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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_vcl.hxx" // rely on unicows on for multimon functions for older versions #if WINVER < 0x0500 #undef WINVER #define WINVER 0x0500 #endif #include "svsys.h" #include "rtl/ustrbuf.hxx" #include "tools/debug.hxx" #include "tools/string.hxx" #include "vcl/window.hxx" #include "win/salsys.h" #include "win/salframe.h" #include "win/salinst.h" #include "win/saldata.hxx" #include "svdata.hxx" #include SalSystem* WinSalInstance::CreateSalSystem() { return new WinSalSystem(); } WinSalSystem::~WinSalSystem() { } // ----------------------------------------------------------------------- static BOOL CALLBACK ImplEnumMonitorProc( HMONITOR hMonitor, HDC hDC, LPRECT lpRect, LPARAM dwData ) { WinSalSystem* pSys = reinterpret_cast(dwData); return pSys->handleMonitorCallback( reinterpret_cast(hMonitor), reinterpret_cast(hDC), reinterpret_cast(lpRect) ); } sal_Bool WinSalSystem::handleMonitorCallback( sal_IntPtr hMonitor, sal_IntPtr, sal_IntPtr ) { MONITORINFOEXW aInfo; aInfo.cbSize = sizeof( aInfo ); if( GetMonitorInfoW( reinterpret_cast(hMonitor), &aInfo ) ) { aInfo.szDevice[CCHDEVICENAME-1] = 0; rtl::OUString aDeviceName( reinterpret_cast(aInfo.szDevice) ); std::map< rtl::OUString, unsigned int >::const_iterator it = m_aDeviceNameToMonitor.find( aDeviceName ); if( it != m_aDeviceNameToMonitor.end() ) { DisplayMonitor& rMon( m_aMonitors[ it->second ] ); rMon.m_aArea = Rectangle( Point( aInfo.rcMonitor.left, aInfo.rcMonitor.top ), Size( aInfo.rcMonitor.right - aInfo.rcMonitor.left, aInfo.rcMonitor.bottom - aInfo.rcMonitor.top ) ); rMon.m_aWorkArea = Rectangle( Point( aInfo.rcWork.left, aInfo.rcWork.top ), Size( aInfo.rcWork.right - aInfo.rcWork.left, aInfo.rcWork.bottom - aInfo.rcWork.top ) ); if( (aInfo.dwFlags & MONITORINFOF_PRIMARY) != 0 ) m_nPrimary = it->second; } } return sal_True; } void WinSalSystem::clearMonitors() { m_aMonitors.clear(); m_nPrimary = 0; } bool WinSalSystem::initMonitors() { if( m_aMonitors.size() > 0 ) return true; bool winVerOk = true; // multi monitor calls not available on Win95/NT if ( aSalShlData.maVersionInfo.dwPlatformId == VER_PLATFORM_WIN32_NT ) { if ( aSalShlData.maVersionInfo.dwMajorVersion <= 4 ) winVerOk = false; // NT } else if( aSalShlData.maVersionInfo.dwPlatformId == VER_PLATFORM_WIN32_WINDOWS ) { if ( aSalShlData.maVersionInfo.dwMajorVersion == 4 && aSalShlData.maVersionInfo.dwMinorVersion == 0 ) winVerOk = false; // Win95 } if( winVerOk ) { int nMonitors = GetSystemMetrics( SM_CMONITORS ); if( nMonitors == 1 ) { int w = GetSystemMetrics( SM_CXSCREEN ); int h = GetSystemMetrics( SM_CYSCREEN ); m_aMonitors.push_back( DisplayMonitor( rtl::OUString(), rtl::OUString(), Rectangle( Point(), Size( w, h ) ), Rectangle( Point(), Size( w, h ) ), 0 ) ); m_aDeviceNameToMonitor[ rtl::OUString() ] = 0; m_nPrimary = 0; RECT aWorkRect; if( SystemParametersInfo( SPI_GETWORKAREA, 0, &aWorkRect, 0 ) ) m_aMonitors.back().m_aWorkArea = Rectangle( aWorkRect.left, aWorkRect.top, aWorkRect.right, aWorkRect.bottom ); } else { DISPLAY_DEVICEW aDev; aDev.cb = sizeof( aDev ); DWORD nDevice = 0; std::hash_map< rtl::OUString, int, rtl::OUStringHash > aDeviceStringCount; while( EnumDisplayDevicesW( NULL, nDevice++, &aDev, 0 ) ) { if( (aDev.StateFlags & DISPLAY_DEVICE_ACTIVE) && !(aDev.StateFlags & DISPLAY_DEVICE_MIRRORING_DRIVER) ) // sort out non/disabled monitors { aDev.DeviceName[31] = 0; aDev.DeviceString[127] = 0; rtl::OUString aDeviceName( reinterpret_cast(aDev.DeviceName) ); rtl::OUString aDeviceString( reinterpret_cast(aDev.DeviceString) ); if( aDeviceStringCount.find( aDeviceString ) == aDeviceStringCount.end() ) aDeviceStringCount[ aDeviceString ] = 1; else aDeviceStringCount[ aDeviceString ]++; m_aDeviceNameToMonitor[ aDeviceName ] = m_aMonitors.size(); m_aMonitors.push_back( DisplayMonitor( aDeviceString, aDeviceName, Rectangle(), Rectangle(), aDev.StateFlags ) ); } } HDC aDesktopRC = GetDC( NULL ); EnumDisplayMonitors( aDesktopRC, NULL, ImplEnumMonitorProc, reinterpret_cast(this) ); // append monitor numbers to name strings std::hash_map< rtl::OUString, int, rtl::OUStringHash > aDevCount( aDeviceStringCount ); unsigned int nMonitors = m_aMonitors.size(); for( unsigned int i = 0; i < nMonitors; i++ ) { const rtl::OUString& rDev( m_aMonitors[i].m_aName ); if( aDeviceStringCount[ rDev ] > 1 ) { int nInstance = aDeviceStringCount[ rDev ] - (-- aDevCount[ rDev ] ); rtl::OUStringBuffer aBuf( rDev.getLength() + 8 ); aBuf.append( rDev ); aBuf.appendAscii( " (" ); aBuf.append( sal_Int32( nInstance ) ); aBuf.append( sal_Unicode(')') ); m_aMonitors[ i ].m_aName = aBuf.makeStringAndClear(); } } } } else { int w = GetSystemMetrics( SM_CXSCREEN ); int h = GetSystemMetrics( SM_CYSCREEN ); m_aMonitors.push_back( DisplayMonitor( rtl::OUString(), rtl::OUString(), Rectangle( Point(), Size( w, h ) ), Rectangle( Point(), Size( w, h ) ), 0 ) ); m_aDeviceNameToMonitor[ rtl::OUString() ] = 0; m_nPrimary = 0; RECT aWorkRect; if( SystemParametersInfo( SPI_GETWORKAREA, 0, &aWorkRect, 0 ) ) m_aMonitors.back().m_aWorkArea = Rectangle( aWorkRect.left, aWorkRect.top, aWorkRect.right, aWorkRect.bottom ); } return m_aMonitors.size() > 0; } unsigned int WinSalSystem::GetDisplayScreenCount() { initMonitors(); return m_aMonitors.size(); } bool WinSalSystem::IsMultiDisplay() { return false; } unsigned int WinSalSystem::GetDefaultDisplayNumber() { initMonitors(); return m_nPrimary; } Rectangle WinSalSystem::GetDisplayScreenPosSizePixel( unsigned int nScreen ) { initMonitors(); return (nScreen < m_aMonitors.size()) ? m_aMonitors[nScreen].m_aArea : Rectangle(); } Rectangle WinSalSystem::GetDisplayWorkAreaPosSizePixel( unsigned int nScreen ) { initMonitors(); return (nScreen < m_aMonitors.size()) ? m_aMonitors[nScreen].m_aWorkArea : Rectangle(); } rtl::OUString WinSalSystem::GetScreenName( unsigned int nScreen ) { initMonitors(); return (nScreen < m_aMonitors.size()) ? m_aMonitors[nScreen].m_aName : rtl::OUString(); } // ----------------------------------------------------------------------- /* We have to map the button identifier to the identifier used by the Win32 Platform SDK to specify the default button for the MessageBox API. The first dimension is the button combination, the second dimension is the button identifier. */ static int DEFAULT_BTN_MAPPING_TABLE[][8] = { // Undefined OK CANCEL ABORT RETRY IGNORE YES NO { MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1 }, //OK { MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON2, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1 }, //OK_CANCEL { MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON2, MB_DEFBUTTON3, MB_DEFBUTTON1, MB_DEFBUTTON1 }, //ABORT_RETRY_IGNO { MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON3, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON2 }, //YES_NO_CANCEL { MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON2 }, //YES_NO { MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON2, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1, MB_DEFBUTTON1 } //RETRY_CANCEL }; int WinSalSystem::ShowNativeMessageBox(const String& rTitle, const String& rMessage, int nButtonCombination, int nDefaultButton) { DBG_ASSERT( nButtonCombination >= SALSYSTEM_SHOWNATIVEMSGBOX_BTNCOMBI_OK && nButtonCombination <= SALSYSTEM_SHOWNATIVEMSGBOX_BTNCOMBI_RETRY_CANCEL && nDefaultButton >= SALSYSTEM_SHOWNATIVEMSGBOX_BTN_OK && nDefaultButton <= SALSYSTEM_SHOWNATIVEMSGBOX_BTN_NO, "Invalid arguments!" ); int nFlags = MB_TASKMODAL | MB_SETFOREGROUND | MB_ICONWARNING | nButtonCombination; if (nButtonCombination >= SALSYSTEM_SHOWNATIVEMSGBOX_BTNCOMBI_OK && nButtonCombination <= SALSYSTEM_SHOWNATIVEMSGBOX_BTNCOMBI_RETRY_CANCEL && nDefaultButton >= SALSYSTEM_SHOWNATIVEMSGBOX_BTN_OK && nDefaultButton <= SALSYSTEM_SHOWNATIVEMSGBOX_BTN_NO) nFlags |= DEFAULT_BTN_MAPPING_TABLE[nButtonCombination][nDefaultButton]; //#107209 hide the splash screen if active ImplSVData* pSVData = ImplGetSVData(); if (pSVData->mpIntroWindow) pSVData->mpIntroWindow->Hide(); return MessageBoxW( 0, reinterpret_cast(rMessage.GetBuffer()), reinterpret_cast(rTitle.GetBuffer()), nFlags); }