POINTER_WINDOW_SSIZE { nullptr, IDC_SIZEWE, 0 }, // POINTER_WINDOW_WSIZE { nullptr, IDC_SIZEWE, 0 }, // POINTER_WINDOW_ESIZE { nullptr, IDC_SIZENWSE, 0 }, // POINTER_WINDOW_NWSIZE { nullptr, IDC_SIZENESW, 0 }, // POINTER_WINDOW_NESIZE { nullptr, IDC_SIZENESW, 0 }, // POINTER_WINDOW_SWSIZE { nullptr, IDC_SIZENWSE, 0 }, // POINTER_WINDOW_SESIZE { nullptr, IDC_SIZEWE, 0 }, // POINTER_HSPLIT { nullptr, IDC_SIZENS, 0 }, // POINTER_VSPLIT { nullptr, IDC_SIZEWE, 0 }, // POINTER_HSIZEBAR { nullptr, IDC_SIZENS, 0 }, // POINTER_VSIZEBAR { nullptr, IDC_HAND, 0 }, // POINTER_HAND { nullptr, IDC_HAND, 0 }, // POINTER_REFHAND { nullptr, IDC_PEN, 0 }, // POINTER_PEN { nullptr, nullptr, SAL_RESID_POINTER_MAGNIFY }, // POINTER_MAGNIFY { nullptr, nullptr, SAL_RESID_POINTER_FILL }, // POINTER_FILL { nullptr, nullptr, SAL_RESID_POINTER_ROTATE }, // POINTER_ROTATE { nullptr, nullptr, SAL_RESID_POINTER_HSHEAR }, // POINTER_HSHEAR { nullptr, nullptr, SAL_RESID_POINTER_VSHEAR }, // POINTER_VSHEAR { nullptr, nullptr, SAL_RESID_POINTER_MIRROR }, // POINTER_MIRROR { nullptr, nullptr, SAL_RESID_POINTER_CROOK }, // POINTER_CROOK { nullptr, nullptr, SAL_RESID_POINTER_CROP }, // POINTER_CROP { nullptr, nullptr, SAL_RESID_POINTER_MOVEPOINT }, // POINTER_MOVEPOINT { nullptr, nullptr, SAL_RESID_POINTER_MOVEBEZIERWEIGHT }, // POINTER_MOVEBEZIERWEIGHT { nullptr, nullptr, SAL_RESID_POINTER_MOVEDATA }, // POINTER_MOVEDATA { nullptr, nullptr, SAL_RESID_POINTER_COPYDATA }, // POINTER_COPYDATA { nullptr, nullptr, SAL_RESID_POINTER_LINKDATA }, // POINTER_LINKDATA { nullptr, nullptr, SAL_RESID_POINTER_MOVEDATALINK }, // POINTER_MOVEDATALINK { nullptr, nullptr, SAL_RESID_POINTER_COPYDATALINK }, // POINTER_COPYDATALINK { nullptr, nullptr, SAL_RESID_POINTER_MOVEFILE }, // POINTER_MOVEFILE { nullptr, nullptr, SAL_RESID_POINTER_COPYFILE }, // POINTER_COPYFILE { nullptr, nullptr, SAL_RESID_POINTER_LINKFILE }, // POINTER_LINKFILE { nullptr, nullptr, SAL_RESID_POINTER_MOVEFILELINK }, // POINTER_MOVEFILELINK { nullptr, nullptr, SAL_RESID_POINTER_COPYFILELINK }, // POINTER_COPYFILELINK { nullptr, nullptr, SAL_RESID_POINTER_MOVEFILES }, // POINTER_MOVEFILES { nullptr, nullptr, SAL_RESID_POINTER_COPYFILES }, // POINTER_COPYFILES { nullptr, IDC_NO, 0 }, // POINTER_NOTALLOWED { nullptr, nullptr, SAL_RESID_POINTER_DRAW_LINE }, // POINTER_DRAW_LINE { nullptr, nullptr, SAL_RESID_POINTER_DRAW_RECT }, // POINTER_DRAW_RECT { nullptr, nullptr, SAL_RESID_POINTER_DRAW_POLYGON }, // POINTER_DRAW_POLYGON { nullptr, nullptr, SAL_RESID_POINTER_DRAW_BEZIER }, // POINTER_DRAW_BEZIER { nullptr, nullptr, SAL_RESID_POINTER_DRAW_ARC }, // POINTER_DRAW_ARC { nullptr, nullptr, SAL_RESID_POINTER_DRAW_PIE }, // POINTER_DRAW_PIE { nullptr, nullptr, SAL_RESID_POINTER_DRAW_CIRCLECUT }, // POINTER_DRAW_CIRCLECUT { nullptr, nullptr, SAL_RESID_POINTER_DRAW_ELLIPSE }, // POINTER_DRAW_ELLIPSE { nullptr, nullptr, SAL_RESID_POINTER_DRAW_FREEHAND }, // POINTER_DRAW_FREEHAND { nullptr, nullptr, SAL_RESID_POINTER_DRAW_CONNECT }, // POINTER_DRAW_CONNECT { nullptr, nullptr, SAL_RESID_POINTER_DRAW_TEXT }, // POINTER_DRAW_TEXT { nullptr, nullptr, SAL_RESID_POINTER_DRAW_CAPTION }, // POINTER_DRAW_CAPTION { nullptr, nullptr, SAL_RESID_POINTER_CHART }, // POINTER_CHART { nullptr, nullptr, SAL_RESID_POINTER_DETECTIVE }, // POINTER_DETECTIVE { nullptr, nullptr, SAL_RESID_POINTER_PIVOT_COL }, // POINTER_PIVOT_COL { nullptr, nullptr, SAL_RESID_POINTER_PIVOT_ROW }, // POINTER_PIVOT_ROW { nullptr, nullptr, SAL_RESID_POINTER_PIVOT_FIELD }, // POINTER_PIVOT_FIELD { nullptr, nullptr, SAL_RESID_POINTER_CHAIN }, // POINTER_CHAIN { nullptr, nullptr, SAL_RESID_POINTER_CHAIN_NOTALLOWED }, // POINTER_CHAIN_NOTALLOWED { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_N }, // POINTER_AUTOSCROLL_N { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_S }, // POINTER_AUTOSCROLL_S { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_W }, // POINTER_AUTOSCROLL_W { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_E }, // POINTER_AUTOSCROLL_E { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_NW }, // POINTER_AUTOSCROLL_NW { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_NE }, // POINTER_AUTOSCROLL_NE { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_SW }, // POINTER_AUTOSCROLL_SW { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_SE }, // POINTER_AUTOSCROLL_SE { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_NS }, // POINTER_AUTOSCROLL_NS { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_WE }, // POINTER_AUTOSCROLL_WE { nullptr, nullptr, SAL_RESID_POINTER_AUTOSCROLL_NSWE }, // POINTER_AUTOSCROLL_NSWE { nullptr, nullptr, SAL_RESID_POINTER_TEXT_VERTICAL }, // POINTER_TEXT_VERTICAL { nullptr, nullptr, SAL_RESID_POINTER_PIVOT_DELETE }, // POINTER_PIVOT_DELETE // #i32329# { nullptr, nullptr, SAL_RESID_POINTER_TAB_SELECT_S }, // POINTER_TAB_SELECT_S { nullptr, nullptr, SAL_RESID_POINTER_TAB_SELECT_E }, // POINTER_TAB_SELECT_E { nullptr, nullptr, SAL_RESID_POINTER_TAB_SELECT_SE }, // POINTER_TAB_SELECT_SE { nullptr, nullptr, SAL_RESID_POINTER_TAB_SELECT_W }, // POINTER_TAB_SELECT_W { nullptr, nullptr, SAL_RESID_POINTER_TAB_SELECT_SW }, // POINTER_TAB_SELECT_SW { nullptr, nullptr, SAL_RESID_POINTER_HIDEWHITESPACE }, // POINTER_HIDEWHITESPACE { nullptr, nullptr, SAL_RESID_POINTER_SHOWWHITESPACE } // POINTER_UNHIDEWHITESPACE }; // Mousepointer loaded ? if ( !aImplPtrTab[ePointerStyle].mhCursor ) { if ( aImplPtrTab[ePointerStyle].mnOwnId ) aImplPtrTab[ePointerStyle].mhCursor = ImplLoadSalCursor( aImplPtrTab[ePointerStyle].mnOwnId ); else aImplPtrTab[ePointerStyle].mhCursor = LoadCursor( nullptr, aImplPtrTab[ePointerStyle].mnSysId ); } // change the mouse pointer if different if ( mhCursor != aImplPtrTab[ePointerStyle].mhCursor ) { mhCursor = aImplPtrTab[ePointerStyle].mhCursor; SetCursor( mhCursor ); } } void WinSalFrame::CaptureMouse( bool bCapture ) { // Send this Message to the window, because CaptureMouse() only work // in the thread of the window, which has create this window int nMsg; if ( bCapture ) nMsg = SAL_MSG_CAPTUREMOUSE; else nMsg = SAL_MSG_RELEASEMOUSE; SendMessageW( mhWnd, nMsg, 0, 0 ); } void WinSalFrame::SetPointerPos( long nX, long nY ) { POINT aPt; aPt.x = static_cast(nX); aPt.y = static_cast(nY); ClientToScreen( mhWnd, &aPt ); SetCursorPos( aPt.x, aPt.y ); } void WinSalFrame::Flush() { GdiFlush(); } static void ImplSalFrameSetInputContext( HWND hWnd, const SalInputContext* pContext ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); bool bIME(pContext->mnOptions & InputContextFlags::Text); if ( bIME ) { if ( !pFrame->mbIME ) { pFrame->mbIME = true; if ( pFrame->mhDefIMEContext ) { ImmAssociateContext( pFrame->mhWnd, pFrame->mhDefIMEContext ); UINT nImeProps = ImmGetProperty( GetKeyboardLayout( 0 ), IGP_PROPERTY ); pFrame->mbSpezIME = (nImeProps & IME_PROP_SPECIAL_UI) != 0; pFrame->mbAtCursorIME = (nImeProps & IME_PROP_AT_CARET) != 0; pFrame->mbHandleIME = !pFrame->mbSpezIME; } } // When the application can't handle IME messages, then the // System should handle the IME handling if ( !(pContext->mnOptions & InputContextFlags::ExtText) ) pFrame->mbHandleIME = false; // Set the Font for IME Handling if ( pContext->mpFont ) { HIMC hIMC = ImmGetContext( pFrame->mhWnd ); if ( hIMC ) { LOGFONTW aLogFont; HDC hDC = GetDC( pFrame->mhWnd ); // In case of vertical writing, always append a '@' to the // Windows font name, not only if such a Windows font really is // available (bTestVerticalAvail == false in the below call): // The Windows IME's candidates window seems to always use a // font that has all necessary glyphs, not necessarily the one // specified by this font name; but it seems to decide whether // to use that font's horizontal or vertical variant based on a // '@' in front of this font name. ImplGetLogFontFromFontSelect(hDC, pContext->mpFont->GetFontSelectPattern(), nullptr, aLogFont); ReleaseDC( pFrame->mhWnd, hDC ); ImmSetCompositionFontW( hIMC, &aLogFont ); ImmReleaseContext( pFrame->mhWnd, hIMC ); } } } else { if ( pFrame->mbIME ) { pFrame->mbIME = false; pFrame->mbHandleIME = false; ImmAssociateContext( pFrame->mhWnd, nullptr ); } } } void WinSalFrame::SetInputContext( SalInputContext* pContext ) { // Must be called in the main thread! SendMessageW( mhWnd, SAL_MSG_SETINPUTCONTEXT, 0, reinterpret_cast(pContext) ); } static void ImplSalFrameEndExtTextInput( HWND hWnd, EndExtTextInputFlags nFlags ) { HIMC hIMC = ImmGetContext( hWnd ); if ( hIMC ) { DWORD nIndex; if ( nFlags & EndExtTextInputFlags::Complete ) nIndex = CPS_COMPLETE; else nIndex = CPS_CANCEL; ImmNotifyIME( hIMC, NI_COMPOSITIONSTR, nIndex, 0 ); ImmReleaseContext( hWnd, hIMC ); } } void WinSalFrame::EndExtTextInput( EndExtTextInputFlags nFlags ) { // Must be called in the main thread! SendMessageW( mhWnd, SAL_MSG_ENDEXTTEXTINPUT, static_cast(nFlags), 0 ); } static void ImplGetKeyNameText( LONG lParam, sal_Unicode* pBuf, UINT& rCount, UINT nMaxSize, const char* pReplace ) { static_assert( sizeof( WCHAR ) == sizeof( sal_Unicode ), "must be the same size" ); static const int nMaxKeyLen = 350; WCHAR aKeyBuf[ nMaxKeyLen ]; int nKeyLen = 0; if ( lParam ) { OUString aLang = Application::GetSettings().GetUILanguageTag().getLanguage(); OUString aRet; aRet = ::vcl_sal::getKeysReplacementName( aLang, lParam ); if( aRet.isEmpty() ) { nKeyLen = GetKeyNameTextW( lParam, aKeyBuf, nMaxKeyLen ); SAL_WARN_IF( nKeyLen > nMaxKeyLen, "vcl", "Invalid key name length!" ); if( nKeyLen > nMaxKeyLen ) nKeyLen = 0; else if( nKeyLen > 0 ) { // Capitalize just the first letter of key names CharLowerBuffW( aKeyBuf, nKeyLen ); bool bUpper = true; for( WCHAR *pW=aKeyBuf, *pE=pW+nKeyLen; pW < pE; ++pW ) { if( bUpper ) CharUpperBuffW( pW, 1 ); bUpper = (*pW=='+') || (*pW=='-') || (*pW==' ') || (*pW=='.'); } } } else { nKeyLen = aRet.getLength(); wcscpy( aKeyBuf, o3tl::toW( aRet.getStr() )); } } if ( (nKeyLen > 0) || pReplace ) { if( (rCount > 0) && (rCount < nMaxSize) ) { pBuf[rCount] = '+'; rCount++; } if( nKeyLen > 0 ) { WCHAR *pW = aKeyBuf, *pE = aKeyBuf + nKeyLen; while ((pW < pE) && *pW && (rCount < nMaxSize)) pBuf[rCount++] = *pW++; } else // fall back to provided default name { while( *pReplace && (rCount < nMaxSize) ) { pBuf[rCount] = *pReplace; rCount++; pReplace++; } } } else rCount = 0; } OUString WinSalFrame::GetKeyName( sal_uInt16 nKeyCode ) { static const UINT nMaxKeyLen = 350; sal_Unicode aKeyBuf[ nMaxKeyLen ]; UINT nKeyBufLen = 0; UINT nSysCode = 0; if ( nKeyCode & KEY_MOD1 ) { nSysCode = MapVirtualKeyW( VK_CONTROL, 0 ); nSysCode = (nSysCode << 16) | ((sal_uLong(1)) << 25); ImplGetKeyNameText( nSysCode, aKeyBuf, nKeyBufLen, nMaxKeyLen, "Ctrl" ); } if ( nKeyCode & KEY_MOD2 ) { nSysCode = MapVirtualKeyW( VK_MENU, 0 ); nSysCode = (nSysCode << 16) | ((sal_uLong(1)) << 25); ImplGetKeyNameText( nSysCode, aKeyBuf, nKeyBufLen, nMaxKeyLen, "Alt" ); } if ( nKeyCode & KEY_SHIFT ) { nSysCode = MapVirtualKeyW( VK_SHIFT, 0 ); nSysCode = (nSysCode << 16) | ((sal_uLong(1)) << 25); ImplGetKeyNameText( nSysCode, aKeyBuf, nKeyBufLen, nMaxKeyLen, "Shift" ); } sal_uInt16 nCode = nKeyCode & 0x0FFF; sal_uLong nSysCode2 = 0; const char* pReplace = nullptr; sal_Unicode cSVCode = 0; char aFBuf[4]; nSysCode = 0; if ( (nCode >= KEY_0) && (nCode <= KEY_9) ) cSVCode = '0' + (nCode - KEY_0); else if ( (nCode >= KEY_A) && (nCode <= KEY_Z) ) cSVCode = 'A' + (nCode - KEY_A); else if ( (nCode >= KEY_F1) && (nCode <= KEY_F26) ) { nSysCode = VK_F1 + (nCode - KEY_F1); aFBuf[0] = 'F'; if (nCode <= KEY_F9) { aFBuf[1] = sal::static_int_cast('1' + (nCode - KEY_F1)); aFBuf[2] = 0; } else if (nCode <= KEY_F19) { aFBuf[1] = '1'; aFBuf[2] = sal::static_int_cast('0' + (nCode - KEY_F10)); aFBuf[3] = 0; } else { aFBuf[1] = '2'; aFBuf[2] = sal::static_int_cast('0' + (nCode - KEY_F20)); aFBuf[3] = 0; } pReplace = aFBuf; } else { switch ( nCode ) { case KEY_DOWN: nSysCode = VK_DOWN; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Down"; break; case KEY_UP: nSysCode = VK_UP; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Up"; break; case KEY_LEFT: nSysCode = VK_LEFT; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Left"; break; case KEY_RIGHT: nSysCode = VK_RIGHT; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Right"; break; case KEY_HOME: nSysCode = VK_HOME; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Home"; break; case KEY_END: nSysCode = VK_END; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "End"; break; case KEY_PAGEUP: nSysCode = VK_PRIOR; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Page Up"; break; case KEY_PAGEDOWN: nSysCode = VK_NEXT; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Page Down"; break; case KEY_RETURN: nSysCode = VK_RETURN; pReplace = "Enter"; break; case KEY_ESCAPE: nSysCode = VK_ESCAPE; pReplace = "Escape"; break; case KEY_TAB: nSysCode = VK_TAB; pReplace = "Tab"; break; case KEY_BACKSPACE: nSysCode = VK_BACK; pReplace = "Backspace"; break; case KEY_SPACE: nSysCode = VK_SPACE; pReplace = "Space"; break; case KEY_INSERT: nSysCode = VK_INSERT; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Insert"; break; case KEY_DELETE: nSysCode = VK_DELETE; nSysCode2 = ((sal_uLong(1)) << 24); pReplace = "Delete"; break; case KEY_ADD: cSVCode = '+'; break; case KEY_SUBTRACT: cSVCode = '-'; break; case KEY_MULTIPLY: cSVCode = '*'; break; case KEY_DIVIDE: cSVCode = '/'; break; case KEY_POINT: cSVCode = '.'; break; case KEY_COMMA: cSVCode = ','; break; case KEY_LESS: cSVCode = '<'; break; case KEY_GREATER: cSVCode = '>'; break; case KEY_EQUAL: cSVCode = '='; break; case KEY_SEMICOLON: cSVCode = ';'; break; case KEY_QUOTERIGHT: cSVCode = '\''; break; case KEY_BRACKETLEFT: cSVCode = '['; break; case KEY_BRACKETRIGHT: cSVCode = ']'; break; } } if ( nSysCode ) { nSysCode = MapVirtualKeyW( nSysCode, 0 ); if ( nSysCode ) nSysCode = (nSysCode << 16) | nSysCode2; ImplGetKeyNameText( nSysCode, aKeyBuf, nKeyBufLen, nMaxKeyLen, pReplace ); } else { if ( cSVCode ) { if ( nKeyBufLen > 0 ) aKeyBuf[ nKeyBufLen++ ] = '+'; if( nKeyBufLen < nMaxKeyLen ) aKeyBuf[ nKeyBufLen++ ] = cSVCode; } } if( !nKeyBufLen ) return OUString(); return OUString( aKeyBuf, sal::static_int_cast< sal_uInt16 >(nKeyBufLen) ); } static Color ImplWinColorToSal( COLORREF nColor ) { return Color( GetRValue( nColor ), GetGValue( nColor ), GetBValue( nColor ) ); } static void ImplSalUpdateStyleFontW( HDC hDC, const LOGFONTW& rLogFont, vcl::Font& rFont ) { ImplSalLogFontToFontW( hDC, rLogFont, rFont ); // On Windows 9x, Windows NT we get sometimes very small sizes // (for example for the small Caption height). // So if it is MS Sans Serif, a none scalable font we use // 8 Point as the minimum control height, in all other cases // 6 Point is the smallest one if ( rFont.GetFontHeight() < 8 ) { if ( rtl_ustr_compareIgnoreAsciiCase( o3tl::toU(rLogFont.lfFaceName), o3tl::toU(L"MS Sans Serif") ) == 0 ) rFont.SetFontHeight( 8 ); else if ( rFont.GetFontHeight() < 6 ) rFont.SetFontHeight( 6 ); } } static long ImplW2I( const wchar_t* pStr ) { long n = 0; int nSign = 1; if ( *pStr == '-' ) { nSign = -1; pStr++; } while( (*pStr >= 48) && (*pStr <= 57) ) { n *= 10; n += ((*pStr) - 48); pStr++; } n *= nSign; return n; } void WinSalFrame::UpdateSettings( AllSettings& rSettings ) { MouseSettings aMouseSettings = rSettings.GetMouseSettings(); aMouseSettings.SetDoubleClickTime( GetDoubleClickTime() ); aMouseSettings.SetDoubleClickWidth( GetSystemMetrics( SM_CXDOUBLECLK ) ); aMouseSettings.SetDoubleClickHeight( GetSystemMetrics( SM_CYDOUBLECLK ) ); long nDragWidth = GetSystemMetrics( SM_CXDRAG ); long nDragHeight = GetSystemMetrics( SM_CYDRAG ); if ( nDragWidth ) aMouseSettings.SetStartDragWidth( nDragWidth ); if ( nDragHeight ) aMouseSettings.SetStartDragHeight( nDragHeight ); HKEY hRegKey; if ( RegOpenKeyW( HKEY_CURRENT_USER, L"Control Panel\\Desktop", &hRegKey ) == ERROR_SUCCESS ) { wchar_t aValueBuf[10]; DWORD nValueSize = sizeof( aValueBuf ); DWORD nType; if ( RegQueryValueExW( hRegKey, L"MenuShowDelay", nullptr, &nType, reinterpret_cast(aValueBuf), &nValueSize ) == ERROR_SUCCESS ) { if ( nType == REG_SZ ) aMouseSettings.SetMenuDelay( static_cast(ImplW2I( aValueBuf )) ); } RegCloseKey( hRegKey ); } StyleSettings aStyleSettings = rSettings.GetStyleSettings(); aStyleSettings.SetScrollBarSize( GetSystemMetrics( SM_CXVSCROLL ) ); aStyleSettings.SetSpinSize( GetSystemMetrics( SM_CXVSCROLL ) ); UINT blinkTime = GetCaretBlinkTime(); aStyleSettings.SetCursorBlinkTime( blinkTime == 0 || blinkTime == INFINITE // 0 indicates error ? STYLE_CURSOR_NOBLINKTIME : blinkTime ); aStyleSettings.SetFloatTitleHeight( GetSystemMetrics( SM_CYSMCAPTION ) ); aStyleSettings.SetTitleHeight( GetSystemMetrics( SM_CYCAPTION ) ); aStyleSettings.SetActiveBorderColor( ImplWinColorToSal( GetSysColor( COLOR_ACTIVEBORDER ) ) ); aStyleSettings.SetDeactiveBorderColor( ImplWinColorToSal( GetSysColor( COLOR_INACTIVEBORDER ) ) ); aStyleSettings.SetDeactiveColor( ImplWinColorToSal( GetSysColor( COLOR_GRADIENTINACTIVECAPTION ) ) ); aStyleSettings.SetFaceColor( ImplWinColorToSal( GetSysColor( COLOR_3DFACE ) ) ); aStyleSettings.SetInactiveTabColor( aStyleSettings.GetFaceColor() ); aStyleSettings.SetLightColor( ImplWinColorToSal( GetSysColor( COLOR_3DHILIGHT ) ) ); aStyleSettings.SetLightBorderColor( ImplWinColorToSal( GetSysColor( COLOR_3DLIGHT ) ) ); aStyleSettings.SetShadowColor( ImplWinColorToSal( GetSysColor( COLOR_3DSHADOW ) ) ); aStyleSettings.SetDarkShadowColor( ImplWinColorToSal( GetSysColor( COLOR_3DDKSHADOW ) ) ); aStyleSettings.SetHelpColor( ImplWinColorToSal( GetSysColor( COLOR_INFOBK ) ) ); aStyleSettings.SetHelpTextColor( ImplWinColorToSal( GetSysColor( COLOR_INFOTEXT ) ) ); Color aControlTextColor(ImplWinColorToSal(GetSysColor(COLOR_BTNTEXT))); aStyleSettings.SetDialogColor(aStyleSettings.GetFaceColor()); aStyleSettings.SetDialogTextColor(aControlTextColor); aStyleSettings.SetDefaultButtonTextColor(aControlTextColor); aStyleSettings.SetButtonTextColor(aControlTextColor); aStyleSettings.SetDefaultActionButtonTextColor(aControlTextColor); aStyleSettings.SetActionButtonTextColor(aControlTextColor); aStyleSettings.SetFlatButtonTextColor(aControlTextColor); aStyleSettings.SetDefaultButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetDefaultActionButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetActionButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetFlatButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetDefaultButtonPressedRolloverTextColor(aControlTextColor); aStyleSettings.SetButtonPressedRolloverTextColor(aControlTextColor); aStyleSettings.SetDefaultActionButtonPressedRolloverTextColor(aControlTextColor); aStyleSettings.SetActionButtonPressedRolloverTextColor(aControlTextColor); aStyleSettings.SetFlatButtonPressedRolloverTextColor(aControlTextColor); aStyleSettings.SetTabTextColor(aControlTextColor); aStyleSettings.SetTabRolloverTextColor(aControlTextColor); aStyleSettings.SetTabHighlightTextColor(aControlTextColor); aStyleSettings.SetRadioCheckTextColor( ImplWinColorToSal( GetSysColor( COLOR_WINDOWTEXT ) ) ); aStyleSettings.SetGroupTextColor( aStyleSettings.GetRadioCheckTextColor() ); aStyleSettings.SetLabelTextColor( aStyleSettings.GetRadioCheckTextColor() ); aStyleSettings.SetWindowColor( ImplWinColorToSal( GetSysColor( COLOR_WINDOW ) ) ); aStyleSettings.SetActiveTabColor( aStyleSettings.GetWindowColor() ); aStyleSettings.SetWindowTextColor( ImplWinColorToSal( GetSysColor( COLOR_WINDOWTEXT ) ) ); aStyleSettings.SetToolTextColor( ImplWinColorToSal( GetSysColor( COLOR_WINDOWTEXT ) ) ); aStyleSettings.SetFieldColor( aStyleSettings.GetWindowColor() ); aStyleSettings.SetFieldTextColor( aStyleSettings.GetWindowTextColor() ); aStyleSettings.SetFieldRolloverTextColor( aStyleSettings.GetFieldTextColor() ); aStyleSettings.SetHighlightColor( ImplWinColorToSal( GetSysColor( COLOR_HIGHLIGHT ) ) ); aStyleSettings.SetHighlightTextColor( ImplWinColorToSal( GetSysColor( COLOR_HIGHLIGHTTEXT ) ) ); aStyleSettings.SetMenuHighlightColor( aStyleSettings.GetHighlightColor() ); aStyleSettings.SetMenuHighlightTextColor( aStyleSettings.GetHighlightTextColor() ); ImplSVData* pSVData = ImplGetSVData(); pSVData->maNWFData.mnMenuFormatBorderX = 0; pSVData->maNWFData.mnMenuFormatBorderY = 0; pSVData->maNWFData.maMenuBarHighlightTextColor = COL_TRANSPARENT; GetSalData()->mbThemeMenuSupport = false; if (officecfg::Office::Common::Accessibility::AutoDetectSystemHC::get()) { aStyleSettings.SetShadowColor( ImplWinColorToSal( GetSysColor( COLOR_ACTIVEBORDER ) ) ); aStyleSettings.SetWorkspaceColor( ImplWinColorToSal( GetSysColor( COLOR_MENU ) ) ); } aStyleSettings.SetMenuColor( ImplWinColorToSal( GetSysColor( COLOR_MENU ) ) ); aStyleSettings.SetMenuBarColor( aStyleSettings.GetMenuColor() ); aStyleSettings.SetMenuBarRolloverColor( aStyleSettings.GetHighlightColor() ); aStyleSettings.SetMenuBorderColor( aStyleSettings.GetLightBorderColor() ); // overridden below for flat menus aStyleSettings.SetUseFlatBorders( false ); aStyleSettings.SetUseFlatMenus( false ); aStyleSettings.SetMenuTextColor( ImplWinColorToSal( GetSysColor( COLOR_MENUTEXT ) ) ); if ( std::optional aColor = aStyleSettings.GetPersonaMenuBarTextColor() ) { aStyleSettings.SetMenuBarTextColor( *aColor ); aStyleSettings.SetMenuBarRolloverTextColor( *aColor ); } else { aStyleSettings.SetMenuBarTextColor( ImplWinColorToSal( GetSysColor( COLOR_MENUTEXT ) ) ); aStyleSettings.SetMenuBarRolloverTextColor( ImplWinColorToSal( GetSysColor( COLOR_HIGHLIGHTTEXT ) ) ); } aStyleSettings.SetMenuBarHighlightTextColor(aStyleSettings.GetMenuHighlightTextColor()); aStyleSettings.SetActiveColor( ImplWinColorToSal( GetSysColor( COLOR_ACTIVECAPTION ) ) ); aStyleSettings.SetActiveTextColor( ImplWinColorToSal( GetSysColor( COLOR_CAPTIONTEXT ) ) ); aStyleSettings.SetDeactiveColor( ImplWinColorToSal( GetSysColor( COLOR_INACTIVECAPTION ) ) ); aStyleSettings.SetDeactiveTextColor( ImplWinColorToSal( GetSysColor( COLOR_INACTIVECAPTIONTEXT ) ) ); BOOL bFlatMenus = FALSE; SystemParametersInfoW( SPI_GETFLATMENU, 0, &bFlatMenus, 0); if( bFlatMenus ) { aStyleSettings.SetUseFlatMenus( true ); aStyleSettings.SetMenuBarColor( ImplWinColorToSal( GetSysColor( COLOR_MENUBAR ) ) ); aStyleSettings.SetMenuHighlightColor( ImplWinColorToSal( GetSysColor( COLOR_MENUHILIGHT ) ) ); aStyleSettings.SetMenuBarRolloverColor( ImplWinColorToSal( GetSysColor( COLOR_MENUHILIGHT ) ) ); aStyleSettings.SetMenuBorderColor( ImplWinColorToSal( GetSysColor( COLOR_3DSHADOW ) ) ); // flat borders for our controls etc. as well in this mode (ie, no 3d borders) // this is not active in the classic style appearance aStyleSettings.SetUseFlatBorders( true ); } aStyleSettings.SetCheckedColorSpecialCase( ); // caret width DWORD nCaretWidth = 2; if( SystemParametersInfoW( SPI_GETCARETWIDTH, 0, &nCaretWidth, 0 ) ) aStyleSettings.SetCursorSize( nCaretWidth ); // High contrast HIGHCONTRAST hc; hc.cbSize = sizeof( HIGHCONTRAST ); if( SystemParametersInfoW( SPI_GETHIGHCONTRAST, hc.cbSize, &hc, 0 ) && (hc.dwFlags & HCF_HIGHCONTRASTON) ) aStyleSettings.SetHighContrastMode( true ); else aStyleSettings.SetHighContrastMode( false ); // Query Fonts vcl::Font aMenuFont = aStyleSettings.GetMenuFont(); vcl::Font aTitleFont = aStyleSettings.GetTitleFont(); vcl::Font aFloatTitleFont = aStyleSettings.GetFloatTitleFont(); vcl::Font aHelpFont = aStyleSettings.GetHelpFont(); vcl::Font aAppFont = aStyleSettings.GetAppFont(); vcl::Font aIconFont = aStyleSettings.GetIconFont(); HDC hDC = GetDC( nullptr ); NONCLIENTMETRICSW aNonClientMetrics; aNonClientMetrics.cbSize = sizeof( aNonClientMetrics ); if ( SystemParametersInfoW( SPI_GETNONCLIENTMETRICS, sizeof( aNonClientMetrics ), &aNonClientMetrics, 0 ) ) { ImplSalUpdateStyleFontW( hDC, aNonClientMetrics.lfMenuFont, aMenuFont ); ImplSalUpdateStyleFontW( hDC, aNonClientMetrics.lfCaptionFont, aTitleFont ); ImplSalUpdateStyleFontW( hDC, aNonClientMetrics.lfSmCaptionFont, aFloatTitleFont ); ImplSalUpdateStyleFontW( hDC, aNonClientMetrics.lfStatusFont, aHelpFont ); ImplSalUpdateStyleFontW( hDC, aNonClientMetrics.lfMessageFont, aAppFont ); LOGFONTW aLogFont; if ( SystemParametersInfoW( SPI_GETICONTITLELOGFONT, 0, &aLogFont, 0 ) ) ImplSalUpdateStyleFontW( hDC, aLogFont, aIconFont ); } ReleaseDC( nullptr, hDC ); aStyleSettings.SetToolbarIconSize(ToolbarIconSize::Large); aStyleSettings.BatchSetFonts( aAppFont, aAppFont ); aStyleSettings.SetMenuFont( aMenuFont ); aStyleSettings.SetTitleFont( aTitleFont ); aStyleSettings.SetFloatTitleFont( aFloatTitleFont ); aStyleSettings.SetHelpFont( aHelpFont ); aStyleSettings.SetIconFont( aIconFont ); if ( aAppFont.GetWeight() > WEIGHT_NORMAL ) aAppFont.SetWeight( WEIGHT_NORMAL ); aStyleSettings.SetToolFont( aAppFont ); aStyleSettings.SetTabFont( aAppFont ); BOOL bDragFull; if ( SystemParametersInfoW( SPI_GETDRAGFULLWINDOWS, 0, &bDragFull, 0 ) ) { DragFullOptions nDragFullOptions = aStyleSettings.GetDragFullOptions(); if ( bDragFull ) nDragFullOptions |= DragFullOptions::WindowMove | DragFullOptions::WindowSize | DragFullOptions::Docking | DragFullOptions::Split; else nDragFullOptions &= ~DragFullOptions(DragFullOptions::WindowMove | DragFullOptions::WindowSize | DragFullOptions::Docking | DragFullOptions::Split); aStyleSettings.SetDragFullOptions( nDragFullOptions ); } if ( RegOpenKeyW( HKEY_CURRENT_USER, L"Control Panel\\International\\Calendars\\TwoDigitYearMax", &hRegKey ) == ERROR_SUCCESS ) { wchar_t aValueBuf[10]; DWORD nValue; DWORD nValueSize = sizeof( aValueBuf ); DWORD nType; if ( RegQueryValueExW( hRegKey, L"1", nullptr, &nType, reinterpret_cast(aValueBuf), &nValueSize ) == ERROR_SUCCESS ) { if ( nType == REG_SZ ) { nValue = static_cast(ImplW2I( aValueBuf )); if ( (nValue > 1000) && (nValue < 10000) ) { MiscSettings aMiscSettings = rSettings.GetMiscSettings(); utl::MiscCfg().SetYear2000( static_cast(nValue-99) ); rSettings.SetMiscSettings( aMiscSettings ); } } } RegCloseKey( hRegKey ); } rSettings.SetMouseSettings( aMouseSettings ); rSettings.SetStyleSettings( aStyleSettings ); // now apply the values from theming, if available WinSalGraphics::updateSettingsNative( rSettings ); } const SystemEnvData* WinSalFrame::GetSystemData() const { return &maSysData; } void WinSalFrame::Beep() { // a simple beep MessageBeep( 0 ); } SalFrame::SalPointerState WinSalFrame::GetPointerState() { SalPointerState aState; aState.mnState = 0; if ( GetKeyState( VK_LBUTTON ) & 0x8000 ) aState.mnState |= MOUSE_LEFT; if ( GetKeyState( VK_MBUTTON ) & 0x8000 ) aState.mnState |= MOUSE_MIDDLE; if ( GetKeyState( VK_RBUTTON ) & 0x8000 ) aState.mnState |= MOUSE_RIGHT; if ( GetKeyState( VK_SHIFT ) & 0x8000 ) aState.mnState |= KEY_SHIFT; if ( GetKeyState( VK_CONTROL ) & 0x8000 ) aState.mnState |= KEY_MOD1; if ( GetKeyState( VK_MENU ) & 0x8000 ) aState.mnState |= KEY_MOD2; POINT pt; GetCursorPos( &pt ); aState.maPos = Point( pt.x - maGeometry.nX, pt.y - maGeometry.nY ); return aState; } KeyIndicatorState WinSalFrame::GetIndicatorState() { KeyIndicatorState aState = KeyIndicatorState::NONE; if (::GetKeyState(VK_CAPITAL)) aState |= KeyIndicatorState::CAPSLOCK; if (::GetKeyState(VK_NUMLOCK)) aState |= KeyIndicatorState::NUMLOCK; if (::GetKeyState(VK_SCROLL)) aState |= KeyIndicatorState::SCROLLLOCK; return aState; } void WinSalFrame::SimulateKeyPress( sal_uInt16 nKeyCode ) { BYTE nVKey = 0; switch (nKeyCode) { case KEY_CAPSLOCK: nVKey = VK_CAPITAL; break; } if (nVKey > 0 && nVKey < 255) { ::keybd_event(nVKey, 0x45, KEYEVENTF_EXTENDEDKEY, 0); ::keybd_event(nVKey, 0x45, KEYEVENTF_EXTENDEDKEY|KEYEVENTF_KEYUP, 0); } } void WinSalFrame::ResetClipRegion() { SetWindowRgn( mhWnd, nullptr, TRUE ); } void WinSalFrame::BeginSetClipRegion( sal_uInt32 nRects ) { if( mpClipRgnData ) delete [] reinterpret_cast(mpClipRgnData); sal_uLong nRectBufSize = sizeof(RECT)*nRects; mpClipRgnData = reinterpret_cast(new BYTE[sizeof(RGNDATA)-1+nRectBufSize]); mpClipRgnData->rdh.dwSize = sizeof( RGNDATAHEADER ); mpClipRgnData->rdh.iType = RDH_RECTANGLES; mpClipRgnData->rdh.nCount = nRects; mpClipRgnData->rdh.nRgnSize = nRectBufSize; SetRectEmpty( &(mpClipRgnData->rdh.rcBound) ); mpNextClipRect = reinterpret_cast(&(mpClipRgnData->Buffer)); mbFirstClipRect = true; } void WinSalFrame::UnionClipRegion( long nX, long nY, long nWidth, long nHeight ) { if( ! mpClipRgnData ) return; RECT* pRect = mpNextClipRect; RECT* pBoundRect = &(mpClipRgnData->rdh.rcBound); long nRight = nX + nWidth; long nBottom = nY + nHeight; if ( mbFirstClipRect ) { pBoundRect->left = nX; pBoundRect->top = nY; pBoundRect->right = nRight; pBoundRect->bottom = nBottom; mbFirstClipRect = false; } else { if ( nX < pBoundRect->left ) pBoundRect->left = static_cast(nX); if ( nY < pBoundRect->top ) pBoundRect->top = static_cast(nY); if ( nRight > pBoundRect->right ) pBoundRect->right = static_cast(nRight); if ( nBottom > pBoundRect->bottom ) pBoundRect->bottom = static_cast(nBottom); } pRect->left = static_cast(nX); pRect->top = static_cast(nY); pRect->right = static_cast(nRight); pRect->bottom = static_cast(nBottom); if( (mpNextClipRect - reinterpret_cast(&mpClipRgnData->Buffer)) < static_cast(mpClipRgnData->rdh.nCount) ) mpNextClipRect++; } void WinSalFrame::EndSetClipRegion() { if( ! mpClipRgnData ) return; HRGN hRegion; // create region from accumulated rectangles if ( mpClipRgnData->rdh.nCount == 1 ) { RECT* pRect = &(mpClipRgnData->rdh.rcBound); hRegion = CreateRectRgn( pRect->left, pRect->top, pRect->right, pRect->bottom ); } else { sal_uLong nSize = mpClipRgnData->rdh.nRgnSize+sizeof(RGNDATAHEADER); hRegion = ExtCreateRegion( nullptr, nSize, mpClipRgnData ); } delete [] reinterpret_cast(mpClipRgnData); mpClipRgnData = nullptr; SAL_WARN_IF( !hRegion, "vcl", "WinSalFrame::EndSetClipRegion() - Can't create ClipRegion" ); if( hRegion ) { RECT aWindowRect; GetWindowRect( mhWnd, &aWindowRect ); POINT aPt; aPt.x=0; aPt.y=0; ClientToScreen( mhWnd, &aPt ); OffsetRgn( hRegion, aPt.x - aWindowRect.left, aPt.y - aWindowRect.top ); if( SetWindowRgn( mhWnd, hRegion, TRUE ) == 0 ) DeleteObject( hRegion ); } } static bool ImplHandleMouseMsg( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; if( nMsg == WM_LBUTTONDOWN || nMsg == WM_MBUTTONDOWN || nMsg == WM_RBUTTONDOWN ) { // #103168# post again if async focus has not arrived yet // hopefully we will not receive the corresponding button up before this // button down arrives again vcl::Window *pWin = pFrame->GetWindow(); if( pWin && pWin->ImplGetWindowImpl()->mpFrameData->mnFocusId ) { bool const ret = PostMessageW( hWnd, nMsg, wParam, lParam ); SAL_WARN_IF(!ret, "vcl", "ERROR: PostMessage() failed!"); return true; } } SalMouseEvent aMouseEvt; bool nRet; SalEvent nEvent = SalEvent::NONE; bool bCall = true; aMouseEvt.mnX = static_cast(LOWORD( lParam )); aMouseEvt.mnY = static_cast(HIWORD( lParam )); aMouseEvt.mnCode = 0; aMouseEvt.mnTime = GetMessageTime(); // Use GetKeyState(), as some Logitech mouse drivers do not check // KeyState when simulating double-click with center mouse button if ( GetKeyState( VK_LBUTTON ) & 0x8000 ) aMouseEvt.mnCode |= MOUSE_LEFT; if ( GetKeyState( VK_MBUTTON ) & 0x8000 ) aMouseEvt.mnCode |= MOUSE_MIDDLE; if ( GetKeyState( VK_RBUTTON ) & 0x8000 ) aMouseEvt.mnCode |= MOUSE_RIGHT; if ( GetKeyState( VK_SHIFT ) & 0x8000 ) aMouseEvt.mnCode |= KEY_SHIFT; if ( GetKeyState( VK_CONTROL ) & 0x8000 ) aMouseEvt.mnCode |= KEY_MOD1; if ( GetKeyState( VK_MENU ) & 0x8000 ) aMouseEvt.mnCode |= KEY_MOD2; switch ( nMsg ) { case WM_MOUSEMOVE: { // As the mouse events are not collected correctly when // pressing modifier keys (as interrupted by KeyEvents) // we do this here ourselves if ( aMouseEvt.mnCode & (KEY_SHIFT | KEY_MOD1 | KEY_MOD2) ) { MSG aTempMsg; if ( PeekMessageW( &aTempMsg, hWnd, WM_MOUSEFIRST, WM_MOUSELAST, PM_NOREMOVE | PM_NOYIELD ) ) { if ( (aTempMsg.message == WM_MOUSEMOVE) && (aTempMsg.wParam == wParam) ) return true; } } SalData* pSalData = GetSalData(); // Test for MouseLeave if ( pSalData->mhWantLeaveMsg && (pSalData->mhWantLeaveMsg != hWnd) ) SendMessageW( pSalData->mhWantLeaveMsg, SAL_MSG_MOUSELEAVE, 0, GetMessagePos() ); pSalData->mhWantLeaveMsg = hWnd; // Start MouseLeave-Timer if ( !pSalData->mpMouseLeaveTimer ) { pSalData->mpMouseLeaveTimer = new AutoTimer; pSalData->mpMouseLeaveTimer->SetDebugName( "ImplHandleMouseMsg SalData::mpMouseLeaveTimer" ); pSalData->mpMouseLeaveTimer->SetTimeout( SAL_MOUSELEAVE_TIMEOUT ); pSalData->mpMouseLeaveTimer->Start(); // We don't need to set a timeout handler, because we test // for mouseleave in the timeout callback } aMouseEvt.mnButton = 0; nEvent = SalEvent::MouseMove; } break; case WM_NCMOUSEMOVE: case SAL_MSG_MOUSELEAVE: { SalData* pSalData = GetSalData(); if ( pSalData->mhWantLeaveMsg == hWnd ) { // Mouse-Coordinates are relative to the screen POINT aPt; aPt.x = static_cast(LOWORD(lParam)); aPt.y = static_cast(HIWORD(lParam)); ScreenToClient(hWnd, &aPt); if (const auto& pHelpWin = ImplGetSVHelpData().mpHelpWin) { const tools::Rectangle& rHelpRect = pHelpWin->GetHelpArea(); if (rHelpRect.IsInside(Point(aPt.x, aPt.y))) { // We have entered a tooltip (help window). Don't call the handler here; it // would launch the sequence "Mouse leaves the Control->Control redraws-> // Help window gets destroyed->Mouse enters the Control->Control redraws", // which takes CPU and may flicker. Just destroy the help window and pretend // we are still over the original window. ImplDestroyHelpWindow(true); bCall = false; break; } } pSalData->mhWantLeaveMsg = nullptr; if ( pSalData->mpMouseLeaveTimer ) { delete pSalData->mpMouseLeaveTimer; pSalData->mpMouseLeaveTimer = nullptr; } aMouseEvt.mnX = aPt.x; aMouseEvt.mnY = aPt.y; aMouseEvt.mnButton = 0; nEvent = SalEvent::MouseLeave; } else bCall = false; } break; case WM_LBUTTONDOWN: aMouseEvt.mnButton = MOUSE_LEFT; nEvent = SalEvent::MouseButtonDown; break; case WM_MBUTTONDOWN: aMouseEvt.mnButton = MOUSE_MIDDLE; nEvent = SalEvent::MouseButtonDown; break; case WM_RBUTTONDOWN: aMouseEvt.mnButton = MOUSE_RIGHT; nEvent = SalEvent::MouseButtonDown; break; case WM_LBUTTONUP: aMouseEvt.mnButton = MOUSE_LEFT; nEvent = SalEvent::MouseButtonUp; break; case WM_MBUTTONUP: aMouseEvt.mnButton = MOUSE_MIDDLE; nEvent = SalEvent::MouseButtonUp; break; case WM_RBUTTONUP: aMouseEvt.mnButton = MOUSE_RIGHT; nEvent = SalEvent::MouseButtonUp; break; } // check if this window was destroyed - this might happen if we are the help window // and sent a mouse leave message to the application which killed the help window, ie ourselves if( !IsWindow( hWnd ) ) return false; if ( bCall ) { if ( nEvent == SalEvent::MouseButtonDown ) UpdateWindow( hWnd ); if( AllSettings::GetLayoutRTL() ) aMouseEvt.mnX = pFrame->maGeometry.nWidth-1-aMouseEvt.mnX; nRet = pFrame->CallCallback( nEvent, &aMouseEvt ); if ( nMsg == WM_MOUSEMOVE ) SetCursor( pFrame->mhCursor ); } else nRet = false; return nRet; } static bool ImplHandleMouseActivateMsg( HWND hWnd ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; if ( pFrame->mbFloatWin ) return true; return pFrame->CallCallback( SalEvent::MouseActivate, nullptr ); } static bool ImplHandleWheelMsg( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam ) { DBG_ASSERT( nMsg == WM_MOUSEWHEEL || nMsg == WM_MOUSEHWHEEL, "ImplHandleWheelMsg() called with no wheel mouse event" ); ImplSalYieldMutexAcquireWithWait(); bool nRet = false; WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) { WORD nWinModCode = LOWORD( wParam ); POINT aWinPt; aWinPt.x = static_cast(LOWORD( lParam )); aWinPt.y = static_cast(HIWORD( lParam )); ScreenToClient( hWnd, &aWinPt ); SalWheelMouseEvent aWheelEvt; aWheelEvt.mnTime = GetMessageTime(); aWheelEvt.mnX = aWinPt.x; aWheelEvt.mnY = aWinPt.y; aWheelEvt.mnCode = 0; aWheelEvt.mnDelta = static_cast(HIWORD( wParam )); aWheelEvt.mnNotchDelta = aWheelEvt.mnDelta/WHEEL_DELTA; if( aWheelEvt.mnNotchDelta == 0 ) { if( aWheelEvt.mnDelta > 0 ) aWheelEvt.mnNotchDelta = 1; else if( aWheelEvt.mnDelta < 0 ) aWheelEvt.mnNotchDelta = -1; } if( nMsg == WM_MOUSEWHEEL ) { if ( aSalShlData.mnWheelScrollLines == WHEEL_PAGESCROLL ) aWheelEvt.mnScrollLines = SAL_WHEELMOUSE_EVENT_PAGESCROLL; else aWheelEvt.mnScrollLines = aSalShlData.mnWheelScrollLines; aWheelEvt.mbHorz = false; } else { aWheelEvt.mnScrollLines = aSalShlData.mnWheelScrollChars; aWheelEvt.mbHorz = true; // fdo#36380 - seems horiz scrolling has swapped direction aWheelEvt.mnDelta *= -1; aWheelEvt.mnNotchDelta *= -1; } if ( nWinModCode & MK_SHIFT ) aWheelEvt.mnCode |= KEY_SHIFT; if ( nWinModCode & MK_CONTROL ) aWheelEvt.mnCode |= KEY_MOD1; if ( GetKeyState( VK_MENU ) & 0x8000 ) aWheelEvt.mnCode |= KEY_MOD2; if( AllSettings::GetLayoutRTL() ) aWheelEvt.mnX = pFrame->maGeometry.nWidth-1-aWheelEvt.mnX; nRet = pFrame->CallCallback( SalEvent::WheelMouse, &aWheelEvt ); } ImplSalYieldMutexRelease(); return nRet; } static sal_uInt16 ImplSalGetKeyCode( WPARAM wParam ) { sal_uInt16 nKeyCode; // convert KeyCode if ( wParam < KEY_TAB_SIZE ) nKeyCode = aImplTranslateKeyTab[wParam]; else { SalData* pSalData = GetSalData(); std::map< UINT, sal_uInt16 >::const_iterator it = pSalData->maVKMap.find( static_cast(wParam) ); if( it != pSalData->maVKMap.end() ) nKeyCode = it->second; else nKeyCode = 0; } return nKeyCode; } static void ImplUpdateInputLang( WinSalFrame* pFrame ) { UINT nLang = LOWORD( GetKeyboardLayout( 0 ) ); if ( nLang && nLang != pFrame->mnInputLang ) { // keep input lang up-to-date pFrame->mnInputLang = nLang; } // We are on Windows NT so we use Unicode FrameProcs and get // Unicode charcodes directly from Windows no need to set up a // code page return; } static sal_Unicode ImplGetCharCode( WinSalFrame* pFrame, WPARAM nCharCode ) { ImplUpdateInputLang( pFrame ); // We are on Windows NT so we use Unicode FrameProcs and we // get Unicode charcodes directly from Windows return static_cast(nCharCode); } LanguageType WinSalFrame::GetInputLanguage() { if( !mnInputLang ) ImplUpdateInputLang( this ); if( !mnInputLang ) return LANGUAGE_DONTKNOW; else return LanguageType(mnInputLang); } bool WinSalFrame::MapUnicodeToKeyCode( sal_Unicode aUnicode, LanguageType aLangType, vcl::KeyCode& rKeyCode ) { bool bRet = false; sal_IntPtr nLangType = static_cast(aLangType); // just use the passed language identifier, do not try to load additional keyboard support HKL hkl = reinterpret_cast(nLangType); if( hkl ) { SHORT scan = VkKeyScanExW( aUnicode, hkl ); if( LOWORD(scan) == 0xFFFF ) // keyboard not loaded or key cannot be mapped bRet = false; else { BYTE vkeycode = LOBYTE(scan); BYTE shiftstate = HIBYTE(scan); // Last argument is set to false, because there's no decision made // yet which key should be assigned to MOD3 modifier on Windows. // Windows key - user's can be confused, because it should display // Windows menu (applies to both left/right key) // Menu key - this key is used to display context menu // AltGr key - probably it has no sense rKeyCode = vcl::KeyCode( ImplSalGetKeyCode( vkeycode ), (shiftstate & 0x01) != 0, // shift (shiftstate & 0x02) != 0, // ctrl (shiftstate & 0x04) != 0, // alt false ); bRet = true; } } return bRet; } static bool ImplHandleKeyMsg( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam, LRESULT& rResult ) { static bool bIgnoreCharMsg = false; static WPARAM nDeadChar = 0; static WPARAM nLastVKChar = 0; static sal_uInt16 nLastChar = 0; static ModKeyFlags nLastModKeyCode = ModKeyFlags::NONE; static bool bWaitForModKeyRelease = false; sal_uInt16 nRepeat = LOWORD( lParam )-1; sal_uInt16 nModCode = 0; // this key might have been relayed by SysChild and thus // may not be processed twice GetSalData()->mnSalObjWantKeyEvt = 0; if ( nMsg == WM_DEADCHAR ) { nDeadChar = wParam; return false; } WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; // reset the background mode for each text input, // as some tools such as RichWin may have changed it if ( pFrame->mpLocalGraphics && pFrame->mpLocalGraphics->getHDC() ) SetBkMode( pFrame->mpLocalGraphics->getHDC(), TRANSPARENT ); // determine modifiers if ( GetKeyState( VK_SHIFT ) & 0x8000 ) nModCode |= KEY_SHIFT; if ( GetKeyState( VK_CONTROL ) & 0x8000 ) nModCode |= KEY_MOD1; if (GetKeyState(VK_MENU) & 0x8000) nModCode |= KEY_MOD2; if ( (nMsg == WM_CHAR) || (nMsg == WM_SYSCHAR) ) { nDeadChar = 0; if ( bIgnoreCharMsg ) { bIgnoreCharMsg = false; // #101635# if zero is returned here for WM_SYSCHAR (ALT+) Windows will beep // because this 'hotkey' was not processed -> better return 1 // except for Alt-SPACE which should always open the sysmenu (#104616#) // also return zero if a system menubar is available that might process this hotkey // this also applies to the OLE inplace embedding where we are a child window if( (GetWindowStyle( hWnd ) & WS_CHILD) || GetMenu( hWnd ) || (wParam == 0x20) ) return false; else return true; } // ignore backspace as a single key, so that // we do not get problems for combinations w/ a DeadKey if ( wParam == 0x08 ) // BACKSPACE return false; // only "free flying" WM_CHAR messages arrive here, that are // created by typing an ALT-NUMPAD combination SalKeyEvent aKeyEvt; if ( (wParam >= '0') && (wParam <= '9') ) aKeyEvt.mnCode = sal::static_int_cast(KEYGROUP_NUM + wParam - '0'); else if ( (wParam >= 'A') && (wParam <= 'Z') ) aKeyEvt.mnCode = sal::static_int_cast(KEYGROUP_ALPHA + wParam - 'A'); else if ( (wParam >= 'a') && (wParam <= 'z') ) aKeyEvt.mnCode = sal::static_int_cast(KEYGROUP_ALPHA + wParam - 'a'); else if ( wParam == 0x0D ) // RETURN aKeyEvt.mnCode = KEY_RETURN; else if ( wParam == 0x1B ) // ESCAPE aKeyEvt.mnCode = KEY_ESCAPE; else if ( wParam == 0x09 ) // TAB aKeyEvt.mnCode = KEY_TAB; else if ( wParam == 0x20 ) // SPACE aKeyEvt.mnCode = KEY_SPACE; else aKeyEvt.mnCode = 0; aKeyEvt.mnCode |= nModCode; aKeyEvt.mnCharCode = ImplGetCharCode( pFrame, wParam ); aKeyEvt.mnRepeat = nRepeat; nLastChar = 0; nLastVKChar = 0; bool nRet = pFrame->CallCallback( SalEvent::KeyInput, &aKeyEvt ); pFrame->CallCallback( SalEvent::KeyUp, &aKeyEvt ); return nRet; } // #i11583#, MCD, 2003-01-13, Support for WM_UNICHAR & Keyman 6.0; addition begins else if( nMsg == WM_UNICHAR ) { // If Windows is asking if we accept WM_UNICHAR, return TRUE if(wParam == UNICODE_NOCHAR) { rResult = TRUE; // ssa: this will actually return TRUE to windows return true; // ...but this will only avoid calling the defwindowproc } SalKeyEvent aKeyEvt; aKeyEvt.mnCode = nModCode; // Or should it be 0? - as this is always a character returned aKeyEvt.mnRepeat = 0; if( wParam >= Uni_SupplementaryPlanesStart ) { // character is supplementary char in UTF-32 format - must be converted to UTF-16 supplementary pair // sal_Unicode ch = (sal_Unicode) Uni_UTF32ToSurrogate1(wParam); nLastChar = 0; nLastVKChar = 0; pFrame->CallCallback( SalEvent::KeyInput, &aKeyEvt ); pFrame->CallCallback( SalEvent::KeyUp, &aKeyEvt ); wParam = static_cast(Uni_UTF32ToSurrogate2( wParam )); } aKeyEvt.mnCharCode = static_cast(wParam); nLastChar = 0; nLastVKChar = 0; bool nRet = pFrame->CallCallback( SalEvent::KeyInput, &aKeyEvt ); pFrame->CallCallback( SalEvent::KeyUp, &aKeyEvt ); return nRet; } // MCD, 2003-01-13, Support for WM_UNICHAR & Keyman 6.0; addition ends else { // for shift, control and menu we issue a KeyModChange event if ( (wParam == VK_SHIFT) || (wParam == VK_CONTROL) || (wParam == VK_MENU) ) { SalKeyModEvent aModEvt; aModEvt.mbDown = false; // auto-accelerator feature not supported here. aModEvt.mnCode = nModCode; aModEvt.mnModKeyCode = ModKeyFlags::NONE; // no command events will be sent if this member is 0 ModKeyFlags tmpCode = ModKeyFlags::NONE; if( GetKeyState( VK_LSHIFT ) & 0x8000 ) tmpCode |= ModKeyFlags::LeftShift; if( GetKeyState( VK_RSHIFT ) & 0x8000 ) tmpCode |= ModKeyFlags::RightShift; if( GetKeyState( VK_LCONTROL ) & 0x8000 ) tmpCode |= ModKeyFlags::LeftMod1; if( GetKeyState( VK_RCONTROL ) & 0x8000 ) tmpCode |= ModKeyFlags::RightMod1; if( GetKeyState( VK_LMENU ) & 0x8000 ) tmpCode |= ModKeyFlags::LeftMod2; if( GetKeyState( VK_RMENU ) & 0x8000 ) tmpCode |= ModKeyFlags::RightMod2; if( tmpCode < nLastModKeyCode ) { aModEvt.mnModKeyCode = nLastModKeyCode; nLastModKeyCode = ModKeyFlags::NONE; bWaitForModKeyRelease = true; } else { if( !bWaitForModKeyRelease ) nLastModKeyCode = tmpCode; } if( tmpCode == ModKeyFlags::NONE ) bWaitForModKeyRelease = false; return pFrame->CallCallback( SalEvent::KeyModChange, &aModEvt ); } else { SalKeyEvent aKeyEvt; SalEvent nEvent; MSG aCharMsg; bool bCharPeek = false; UINT nCharMsg = WM_CHAR; bool bKeyUp = (nMsg == WM_KEYUP) || (nMsg == WM_SYSKEYUP); nLastModKeyCode = ModKeyFlags::NONE; // make sure no modkey messages are sent if they belong to a hotkey (see above) aKeyEvt.mnCharCode = 0; aKeyEvt.mnCode = ImplSalGetKeyCode( wParam ); if ( !bKeyUp ) { // check for charcode // Get the related WM_CHAR message using PeekMessage, if available. // The WM_CHAR message is always at the beginning of the // message queue. Also it is made certain that there is always only // one WM_CHAR message in the queue. bCharPeek = PeekMessageW( &aCharMsg, hWnd, WM_CHAR, WM_CHAR, PM_NOREMOVE | PM_NOYIELD ); if ( bCharPeek && (nDeadChar == aCharMsg.wParam) ) { bCharPeek = false; nDeadChar = 0; if ( wParam == VK_BACK ) { PeekMessageW( &aCharMsg, hWnd, nCharMsg, nCharMsg, PM_REMOVE | PM_NOYIELD ); return false; } } else { if ( !bCharPeek ) { bCharPeek = PeekMessageW( &aCharMsg, hWnd, WM_SYSCHAR, WM_SYSCHAR, PM_NOREMOVE | PM_NOYIELD ); nCharMsg = WM_SYSCHAR; } } if ( bCharPeek ) aKeyEvt.mnCharCode = ImplGetCharCode( pFrame, aCharMsg.wParam ); else aKeyEvt.mnCharCode = 0; nLastChar = aKeyEvt.mnCharCode; nLastVKChar = wParam; } else { if ( wParam == nLastVKChar ) { aKeyEvt.mnCharCode = nLastChar; nLastChar = 0; nLastVKChar = 0; } } if ( aKeyEvt.mnCode || aKeyEvt.mnCharCode ) { if ( bKeyUp ) nEvent = SalEvent::KeyUp; else nEvent = SalEvent::KeyInput; aKeyEvt.mnCode |= nModCode; aKeyEvt.mnRepeat = nRepeat; if ((nModCode & (KEY_MOD1 | KEY_MOD2)) == (KEY_MOD1 | KEY_MOD2) && aKeyEvt.mnCharCode) { // this is actually AltGr and should not be handled as Alt aKeyEvt.mnCode &= ~(KEY_MOD1 | KEY_MOD2); } bIgnoreCharMsg = bCharPeek; bool nRet = pFrame->CallCallback( nEvent, &aKeyEvt ); // independent part only reacts on keyup but Windows does not send // keyup for VK_HANJA if( aKeyEvt.mnCode == KEY_HANGUL_HANJA ) nRet = pFrame->CallCallback( SalEvent::KeyUp, &aKeyEvt ); bIgnoreCharMsg = false; // char-message, then remove or ignore if ( bCharPeek ) { nDeadChar = 0; if ( nRet ) { PeekMessageW( &aCharMsg, hWnd, nCharMsg, nCharMsg, PM_REMOVE | PM_NOYIELD ); } else bIgnoreCharMsg = true; } return nRet; } else return false; } } } bool ImplHandleSalObjKeyMsg( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam ) { if ( (nMsg == WM_KEYDOWN) || (nMsg == WM_KEYUP) ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; sal_uInt16 nRepeat = LOWORD( lParam )-1; sal_uInt16 nModCode = 0; // determine modifiers if ( GetKeyState( VK_SHIFT ) & 0x8000 ) nModCode |= KEY_SHIFT; if ( GetKeyState( VK_CONTROL ) & 0x8000 ) nModCode |= KEY_MOD1; if ( GetKeyState( VK_MENU ) & 0x8000 ) nModCode |= KEY_MOD2; if ( (wParam != VK_SHIFT) && (wParam != VK_CONTROL) && (wParam != VK_MENU) ) { SalKeyEvent aKeyEvt; SalEvent nEvent; // convert KeyCode aKeyEvt.mnCode = ImplSalGetKeyCode( wParam ); aKeyEvt.mnCharCode = 0; if ( aKeyEvt.mnCode ) { if (nMsg == WM_KEYUP) nEvent = SalEvent::KeyUp; else nEvent = SalEvent::KeyInput; aKeyEvt.mnCode |= nModCode; aKeyEvt.mnRepeat = nRepeat; bool nRet = pFrame->CallCallback( nEvent, &aKeyEvt ); return nRet; } else return false; } } return false; } bool ImplHandleSalObjSysCharMsg( HWND hWnd, WPARAM wParam, LPARAM lParam ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; sal_uInt16 nRepeat = LOWORD( lParam )-1; sal_uInt16 nModCode = 0; sal_uInt16 cKeyCode = static_cast(wParam); // determine modifiers if ( GetKeyState( VK_SHIFT ) & 0x8000 ) nModCode |= KEY_SHIFT; if ( GetKeyState( VK_CONTROL ) & 0x8000 ) nModCode |= KEY_MOD1; nModCode |= KEY_MOD2; // assemble KeyEvent SalKeyEvent aKeyEvt; if ( (cKeyCode >= 48) && (cKeyCode <= 57) ) aKeyEvt.mnCode = KEY_0+(cKeyCode-48); else if ( (cKeyCode >= 65) && (cKeyCode <= 90) ) aKeyEvt.mnCode = KEY_A+(cKeyCode-65); else if ( (cKeyCode >= 97) && (cKeyCode <= 122) ) aKeyEvt.mnCode = KEY_A+(cKeyCode-97); else aKeyEvt.mnCode = 0; aKeyEvt.mnCode |= nModCode; aKeyEvt.mnCharCode = ImplGetCharCode( pFrame, cKeyCode ); aKeyEvt.mnRepeat = nRepeat; bool nRet = pFrame->CallCallback( SalEvent::KeyInput, &aKeyEvt ); pFrame->CallCallback( SalEvent::KeyUp, &aKeyEvt ); return nRet; } namespace { enum class DeferPolicy { Blocked, Allowed }; } // Remember to release the solar mutex on success! static WinSalFrame* ProcessOrDeferMessage( HWND hWnd, INT nMsg, WPARAM pWParam = 0, DeferPolicy eCanDefer = DeferPolicy::Allowed ) { bool bFailedCondition = false, bGotMutex = false; WinSalFrame* pFrame = nullptr; if ( DeferPolicy::Blocked == eCanDefer ) assert( (DeferPolicy::Blocked == eCanDefer) && (nMsg == 0) && (pWParam == 0) ); else assert( (DeferPolicy::Allowed == eCanDefer) && (nMsg != 0) ); if ( DeferPolicy::Blocked == eCanDefer ) { ImplSalYieldMutexAcquireWithWait(); bGotMutex = true; } else if ( !(bGotMutex = ImplSalYieldMutexTryToAcquire()) ) bFailedCondition = true; if ( !bFailedCondition ) { pFrame = GetWindowPtr( hWnd ); bFailedCondition = pFrame == nullptr; } if ( bFailedCondition ) { if ( bGotMutex ) ImplSalYieldMutexRelease(); if ( DeferPolicy::Allowed == eCanDefer ) { bool const ret = PostMessageW(hWnd, nMsg, pWParam, 0); SAL_WARN_IF(!ret, "vcl", "ERROR: PostMessage() failed!"); } } return pFrame; } namespace { enum class PostedState { IsPosted, IsInitial }; } static bool ImplHandlePostPaintMsg( HWND hWnd, RECT* pRect, PostedState eProcessed = PostedState::IsPosted ) { RECT* pMsgRect; if ( PostedState::IsInitial == eProcessed ) { pMsgRect = new RECT; CopyRect( pMsgRect, pRect ); } else pMsgRect = pRect; WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, SAL_MSG_POSTPAINT, reinterpret_cast(pMsgRect) ); if ( pFrame ) { SalPaintEvent aPEvt( pRect->left, pRect->top, pRect->right-pRect->left, pRect->bottom-pRect->top ); pFrame->CallCallback( SalEvent::Paint, &aPEvt ); ImplSalYieldMutexRelease(); if ( PostedState::IsPosted == eProcessed ) delete pRect; } return (pFrame != nullptr); } static bool ImplHandlePaintMsg( HWND hWnd ) { bool bPaintSuccessful = false; // even without the Yield mutex, we can still change the clip region, // because other threads don't use the Yield mutex // --> see AcquireGraphics() WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) { // clip region must be set, as we don't get a proper // bounding rectangle otherwise WinSalGraphics *pGraphics = pFrame->mpLocalGraphics; bool bHasClipRegion = pGraphics && pGraphics->getHDC() && pGraphics->getRegion(); if ( bHasClipRegion ) SelectClipRgn( pGraphics->getHDC(), nullptr ); // according to Windows documentation one shall check first if // there really is a paint-region RECT aUpdateRect; PAINTSTRUCT aPs; bool bHasPaintRegion = GetUpdateRect( hWnd, nullptr, FALSE ); if ( bHasPaintRegion ) { // call BeginPaint/EndPaint to query the paint rect and use // this information in the (deferred) paint BeginPaint( hWnd, &aPs ); CopyRect( &aUpdateRect, &aPs.rcPaint ); } // reset clip region if ( bHasClipRegion ) SelectClipRgn( pGraphics->getHDC(), pGraphics->getRegion() ); // try painting if ( bHasPaintRegion ) { bPaintSuccessful = ImplHandlePostPaintMsg( hWnd, &aUpdateRect, PostedState::IsInitial ); EndPaint( hWnd, &aPs ); } else // if there is nothing to paint, the paint is successful bPaintSuccessful = true; } return bPaintSuccessful; } static void SetMaximizedFrameGeometry( HWND hWnd, WinSalFrame* pFrame, RECT* pParentRect ) { // calculate and set frame geometry of a maximized window - useful if the window is still hidden // dualmonitor support: // Get screensize of the monitor with the mouse pointer RECT aRectMouse; if( ! pParentRect ) { POINT pt; GetCursorPos( &pt ); aRectMouse.left = pt.x; aRectMouse.top = pt.y; aRectMouse.right = pt.x+2; aRectMouse.bottom = pt.y+2; pParentRect = &aRectMouse; } RECT aRect; ImplSalGetWorkArea( hWnd, &aRect, pParentRect ); // a maximized window has no other borders than the caption pFrame->maGeometry.nLeftDecoration = pFrame->maGeometry.nRightDecoration = pFrame->maGeometry.nBottomDecoration = 0; pFrame->maGeometry.nTopDecoration = pFrame->mbCaption ? GetSystemMetrics( SM_CYCAPTION ) : 0; aRect.top += pFrame->maGeometry.nTopDecoration; pFrame->maGeometry.nX = aRect.left; pFrame->maGeometry.nY = aRect.top; pFrame->maGeometry.nWidth = aRect.right - aRect.left; pFrame->maGeometry.nHeight = aRect.bottom - aRect.top; } static void UpdateFrameGeometry( HWND hWnd, WinSalFrame* pFrame ) { if( !pFrame ) return; RECT aRect; GetWindowRect( hWnd, &aRect ); pFrame->maGeometry.nX = 0; pFrame->maGeometry.nY = 0; pFrame->maGeometry.nWidth = 0; pFrame->maGeometry.nHeight = 0; pFrame->maGeometry.nLeftDecoration = 0; pFrame->maGeometry.nTopDecoration = 0; pFrame->maGeometry.nRightDecoration = 0; pFrame->maGeometry.nBottomDecoration = 0; pFrame->maGeometry.nDisplayScreenNumber = 0; if ( IsIconic( hWnd ) ) return; POINT aPt; aPt.x=0; aPt.y=0; ClientToScreen(hWnd, &aPt); int cx = aPt.x - aRect.left; pFrame->maGeometry.nTopDecoration = aPt.y - aRect.top; pFrame->maGeometry.nLeftDecoration = cx; pFrame->maGeometry.nRightDecoration = cx; pFrame->maGeometry.nX = aPt.x; pFrame->maGeometry.nY = aPt.y; RECT aInnerRect; GetClientRect( hWnd, &aInnerRect ); if( aInnerRect.right ) { // improve right decoration aPt.x=aInnerRect.right; aPt.y=aInnerRect.top; ClientToScreen(hWnd, &aPt); pFrame->maGeometry.nRightDecoration = aRect.right - aPt.x; } if( aInnerRect.bottom ) // may be zero if window was not shown yet pFrame->maGeometry.nBottomDecoration += aRect.bottom - aPt.y - aInnerRect.bottom; else // bottom border is typically the same as left/right pFrame->maGeometry.nBottomDecoration = pFrame->maGeometry.nLeftDecoration; int nWidth = aRect.right - aRect.left - pFrame->maGeometry.nRightDecoration - pFrame->maGeometry.nLeftDecoration; int nHeight = aRect.bottom - aRect.top - pFrame->maGeometry.nBottomDecoration - pFrame->maGeometry.nTopDecoration; // clamp to zero pFrame->maGeometry.nHeight = nHeight < 0 ? 0 : nHeight; pFrame->maGeometry.nWidth = nWidth < 0 ? 0 : nWidth; pFrame->updateScreenNumber(); } static void ImplCallMoveHdl( HWND hWnd ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) { pFrame->CallCallback( SalEvent::Move, nullptr ); // to avoid doing Paint twice by VCL and SAL //if ( IsWindowVisible( hWnd ) && !pFrame->mbInShow ) // UpdateWindow( hWnd ); } } static void ImplCallClosePopupsHdl( HWND hWnd ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) { pFrame->CallCallback( SalEvent::ClosePopups, nullptr ); } } static void ImplHandleMoveMsg( HWND hWnd ) { WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, SAL_MSG_POSTMOVE ); if ( pFrame ) { UpdateFrameGeometry( hWnd, pFrame ); if ( GetWindowStyle( hWnd ) & WS_VISIBLE ) pFrame->mbDefPos = false; // protect against recursion if ( !pFrame->mbInMoveMsg ) { // adjust window again for FullScreenMode pFrame->mbInMoveMsg = true; if ( pFrame->mbFullScreen ) ImplSalFrameFullScreenPos( pFrame ); pFrame->mbInMoveMsg = false; } // save state ImplSaveFrameState( pFrame ); // Call Hdl //#93851 if we call this handler, VCL floating windows are not updated correctly ImplCallMoveHdl( hWnd ); ImplSalYieldMutexRelease(); } } static void ImplCallSizeHdl( HWND hWnd ) { // as Windows can send these messages also, we have to use // the Solar semaphore WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, SAL_MSG_POSTCALLSIZE ); if ( pFrame ) { pFrame->CallCallback( SalEvent::Resize, nullptr ); // to avoid double Paints by VCL and SAL if ( IsWindowVisible( hWnd ) && !pFrame->mbInShow ) UpdateWindow( hWnd ); ImplSalYieldMutexRelease(); } } static void ImplHandleSizeMsg( HWND hWnd, WPARAM wParam, LPARAM lParam ) { if ( (wParam != SIZE_MAXSHOW) && (wParam != SIZE_MAXHIDE) ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) { UpdateFrameGeometry( hWnd, pFrame ); pFrame->mnWidth = static_cast(LOWORD(lParam)); pFrame->mnHeight = static_cast(HIWORD(lParam)); // save state ImplSaveFrameState( pFrame ); // Call Hdl ImplCallSizeHdl( hWnd ); WinSalTimer* pTimer = static_cast( ImplGetSVData()->maSchedCtx.mpSalTimer ); if ( pTimer ) pTimer->SetForceRealTimer( true ); } } } static void ImplHandleFocusMsg( HWND hWnd ) { WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, SAL_MSG_POSTFOCUS ); if ( pFrame ) { if ( !WinSalFrame::mbInReparent ) { bool bGotFocus = ::GetFocus() == hWnd; if ( bGotFocus ) { if ( IsWindowVisible( hWnd ) && !pFrame->mbInShow ) UpdateWindow( hWnd ); // do we support IME? if ( pFrame->mbIME && pFrame->mhDefIMEContext ) { UINT nImeProps = ImmGetProperty( GetKeyboardLayout( 0 ), IGP_PROPERTY ); pFrame->mbSpezIME = (nImeProps & IME_PROP_SPECIAL_UI) != 0; pFrame->mbAtCursorIME = (nImeProps & IME_PROP_AT_CARET) != 0; pFrame->mbHandleIME = !pFrame->mbSpezIME; } } pFrame->CallCallback( bGotFocus ? SalEvent::GetFocus : SalEvent::LoseFocus, nullptr ); } ImplSalYieldMutexRelease(); } } static void ImplHandleCloseMsg( HWND hWnd ) { WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, WM_CLOSE ); if ( pFrame ) { pFrame->CallCallback( SalEvent::Close, nullptr ); ImplSalYieldMutexRelease(); } } static bool ImplHandleShutDownMsg( HWND hWnd ) { bool nRet = false; WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, 0, 0, DeferPolicy::Blocked ); if ( pFrame ) { nRet = pFrame->CallCallback( SalEvent::Shutdown, nullptr ); ImplSalYieldMutexRelease(); } return nRet; } static void ImplHandleSettingsChangeMsg( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam ) { SalEvent nSalEvent = SalEvent::SettingsChanged; if ( nMsg == WM_DEVMODECHANGE ) nSalEvent = SalEvent::PrinterChanged; else if ( nMsg == WM_DISPLAYCHANGE ) nSalEvent = SalEvent::DisplayChanged; else if ( nMsg == WM_FONTCHANGE ) nSalEvent = SalEvent::FontChanged; else if ( nMsg == WM_WININICHANGE ) { if ( lParam ) { if ( ImplSalWICompareAscii( reinterpret_cast(lParam), "devices" ) == 0 ) nSalEvent = SalEvent::PrinterChanged; } } if ( nMsg == WM_SETTINGCHANGE ) { if ( wParam == SPI_SETWHEELSCROLLLINES ) aSalShlData.mnWheelScrollLines = ImplSalGetWheelScrollLines(); else if( wParam == SPI_SETWHEELSCROLLCHARS ) aSalShlData.mnWheelScrollChars = ImplSalGetWheelScrollChars(); } if ( WM_SYSCOLORCHANGE == nMsg && GetSalData()->mhDitherPal ) ImplUpdateSysColorEntries(); WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, 0, 0, DeferPolicy::Blocked ); if ( pFrame ) { if ( (nMsg == WM_DISPLAYCHANGE) || (nMsg == WM_WININICHANGE) ) { if ( pFrame->mbFullScreen ) ImplSalFrameFullScreenPos( pFrame ); } pFrame->CallCallback( nSalEvent, nullptr ); ImplSalYieldMutexRelease(); } } static void ImplHandleUserEvent( HWND hWnd, LPARAM lParam ) { WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, 0, 0, DeferPolicy::Blocked ); if ( pFrame ) { pFrame->CallCallback( SalEvent::UserEvent, reinterpret_cast(lParam) ); ImplSalYieldMutexRelease(); } } static void ImplHandleForcePalette( HWND hWnd ) { SalData* pSalData = GetSalData(); HPALETTE hPal = pSalData->mhDitherPal; if ( hPal ) { WinSalFrame* pFrame = ProcessOrDeferMessage( hWnd, SAL_MSG_FORCEPALETTE ); if ( pFrame && pFrame->mpLocalGraphics && pFrame->mpLocalGraphics->getHDC() ) { WinSalGraphics* pGraphics = pFrame->mpLocalGraphics; if (pGraphics->getDefPal()) { SelectPalette( pGraphics->getHDC(), hPal, FALSE ); if ( RealizePalette( pGraphics->getHDC() ) ) { InvalidateRect( hWnd, nullptr, FALSE ); UpdateWindow( hWnd ); pFrame->CallCallback( SalEvent::DisplayChanged, nullptr ); } } } if ( pFrame ) ImplSalYieldMutexRelease(); } } static LRESULT ImplHandlePalette( bool bFrame, HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam, bool& rDef ) { SalData* pSalData = GetSalData(); HPALETTE hPal = pSalData->mhDitherPal; if ( !hPal ) return 0; rDef = false; if ( pSalData->mbInPalChange ) return 0; if ( (nMsg == WM_PALETTECHANGED) || (nMsg == SAL_MSG_POSTPALCHANGED) ) { if ( reinterpret_cast(wParam) == hWnd ) return 0; } bool bReleaseMutex = false; if ( (nMsg == WM_QUERYNEWPALETTE) || (nMsg == WM_PALETTECHANGED) ) { // as Windows can send these messages also, we have to use // the Solar semaphore if ( ImplSalYieldMutexTryToAcquire() ) bReleaseMutex = true; else if ( nMsg == WM_QUERYNEWPALETTE ) { bool const ret = PostMessageW(hWnd, SAL_MSG_POSTQUERYNEWPAL, wParam, lParam); SAL_WARN_IF(!ret, "vcl", "ERROR: PostMessage() failed!"); } else /* ( nMsg == WM_PALETTECHANGED ) */ { bool const ret = PostMessageW(hWnd, SAL_MSG_POSTPALCHANGED, wParam, lParam); SAL_WARN_IF(!ret, "vcl", "ERROR: PostMessage() failed!"); } } WinSalVirtualDevice*pTempVD; WinSalFrame* pTempFrame; WinSalGraphics* pGraphics; HDC hDC; HPALETTE hOldPal; UINT nCols; bool bStdDC; bool bUpdate; pSalData->mbInPalChange = true; // reset all palettes in VirDevs and Frames pTempVD = pSalData->mpFirstVD; while ( pTempVD ) { pGraphics = pTempVD->getGraphics(); if ( pGraphics->getDefPal() ) { SelectPalette( pGraphics->getHDC(), pGraphics->getDefPal(), TRUE ); } pTempVD = pTempVD->getNext(); } pTempFrame = pSalData->mpFirstFrame; while ( pTempFrame ) { pGraphics = pTempFrame->mpLocalGraphics; if ( pGraphics && pGraphics->getHDC() && pGraphics->getDefPal() ) { SelectPalette( pGraphics->getHDC(), pGraphics->getDefPal(), TRUE ); } pTempFrame = pTempFrame->mpNextFrame; } // re-initialize palette WinSalFrame* pFrame = nullptr; if ( bFrame ) pFrame = GetWindowPtr( hWnd ); if ( pFrame && pFrame->mpLocalGraphics && pFrame->mpLocalGraphics->getHDC() ) { hDC = pFrame->mpLocalGraphics->getHDC(); bStdDC = true; } else { hDC = GetDC( hWnd ); bStdDC = false; } UnrealizeObject( hPal ); hOldPal = SelectPalette( hDC, hPal, TRUE ); nCols = RealizePalette( hDC ); bUpdate = nCols != 0; if ( !bStdDC ) { SelectPalette( hDC, hOldPal, TRUE ); ReleaseDC( hWnd, hDC ); } // reset all palettes in VirDevs and Frames pTempVD = pSalData->mpFirstVD; while ( pTempVD ) { pGraphics = pTempVD->getGraphics(); if ( pGraphics->getDefPal() ) { SelectPalette( pGraphics->getHDC(), hPal, TRUE ); RealizePalette( pGraphics->getHDC() ); } pTempVD = pTempVD->getNext(); } pTempFrame = pSalData->mpFirstFrame; while ( pTempFrame ) { if ( pTempFrame != pFrame ) { pGraphics = pTempFrame->mpLocalGraphics; if ( pGraphics && pGraphics->getHDC() && pGraphics->getDefPal() ) { SelectPalette( pGraphics->getHDC(), hPal, TRUE ); if ( RealizePalette( pGraphics->getHDC() ) ) bUpdate = true; } } pTempFrame = pTempFrame->mpNextFrame; } // if colors changed, update the window if ( bUpdate ) { pTempFrame = pSalData->mpFirstFrame; while ( pTempFrame ) { pGraphics = pTempFrame->mpLocalGraphics; if ( pGraphics && pGraphics->getHDC() && pGraphics->getDefPal() ) { InvalidateRect( pTempFrame->mhWnd, nullptr, FALSE ); UpdateWindow( pTempFrame->mhWnd ); pTempFrame->CallCallback( SalEvent::DisplayChanged, nullptr ); } pTempFrame = pTempFrame->mpNextFrame; } } pSalData->mbInPalChange = false; if ( bReleaseMutex ) ImplSalYieldMutexRelease(); if ( nMsg == WM_PALETTECHANGED ) return 0; else return nCols; } static bool ImplHandleMinMax( HWND hWnd, LPARAM lParam ) { bool bRet = false; if ( ImplSalYieldMutexTryToAcquire() ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) { MINMAXINFO* pMinMax = reinterpret_cast(lParam); if ( pFrame->mbFullScreen ) { int nX; int nY; int nDX; int nDY; ImplSalCalcFullScreenSize( pFrame, nX, nY, nDX, nDY ); if ( pMinMax->ptMaxPosition.x > nX ) pMinMax->ptMaxPosition.x = nX; if ( pMinMax->ptMaxPosition.y > nY ) pMinMax->ptMaxPosition.y = nY; if ( pMinMax->ptMaxSize.x < nDX ) pMinMax->ptMaxSize.x = nDX; if ( pMinMax->ptMaxSize.y < nDY ) pMinMax->ptMaxSize.y = nDY; if ( pMinMax->ptMaxTrackSize.x < nDX ) pMinMax->ptMaxTrackSize.x = nDX; if ( pMinMax->ptMaxTrackSize.y < nDY ) pMinMax->ptMaxTrackSize.y = nDY; pMinMax->ptMinTrackSize.x = nDX; pMinMax->ptMinTrackSize.y = nDY; bRet = true; } if ( pFrame->mnMinWidth || pFrame->mnMinHeight ) { int nWidth = pFrame->mnMinWidth; int nHeight = pFrame->mnMinHeight; ImplSalAddBorder( pFrame, nWidth, nHeight ); if ( pMinMax->ptMinTrackSize.x < nWidth ) pMinMax->ptMinTrackSize.x = nWidth; if ( pMinMax->ptMinTrackSize.y < nHeight ) pMinMax->ptMinTrackSize.y = nHeight; } if ( pFrame->mnMaxWidth || pFrame->mnMaxHeight ) { int nWidth = pFrame->mnMaxWidth; int nHeight = pFrame->mnMaxHeight; ImplSalAddBorder( pFrame, nWidth, nHeight ); if( nWidth > 0 && nHeight > 0 ) // protect against int overflow due to INT_MAX initialisation { if ( pMinMax->ptMaxTrackSize.x > nWidth ) pMinMax->ptMaxTrackSize.x = nWidth; if ( pMinMax->ptMaxTrackSize.y > nHeight ) pMinMax->ptMaxTrackSize.y = nHeight; } } } ImplSalYieldMutexRelease(); } return bRet; } // retrieves the SalMenuItem pointer from a hMenu // the pointer is stored in every item, so if no position // is specified we just use the first item (ie, pos=0) // if bByPosition is false then nPos denotes a menu id instead of a position static WinSalMenuItem* ImplGetSalMenuItem( HMENU hMenu, UINT nPos, bool bByPosition=true ) { MENUITEMINFOW mi = {}; mi.cbSize = sizeof( mi ); mi.fMask = MIIM_DATA; if( !GetMenuItemInfoW( hMenu, nPos, bByPosition, &mi) ) SAL_WARN("vcl", "GetMenuItemInfoW failed: " << WindowsErrorString(GetLastError())); return reinterpret_cast(mi.dwItemData); } // returns the index of the currently selected item if any or -1 static int ImplGetSelectedIndex( HMENU hMenu ) { MENUITEMINFOW mi = {}; mi.cbSize = sizeof( mi ); mi.fMask = MIIM_STATE; int n = GetMenuItemCount( hMenu ); if( n != -1 ) { for(int i=0; i(lParam); OUString aMnemonic( "&" + OUStringChar(static_cast(LOWORD(wParam))) ); aMnemonic = aMnemonic.toAsciiLowerCase(); // we only have ascii mnemonics // search the mnemonic in the current menu int nItemCount = GetMenuItemCount( hMenu ); int nFound = 0; int idxFound = -1; int idxSelected = ImplGetSelectedIndex( hMenu ); int idx = idxSelected != -1 ? idxSelected+1 : 0; // if duplicate mnemonics cycle through menu for( int i=0; i< nItemCount; i++, idx++ ) { WinSalMenuItem* pSalMenuItem = ImplGetSalMenuItem( hMenu, idx % nItemCount ); if( !pSalMenuItem ) continue; OUString aStr = pSalMenuItem->mText; aStr = aStr.toAsciiLowerCase(); if( aStr.indexOf( aMnemonic ) != -1 ) { if( idxFound == -1 ) idxFound = idx % nItemCount; if( nFound++ ) break; // duplicate found } } if( nFound == 1 ) nRet = MAKELRESULT( idxFound, MNC_EXECUTE ); else // duplicate mnemonics, just select the next occurrence nRet = MAKELRESULT( idxFound, MNC_SELECT ); return nRet; } static LRESULT ImplMeasureItem( HWND hWnd, WPARAM wParam, LPARAM lParam ) { LRESULT nRet = 0; if( !wParam ) { // request was sent by a menu nRet = 1; MEASUREITEMSTRUCT *pMI = reinterpret_cast(lParam); if( pMI->CtlType != ODT_MENU ) return 0; WinSalMenuItem *pSalMenuItem = reinterpret_cast(pMI->itemData); if( !pSalMenuItem ) return 0; HDC hdc = GetDC( hWnd ); SIZE strSize; NONCLIENTMETRICSW ncm = {}; ncm.cbSize = sizeof( ncm ); SystemParametersInfoW( SPI_GETNONCLIENTMETRICS, 0, &ncm, 0 ); // Assume every menu item can be default and printed bold //ncm.lfMenuFont.lfWeight = FW_BOLD; HFONT hfntOld = static_cast(SelectObject(hdc, CreateFontIndirectW( &ncm.lfMenuFont ))); // menu text and accelerator OUString aStr(pSalMenuItem->mText); if( pSalMenuItem->mAccelText.getLength() ) { aStr += " " + pSalMenuItem->mAccelText; } GetTextExtentPoint32W( hdc, o3tl::toW(aStr.getStr()), aStr.getLength(), &strSize ); // image Size bmpSize( 16, 16 ); //if( !!pSalMenuItem->maBitmap ) // bmpSize = pSalMenuItem->maBitmap.GetSizePixel(); // checkmark Size checkSize( GetSystemMetrics( SM_CXMENUCHECK ), GetSystemMetrics( SM_CYMENUCHECK ) ); pMI->itemWidth = checkSize.Width() + 3 + bmpSize.Width() + 3 + strSize.cx; pMI->itemHeight = std::max( std::max( checkSize.Height(), bmpSize.Height() ), strSize.cy ); pMI->itemHeight += 4; DeleteObject( SelectObject(hdc, hfntOld) ); ReleaseDC( hWnd, hdc ); } return nRet; } static LRESULT ImplDrawItem(HWND, WPARAM wParam, LPARAM lParam ) { LRESULT nRet = 0; if( !wParam ) { // request was sent by a menu nRet = 1; DRAWITEMSTRUCT *pDI = reinterpret_cast(lParam); if( pDI->CtlType != ODT_MENU ) return 0; WinSalMenuItem *pSalMenuItem = reinterpret_cast(pDI->itemData); if( !pSalMenuItem ) return 0; COLORREF clrPrevText, clrPrevBkgnd; HFONT hfntOld; HBRUSH hbrOld; bool fChecked = (pDI->itemState & ODS_CHECKED); bool fSelected = (pDI->itemState & ODS_SELECTED); bool fDisabled = (pDI->itemState & (ODS_DISABLED | ODS_GRAYED)); // Set the appropriate foreground and background colors. RECT aRect = pDI->rcItem; if ( fDisabled ) clrPrevText = SetTextColor( pDI->hDC, GetSysColor( COLOR_GRAYTEXT ) ); else clrPrevText = SetTextColor( pDI->hDC, GetSysColor( fSelected ? COLOR_HIGHLIGHTTEXT : COLOR_MENUTEXT ) ); DWORD colBackground = GetSysColor( fSelected ? COLOR_HIGHLIGHT : COLOR_MENU ); clrPrevBkgnd = SetBkColor( pDI->hDC, colBackground ); hbrOld = static_cast(SelectObject( pDI->hDC, CreateSolidBrush( GetBkColor( pDI->hDC ) ) )); // Fill background if(!PatBlt( pDI->hDC, aRect.left, aRect.top, aRect.right-aRect.left, aRect.bottom-aRect.top, PATCOPY )) SAL_WARN("vcl", "PatBlt failed: " << WindowsErrorString(GetLastError())); int lineHeight = aRect.bottom-aRect.top; int x = aRect.left; int y = aRect.top; int checkWidth = GetSystemMetrics( SM_CXMENUCHECK ); int checkHeight = GetSystemMetrics( SM_CYMENUCHECK ); if( fChecked ) { RECT r; r.left = 0; r.top = 0; r.right = checkWidth; r.bottom = checkWidth; HDC memDC = CreateCompatibleDC( pDI->hDC ); HBITMAP memBmp = CreateCompatibleBitmap( pDI->hDC, checkWidth, checkHeight ); HBITMAP hOldBmp = static_cast(SelectObject( memDC, memBmp )); DrawFrameControl( memDC, &r, DFC_MENU, DFCS_MENUCHECK ); BitBlt( pDI->hDC, x, y+(lineHeight-checkHeight)/2, checkWidth, checkHeight, memDC, 0, 0, SRCAND ); DeleteObject( SelectObject( memDC, hOldBmp ) ); DeleteDC( memDC ); } x += checkWidth+3; //Size bmpSize = aBitmap.GetSizePixel(); Size bmpSize(16, 16); if( !!pSalMenuItem->maBitmap ) { Bitmap aBitmap( pSalMenuItem->maBitmap ); // set transparent pixels to background color if( fDisabled ) colBackground = RGB(255,255,255); aBitmap.Replace( COL_LIGHTMAGENTA, Color( GetRValue(colBackground),GetGValue(colBackground),GetBValue(colBackground) )); WinSalBitmap* pSalBmp = static_cast(aBitmap.ImplGetSalBitmap().get()); HGLOBAL hDrawDIB = pSalBmp->ImplGethDIB(); if( hDrawDIB ) { PBITMAPINFO pBI = static_cast(GlobalLock( hDrawDIB )); PBYTE pBits = reinterpret_cast(pBI) + pBI->bmiHeader.biSize + WinSalBitmap::ImplGetDIBColorCount( hDrawDIB ) * sizeof( RGBQUAD ); HBITMAP hBmp = CreateDIBitmap( pDI->hDC, &pBI->bmiHeader, CBM_INIT, pBits, pBI, DIB_RGB_COLORS ); GlobalUnlock( hDrawDIB ); HBRUSH hbrIcon = CreateSolidBrush( GetSysColor( COLOR_GRAYTEXT ) ); DrawStateW( pDI->hDC, hbrIcon, nullptr, reinterpret_cast(hBmp), WPARAM(0), x, y+(lineHeight-bmpSize.Height())/2, bmpSize.Width(), bmpSize.Height(), DST_BITMAP | (fDisabled ? (fSelected ? DSS_MONO : DSS_DISABLED) : DSS_NORMAL) ); DeleteObject( hbrIcon ); DeleteObject( hBmp ); } } x += bmpSize.Width() + 3; aRect.left = x; NONCLIENTMETRICSW ncm = {}; ncm.cbSize = sizeof( ncm ); SystemParametersInfoW( SPI_GETNONCLIENTMETRICS, 0, &ncm, 0 ); // Print default menu entry with bold font //if ( pDI->itemState & ODS_DEFAULT ) // ncm.lfMenuFont.lfWeight = FW_BOLD; hfntOld = static_cast(SelectObject(pDI->hDC, CreateFontIndirectW( &ncm.lfMenuFont ))); SIZE strSize; OUString aStr( pSalMenuItem->mText ); GetTextExtentPoint32W( pDI->hDC, o3tl::toW(aStr.getStr()), aStr.getLength(), &strSize ); if(!DrawStateW( pDI->hDC, nullptr, nullptr, reinterpret_cast(aStr.getStr()), WPARAM(0), aRect.left, aRect.top + (lineHeight - strSize.cy)/2, 0, 0, DST_PREFIXTEXT | (fDisabled && !fSelected ? DSS_DISABLED : DSS_NORMAL) ) ) SAL_WARN("vcl", "DrawStateW failed: " << WindowsErrorString(GetLastError())); if( pSalMenuItem->mAccelText.getLength() ) { SIZE strSizeA; aStr = pSalMenuItem->mAccelText; GetTextExtentPoint32W( pDI->hDC, o3tl::toW(aStr.getStr()), aStr.getLength(), &strSizeA ); TEXTMETRICW tm; GetTextMetricsW( pDI->hDC, &tm ); // position the accelerator string to the right but leave space for the // (potential) submenu arrow (tm.tmMaxCharWidth) if(!DrawStateW( pDI->hDC, nullptr, nullptr, reinterpret_cast(aStr.getStr()), WPARAM(0), aRect.right-strSizeA.cx-tm.tmMaxCharWidth, aRect.top + (lineHeight - strSizeA.cy)/2, 0, 0, DST_TEXT | (fDisabled && !fSelected ? DSS_DISABLED : DSS_NORMAL) ) ) SAL_WARN("vcl", "DrawStateW failed: " << WindowsErrorString(GetLastError())); } // Restore the original font and colors. DeleteObject( SelectObject( pDI->hDC, hbrOld ) ); DeleteObject( SelectObject( pDI->hDC, hfntOld) ); SetTextColor(pDI->hDC, clrPrevText); SetBkColor(pDI->hDC, clrPrevBkgnd); } return nRet; } static bool ImplHandleMenuActivate( HWND hWnd, WPARAM wParam, LPARAM ) { // Menu activation WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; HMENU hMenu = reinterpret_cast(wParam); // WORD nPos = LOWORD (lParam); // bool bWindowMenu = (bool) HIWORD(lParam); // Send activate and deactivate together, so we have not keep track of opened menus // this will be enough to have the menus updated correctly SalMenuEvent aMenuEvt; WinSalMenuItem *pSalMenuItem = ImplGetSalMenuItem( hMenu, 0 ); if( pSalMenuItem ) aMenuEvt.mpMenu = pSalMenuItem->mpMenu; else aMenuEvt.mpMenu = nullptr; bool nRet = pFrame->CallCallback( SalEvent::MenuActivate, &aMenuEvt ); if( nRet ) nRet = pFrame->CallCallback( SalEvent::MenuDeactivate, &aMenuEvt ); if( nRet ) pFrame->mLastActivatedhMenu = hMenu; return nRet; } static bool ImplHandleMenuSelect( HWND hWnd, WPARAM wParam, LPARAM lParam ) { // Menu selection WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; WORD nId = LOWORD(wParam); // menu item or submenu index WORD nFlags = HIWORD(wParam); HMENU hMenu = reinterpret_cast(lParam); // check if we have to process the message if( !GetSalData()->IsKnownMenuHandle( hMenu ) ) return false; bool bByPosition = false; if( nFlags & MF_POPUP ) bByPosition = true; bool nRet = false; if ( hMenu && !pFrame->mLastActivatedhMenu ) { // we never activated a menu (ie, no WM_INITMENUPOPUP has occurred yet) // which means this must be the menubar -> send activation/deactivation SalMenuEvent aMenuEvt; WinSalMenuItem *pSalMenuItem = ImplGetSalMenuItem( hMenu, nId, bByPosition ); if( pSalMenuItem ) aMenuEvt.mpMenu = pSalMenuItem->mpMenu; else aMenuEvt.mpMenu = nullptr; nRet = pFrame->CallCallback( SalEvent::MenuActivate, &aMenuEvt ); if( nRet ) nRet = pFrame->CallCallback( SalEvent::MenuDeactivate, &aMenuEvt ); if( nRet ) pFrame->mLastActivatedhMenu = hMenu; } if( !hMenu && nFlags == 0xFFFF ) { // all menus are closed, reset activation logic pFrame->mLastActivatedhMenu = nullptr; } if( hMenu ) { // hMenu must be saved, as it is not passed in WM_COMMAND which always occurs after a selection // if a menu is closed due to a command selection then hMenu is NULL, but WM_COMMAND comes later // so we must not overwrite it in this case pFrame->mSelectedhMenu = hMenu; // send highlight event if( nFlags & MF_POPUP ) { // submenu selected // wParam now carries an index instead of an id -> retrieve id MENUITEMINFOW mi = {}; mi.cbSize = sizeof( mi ); mi.fMask = MIIM_ID; if( GetMenuItemInfoW( hMenu, LOWORD(wParam), TRUE, &mi) ) nId = sal::static_int_cast(mi.wID); } SalMenuEvent aMenuEvt; aMenuEvt.mnId = nId; WinSalMenuItem *pSalMenuItem = ImplGetSalMenuItem( hMenu, nId, false ); if( pSalMenuItem ) aMenuEvt.mpMenu = pSalMenuItem->mpMenu; else aMenuEvt.mpMenu = nullptr; nRet = pFrame->CallCallback( SalEvent::MenuHighlight, &aMenuEvt ); } return nRet; } static bool ImplHandleCommand( HWND hWnd, WPARAM wParam, LPARAM ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; bool nRet = false; if( !HIWORD(wParam) ) { // Menu command WORD nId = LOWORD(wParam); if( nId ) // zero for separators { SalMenuEvent aMenuEvt; aMenuEvt.mnId = nId; WinSalMenuItem *pSalMenuItem = ImplGetSalMenuItem( pFrame->mSelectedhMenu, nId, false ); if( pSalMenuItem ) aMenuEvt.mpMenu = pSalMenuItem->mpMenu; else aMenuEvt.mpMenu = nullptr; nRet = pFrame->CallCallback( SalEvent::MenuCommand, &aMenuEvt ); } } return nRet; } static bool ImplHandleSysCommand( HWND hWnd, WPARAM wParam, LPARAM lParam ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return false; WPARAM nCommand = wParam & 0xFFF0; if ( pFrame->mbFullScreen ) { bool bMaximize = IsZoomed( pFrame->mhWnd ); bool bMinimize = IsIconic( pFrame->mhWnd ); if ( (nCommand == SC_SIZE) || (!bMinimize && (nCommand == SC_MOVE)) || (!bMaximize && (nCommand == SC_MAXIMIZE)) || (bMaximize && (nCommand == SC_RESTORE)) ) { return true; } } if ( nCommand == SC_MOVE ) { WinSalTimer* pTimer = static_cast( ImplGetSVData()->maSchedCtx.mpSalTimer ); if ( pTimer ) pTimer->SetForceRealTimer( true ); } if ( nCommand == SC_KEYMENU ) { // do not process SC_KEYMENU if we have a native menu // Windows should handle this if( GetMenu( hWnd ) ) return false; // Process here KeyMenu events only for Alt to activate the MenuBar, // or if a SysChild window is in focus, as Alt-key-combinations are // only processed via this event if ( !LOWORD( lParam ) ) { // Only trigger if no other key is pressed. // Contrary to Docu the CharCode is delivered with the x-coordinate // that is pressed in addition. // Also 32 for space, 99 for c, 100 for d, ... // As this is not documented, we check the state of the space-bar if ( GetKeyState( VK_SPACE ) & 0x8000 ) return false; // to avoid activating the MenuBar for Alt+MouseKey if ( (GetKeyState( VK_LBUTTON ) & 0x8000) || (GetKeyState( VK_RBUTTON ) & 0x8000) || (GetKeyState( VK_MBUTTON ) & 0x8000) || (GetKeyState( VK_SHIFT ) & 0x8000) ) return true; SalKeyEvent aKeyEvt; aKeyEvt.mnCode = KEY_MENU; aKeyEvt.mnCharCode = 0; aKeyEvt.mnRepeat = 0; bool nRet = pFrame->CallCallback( SalEvent::KeyInput, &aKeyEvt ); pFrame->CallCallback( SalEvent::KeyUp, &aKeyEvt ); return nRet; } else { // check if a SysChild is in focus HWND hFocusWnd = ::GetFocus(); if ( hFocusWnd && ImplFindSalObject( hFocusWnd ) ) { char cKeyCode = static_cast(static_cast(LOWORD( lParam ))); // LowerCase if ( (cKeyCode >= 65) && (cKeyCode <= 90) ) cKeyCode += 32; // We only accept 0-9 and A-Z; all other keys have to be // processed by the SalObj hook if ( ((cKeyCode >= 48) && (cKeyCode <= 57)) || ((cKeyCode >= 97) && (cKeyCode <= 122)) ) { sal_uInt16 nModCode = 0; if ( GetKeyState( VK_SHIFT ) & 0x8000 ) nModCode |= KEY_SHIFT; if ( GetKeyState( VK_CONTROL ) & 0x8000 ) nModCode |= KEY_MOD1; nModCode |= KEY_MOD2; SalKeyEvent aKeyEvt; if ( (cKeyCode >= 48) && (cKeyCode <= 57) ) aKeyEvt.mnCode = KEY_0+(cKeyCode-48); else aKeyEvt.mnCode = KEY_A+(cKeyCode-97); aKeyEvt.mnCode |= nModCode; aKeyEvt.mnCharCode = cKeyCode; aKeyEvt.mnRepeat = 0; bool nRet = pFrame->CallCallback( SalEvent::KeyInput, &aKeyEvt ); pFrame->CallCallback( SalEvent::KeyUp, &aKeyEvt ); return nRet; } } } } return false; } static void ImplHandleInputLangChange( HWND hWnd, WPARAM, LPARAM lParam ) { ImplSalYieldMutexAcquireWithWait(); // check if we support IME WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( !pFrame ) return; if ( pFrame->mbIME && pFrame->mhDefIMEContext ) { HKL hKL = reinterpret_cast(lParam); UINT nImeProps = ImmGetProperty( hKL, IGP_PROPERTY ); pFrame->mbSpezIME = (nImeProps & IME_PROP_SPECIAL_UI) != 0; pFrame->mbAtCursorIME = (nImeProps & IME_PROP_AT_CARET) != 0; pFrame->mbHandleIME = !pFrame->mbSpezIME; } // trigger input language and codepage update UINT nLang = pFrame->mnInputLang; ImplUpdateInputLang( pFrame ); // notify change if( nLang != pFrame->mnInputLang ) pFrame->CallCallback( SalEvent::InputLanguageChange, nullptr ); // reinit spec. keys GetSalData()->initKeyCodeMap(); ImplSalYieldMutexRelease(); } static void ImplUpdateIMECursorPos( WinSalFrame* pFrame, HIMC hIMC ) { COMPOSITIONFORM aForm = {}; // get cursor position and from it calculate default position // for the composition window SalExtTextInputPosEvent aPosEvt; pFrame->CallCallback( SalEvent::ExtTextInputPos, &aPosEvt ); if ( (aPosEvt.mnX == -1) && (aPosEvt.mnY == -1) ) aForm.dwStyle |= CFS_DEFAULT; else { aForm.dwStyle |= CFS_POINT; aForm.ptCurrentPos.x = aPosEvt.mnX; aForm.ptCurrentPos.y = aPosEvt.mnY; } ImmSetCompositionWindow( hIMC, &aForm ); // Because not all IME's use this values, we create // a Windows caret to force the Position from the IME if ( GetFocus() == pFrame->mhWnd ) { CreateCaret( pFrame->mhWnd, nullptr, aPosEvt.mnWidth, aPosEvt.mnHeight ); SetCaretPos( aPosEvt.mnX, aPosEvt.mnY ); } } static bool ImplHandleIMEStartComposition( HWND hWnd ) { bool bDef = true; ImplSalYieldMutexAcquireWithWait(); WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) { HIMC hIMC = ImmGetContext( hWnd ); if ( hIMC ) { ImplUpdateIMECursorPos( pFrame, hIMC ); ImmReleaseContext( hWnd, hIMC ); } if ( pFrame->mbHandleIME ) { if ( pFrame->mbAtCursorIME ) bDef = false; } } ImplSalYieldMutexRelease(); return bDef; } static bool ImplHandleIMECompositionInput( WinSalFrame* pFrame, HIMC hIMC, LPARAM lParam ) { bool bDef = true; // Init Event SalExtTextInputEvent aEvt; aEvt.mpTextAttr = nullptr; aEvt.mnCursorPos = 0; aEvt.mnCursorFlags = 0; // If we get a result string, then we handle this input if ( lParam & GCS_RESULTSTR ) { bDef = false; LONG nTextLen = ImmGetCompositionStringW( hIMC, GCS_RESULTSTR, nullptr, 0 ) / sizeof( WCHAR ); if ( nTextLen >= 0 ) { auto pTextBuf = std::make_unique(nTextLen); ImmGetCompositionStringW( hIMC, GCS_RESULTSTR, pTextBuf.get(), nTextLen*sizeof( WCHAR ) ); aEvt.maText = OUString( o3tl::toU(pTextBuf.get()), static_cast(nTextLen) ); } aEvt.mnCursorPos = aEvt.maText.getLength(); pFrame->CallCallback( SalEvent::ExtTextInput, &aEvt ); pFrame->CallCallback( SalEvent::EndExtTextInput, nullptr ); ImplUpdateIMECursorPos( pFrame, hIMC ); } // If the IME doesn't support OnSpot input, then there is nothing to do if ( !pFrame->mbAtCursorIME ) return !bDef; // If we get new Composition data, then we handle this new input if ( (lParam & (GCS_COMPSTR | GCS_COMPATTR)) || ((lParam & GCS_CURSORPOS) && !(lParam & GCS_RESULTSTR)) ) { bDef = false; ExtTextInputAttr* pSalAttrAry = nullptr; LONG nTextLen = ImmGetCompositionStringW( hIMC, GCS_COMPSTR, nullptr, 0 ) / sizeof( WCHAR ); if ( nTextLen > 0 ) { { auto pTextBuf = std::make_unique(nTextLen); ImmGetCompositionStringW( hIMC, GCS_COMPSTR, pTextBuf.get(), nTextLen*sizeof( WCHAR ) ); aEvt.maText = OUString( o3tl::toU(pTextBuf.get()), static_cast(nTextLen) ); } std::unique_ptr pAttrBuf; LONG nAttrLen = ImmGetCompositionStringW( hIMC, GCS_COMPATTR, nullptr, 0 ); if ( nAttrLen > 0 ) { pAttrBuf.reset(new BYTE[nAttrLen]); ImmGetCompositionStringW( hIMC, GCS_COMPATTR, pAttrBuf.get(), nAttrLen ); } if ( pAttrBuf ) { sal_Int32 nTextLen2 = aEvt.maText.getLength(); pSalAttrAry = new ExtTextInputAttr[nTextLen2]; memset( pSalAttrAry, 0, nTextLen2*sizeof( sal_uInt16 ) ); for( sal_Int32 i = 0; (i < nTextLen2) && (i < nAttrLen); i++ ) { BYTE nWinAttr = pAttrBuf.get()[i]; ExtTextInputAttr nSalAttr; if ( nWinAttr == ATTR_TARGET_CONVERTED ) { nSalAttr = ExtTextInputAttr::BoldUnderline; aEvt.mnCursorFlags |= EXTTEXTINPUT_CURSOR_INVISIBLE; } else if ( nWinAttr == ATTR_CONVERTED ) nSalAttr = ExtTextInputAttr::DashDotUnderline; else if ( nWinAttr == ATTR_TARGET_NOTCONVERTED ) nSalAttr = ExtTextInputAttr::Highlight; else if ( nWinAttr == ATTR_INPUT_ERROR ) nSalAttr = ExtTextInputAttr::RedText | ExtTextInputAttr::DottedUnderline; else /* ( nWinAttr == ATTR_INPUT ) */ nSalAttr = ExtTextInputAttr::DottedUnderline; pSalAttrAry[i] = nSalAttr; } aEvt.mpTextAttr = pSalAttrAry; } } // Only when we get new composition data, we must send this event if ( (nTextLen > 0) || !(lParam & GCS_RESULTSTR) ) { // End the mode, if the last character is deleted if ( !nTextLen && !pFrame->mbCandidateMode ) { pFrame->CallCallback( SalEvent::ExtTextInput, &aEvt ); pFrame->CallCallback( SalEvent::EndExtTextInput, nullptr ); } else { // Because Cursor-Position and DeltaStart never updated // from the korean input engine, we must handle this here if ( lParam & CS_INSERTCHAR ) { aEvt.mnCursorPos = nTextLen; if ( aEvt.mnCursorPos && (lParam & CS_NOMOVECARET) ) aEvt.mnCursorPos--; } else aEvt.mnCursorPos = LOWORD( ImmGetCompositionStringW( hIMC, GCS_CURSORPOS, nullptr, 0 ) ); if ( pFrame->mbCandidateMode ) aEvt.mnCursorFlags |= EXTTEXTINPUT_CURSOR_INVISIBLE; if ( lParam & CS_NOMOVECARET ) aEvt.mnCursorFlags |= EXTTEXTINPUT_CURSOR_OVERWRITE; pFrame->CallCallback( SalEvent::ExtTextInput, &aEvt ); } ImplUpdateIMECursorPos( pFrame, hIMC ); } if ( pSalAttrAry ) delete [] pSalAttrAry; } return !bDef; } static bool ImplHandleIMEComposition( HWND hWnd, LPARAM lParam ) { bool bDef = true; ImplSalYieldMutexAcquireWithWait(); WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame && (!lParam || (lParam & GCS_RESULTSTR)) ) { // reset the background mode for each text input, // as some tools such as RichWin may have changed it if ( pFrame->mpLocalGraphics && pFrame->mpLocalGraphics->getHDC() ) SetBkMode( pFrame->mpLocalGraphics->getHDC(), TRANSPARENT ); } if ( pFrame && pFrame->mbHandleIME ) { if ( !lParam ) { SalExtTextInputEvent aEvt; aEvt.mpTextAttr = nullptr; aEvt.mnCursorPos = 0; aEvt.mnCursorFlags = 0; pFrame->CallCallback( SalEvent::ExtTextInput, &aEvt ); pFrame->CallCallback( SalEvent::EndExtTextInput, nullptr ); } else if ( lParam & (GCS_RESULTSTR | GCS_COMPSTR | GCS_COMPATTR | GCS_CURSORPOS) ) { HIMC hIMC = ImmGetContext( hWnd ); if ( hIMC ) { if ( ImplHandleIMECompositionInput( pFrame, hIMC, lParam ) ) bDef = false; ImmReleaseContext( hWnd, hIMC ); } } } ImplSalYieldMutexRelease(); return bDef; } static bool ImplHandleIMEEndComposition( HWND hWnd ) { bool bDef = true; ImplSalYieldMutexAcquireWithWait(); WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame && pFrame->mbHandleIME ) { if ( pFrame->mbAtCursorIME ) bDef = false; } ImplSalYieldMutexRelease(); return bDef; } static bool ImplHandleAppCommand( HWND hWnd, LPARAM lParam, LRESULT & nRet ) { MediaCommand nCommand; switch( GET_APPCOMMAND_LPARAM(lParam) ) { case APPCOMMAND_MEDIA_CHANNEL_DOWN: nCommand = MediaCommand::ChannelDown; break; case APPCOMMAND_MEDIA_CHANNEL_UP: nCommand = MediaCommand::ChannelUp; break; case APPCOMMAND_MEDIA_NEXTTRACK: nCommand = MediaCommand::NextTrack; break; case APPCOMMAND_MEDIA_PAUSE: nCommand = MediaCommand::Pause; break; case APPCOMMAND_MEDIA_PLAY: nCommand = MediaCommand::Play; break; case APPCOMMAND_MEDIA_PLAY_PAUSE: nCommand = MediaCommand::PlayPause; break; case APPCOMMAND_MEDIA_PREVIOUSTRACK: nCommand = MediaCommand::PreviousTrack; break; case APPCOMMAND_MEDIA_RECORD: nCommand = MediaCommand::Record; break; case APPCOMMAND_MEDIA_REWIND: nCommand = MediaCommand::Rewind; break; case APPCOMMAND_MEDIA_STOP: nCommand = MediaCommand::Stop; break; case APPCOMMAND_MIC_ON_OFF_TOGGLE: nCommand = MediaCommand::MicOnOffToggle; break; case APPCOMMAND_MICROPHONE_VOLUME_DOWN: nCommand = MediaCommand::MicrophoneVolumeDown; break; case APPCOMMAND_MICROPHONE_VOLUME_MUTE: nCommand = MediaCommand::MicrophoneVolumeMute; break; case APPCOMMAND_MICROPHONE_VOLUME_UP: nCommand = MediaCommand::MicrophoneVolumeUp; break; case APPCOMMAND_VOLUME_DOWN: nCommand = MediaCommand::VolumeDown; break; case APPCOMMAND_VOLUME_MUTE: nCommand = MediaCommand::VolumeMute; break; case APPCOMMAND_VOLUME_UP: nCommand = MediaCommand::VolumeUp; break; default: return false; } WinSalFrame* pFrame = GetWindowPtr( hWnd ); vcl::Window *pWindow = pFrame ? pFrame->GetWindow() : nullptr; if( pWindow ) { const Point aPoint; CommandMediaData aMediaData(nCommand); CommandEvent aCEvt( aPoint, CommandEventId::Media, false, &aMediaData ); NotifyEvent aNCmdEvt( MouseNotifyEvent::COMMAND, pWindow, &aCEvt ); if ( !ImplCallPreNotify( aNCmdEvt ) ) { pWindow->Command( aCEvt ); nRet = 1; return !aMediaData.GetPassThroughToOS(); } } return false; } static void ImplHandleIMENotify( HWND hWnd, WPARAM wParam ) { if ( wParam == WPARAM(IMN_OPENCANDIDATE) ) { ImplSalYieldMutexAcquireWithWait(); WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame && pFrame->mbHandleIME && pFrame->mbAtCursorIME ) { // we want to hide the cursor pFrame->mbCandidateMode = true; ImplHandleIMEComposition( hWnd, GCS_CURSORPOS ); HWND hWnd2 = pFrame->mhWnd; HIMC hIMC = ImmGetContext( hWnd2 ); if ( hIMC ) { LONG nBufLen = ImmGetCompositionStringW( hIMC, GCS_COMPSTR, nullptr, 0 ); if ( nBufLen >= 1 ) { SalExtTextInputPosEvent aPosEvt; pFrame->CallCallback( SalEvent::ExtTextInputPos, &aPosEvt ); // Vertical !!! CANDIDATEFORM aForm; aForm.dwIndex = 0; aForm.dwStyle = CFS_EXCLUDE; aForm.ptCurrentPos.x = aPosEvt.mnX; aForm.ptCurrentPos.y = aPosEvt.mnY+1; aForm.rcArea.left = aPosEvt.mnX; aForm.rcArea.top = aPosEvt.mnY; aForm.rcArea.right = aForm.rcArea.left+aPosEvt.mnExtWidth+1; aForm.rcArea.bottom = aForm.rcArea.top+aPosEvt.mnHeight+1; ImmSetCandidateWindow( hIMC, &aForm ); } ImmReleaseContext( hWnd2, hIMC ); } } ImplSalYieldMutexRelease(); } else if ( wParam == WPARAM(IMN_CLOSECANDIDATE) ) { ImplSalYieldMutexAcquireWithWait(); WinSalFrame* pFrame = GetWindowPtr( hWnd ); if ( pFrame ) pFrame->mbCandidateMode = false; ImplSalYieldMutexRelease(); } } static bool ImplHandleGetObject(HWND hWnd, LPARAM lParam, WPARAM wParam, LRESULT & nRet) { // IA2 should be enabled automatically AllSettings aSettings = Application::GetSettings(); MiscSettings aMisc = aSettings.GetMiscSettings(); aMisc.SetEnableATToolSupport( true ); aSettings.SetMiscSettings( aMisc ); Application::SetSettings( aSettings ); if (!Application::GetSettings().GetMiscSettings().GetEnableATToolSupport()) return false; // locked down somehow ? ImplSVData* pSVData = ImplGetSVData(); // Make sure to launch Accessibility only the following criteria are satisfied // to avoid RFT interrupts regular accessibility processing if ( !pSVData->mxAccessBridge.is() ) { if( !InitAccessBridge() ) return false; } uno::Reference< accessibility::XMSAAService > xMSAA( pSVData->mxAccessBridge, uno::UNO_QUERY ); if ( xMSAA.is() ) { sal_Int32 lParam32 = static_cast(lParam); sal_uInt32 wParam32 = static_cast(wParam); // mhOnSetTitleWnd not set to reasonable value anywhere... if ( lParam32 == OBJID_CLIENT ) { nRet = xMSAA->getAccObjectPtr( reinterpret_cast(hWnd), lParam32, wParam32); if (nRet != 0) return true; } } return false; } static LRESULT ImplHandleIMEReconvertString( HWND hWnd, LPARAM lParam ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); LPRECONVERTSTRING pReconvertString = reinterpret_cast(lParam); LRESULT nRet = 0; SalSurroundingTextRequestEvent aEvt; aEvt.maText.clear(); aEvt.mnStart = aEvt.mnEnd = 0; UINT nImeProps = ImmGetProperty( GetKeyboardLayout( 0 ), IGP_SETCOMPSTR ); if( (nImeProps & SCS_CAP_SETRECONVERTSTRING) == 0 ) { // This IME does not support reconversion. return 0; } if( !pReconvertString ) { // The first call for reconversion. pFrame->CallCallback( SalEvent::StartReconversion, nullptr ); // Retrieve the surrounding text from the focused control. pFrame->CallCallback( SalEvent::SurroundingTextRequest, &aEvt ); if( aEvt.maText.isEmpty()) { return 0; } nRet = sizeof(RECONVERTSTRING) + (aEvt.maText.getLength() + 1) * sizeof(WCHAR); } else { // The second call for reconversion. // Retrieve the surrounding text from the focused control. pFrame->CallCallback( SalEvent::SurroundingTextRequest, &aEvt ); nRet = sizeof(RECONVERTSTRING) + (aEvt.maText.getLength() + 1) * sizeof(WCHAR); pReconvertString->dwStrOffset = sizeof(RECONVERTSTRING); pReconvertString->dwStrLen = aEvt.maText.getLength(); pReconvertString->dwCompStrOffset = aEvt.mnStart * sizeof(WCHAR); pReconvertString->dwCompStrLen = aEvt.mnEnd - aEvt.mnStart; pReconvertString->dwTargetStrOffset = pReconvertString->dwCompStrOffset; pReconvertString->dwTargetStrLen = pReconvertString->dwCompStrLen; memcpy( pReconvertString + 1, aEvt.maText.getStr(), (aEvt.maText.getLength() + 1) * sizeof(WCHAR) ); } // just return the required size of buffer to reconvert. return nRet; } static LRESULT ImplHandleIMEConfirmReconvertString( HWND hWnd, LPARAM lParam ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); LPRECONVERTSTRING pReconvertString = reinterpret_cast(lParam); SalSurroundingTextRequestEvent aEvt; aEvt.maText.clear(); aEvt.mnStart = aEvt.mnEnd = 0; pFrame->CallCallback( SalEvent::SurroundingTextRequest, &aEvt ); sal_uLong nTmpStart = pReconvertString->dwCompStrOffset / sizeof(WCHAR); sal_uLong nTmpEnd = nTmpStart + pReconvertString->dwCompStrLen; if( nTmpStart != aEvt.mnStart || nTmpEnd != aEvt.mnEnd ) { SalSurroundingTextSelectionChangeEvent aSelEvt { nTmpStart, nTmpEnd }; pFrame->CallCallback( SalEvent::SurroundingTextSelectionChange, &aSelEvt ); } return TRUE; } static LRESULT ImplHandleIMEQueryCharPosition( HWND hWnd, LPARAM lParam ) { WinSalFrame* pFrame = GetWindowPtr( hWnd ); PIMECHARPOSITION pQueryCharPosition = reinterpret_cast(lParam); if ( pQueryCharPosition->dwSize < sizeof(IMECHARPOSITION) ) return FALSE; SalQueryCharPositionEvent aEvt; aEvt.mbValid = false; aEvt.mnCharPos = pQueryCharPosition->dwCharPos; pFrame->CallCallback( SalEvent::QueryCharPosition, &aEvt ); if ( !aEvt.mbValid ) return FALSE; if ( aEvt.mbVertical ) { // For vertical writing, the base line is left edge of the rectangle // and the target position is top-right corner. pQueryCharPosition->pt.x = aEvt.mnCursorBoundX + aEvt.mnCursorBoundWidth; pQueryCharPosition->pt.y = aEvt.mnCursorBoundY; pQueryCharPosition->cLineHeight = aEvt.mnCursorBoundWidth; } else { // For horizontal writing, the base line is the bottom edge of the rectangle. // and the target position is top-left corner. pQueryCharPosition->pt.x = aEvt.mnCursorBoundX; pQueryCharPosition->pt.y = aEvt.mnCursorBoundY; pQueryCharPosition->cLineHeight = aEvt.mnCursorBoundHeight; } // Currently not supported but many IMEs usually ignore them. pQueryCharPosition->rcDocument.left = 0; pQueryCharPosition->rcDocument.top = 0; pQueryCharPosition->rcDocument.right = 0; pQueryCharPosition->rcDocument.bottom = 0; return TRUE; } void SalTestMouseLeave() { SalData* pSalData = GetSalData(); if ( pSalData->mhWantLeaveMsg && !::GetCapture() ) { POINT aPt; GetCursorPos( &aPt ); if ( pSalData->mhWantLeaveMsg != WindowFromPoint( aPt ) ) SendMessageW( pSalData->mhWantLeaveMsg, SAL_MSG_MOUSELEAVE, 0, MAKELPARAM( aPt.x, aPt.y ) ); } } static bool ImplSalWheelMousePos( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam , LRESULT& rResult ) { POINT aPt; POINT aScreenPt; aScreenPt.x = static_cast(LOWORD( lParam )); aScreenPt.y = static_cast(HIWORD( lParam )); // find child window that is at this position HWND hChildWnd; HWND hWheelWnd = hWnd; do { hChildWnd = hWheelWnd; aPt = aScreenPt; ScreenToClient( hChildWnd, &aPt ); hWheelWnd = ChildWindowFromPointEx( hChildWnd, aPt, CWP_SKIPINVISIBLE | CWP_SKIPTRANSPARENT ); } while ( hWheelWnd && (hWheelWnd != hChildWnd) ); if ( hWheelWnd && (hWheelWnd != hWnd) && (hWheelWnd != ::GetFocus()) && IsWindowEnabled( hWheelWnd ) ) { rResult = SendMessageW( hWheelWnd, nMsg, wParam, lParam ); return false; } return true; } static LRESULT CALLBACK SalFrameWndProc( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam, bool& rDef ) { LRESULT nRet = 0; static bool bInWheelMsg = false; static bool bInQueryEnd = false; SAL_INFO("vcl.gdi.wndproc", "SalFrameWndProc(nMsg=" << nMsg << ", wParam=" << wParam << ", lParam=" << lParam << ")"); // By WM_CREATE we connect the frame with the window handle if ( nMsg == WM_CREATE ) { // Save Window-Instance in Windowhandle // Can also be used for the A-Version, because the struct // to access lpCreateParams is the same structure CREATESTRUCTW* pStruct = reinterpret_cast(lParam); WinSalFrame* pFrame = static_cast(pStruct->lpCreateParams); if ( pFrame != nullptr ) { SetWindowPtr( hWnd, pFrame ); // Set HWND already here, as data might be used already // when messages are being sent by CreateWindow() pFrame->mhWnd = hWnd; pFrame->maSysData.hWnd = hWnd; } return 0; } ImplSVData* pSVData = ImplGetSVData(); // #i72707# TODO: the mbDeInit check will not be needed // once all windows that are not properly closed on exit got fixed if( pSVData->mbDeInit ) return 0; if ( WM_USER_SYSTEM_WINDOW_ACTIVATED == nMsg ) { ImplHideSplash(); return 0; } switch( nMsg ) { case WM_MOUSEMOVE: case WM_LBUTTONDOWN: case WM_MBUTTONDOWN: case WM_RBUTTONDOWN: case WM_LBUTTONUP: case WM_MBUTTONUP: case WM_RBUTTONUP: case WM_NCMOUSEMOVE: case SAL_MSG_MOUSELEAVE: ImplSalYieldMutexAcquireWithWait(); rDef = !ImplHandleMouseMsg( hWnd, nMsg, wParam, lParam ); ImplSalYieldMutexRelease(); break; case WM_NCLBUTTONDOWN: case WM_NCMBUTTONDOWN: case WM_NCRBUTTONDOWN: ImplSalYieldMutexAcquireWithWait(); ImplCallClosePopupsHdl( hWnd ); // close popups... ImplSalYieldMutexRelease(); break; case WM_MOUSEACTIVATE: if ( LOWORD( lParam ) == HTCLIENT ) { ImplSalYieldMutexAcquireWithWait(); nRet = LRESULT(ImplHandleMouseActivateMsg( hWnd )); ImplSalYieldMutexRelease(); if ( nRet ) { nRet = MA_NOACTIVATE; rDef = false; } } break; case WM_KEYDOWN: case WM_KEYUP: case WM_DEADCHAR: case WM_CHAR: case WM_UNICHAR: // MCD, 2003-01-13, Support for WM_UNICHAR & Keyman 6.0 case WM_SYSKEYDOWN: case WM_SYSKEYUP: case WM_SYSCHAR: ImplSalYieldMutexAcquireWithWait(); rDef = !ImplHandleKeyMsg( hWnd, nMsg, wParam, lParam, nRet ); ImplSalYieldMutexRelease(); break; case WM_MOUSEWHEEL: case WM_MOUSEHWHEEL: // protect against recursion, in case the message is returned // by IE or the external window if ( !bInWheelMsg ) { bInWheelMsg = true; rDef = !ImplHandleWheelMsg( hWnd, nMsg, wParam, lParam ); // If we did not process the message, re-check if here is a // connected (?) window that we have to notify. if ( rDef ) rDef = ImplSalWheelMousePos( hWnd, nMsg, wParam, lParam, nRet ); bInWheelMsg = false; } break; case WM_COMMAND: ImplSalYieldMutexAcquireWithWait(); rDef = !ImplHandleCommand( hWnd, wParam, lParam ); ImplSalYieldMutexRelease(); break; case WM_INITMENUPOPUP: ImplSalYieldMutexAcquireWithWait(); rDef = !ImplHandleMenuActivate( hWnd, wParam, lParam ); ImplSalYieldMutexRelease(); break; case WM_MENUSELECT: ImplSalYieldMutexAcquireWithWait(); rDef = !ImplHandleMenuSelect( hWnd, wParam, lParam ); ImplSalYieldMutexRelease(); break; case WM_SYSCOMMAND: ImplSalYieldMutexAcquireWithWait(); nRet = LRESULT(ImplHandleSysCommand( hWnd, wParam, lParam )); ImplSalYieldMutexRelease(); if ( nRet ) rDef = false; break; case WM_MENUCHAR: nRet = ImplMenuChar( hWnd, wParam, lParam ); if( nRet ) rDef = false; break; case WM_MEASUREITEM: nRet = ImplMeasureItem(hWnd, wParam, lParam); if( nRet ) rDef = false; break; case WM_DRAWITEM: nRet = ImplDrawItem(hWnd, wParam, lParam); if( nRet ) rDef = false; break; case WM_MOVE: case SAL_MSG_POSTMOVE: ImplHandleMoveMsg( hWnd ); rDef = false; break; case WM_SIZE: ImplHandleSizeMsg( hWnd, wParam, lParam ); rDef = false; break; case SAL_MSG_POSTCALLSIZE: ImplCallSizeHdl( hWnd ); rDef = false; break; case WM_GETMINMAXINFO: if ( ImplHandleMinMax( hWnd, lParam ) ) rDef = false; break; case WM_ERASEBKGND: nRet = 1; rDef = false; break; case WM_PAINT: ImplHandlePaintMsg( hWnd ); rDef = false; break; case SAL_MSG_POSTPAINT: ImplHandlePostPaintMsg( hWnd, reinterpret_cast(wParam) ); rDef = false; break; case SAL_MSG_FORCEPALETTE: ImplHandleForcePalette( hWnd ); rDef = false; break; case WM_QUERYNEWPALETTE: case SAL_MSG_POSTQUERYNEWPAL: nRet = ImplHandlePalette( true, hWnd, nMsg, wParam, lParam, rDef ); break; case WM_ACTIVATE: // Getting activated, we also want to set our palette. // We do this in Activate, so that other external child windows // can overwrite our palette. Thus our palette is set only once // and not recursively, as at all other places it is set only as // the background palette. if ( LOWORD( wParam ) != WA_INACTIVE ) SendMessageW( hWnd, SAL_MSG_FORCEPALETTE, 0, 0 ); break; case WM_ENABLE: // #95133# a system dialog is opened/closed, using our app window as parent { WinSalFrame* pFrame = GetWindowPtr( hWnd ); vcl::Window *pWin = nullptr; if( pFrame ) pWin = pFrame->GetWindow(); if( !wParam ) { pSVData->maAppData.mnModalMode++; ImplHideSplash(); if( pWin ) { pWin->EnableInput( false, nullptr ); pWin->IncModalCount(); // #106303# support frame based modal count } } else { ImplGetSVData()->maAppData.mnModalMode--; if( pWin ) { pWin->EnableInput( true, nullptr ); pWin->DecModalCount(); // #106303# support frame based modal count } } } break; case WM_KILLFOCUS: DestroyCaret(); [[fallthrough]]; case WM_SETFOCUS: case SAL_MSG_POSTFOCUS: ImplHandleFocusMsg( hWnd ); rDef = false; break; case WM_CLOSE: ImplHandleCloseMsg( hWnd ); rDef = false; break; case WM_QUERYENDSESSION: if( !bInQueryEnd ) { // handle queryendsession only once bInQueryEnd = true; nRet = LRESULT(!ImplHandleShutDownMsg( hWnd )); rDef = false; // Issue #16314#: ImplHandleShutDownMsg causes a PostMessage in case of allowing shutdown. // This posted message was never processed and cause Windows XP to hang after log off // if there are multiple sessions and the current session wasn't the first one started. // So if shutdown is allowed we assume that a post message was done and retrieve all // messages in the message queue and dispatch them before we return control to the system. if ( nRet ) { SolarMutexGuard aGuard; while ( Application::Reschedule( true ) ); } } else { ImplSalYieldMutexAcquireWithWait(); ImplSalYieldMutexRelease(); rDef = true; } break; case WM_ENDSESSION: if( !wParam ) bInQueryEnd = false; // no shutdown: allow query again nRet = FALSE; rDef = false; break; case WM_DISPLAYCHANGE: case WM_SETTINGCHANGE: case WM_DEVMODECHANGE: case WM_FONTCHANGE: case WM_SYSCOLORCHANGE: case WM_TIMECHANGE: ImplHandleSettingsChangeMsg( hWnd, nMsg, wParam, lParam ); break; case WM_THEMECHANGED: GetSalData()->mbThemeChanged = true; break; case SAL_MSG_USEREVENT: ImplHandleUserEvent( hWnd, lParam ); rDef = false; break; case SAL_MSG_CAPTUREMOUSE: SetCapture( hWnd ); rDef = false; break; case SAL_MSG_RELEASEMOUSE: if ( ::GetCapture() == hWnd ) ReleaseCapture(); rDef = false; break; case SAL_MSG_TOTOP: ImplSalToTop( hWnd, static_cast(wParam) ); rDef = false; break; case SAL_MSG_SHOW: ImplSalShow( hWnd, static_cast(wParam), static_cast(lParam) ); rDef = false; break; case SAL_MSG_SETINPUTCONTEXT: ImplSalFrameSetInputContext( hWnd, reinterpret_cast(lParam) ); rDef = false; break; case SAL_MSG_ENDEXTTEXTINPUT: ImplSalFrameEndExtTextInput( hWnd, static_cast(wParam) ); rDef = false; break; case WM_INPUTLANGCHANGE: ImplHandleInputLangChange( hWnd, wParam, lParam ); break; case WM_IME_CHAR: // #103487#, some IMEs (eg, those that do not work onspot) // may send WM_IME_CHAR instead of WM_IME_COMPOSITION // we just handle it like a WM_CHAR message - seems to work fine ImplSalYieldMutexAcquireWithWait(); rDef = !ImplHandleKeyMsg( hWnd, WM_CHAR, wParam, lParam, nRet ); ImplSalYieldMutexRelease(); break; case WM_IME_STARTCOMPOSITION: rDef = ImplHandleIMEStartComposition( hWnd ); break; case WM_IME_COMPOSITION: rDef = ImplHandleIMEComposition( hWnd, lParam ); break; case WM_IME_ENDCOMPOSITION: rDef = ImplHandleIMEEndComposition( hWnd ); break; case WM_IME_NOTIFY: ImplHandleIMENotify( hWnd, wParam ); break; case WM_GETOBJECT: ImplSalYieldMutexAcquireWithWait(); if ( ImplHandleGetObject( hWnd, lParam, wParam, nRet ) ) { rDef = false; } ImplSalYieldMutexRelease(); break; case WM_APPCOMMAND: if( ImplHandleAppCommand( hWnd, lParam, nRet ) ) { rDef = false; } break; case WM_IME_REQUEST: if ( static_cast(wParam) == IMR_RECONVERTSTRING ) { nRet = ImplHandleIMEReconvertString( hWnd, lParam ); rDef = false; } else if( static_cast(wParam) == IMR_CONFIRMRECONVERTSTRING ) { nRet = ImplHandleIMEConfirmReconvertString( hWnd, lParam ); rDef = false; } else if ( static_cast(wParam) == IMR_QUERYCHARPOSITION ) { if ( ImplSalYieldMutexTryToAcquire() ) { nRet = ImplHandleIMEQueryCharPosition( hWnd, lParam ); ImplSalYieldMutexRelease(); } else nRet = FALSE; rDef = false; } break; } return nRet; } LRESULT CALLBACK SalFrameWndProcW( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam ) { bool bDef = true; LRESULT nRet = 0; __try { nRet = SalFrameWndProc( hWnd, nMsg, wParam, lParam, bDef ); } __except(WinSalInstance::WorkaroundExceptionHandlingInUSER32Lib(GetExceptionCode(), GetExceptionInformation())) { } if ( bDef ) nRet = DefWindowProcW( hWnd, nMsg, wParam, lParam ); return nRet; } bool ImplHandleGlobalMsg( HWND hWnd, UINT nMsg, WPARAM wParam, LPARAM lParam, LRESULT& rlResult ) { // handle all messages concerning all frames so they get processed only once // Must work for Unicode and none Unicode bool bResult = false; if ( (nMsg == WM_PALETTECHANGED) || (nMsg == SAL_MSG_POSTPALCHANGED) ) { bResult = true; rlResult = ImplHandlePalette( false, hWnd, nMsg, wParam, lParam, bResult ); } else if( nMsg == WM_DISPLAYCHANGE ) { WinSalSystem* pSys = static_cast(ImplGetSalSystem()); if( pSys ) pSys->clearMonitors(); bResult = (pSys != nullptr); } return bResult; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */