/* -*- 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 using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; class SystemWindow::ImplData { public: ImplData(); ~ImplData(); TaskPaneList* mpTaskPaneList; Size maMaxOutSize; OUString maRepresentedURL; Link maCloseHdl; }; SystemWindow::ImplData::ImplData() { mpTaskPaneList = NULL; maMaxOutSize = Size( SHRT_MAX, SHRT_MAX ); } SystemWindow::ImplData::~ImplData() { delete mpTaskPaneList; } void SystemWindow::Init() { mpImplData = new ImplData; mpWindowImpl->mbSysWin = true; mpWindowImpl->mnActivateMode = ActivateModeFlags::GrabFocus; mpMenuBar = NULL; mbPinned = false; mbRollUp = false; mbRollFunc = false; mbDockBtn = false; mbHideBtn = false; mbSysChild = false; mbIsCalculatingInitialLayoutSize = false; mbInitialLayoutDone = false; mnMenuBarMode = MenuBarMode::Normal; mnIcon = 0; mpDialogParent = NULL; //To-Do, reuse maResizeTimer maLayoutIdle.SetPriority(SchedulerPriority::RESIZE); maLayoutIdle.SetIdleHdl( LINK( this, SystemWindow, ImplHandleLayoutTimerHdl ) ); } SystemWindow::SystemWindow(WindowType nType) : Window(nType) , mbIsDefferedInit(false) { Init(); } void SystemWindow::loadUI(vcl::Window* pParent, const OString& rID, const OUString& rUIXMLDescription, const css::uno::Reference &rFrame) { mbIsDefferedInit = true; mpDialogParent = pParent; //should be unset in doDeferredInit m_pUIBuilder = new VclBuilder(this, getUIRootDir(), rUIXMLDescription, rID, rFrame); } SystemWindow::~SystemWindow() { disposeOnce(); } void SystemWindow::dispose() { maLayoutIdle.Stop(); delete mpImplData; mpImplData = NULL; // Hack to make sure code called from base ~Window does not interpret this // as a SystemWindow (which it no longer is by then): mpWindowImpl->mbSysWin = false; disposeBuilder(); mpDialogParent.clear(); Window::dispose(); } bool SystemWindow::Notify( NotifyEvent& rNEvt ) { // capture KeyEvents for menu handling if (rNEvt.GetType() == MouseNotifyEvent::KEYINPUT || rNEvt.GetType() == MouseNotifyEvent::COMMAND) { MenuBar* pMBar = mpMenuBar; if ( !pMBar && ( GetType() == WINDOW_FLOATINGWINDOW ) ) { vcl::Window* pWin = ImplGetFrameWindow()->ImplGetWindow(); if( pWin && pWin->IsSystemWindow() ) pMBar = static_cast(pWin)->GetMenuBar(); } bool bDone(false); if (pMBar) { if (rNEvt.GetType() == MouseNotifyEvent::COMMAND) bDone = pMBar->ImplHandleCmdEvent(*rNEvt.GetCommandEvent()); else bDone = pMBar->ImplHandleKeyEvent(*rNEvt.GetKeyEvent(), false); } if (bDone) return true; } return Window::Notify( rNEvt ); } bool SystemWindow::PreNotify( NotifyEvent& rNEvt ) { // capture KeyEvents for taskpane cycling if ( rNEvt.GetType() == MouseNotifyEvent::KEYINPUT ) { if( rNEvt.GetKeyEvent()->GetKeyCode().GetCode() == KEY_F6 && rNEvt.GetKeyEvent()->GetKeyCode().IsMod1() && !rNEvt.GetKeyEvent()->GetKeyCode().IsShift() ) { // Ctrl-F6 goes directly to the document GrabFocusToDocument(); return true; } else { TaskPaneList *pTList = mpImplData->mpTaskPaneList; if( !pTList && ( GetType() == WINDOW_FLOATINGWINDOW ) ) { vcl::Window* pWin = ImplGetFrameWindow()->ImplGetWindow(); if( pWin && pWin->IsSystemWindow() ) pTList = static_cast(pWin)->mpImplData->mpTaskPaneList; } if( !pTList ) { // search topmost system window which is the one to handle dialog/toolbar cycling SystemWindow *pSysWin = this; vcl::Window *pWin = this; while( pWin ) { pWin = pWin->GetParent(); if( pWin && pWin->IsSystemWindow() ) pSysWin = static_cast(pWin); } pTList = pSysWin->mpImplData->mpTaskPaneList; } if( pTList && pTList->HandleKeyEvent( *rNEvt.GetKeyEvent() ) ) return true; } } return Window::PreNotify( rNEvt ); } TaskPaneList* SystemWindow::GetTaskPaneList() { if( !mpImplData ) return NULL; if( mpImplData->mpTaskPaneList ) return mpImplData->mpTaskPaneList ; else { mpImplData->mpTaskPaneList = new TaskPaneList(); MenuBar* pMBar = mpMenuBar; if ( !pMBar && ( GetType() == WINDOW_FLOATINGWINDOW ) ) { vcl::Window* pWin = ImplGetFrameWindow()->ImplGetWindow(); if ( pWin && pWin->IsSystemWindow() ) pMBar = static_cast(pWin)->GetMenuBar(); } if( pMBar ) mpImplData->mpTaskPaneList->AddWindow( pMBar->ImplGetWindow() ); return mpImplData->mpTaskPaneList; } } bool SystemWindow::Close() { ImplDelData aDelData; ImplAddDel( &aDelData ); CallEventListeners( VCLEVENT_WINDOW_CLOSE ); if ( aDelData.IsDead() ) return false; ImplRemoveDel( &aDelData ); if ( mpWindowImpl->mxWindowPeer.is() && IsCreatedWithToolkit() ) return false; // Is Window not closeable, ignore close vcl::Window* pBorderWin = ImplGetBorderWindow(); WinBits nStyle; if ( pBorderWin ) nStyle = pBorderWin->GetStyle(); else nStyle = GetStyle(); if ( !(nStyle & WB_CLOSEABLE) ) return false; Hide(); return true; } void SystemWindow::TitleButtonClick( TitleButton ) { } void SystemWindow::Pin() { } void SystemWindow::Roll() { } void SystemWindow::Resizing( Size& ) { } void SystemWindow::SetRepresentedURL( const OUString& i_rURL ) { bool bChanged = (i_rURL != mpImplData->maRepresentedURL); mpImplData->maRepresentedURL = i_rURL; if ( !mbSysChild && bChanged ) { const vcl::Window* pWindow = this; while ( pWindow->mpWindowImpl->mpBorderWindow ) pWindow = pWindow->mpWindowImpl->mpBorderWindow; if ( pWindow->mpWindowImpl->mbFrame ) pWindow->mpWindowImpl->mpFrame->SetRepresentedURL( i_rURL ); } } void SystemWindow::SetIcon( sal_uInt16 nIcon ) { if ( mnIcon == nIcon ) return; mnIcon = nIcon; if ( !mbSysChild ) { const vcl::Window* pWindow = this; while ( pWindow->mpWindowImpl->mpBorderWindow ) pWindow = pWindow->mpWindowImpl->mpBorderWindow; if ( pWindow->mpWindowImpl->mbFrame ) pWindow->mpWindowImpl->mpFrame->SetIcon( nIcon ); } } void SystemWindow::EnableSaveBackground(bool bSave) { if( ImplGetSVData()->maWinData.mbNoSaveBackground ) bSave = false; vcl::Window* pWindow = this; while (pWindow->mpWindowImpl->mpBorderWindow) pWindow = pWindow->mpWindowImpl->mpBorderWindow; if (pWindow->mpWindowImpl->mbOverlapWin && !pWindow->mpWindowImpl->mbFrame) { pWindow->mpWindowImpl->mpOverlapData->mbSaveBack = bSave; if (!bSave) pWindow->ImplDeleteOverlapBackground(); } } bool SystemWindow::IsSaveBackgroundEnabled() const { const vcl::Window* pWindow = this; while ( pWindow->mpWindowImpl->mpBorderWindow ) pWindow = pWindow->mpWindowImpl->mpBorderWindow; if ( pWindow->mpWindowImpl->mpOverlapData ) return pWindow->mpWindowImpl->mpOverlapData->mbSaveBack; else return false; } void SystemWindow::ShowTitleButton( TitleButton nButton, bool bVisible ) { if ( nButton == TitleButton::Docking ) { if ( mbDockBtn != bVisible ) { mbDockBtn = bVisible; if ( mpWindowImpl->mpBorderWindow ) static_cast(mpWindowImpl->mpBorderWindow.get())->SetDockButton( bVisible ); } } else if ( nButton == TitleButton::Hide ) { if ( mbHideBtn != bVisible ) { mbHideBtn = bVisible; if ( mpWindowImpl->mpBorderWindow ) static_cast(mpWindowImpl->mpBorderWindow.get())->SetHideButton( bVisible ); } } else if ( nButton == TitleButton::Menu ) { if ( mpWindowImpl->mpBorderWindow ) static_cast(mpWindowImpl->mpBorderWindow.get())->SetMenuButton( bVisible ); } else return; } bool SystemWindow::IsTitleButtonVisible( TitleButton nButton ) const { if ( nButton == TitleButton::Docking ) return mbDockBtn; else /* if ( nButton == TitleButton::Hide ) */ return mbHideBtn; } void SystemWindow::SetPin( bool bPin ) { if ( bPin != mbPinned ) { mbPinned = bPin; if ( mpWindowImpl->mpBorderWindow ) static_cast(mpWindowImpl->mpBorderWindow.get())->SetPin( bPin ); } } void SystemWindow::RollUp() { if ( !mbRollUp ) { maOrgSize = GetOutputSizePixel(); mbRollFunc = true; Size aSize = maRollUpOutSize; if ( !aSize.Width() ) aSize.Width() = GetOutputSizePixel().Width(); mbRollUp = true; if ( mpWindowImpl->mpBorderWindow ) static_cast(mpWindowImpl->mpBorderWindow.get())->SetRollUp( true, aSize ); else SetOutputSizePixel( aSize ); mbRollFunc = false; } } void SystemWindow::RollDown() { if ( mbRollUp ) { mbRollUp = false; if ( mpWindowImpl->mpBorderWindow ) static_cast(mpWindowImpl->mpBorderWindow.get())->SetRollUp( false, maOrgSize ); else SetOutputSizePixel( maOrgSize ); } } void SystemWindow::SetMinOutputSizePixel( const Size& rSize ) { maMinOutSize = rSize; if ( mpWindowImpl->mpBorderWindow ) { static_cast(mpWindowImpl->mpBorderWindow.get())->SetMinOutputSize( rSize.Width(), rSize.Height() ); if ( mpWindowImpl->mpBorderWindow->mpWindowImpl->mbFrame ) mpWindowImpl->mpBorderWindow->mpWindowImpl->mpFrame->SetMinClientSize( rSize.Width(), rSize.Height() ); } else if ( mpWindowImpl->mbFrame ) mpWindowImpl->mpFrame->SetMinClientSize( rSize.Width(), rSize.Height() ); } void SystemWindow::SetMaxOutputSizePixel( const Size& rSize ) { Size aSize( rSize ); if( aSize.Width() > SHRT_MAX || aSize.Width() <= 0 ) aSize.Width() = SHRT_MAX; if( aSize.Height() > SHRT_MAX || aSize.Height() <= 0 ) aSize.Height() = SHRT_MAX; mpImplData->maMaxOutSize = aSize; if ( mpWindowImpl->mpBorderWindow ) { static_cast(mpWindowImpl->mpBorderWindow.get())->SetMaxOutputSize( aSize.Width(), aSize.Height() ); if ( mpWindowImpl->mpBorderWindow->mpWindowImpl->mbFrame ) mpWindowImpl->mpBorderWindow->mpWindowImpl->mpFrame->SetMaxClientSize( aSize.Width(), aSize.Height() ); } else if ( mpWindowImpl->mbFrame ) mpWindowImpl->mpFrame->SetMaxClientSize( aSize.Width(), aSize.Height() ); } const Size& SystemWindow::GetMaxOutputSizePixel() const { return mpImplData->maMaxOutSize; } static void ImplWindowStateFromStr(WindowStateData& rData, const OString& rStr) { sal_uInt32 nValidMask = 0; sal_Int32 nIndex = 0; OString aTokenStr; aTokenStr = rStr.getToken(0, ',', nIndex); if (!aTokenStr.isEmpty()) { rData.SetX(aTokenStr.toInt32()); if( rData.GetX() > -16384 && rData.GetX() < 16384 ) nValidMask |= WINDOWSTATE_MASK_X; else rData.SetX( 0 ); } else rData.SetX( 0 ); aTokenStr = rStr.getToken(0, ',', nIndex); if (!aTokenStr.isEmpty()) { rData.SetY(aTokenStr.toInt32()); if( rData.GetY() > -16384 && rData.GetY() < 16384 ) nValidMask |= WINDOWSTATE_MASK_Y; else rData.SetY( 0 ); } else rData.SetY( 0 ); aTokenStr = rStr.getToken(0, ',', nIndex); if (!aTokenStr.isEmpty()) { rData.SetWidth(aTokenStr.toInt32()); if( rData.GetWidth() > 0 && rData.GetWidth() < 16384 ) nValidMask |= WINDOWSTATE_MASK_WIDTH; else rData.SetWidth( 0 ); } else rData.SetWidth( 0 ); aTokenStr = rStr.getToken(0, ';', nIndex); if (!aTokenStr.isEmpty()) { rData.SetHeight(aTokenStr.toInt32()); if( rData.GetHeight() > 0 && rData.GetHeight() < 16384 ) nValidMask |= WINDOWSTATE_MASK_HEIGHT; else rData.SetHeight( 0 ); } else rData.SetHeight( 0 ); aTokenStr = rStr.getToken(0, ';', nIndex); if (!aTokenStr.isEmpty()) { // #94144# allow Minimize again, should be masked out when read from configuration // 91625 - ignore Minimize sal_uInt32 nState = (sal_uInt32)aTokenStr.toInt32(); //nState &= ~(WINDOWSTATE_STATE_MINIMIZED); rData.SetState( nState ); nValidMask |= WINDOWSTATE_MASK_STATE; } else rData.SetState( 0 ); // read maximized pos/size aTokenStr = rStr.getToken(0, ',', nIndex); if (!aTokenStr.isEmpty()) { rData.SetMaximizedX(aTokenStr.toInt32()); if( rData.GetMaximizedX() > -16384 && rData.GetMaximizedX() < 16384 ) nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_X; else rData.SetMaximizedX( 0 ); } else rData.SetMaximizedX( 0 ); aTokenStr = rStr.getToken(0, ',', nIndex); if (!aTokenStr.isEmpty()) { rData.SetMaximizedY(aTokenStr.toInt32()); if( rData.GetMaximizedY() > -16384 && rData.GetMaximizedY() < 16384 ) nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_Y; else rData.SetMaximizedY( 0 ); } else rData.SetMaximizedY( 0 ); aTokenStr = rStr.getToken(0, ',', nIndex); if (!aTokenStr.isEmpty()) { rData.SetMaximizedWidth(aTokenStr.toInt32()); if( rData.GetMaximizedWidth() > 0 && rData.GetMaximizedWidth() < 16384 ) nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_WIDTH; else rData.SetMaximizedWidth( 0 ); } else rData.SetMaximizedWidth( 0 ); aTokenStr = rStr.getToken(0, ';', nIndex); if (!aTokenStr.isEmpty()) { rData.SetMaximizedHeight(aTokenStr.toInt32()); if( rData.GetMaximizedHeight() > 0 && rData.GetMaximizedHeight() < 16384 ) nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_HEIGHT; else rData.SetMaximizedHeight( 0 ); } else rData.SetMaximizedHeight( 0 ); // mark valid fields rData.SetMask( nValidMask ); } static OString ImplWindowStateToStr(const WindowStateData& rData) { const sal_uInt32 nValidMask = rData.GetMask(); if ( !nValidMask ) return OString(); OStringBuffer rStrBuf; if ( nValidMask & WINDOWSTATE_MASK_X ) rStrBuf.append(static_cast(rData.GetX())); rStrBuf.append(','); if ( nValidMask & WINDOWSTATE_MASK_Y ) rStrBuf.append(static_cast(rData.GetY())); rStrBuf.append(','); if ( nValidMask & WINDOWSTATE_MASK_WIDTH ) rStrBuf.append(static_cast(rData.GetWidth())); rStrBuf.append(','); if ( nValidMask & WINDOWSTATE_MASK_HEIGHT ) rStrBuf.append(static_cast(rData.GetHeight())); rStrBuf.append( ';' ); if ( nValidMask & WINDOWSTATE_MASK_STATE ) { // #94144# allow Minimize again, should be masked out when read from configuration // 91625 - ignore Minimize sal_uInt32 nState = rData.GetState(); rStrBuf.append(static_cast(nState)); } rStrBuf.append(';'); if ( nValidMask & WINDOWSTATE_MASK_MAXIMIZED_X ) rStrBuf.append(static_cast(rData.GetMaximizedX())); rStrBuf.append(','); if ( nValidMask & WINDOWSTATE_MASK_MAXIMIZED_Y ) rStrBuf.append(static_cast(rData.GetMaximizedY())); rStrBuf.append( ',' ); if ( nValidMask & WINDOWSTATE_MASK_MAXIMIZED_WIDTH ) rStrBuf.append(static_cast(rData.GetMaximizedWidth())); rStrBuf.append(','); if ( nValidMask & WINDOWSTATE_MASK_MAXIMIZED_HEIGHT ) rStrBuf.append(static_cast(rData.GetMaximizedHeight())); rStrBuf.append(';'); return rStrBuf.makeStringAndClear(); } void SystemWindow::ImplMoveToScreen( long& io_rX, long& io_rY, long i_nWidth, long i_nHeight, vcl::Window* i_pConfigureWin ) { Rectangle aScreenRect; if( !Application::IsUnifiedDisplay() ) aScreenRect = Application::GetScreenPosSizePixel( GetScreenNumber() ); else { aScreenRect = Application::GetScreenPosSizePixel( 0 ); for( unsigned int i = 1; i < Application::GetScreenCount(); i++ ) aScreenRect.Union( Application::GetScreenPosSizePixel( i ) ); } // unfortunately most of the time width and height are not really known if( i_nWidth < 1 ) i_nWidth = 50; if( i_nHeight < 1 ) i_nHeight = 50; // check left border bool bMove = false; if( io_rX + i_nWidth < aScreenRect.Left() ) { bMove = true; io_rX = aScreenRect.Left(); } // check right border if( io_rX > aScreenRect.Right() - i_nWidth ) { bMove = true; io_rX = aScreenRect.Right() - i_nWidth; } // check top border if( io_rY + i_nHeight < aScreenRect.Top() ) { bMove = true; io_rY = aScreenRect.Top(); } // check bottom border if( io_rY > aScreenRect.Bottom() - i_nHeight ) { bMove = true; io_rY = aScreenRect.Bottom() - i_nHeight; } vcl::Window* pParent = i_pConfigureWin->GetParent(); if( bMove && pParent ) { // calculate absolute screen pos here, since that is what is contained in WindowState Point aParentAbsPos( pParent->OutputToAbsoluteScreenPixel( Point(0,0) ) ); Size aParentSizePixel( pParent->GetOutputSizePixel() ); Point aPos( (aParentSizePixel.Width() - i_nWidth) / 2, (aParentSizePixel.Height() - i_nHeight) / 2 ); io_rX = aParentAbsPos.X() + aPos.X(); io_rY = aParentAbsPos.Y() + aPos.Y(); } } void SystemWindow::SetWindowStateData( const WindowStateData& rData ) { const sal_uInt32 nValidMask = rData.GetMask(); if ( !nValidMask ) return; if ( mbSysChild ) return; vcl::Window* pWindow = this; while ( pWindow->mpWindowImpl->mpBorderWindow ) pWindow = pWindow->mpWindowImpl->mpBorderWindow; if ( pWindow->mpWindowImpl->mbFrame ) { const sal_uInt32 nState = rData.GetState(); SalFrameState aState; aState.mnMask = rData.GetMask(); aState.mnX = rData.GetX(); aState.mnY = rData.GetY(); aState.mnWidth = rData.GetWidth(); aState.mnHeight = rData.GetHeight(); if( rData.GetMask() & (WINDOWSTATE_MASK_WIDTH|WINDOWSTATE_MASK_HEIGHT) ) { // #i43799# adjust window state sizes if a minimal output size was set // otherwise the frame and the client might get different sizes if( maMinOutSize.Width() > aState.mnWidth ) aState.mnWidth = maMinOutSize.Width(); if( maMinOutSize.Height() > aState.mnHeight ) aState.mnHeight = maMinOutSize.Height(); } aState.mnMaximizedX = rData.GetMaximizedX(); aState.mnMaximizedY = rData.GetMaximizedY(); aState.mnMaximizedWidth = rData.GetMaximizedWidth(); aState.mnMaximizedHeight = rData.GetMaximizedHeight(); // #94144# allow Minimize again, should be masked out when read from configuration // 91625 - ignore Minimize //nState &= ~(WINDOWSTATE_STATE_MINIMIZED); aState.mnState = nState & WINDOWSTATE_STATE_SYSTEMMASK; // normalize window positions onto screen ImplMoveToScreen( aState.mnX, aState.mnY, aState.mnWidth, aState.mnHeight, pWindow ); ImplMoveToScreen( aState.mnMaximizedX, aState.mnMaximizedY, aState.mnMaximizedWidth, aState.mnMaximizedHeight, pWindow ); // #96568# avoid having multiple frames at the same screen location // do the check only if not maximized if( !((rData.GetMask() & WINDOWSTATE_MASK_STATE) && (nState & WINDOWSTATE_STATE_MAXIMIZED)) ) if( rData.GetMask() & (WINDOWSTATE_MASK_POS|WINDOWSTATE_MASK_WIDTH|WINDOWSTATE_MASK_HEIGHT) ) { Rectangle aDesktop = GetDesktopRectPixel(); ImplSVData *pSVData = ImplGetSVData(); vcl::Window *pWin = pSVData->maWinData.mpFirstFrame; bool bWrapped = false; while( pWin ) { if( !pWin->ImplIsRealParentPath( this ) && ( pWin != this ) && pWin->ImplGetWindow()->IsTopWindow() && pWin->mpWindowImpl->mbReallyVisible ) { SalFrameGeometry g = pWin->mpWindowImpl->mpFrame->GetGeometry(); if( std::abs(g.nX-aState.mnX) < 2 && std::abs(g.nY-aState.mnY) < 5 ) { long displacement = g.nTopDecoration ? g.nTopDecoration : 20; if( (unsigned long) (aState.mnX + displacement + aState.mnWidth + g.nRightDecoration) > (unsigned long) aDesktop.Right() || (unsigned long) (aState.mnY + displacement + aState.mnHeight + g.nBottomDecoration) > (unsigned long) aDesktop.Bottom() ) { // displacing would leave screen aState.mnX = g.nLeftDecoration ? g.nLeftDecoration : 10; // should result in (0,0) aState.mnY = displacement; if( bWrapped || (unsigned long) (aState.mnX + displacement + aState.mnWidth + g.nRightDecoration) > (unsigned long) aDesktop.Right() || (unsigned long) (aState.mnY + displacement + aState.mnHeight + g.nBottomDecoration) > (unsigned long) aDesktop.Bottom() ) break; // further displacement not possible -> break // avoid endless testing bWrapped = true; } else { // displace aState.mnX += displacement; aState.mnY += displacement; } pWin = pSVData->maWinData.mpFirstFrame; // check new pos again } } pWin = pWin->mpWindowImpl->mpFrameData->mpNextFrame; } } mpWindowImpl->mpFrame->SetWindowState( &aState ); // do a synchronous resize for layout reasons // but use rData only when the window is not to be maximized (#i38089#) // otherwise we have no useful size information if( (rData.GetMask() & WINDOWSTATE_MASK_STATE) && (nState & WINDOWSTATE_STATE_MAXIMIZED) ) { // query maximized size from frame SalFrameGeometry aGeometry = mpWindowImpl->mpFrame->GetGeometry(); // but use it only if it is different from the restore size (rData) // as currently only on windows the exact size of a maximized window // can be computed without actually showing the window if( aGeometry.nWidth != rData.GetWidth() || aGeometry.nHeight != rData.GetHeight() ) ImplHandleResize( pWindow, aGeometry.nWidth, aGeometry.nHeight ); } else if( rData.GetMask() & (WINDOWSTATE_MASK_WIDTH|WINDOWSTATE_MASK_HEIGHT) ) ImplHandleResize( pWindow, aState.mnWidth, aState.mnHeight ); // #i43799# use aState and not rData, see above } else { PosSizeFlags nPosSize = PosSizeFlags::NONE; if ( nValidMask & WINDOWSTATE_MASK_X ) nPosSize |= PosSizeFlags::X; if ( nValidMask & WINDOWSTATE_MASK_Y ) nPosSize |= PosSizeFlags::Y; if ( nValidMask & WINDOWSTATE_MASK_WIDTH ) nPosSize |= PosSizeFlags::Width; if ( nValidMask & WINDOWSTATE_MASK_HEIGHT ) nPosSize |= PosSizeFlags::Height; if( IsRollUp() ) RollDown(); long nX = rData.GetX(); long nY = rData.GetY(); long nWidth = rData.GetWidth(); long nHeight = rData.GetHeight(); const SalFrameGeometry& rGeom = pWindow->mpWindowImpl->mpFrame->GetGeometry(); if( nX < 0 ) nX = 0; if( nX + nWidth > (long) rGeom.nWidth ) nX = rGeom.nWidth - nWidth; if( nY < 0 ) nY = 0; if( nY + nHeight > (long) rGeom.nHeight ) nY = rGeom.nHeight - nHeight; setPosSizePixel( nX, nY, nWidth, nHeight, nPosSize ); maOrgSize = Size( nWidth, nHeight ); // 91625 - ignore Minimize if ( nValidMask & WINDOWSTATE_MASK_STATE ) { const sal_uInt32 nState = rData.GetState(); if ( nState & WINDOWSTATE_STATE_ROLLUP ) RollUp(); else RollDown(); } } } void SystemWindow::GetWindowStateData( WindowStateData& rData ) const { sal_uInt32 nValidMask = rData.GetMask(); if ( !nValidMask ) return; if ( mbSysChild ) return; const vcl::Window* pWindow = this; while ( pWindow->mpWindowImpl->mpBorderWindow ) pWindow = pWindow->mpWindowImpl->mpBorderWindow; if ( pWindow->mpWindowImpl->mbFrame ) { SalFrameState aState; aState.mnMask = 0xFFFFFFFF; if ( mpWindowImpl->mpFrame->GetWindowState( &aState ) ) { if ( nValidMask & WINDOWSTATE_MASK_X ) rData.SetX( aState.mnX ); if ( nValidMask & WINDOWSTATE_MASK_Y ) rData.SetY( aState.mnY ); if ( nValidMask & WINDOWSTATE_MASK_WIDTH ) rData.SetWidth( aState.mnWidth ); if ( nValidMask & WINDOWSTATE_MASK_HEIGHT ) rData.SetHeight( aState.mnHeight ); if ( aState.mnMask & WINDOWSTATE_MASK_MAXIMIZED_X ) { rData.SetMaximizedX( aState.mnMaximizedX ); nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_X; } if ( aState.mnMask & WINDOWSTATE_MASK_MAXIMIZED_Y ) { rData.SetMaximizedY( aState.mnMaximizedY ); nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_Y; } if ( aState.mnMask & WINDOWSTATE_MASK_MAXIMIZED_WIDTH ) { rData.SetMaximizedWidth( aState.mnMaximizedWidth ); nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_WIDTH; } if ( aState.mnMask & WINDOWSTATE_MASK_MAXIMIZED_HEIGHT ) { rData.SetMaximizedHeight( aState.mnMaximizedHeight ); nValidMask |= WINDOWSTATE_MASK_MAXIMIZED_HEIGHT; } if ( nValidMask & WINDOWSTATE_MASK_STATE ) { // #94144# allow Minimize again, should be masked out when read from configuration // 91625 - ignore Minimize if ( !(nValidMask&WINDOWSTATE_MASK_MINIMIZED) ) aState.mnState &= ~(WINDOWSTATE_STATE_MINIMIZED); rData.SetState( aState.mnState ); } rData.SetMask( nValidMask ); } else rData.SetMask( 0 ); } else { Point aPos = GetPosPixel(); Size aSize = GetSizePixel(); sal_uInt32 nState = 0; if ( IsRollUp() ) { aSize.Height() += maOrgSize.Height(); nState = WINDOWSTATE_STATE_ROLLUP; } if ( nValidMask & WINDOWSTATE_MASK_X ) rData.SetX( aPos.X() ); if ( nValidMask & WINDOWSTATE_MASK_Y ) rData.SetY( aPos.Y() ); if ( nValidMask & WINDOWSTATE_MASK_WIDTH ) rData.SetWidth( aSize.Width() ); if ( nValidMask & WINDOWSTATE_MASK_HEIGHT ) rData.SetHeight( aSize.Height() ); if ( nValidMask & WINDOWSTATE_MASK_STATE ) rData.SetState( nState ); } } void SystemWindow::SetWindowState(const OString& rStr) { if (rStr.isEmpty()) return; WindowStateData aData; ImplWindowStateFromStr( aData, rStr ); SetWindowStateData( aData ); } OString SystemWindow::GetWindowState( sal_uInt32 nMask ) const { WindowStateData aData; aData.SetMask( nMask ); GetWindowStateData( aData ); return ImplWindowStateToStr(aData); } void SystemWindow::SetMenuBar(MenuBar* pMenuBar) { if ( mpMenuBar != pMenuBar ) { MenuBar* pOldMenuBar = mpMenuBar; vcl::Window* pOldWindow = NULL; vcl::Window* pNewWindow=NULL; mpMenuBar = pMenuBar; if ( mpWindowImpl->mpBorderWindow && (mpWindowImpl->mpBorderWindow->GetType() == WINDOW_BORDERWINDOW) ) { if ( pOldMenuBar ) pOldWindow = pOldMenuBar->ImplGetWindow(); else pOldWindow = NULL; if ( pOldWindow ) { CallEventListeners( VCLEVENT_WINDOW_MENUBARREMOVED, static_cast(pOldMenuBar) ); pOldWindow->SetAccessible( ::com::sun::star::uno::Reference< ::com::sun::star::accessibility::XAccessible >() ); } if ( pMenuBar ) { DBG_ASSERT( !pMenuBar->pWindow, "SystemWindow::SetMenuBar() - MenuBars can only set in one SystemWindow at time" ); pNewWindow = MenuBar::ImplCreate(mpWindowImpl->mpBorderWindow, pOldWindow, pMenuBar); static_cast(mpWindowImpl->mpBorderWindow.get())->SetMenuBarWindow(pNewWindow); CallEventListeners( VCLEVENT_WINDOW_MENUBARADDED, static_cast(pMenuBar) ); } else static_cast(mpWindowImpl->mpBorderWindow.get())->SetMenuBarWindow( NULL ); ImplToBottomChild(); if ( pOldMenuBar ) { bool bDelete = (pMenuBar == 0); if( bDelete && pOldWindow ) { if( mpImplData->mpTaskPaneList ) mpImplData->mpTaskPaneList->RemoveWindow( pOldWindow ); } MenuBar::ImplDestroy( pOldMenuBar, bDelete ); if( bDelete ) pOldWindow = NULL; // will be deleted in MenuBar::ImplDestroy, } } else { if( pMenuBar ) pNewWindow = pMenuBar->ImplGetWindow(); if( pOldMenuBar ) pOldWindow = pOldMenuBar->ImplGetWindow(); } // update taskpane list to make menubar accessible if( mpImplData->mpTaskPaneList ) { if( pOldWindow ) mpImplData->mpTaskPaneList->RemoveWindow( pOldWindow ); if( pNewWindow ) mpImplData->mpTaskPaneList->AddWindow( pNewWindow ); } } } void SystemWindow::SetMenuBarMode( MenuBarMode nMode ) { if ( mnMenuBarMode != nMode ) { mnMenuBarMode = nMode; if ( mpWindowImpl->mpBorderWindow && (mpWindowImpl->mpBorderWindow->GetType() == WINDOW_BORDERWINDOW) ) { if ( nMode == MenuBarMode::Hide ) static_cast(mpWindowImpl->mpBorderWindow.get())->SetMenuBarMode( true ); else static_cast(mpWindowImpl->mpBorderWindow.get())->SetMenuBarMode( false ); } } } bool SystemWindow::ImplIsInTaskPaneList( vcl::Window* pWin ) { if( mpImplData && mpImplData->mpTaskPaneList ) return mpImplData->mpTaskPaneList->IsInList( pWin ); return false; } unsigned int SystemWindow::GetScreenNumber() const { return mpWindowImpl->mpFrame->maGeometry.nDisplayScreenNumber; } void SystemWindow::SetScreenNumber(unsigned int nDisplayScreen) { mpWindowImpl->mpFrame->SetScreenNumber( nDisplayScreen ); } void SystemWindow::SetApplicationID(const OUString &rApplicationID) { mpWindowImpl->mpFrame->SetApplicationID( rApplicationID ); } void SystemWindow::SetCloseHdl(const Link& rLink) { mpImplData->maCloseHdl = rLink; } const Link& SystemWindow::GetCloseHdl() const { return mpImplData->maCloseHdl; } void SystemWindow::queue_resize(StateChangedType /*eReason*/) { if (hasPendingLayout() || isCalculatingInitialLayoutSize()) return; if (!isLayoutEnabled()) return; InvalidateSizeCache(); maLayoutIdle.Start(); } void SystemWindow::Resize() { queue_resize(); } bool SystemWindow::isLayoutEnabled() const { //pre dtor called, and single child is a container => we're layout enabled return mpImplData && ::isLayoutEnabled(this); } Size SystemWindow::GetOptimalSize() const { if (!isLayoutEnabled()) return Window::GetOptimalSize(); Size aSize = VclContainer::getLayoutRequisition(*GetWindow(GetWindowType::FirstChild)); sal_Int32 nBorderWidth = get_border_width(); aSize.Height() += mpWindowImpl->mnLeftBorder + mpWindowImpl->mnRightBorder + 2*nBorderWidth; aSize.Width() += mpWindowImpl->mnTopBorder + mpWindowImpl->mnBottomBorder + 2*nBorderWidth; return Window::CalcWindowSize(aSize); } void SystemWindow::setPosSizeOnContainee(Size aSize, Window &rBox) { sal_Int32 nBorderWidth = get_border_width(); aSize.Width() -= 2 * nBorderWidth; aSize.Height() -= 2 * nBorderWidth; Point aPos(nBorderWidth, nBorderWidth); VclContainer::setLayoutAllocation(rBox, aPos, aSize); } IMPL_LINK_NOARG_TYPED( SystemWindow, ImplHandleLayoutTimerHdl, Idle*, void ) { if (!isLayoutEnabled()) { SAL_WARN("vcl.layout", "SystemWindow has become non-layout because extra children have been added directly to it."); return; } Window *pBox = GetWindow(GetWindowType::FirstChild); assert(pBox); setPosSizeOnContainee(GetSizePixel(), *pBox); } void SystemWindow::SetText(const OUString& rStr) { setDeferredProperties(); Window::SetText(rStr); } OUString SystemWindow::GetText() const { const_cast(this)->setDeferredProperties(); return Window::GetText(); } void SystemWindow::settingOptimalLayoutSize(Window* /*pBox*/) { } void SystemWindow::setOptimalLayoutSize() { maLayoutIdle.Stop(); //resize SystemWindow to fit requisition on initial show Window *pBox = GetWindow(GetWindowType::FirstChild); settingOptimalLayoutSize(pBox); Size aSize = get_preferred_size(); Size aMax(bestmaxFrameSizeForScreenSize(GetDesktopRectPixel().GetSize())); aSize.Width() = std::min(aMax.Width(), aSize.Width()); aSize.Height() = std::min(aMax.Height(), aSize.Height()); SetMinOutputSizePixel(aSize); SetSizePixel(aSize); setPosSizeOnContainee(aSize, *pBox); } void SystemWindow::DoInitialLayout() { if ( GetSettings().GetStyleSettings().GetAutoMnemonic() ) ImplWindowAutoMnemonic( this ); if (isLayoutEnabled()) { mbIsCalculatingInitialLayoutSize = true; setDeferredProperties(); setOptimalLayoutSize(); mbIsCalculatingInitialLayoutSize = false; mbInitialLayoutDone = true; } } void SystemWindow::doDeferredInit(WinBits /*nBits*/) { SAL_WARN("vcl.layout", "SystemWindow in layout without doDeferredInit impl"); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */