/* -*- 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 "toolbarlayoutmanager.hxx" #include #include #include "helpers.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; namespace framework { ToolbarLayoutManager::ToolbarLayoutManager( const uno::Reference< uno::XComponentContext >& rxContext, const uno::Reference< ui::XUIElementFactory >& xUIElementFactory, ILayoutNotifications* pParentLayouter ): m_xContext( rxContext), m_xUIElementFactoryManager( xUIElementFactory ), m_pParentLayouter( pParentLayouter ), m_eDockOperation( DOCKOP_ON_COLROW ), m_ePreviewDetection( PREVIEWFRAME_UNKNOWN ), m_pAddonOptions( 0 ), m_pGlobalSettings( 0 ), m_bComponentAttached( false ), m_bLayoutDirty( false ), m_bStoreWindowState( false ), m_bGlobalSettings( false ), m_bDockingInProgress( false ), m_bVisible( true ), m_bLayoutInProgress( false ), m_bToolbarCreation( false ) { // initialize rectangles to zero values setZeroRectangle( m_aDockingAreaOffsets ); setZeroRectangle( m_aDockingArea ); } ToolbarLayoutManager::~ToolbarLayoutManager() { delete m_pGlobalSettings; delete m_pAddonOptions; } // XInterface void SAL_CALL ToolbarLayoutManager::acquire() throw() { OWeakObject::acquire(); } void SAL_CALL ToolbarLayoutManager::release() throw() { OWeakObject::release(); } uno::Any SAL_CALL ToolbarLayoutManager::queryInterface( const uno::Type & rType ) throw( uno::RuntimeException, std::exception ) { uno::Any a = ::cppu::queryInterface( rType, (static_cast< awt::XDockableWindowListener* >(this)), (static_cast< ui::XUIConfigurationListener* >(this)), (static_cast< awt::XWindowListener* >(this))); if ( a.hasValue() ) return a; return OWeakObject::queryInterface( rType ); } void SAL_CALL ToolbarLayoutManager::disposing( const lang::EventObject& aEvent ) throw( uno::RuntimeException, std::exception ) { if ( aEvent.Source == m_xFrame ) { // Reset all internal references reset(); implts_destroyDockingAreaWindows(); } } awt::Rectangle ToolbarLayoutManager::getDockingArea() { SolarMutexResettableGuard aWriteLock; Rectangle aNewDockingArea( m_aDockingArea ); aWriteLock.clear(); if ( isLayoutDirty() ) aNewDockingArea = implts_calcDockingArea(); aWriteLock.reset(); m_aDockingArea = aNewDockingArea; aWriteLock.clear(); return putRectangleValueToAWT(aNewDockingArea); } void ToolbarLayoutManager::setDockingArea( const awt::Rectangle& rDockingArea ) { SolarMutexGuard g; m_aDockingArea = putAWTToRectangle( rDockingArea ); m_bLayoutDirty = true; } void ToolbarLayoutManager::implts_setDockingAreaWindowSizes( const awt::Rectangle& rBorderSpace ) { SolarMutexClearableGuard aReadLock; Rectangle aDockOffsets = m_aDockingAreaOffsets; uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow ); uno::Reference< awt::XWindow > xTopDockAreaWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP] ); uno::Reference< awt::XWindow > xBottomDockAreaWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM] ); uno::Reference< awt::XWindow > xLeftDockAreaWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT] ); uno::Reference< awt::XWindow > xRightDockAreaWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_RIGHT] ); aReadLock.clear(); uno::Reference< awt::XDevice > xDevice( xContainerWindow, uno::UNO_QUERY ); // Convert relativ size to output size. awt::Rectangle aRectangle = xContainerWindow->getPosSize(); awt::DeviceInfo aInfo = xDevice->getInfo(); awt::Size aContainerClientSize = awt::Size( aRectangle.Width - aInfo.LeftInset - aInfo.RightInset , aRectangle.Height - aInfo.TopInset - aInfo.BottomInset ); long aStatusBarHeight = aDockOffsets.GetHeight(); sal_Int32 nLeftRightDockingAreaHeight( aContainerClientSize.Height ); if ( rBorderSpace.Y >= 0 ) { // Top docking area window xTopDockAreaWindow->setPosSize( 0, 0, aContainerClientSize.Width, rBorderSpace.Y, awt::PosSize::POSSIZE ); xTopDockAreaWindow->setVisible( sal_True ); nLeftRightDockingAreaHeight -= rBorderSpace.Y; } if ( rBorderSpace.Height >= 0 ) { // Bottom docking area window sal_Int32 nBottomPos = std::max( sal_Int32( aContainerClientSize.Height - rBorderSpace.Height - aStatusBarHeight + 1 ), sal_Int32( 0 )); sal_Int32 nHeight = ( nBottomPos == 0 ) ? 0 : rBorderSpace.Height; xBottomDockAreaWindow->setPosSize( 0, nBottomPos, aContainerClientSize.Width, nHeight, awt::PosSize::POSSIZE ); xBottomDockAreaWindow->setVisible( sal_True ); nLeftRightDockingAreaHeight -= nHeight - 1; } nLeftRightDockingAreaHeight -= aStatusBarHeight; if ( rBorderSpace.X >= 0 || nLeftRightDockingAreaHeight > 0 ) { // Left docking area window // We also have to change our right docking area window if the top or bottom area has changed. They have a higher priority! sal_Int32 nHeight = std::max( sal_Int32( 0 ), sal_Int32( nLeftRightDockingAreaHeight )); xLeftDockAreaWindow->setPosSize( 0, rBorderSpace.Y, rBorderSpace.X, nHeight, awt::PosSize::POSSIZE ); xLeftDockAreaWindow->setVisible( sal_True ); } if ( rBorderSpace.Width >= 0 || nLeftRightDockingAreaHeight > 0 ) { // Right docking area window // We also have to change our right docking area window if the top or bottom area has changed. They have a higher priority! sal_Int32 nLeftPos = std::max( sal_Int32( 0 ), sal_Int32( aContainerClientSize.Width - rBorderSpace.Width )); sal_Int32 nHeight = std::max( sal_Int32( 0 ), sal_Int32( nLeftRightDockingAreaHeight )); sal_Int32 nWidth = ( nLeftPos == 0 ) ? 0 : rBorderSpace.Width; xRightDockAreaWindow->setPosSize( nLeftPos, rBorderSpace.Y, nWidth, nHeight, awt::PosSize::POSSIZE ); xRightDockAreaWindow->setVisible( sal_True ); } } void ToolbarLayoutManager::doLayout(const ::Size& aContainerSize) { SolarMutexResettableGuard aWriteLock; bool bLayoutInProgress( m_bLayoutInProgress ); m_bLayoutInProgress = true; awt::Rectangle aDockingArea = putRectangleValueToAWT( m_aDockingArea ); aWriteLock.clear(); if ( bLayoutInProgress ) return; // Retrieve row/column dependent data from all docked user-interface elements for ( sal_Int32 i = 0; i < DOCKINGAREAS_COUNT; i++ ) { bool bReverse( isReverseOrderDockingArea( i )); std::vector< SingleRowColumnWindowData > aRowColumnsWindowData; implts_getDockingAreaElementInfos( (ui::DockingArea)i, aRowColumnsWindowData ); sal_Int32 nOffset( 0 ); const sal_uInt32 nCount = aRowColumnsWindowData.size(); for ( sal_uInt32 j = 0; j < nCount; ++j ) { sal_uInt32 nIndex = bReverse ? nCount-j-1 : j; implts_calcWindowPosSizeOnSingleRowColumn( i, nOffset, aRowColumnsWindowData[nIndex], aContainerSize ); nOffset += aRowColumnsWindowData[j].nStaticSize; } } implts_setDockingAreaWindowSizes( aDockingArea ); aWriteLock.reset(); m_bLayoutDirty = false; m_bLayoutInProgress = false; aWriteLock.clear(); } bool ToolbarLayoutManager::implts_isParentWindowVisible() const { SolarMutexGuard g; bool bVisible( false ); if ( m_xContainerWindow.is() ) bVisible = m_xContainerWindow->isVisible(); return bVisible; } Rectangle ToolbarLayoutManager::implts_calcDockingArea() { SolarMutexClearableGuard aReadLock; UIElementVector aWindowVector( m_aUIElements ); aReadLock.clear(); Rectangle aBorderSpace; sal_Int32 nCurrRowColumn( 0 ); sal_Int32 nCurrPos( 0 ); sal_Int32 nCurrDockingArea( ui::DockingArea_DOCKINGAREA_TOP ); std::vector< sal_Int32 > aRowColumnSizes[DOCKINGAREAS_COUNT]; UIElementVector::const_iterator pConstIter; // initialize rectangle with zero values! aBorderSpace.setWidth(0); aBorderSpace.setHeight(0); aRowColumnSizes[nCurrDockingArea].clear(); aRowColumnSizes[nCurrDockingArea].push_back( 0 ); for ( pConstIter = aWindowVector.begin(); pConstIter != aWindowVector.end(); ++pConstIter ) { uno::Reference< ui::XUIElement > xUIElement( pConstIter->m_xUIElement, uno::UNO_QUERY ); if ( xUIElement.is() ) { uno::Reference< awt::XWindow > xWindow( xUIElement->getRealInterface(), uno::UNO_QUERY ); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( xWindow.is() && xDockWindow.is() ) { SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && !xDockWindow->isFloating() && pConstIter->m_bVisible && !pConstIter->m_bMasterHide ) { awt::Rectangle aPosSize = xWindow->getPosSize(); if ( pConstIter->m_aDockedData.m_nDockedArea != nCurrDockingArea ) { nCurrDockingArea = pConstIter->m_aDockedData.m_nDockedArea; nCurrRowColumn = 0; nCurrPos = 0; aRowColumnSizes[nCurrDockingArea].clear(); aRowColumnSizes[nCurrDockingArea].push_back( 0 ); } if ( pConstIter->m_aDockedData.m_nDockedArea == nCurrDockingArea ) { if ( isHorizontalDockingArea( pConstIter->m_aDockedData.m_nDockedArea )) { if ( pConstIter->m_aDockedData.m_aPos.Y > nCurrPos ) { ++nCurrRowColumn; nCurrPos = pConstIter->m_aDockedData.m_aPos.Y; aRowColumnSizes[nCurrDockingArea].push_back( 0 ); } if ( aPosSize.Height > aRowColumnSizes[nCurrDockingArea][nCurrRowColumn] ) aRowColumnSizes[nCurrDockingArea][nCurrRowColumn] = aPosSize.Height; } else { if ( pConstIter->m_aDockedData.m_aPos.X > nCurrPos ) { ++nCurrRowColumn; nCurrPos = pConstIter->m_aDockedData.m_aPos.X; aRowColumnSizes[nCurrDockingArea].push_back( 0 ); } if ( aPosSize.Width > aRowColumnSizes[nCurrDockingArea][nCurrRowColumn] ) aRowColumnSizes[nCurrDockingArea][nCurrRowColumn] = aPosSize.Width; } } } } } } // Sum up max heights from every row/column if ( !aWindowVector.empty() ) { for ( sal_Int32 i = 0; i <= ui::DockingArea_DOCKINGAREA_RIGHT; i++ ) { sal_Int32 nSize( 0 ); const sal_uInt32 nCount = aRowColumnSizes[i].size(); for ( sal_uInt32 j = 0; j < nCount; j++ ) nSize += aRowColumnSizes[i][j]; if ( i == ui::DockingArea_DOCKINGAREA_TOP ) aBorderSpace.Top() = nSize; else if ( i == ui::DockingArea_DOCKINGAREA_BOTTOM ) aBorderSpace.Bottom() = nSize; else if ( i == ui::DockingArea_DOCKINGAREA_LEFT ) aBorderSpace.Left() = nSize; else aBorderSpace.Right() = nSize; } } return aBorderSpace; } void ToolbarLayoutManager::reset() { SolarMutexClearableGuard aWriteLock; uno::Reference< ui::XUIConfigurationManager > xModuleCfgMgr( m_xModuleCfgMgr ); uno::Reference< ui::XUIConfigurationManager > xDocCfgMgr( m_xDocCfgMgr ); m_xModuleCfgMgr.clear(); m_xDocCfgMgr.clear(); m_ePreviewDetection = PREVIEWFRAME_UNKNOWN; m_bComponentAttached = false; aWriteLock.clear(); destroyToolbars(); resetDockingArea(); } void ToolbarLayoutManager::attach( const uno::Reference< frame::XFrame >& xFrame, const uno::Reference< ui::XUIConfigurationManager >& xModuleCfgMgr, const uno::Reference< ui::XUIConfigurationManager >& xDocCfgMgr, const uno::Reference< container::XNameAccess >& xPersistentWindowState ) { // reset toolbar manager if we lose our current frame if ( m_xFrame.is() && m_xFrame != xFrame ) reset(); SolarMutexGuard g; m_xFrame = xFrame; m_xModuleCfgMgr = xModuleCfgMgr; m_xDocCfgMgr = xDocCfgMgr; m_xPersistentWindowState = xPersistentWindowState; m_bComponentAttached = true; } bool ToolbarLayoutManager::isPreviewFrame() { SolarMutexGuard g; if (m_ePreviewDetection == PREVIEWFRAME_UNKNOWN) { uno::Reference< frame::XFrame > xFrame( m_xFrame ); uno::Reference< frame::XModel > xModel( impl_getModelFromFrame( xFrame )); m_ePreviewDetection = (implts_isPreviewModel( xModel ) ? PREVIEWFRAME_YES : PREVIEWFRAME_NO); } return m_ePreviewDetection == PREVIEWFRAME_YES; } void ToolbarLayoutManager::createStaticToolbars() { resetDockingArea(); implts_createCustomToolBars(); implts_createAddonsToolBars(); implts_createNonContextSensitiveToolBars(); implts_sortUIElements(); } bool ToolbarLayoutManager::requestToolbar( const OUString& rResourceURL ) { if (isPreviewFrame()) return false; // no toolbars for preview frame! bool bNotify( false ); bool bMustCallCreate( false ); uno::Reference< ui::XUIElement > xUIElement; UIElement aRequestedToolbar = impl_findToolbar( rResourceURL ); if ( aRequestedToolbar.m_aName != rResourceURL ) { bMustCallCreate = true; aRequestedToolbar.m_aName = rResourceURL; aRequestedToolbar.m_aType = UIRESOURCETYPE_TOOLBAR; aRequestedToolbar.m_xUIElement = xUIElement; implts_readWindowStateData( rResourceURL, aRequestedToolbar ); } xUIElement = aRequestedToolbar.m_xUIElement; if ( !xUIElement.is() ) bMustCallCreate = true; bool bCreateOrShowToolbar( aRequestedToolbar.m_bVisible && !aRequestedToolbar.m_bMasterHide ); uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow, uno::UNO_QUERY ); if ( xContainerWindow.is() && aRequestedToolbar.m_bFloating ) bCreateOrShowToolbar &= bool( xContainerWindow->isActive()); if ( bCreateOrShowToolbar ) bNotify = ( bMustCallCreate ) ? createToolbar( rResourceURL ) : showToolbar( rResourceURL ); return bNotify; } bool ToolbarLayoutManager::createToolbar( const OUString& rResourceURL ) { bool bNotify( false ); SolarMutexClearableGuard aReadLock; uno::Reference< frame::XFrame > xFrame( m_xFrame ); uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow ); aReadLock.clear(); bNotify = false; if ( !xFrame.is() || !xContainerWindow.is() ) return false; UIElement aToolbarElement = implts_findToolbar( rResourceURL ); if ( !aToolbarElement.m_xUIElement.is() ) { uno::Reference< ui::XUIElement > xUIElement; uno::Sequence< beans::PropertyValue > aPropSeq( 2 ); aPropSeq[0].Name = "Frame"; aPropSeq[0].Value <<= m_xFrame; aPropSeq[1].Name = "Persistent"; aPropSeq[1].Value <<= true; uno::Reference< ui::XUIElementFactory > xUIElementFactory( m_xUIElementFactoryManager ); aReadLock.clear(); implts_setToolbarCreation(); try { if ( xUIElementFactory.is() ) xUIElement = xUIElementFactory->createUIElement( rResourceURL, aPropSeq ); } catch (const container::NoSuchElementException&) { } catch (const lang::IllegalArgumentException&) { } implts_setToolbarCreation( false ); if ( xUIElement.is() ) { uno::Reference< awt::XWindow > xWindow( xUIElement->getRealInterface(), uno::UNO_QUERY ); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( xDockWindow.is() && xWindow.is() ) { try { xDockWindow->addDockableWindowListener( uno::Reference< awt::XDockableWindowListener >( static_cast< OWeakObject * >( this ), uno::UNO_QUERY )); xWindow->addWindowListener( uno::Reference< awt::XWindowListener >( static_cast< OWeakObject * >( this ), uno::UNO_QUERY )); xDockWindow->enableDocking( sal_True ); } catch (const uno::Exception&) { } } bool bVisible = false; bool bFloating = false; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; UIElement& rElement = impl_findToolbar( rResourceURL ); if ( !rElement.m_aName.isEmpty() ) { // Reuse a local entry so we are able to use the latest // UI changes for this document. implts_setElementData( rElement, xDockWindow ); rElement.m_xUIElement = xUIElement; bVisible = rElement.m_bVisible; bFloating = rElement.m_bFloating; } else { // Create new UI element and try to read its state data UIElement aNewToolbar( rResourceURL, UIRESOURCETYPE_TOOLBAR, xUIElement ); implts_readWindowStateData( rResourceURL, aNewToolbar ); implts_setElementData( aNewToolbar, xDockWindow ); implts_insertToolbar( aNewToolbar ); bVisible = aNewToolbar.m_bVisible; bFloating = rElement.m_bFloating; } aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // set toolbar menu style according to customize command state SvtCommandOptions aCmdOptions; SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) { ToolBox* pToolbar = static_cast(pWindow); sal_uInt16 nMenuType = pToolbar->GetMenuType(); if ( aCmdOptions.Lookup( SvtCommandOptions::CMDOPTION_DISABLED, "ConfigureDialog" )) pToolbar->SetMenuType( nMenuType & ~TOOLBOX_MENUTYPE_CUSTOMIZE ); else pToolbar->SetMenuType( nMenuType | TOOLBOX_MENUTYPE_CUSTOMIZE ); } bNotify = true; implts_sortUIElements(); if ( bVisible && !bFloating ) implts_setLayoutDirty(); } } return bNotify; } bool ToolbarLayoutManager::destroyToolbar( const OUString& rResourceURL ) { UIElementVector::iterator pIter; uno::Reference< lang::XComponent > xComponent; bool bNotify( false ); bool bMustBeSorted( false ); bool bMustLayouted( false ); bool bMustBeDestroyed( !rResourceURL.startsWith("private:resource/toolbar/addon_") ); SolarMutexClearableGuard aWriteLock; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_aName == rResourceURL ) { xComponent.set( pIter->m_xUIElement, uno::UNO_QUERY ); if ( bMustBeDestroyed ) pIter->m_xUIElement.clear(); else pIter->m_bVisible = false; break; } } aWriteLock.clear(); uno::Reference< ui::XUIElement > xUIElement( xComponent, uno::UNO_QUERY ); if ( xUIElement.is() ) { uno::Reference< awt::XWindow > xWindow( xUIElement->getRealInterface(), uno::UNO_QUERY ); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( bMustBeDestroyed ) { try { if ( xWindow.is() ) xWindow->removeWindowListener( uno::Reference< awt::XWindowListener >( static_cast< OWeakObject * >( this ), uno::UNO_QUERY )); } catch (const uno::Exception&) { } try { if ( xDockWindow.is() ) xDockWindow->removeDockableWindowListener( uno::Reference< awt::XDockableWindowListener >( static_cast< OWeakObject * >( this ), uno::UNO_QUERY )); } catch (const uno::Exception&) { } } else { if ( xWindow.is() ) xWindow->setVisible( sal_False ); bNotify = true; } if ( !xDockWindow->isFloating() ) bMustLayouted = true; bMustBeSorted = true; } if ( bMustBeDestroyed ) { if ( xComponent.is() ) xComponent->dispose(); bNotify = true; } if ( bMustLayouted ) implts_setLayoutDirty(); if ( bMustBeSorted ) implts_sortUIElements(); return bNotify; } void ToolbarLayoutManager::destroyToolbars() { UIElementVector aUIElementVector; implts_getUIElementVectorCopy( aUIElementVector ); SolarMutexClearableGuard aWriteLock; m_aUIElements.clear(); m_bLayoutDirty = true; aWriteLock.clear(); UIElementVector::iterator pIter; for ( pIter = aUIElementVector.begin(); pIter != aUIElementVector.end(); ++pIter ) { uno::Reference< lang::XComponent > xComponent( pIter->m_xUIElement, uno::UNO_QUERY ); if ( xComponent.is() ) xComponent->dispose(); } } bool ToolbarLayoutManager::showToolbar( const OUString& rResourceURL ) { UIElement aUIElement = implts_findToolbar( rResourceURL ); SolarMutexGuard aGuard; vcl::Window* pWindow = getWindowFromXUIElement( aUIElement.m_xUIElement ); // Addons appear to need to be populated at start, but we don't // want to populate them with (scaled) images until later. AddonsToolBarWrapper *pAddOns; pAddOns = dynamic_cast( aUIElement.m_xUIElement.get()); if (pAddOns) pAddOns->populateImages(); if ( pWindow ) { if ( !aUIElement.m_bFloating ) implts_setLayoutDirty(); else pWindow->Show( true, ShowFlags::NoFocusChange | ShowFlags::NoActivate ); aUIElement.m_bVisible = true; implts_writeWindowStateData( aUIElement ); implts_setToolbar( aUIElement ); implts_sortUIElements(); return true; } return false; } bool ToolbarLayoutManager::hideToolbar( const OUString& rResourceURL ) { UIElement aUIElement = implts_findToolbar( rResourceURL ); SolarMutexGuard aGuard; vcl::Window* pWindow = getWindowFromXUIElement( aUIElement.m_xUIElement ); if ( pWindow ) { pWindow->Show( false ); if ( !aUIElement.m_bFloating ) implts_setLayoutDirty(); aUIElement.m_bVisible = false; implts_writeWindowStateData( aUIElement ); implts_setToolbar( aUIElement ); return true; } return false; } void ToolbarLayoutManager::refreshToolbarsVisibility( bool bAutomaticToolbars ) { UIElementVector aUIElementVector; SolarMutexClearableGuard aReadLock; bool bVisible( m_bVisible ); aReadLock.clear(); if ( !bVisible || !bAutomaticToolbars ) return; implts_getUIElementVectorCopy( aUIElementVector ); UIElement aUIElement; SolarMutexGuard aGuard; UIElementVector::iterator pIter; for ( pIter = aUIElementVector.begin(); pIter != aUIElementVector.end(); ++pIter ) { if ( implts_readWindowStateData( pIter->m_aName, aUIElement ) && ( pIter->m_bVisible != aUIElement.m_bVisible ) && !pIter->m_bMasterHide ) { SolarMutexGuard g; UIElement& rUIElement = impl_findToolbar( pIter->m_aName ); if ( rUIElement.m_aName == pIter->m_aName ) { rUIElement.m_bVisible = aUIElement.m_bVisible; implts_setLayoutDirty(); } } } } void ToolbarLayoutManager::setFloatingToolbarsVisibility( bool bVisible ) { UIElementVector aUIElementVector; implts_getUIElementVectorCopy( aUIElementVector ); SolarMutexGuard aGuard; UIElementVector::iterator pIter; for ( pIter = aUIElementVector.begin(); pIter != aUIElementVector.end(); ++pIter ) { vcl::Window* pWindow = getWindowFromXUIElement( pIter->m_xUIElement ); if ( pWindow && pIter->m_bFloating ) { if ( bVisible ) { if ( pIter->m_bVisible && !pIter->m_bMasterHide ) pWindow->Show( true, ShowFlags::NoFocusChange | ShowFlags::NoActivate ); } else pWindow->Show( false ); } } } void ToolbarLayoutManager::setVisible( bool bVisible ) { UIElementVector aUIElementVector; implts_getUIElementVectorCopy( aUIElementVector ); SolarMutexGuard aGuard; UIElementVector::iterator pIter; for ( pIter = aUIElementVector.begin(); pIter != aUIElementVector.end(); ++pIter ) { if (!pIter->m_bFloating) { UIElement aUIElement(*pIter); aUIElement.m_bMasterHide = !bVisible; implts_setToolbar(aUIElement); implts_setLayoutDirty(); } vcl::Window* pWindow = getWindowFromXUIElement( pIter->m_xUIElement ); if ( pWindow ) { bool bSetVisible( pIter->m_bVisible && bVisible ); if ( !bSetVisible ) pWindow->Hide(); else { if ( pIter->m_bFloating ) pWindow->Show(true, ShowFlags::NoFocusChange | ShowFlags::NoActivate ); } } } if ( !bVisible ) resetDockingArea(); } bool ToolbarLayoutManager::dockToolbar( const OUString& rResourceURL, ui::DockingArea eDockingArea, const awt::Point& aPos ) { UIElement aUIElement = implts_findToolbar( rResourceURL ); if ( aUIElement.m_xUIElement.is() ) { try { uno::Reference< awt::XWindow > xWindow( aUIElement.m_xUIElement->getRealInterface(), uno::UNO_QUERY ); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( xDockWindow.is() ) { if ( eDockingArea != ui::DockingArea_DOCKINGAREA_DEFAULT ) aUIElement.m_aDockedData.m_nDockedArea = sal_Int16( eDockingArea ); if ( !isDefaultPos( aPos )) aUIElement.m_aDockedData.m_aPos = aPos; if ( !xDockWindow->isFloating() ) { vcl::Window* pWindow( 0 ); ToolBox* pToolBox( 0 ); { SolarMutexGuard aGuard; pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) { pToolBox = static_cast(pWindow); // We have to set the alignment of the toolbox. It's possible that the toolbox is moved from a // horizontal to a vertical docking area! pToolBox->SetAlign( ImplConvertAlignment( aUIElement.m_aDockedData.m_nDockedArea )); } } if ( hasDefaultPosValue( aUIElement.m_aDockedData.m_aPos )) { // Docking on its default position without a preset position - // we have to find a good place for it. ::Size aSize; SolarMutexGuard aGuard; { if (pToolBox) aSize = pToolBox->CalcWindowSizePixel( 1, ImplConvertAlignment( aUIElement.m_aDockedData.m_nDockedArea ) ); else if (pWindow) aSize = pWindow->GetSizePixel(); } ::Point aPixelPos; awt::Point aDockPos; implts_findNextDockingPos((ui::DockingArea)aUIElement.m_aDockedData.m_nDockedArea, aSize, aDockPos, aPixelPos ); aUIElement.m_aDockedData.m_aPos = aDockPos; } } implts_setToolbar( aUIElement ); if ( xDockWindow->isFloating() ) { // ATTENTION: This will call toggleFloatingMode() via notifications which // sets the floating member of the UIElement correctly! xDockWindow->setFloatingMode( sal_False ); } else { implts_writeWindowStateData( aUIElement ); implts_sortUIElements(); if ( aUIElement.m_bVisible ) implts_setLayoutDirty(); } return true; } } catch (const lang::DisposedException&) { } } return false; } bool ToolbarLayoutManager::dockAllToolbars() { std::vector< OUString > aToolBarNameVector; SolarMutexClearableGuard aReadLock; UIElementVector::iterator pIter; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_aType == "toolbar" && pIter->m_xUIElement.is() && pIter->m_bFloating && pIter->m_bVisible ) aToolBarNameVector.push_back( pIter->m_aName ); } aReadLock.clear(); bool bResult(true); const sal_uInt32 nCount = aToolBarNameVector.size(); for ( sal_uInt32 i = 0; i < nCount; ++i ) { awt::Point aPoint; aPoint.X = aPoint.Y = SAL_MAX_INT32; bResult &= dockToolbar( aToolBarNameVector[i], ui::DockingArea_DOCKINGAREA_DEFAULT, aPoint ); } return bResult; } long ToolbarLayoutManager::childWindowEvent( VclSimpleEvent* pEvent ) { // To enable toolbar controllers to change their image when a sub-toolbar function // is activated, we need this mechanism. We have NO connection between these toolbars // anymore! if ( dynamic_cast< const VclWindowEvent* >(pEvent) != nullptr ) { if ( pEvent->GetId() == VCLEVENT_TOOLBOX_SELECT ) { OUString aToolbarName; OUString aCommand; ToolBox* pToolBox = getToolboxPtr( static_cast(pEvent)->GetWindow() ); if ( pToolBox ) { aToolbarName = retrieveToolbarNameFromHelpURL( pToolBox ); sal_uInt16 nId = pToolBox->GetCurItemId(); if ( nId > 0 ) aCommand = pToolBox->GetItemCommand( nId ); } if ( !aToolbarName.isEmpty() && !aCommand.isEmpty() ) { SolarMutexClearableGuard aReadLock; ::std::vector< uno::Reference< ui::XUIFunctionListener > > aListenerArray; UIElementVector::iterator pIter; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_xUIElement.is() ) { uno::Reference< ui::XUIFunctionListener > xListener( pIter->m_xUIElement, uno::UNO_QUERY ); if ( xListener.is() ) aListenerArray.push_back( xListener ); } } aReadLock.clear(); const sal_uInt32 nCount = aListenerArray.size(); for ( sal_uInt32 i = 0; i < nCount; ++i ) { try { aListenerArray[i]->functionExecute( aToolbarName, aCommand ); } catch (const uno::RuntimeException&) { throw; } catch (const uno::Exception&) { } } } } else if ( pEvent->GetId() == VCLEVENT_TOOLBOX_FORMATCHANGED ) { if ( !implts_isToolbarCreationActive() ) { ToolBox* pToolBox = getToolboxPtr( static_cast(pEvent)->GetWindow() ); if ( pToolBox ) { OUString aToolbarName = retrieveToolbarNameFromHelpURL( pToolBox ); if ( !aToolbarName.isEmpty() ) { OUStringBuffer aBuf(100); aBuf.append( "private:resource/toolbar/" ); aBuf.append( aToolbarName ); UIElement aToolbar = implts_findToolbar( aBuf.makeStringAndClear() ); if ( aToolbar.m_xUIElement.is() && !aToolbar.m_bFloating ) { implts_setLayoutDirty(); m_pParentLayouter->requestLayout( ILayoutNotifications::HINT_TOOLBARSPACE_HAS_CHANGED ); } } } } } } return 1; } void ToolbarLayoutManager::resetDockingArea() { SolarMutexClearableGuard aReadLock; uno::Reference< awt::XWindow > xTopDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP] ); uno::Reference< awt::XWindow > xLeftDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT] ); uno::Reference< awt::XWindow > xRightDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_RIGHT] ); uno::Reference< awt::XWindow > xBottomDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM] ); aReadLock.clear(); if ( xTopDockingWindow.is() ) xTopDockingWindow->setPosSize( 0, 0, 0, 0, awt::PosSize::POSSIZE ); if ( xLeftDockingWindow.is() ) xLeftDockingWindow->setPosSize( 0, 0, 0, 0, awt::PosSize::POSSIZE ); if ( xRightDockingWindow.is() ) xRightDockingWindow->setPosSize( 0, 0, 0, 0, awt::PosSize::POSSIZE ); if ( xBottomDockingWindow.is() ) xBottomDockingWindow->setPosSize( 0, 0, 0, 0, awt::PosSize::POSSIZE ); } void ToolbarLayoutManager::setParentWindow( const uno::Reference< awt::XWindowPeer >& xParentWindow ) { static const char DOCKINGAREASTRING[] = "dockingarea"; uno::Reference< awt::XWindow > xTopDockWindow = uno::Reference< awt::XWindow >( createToolkitWindow( m_xContext, xParentWindow, DOCKINGAREASTRING ), uno::UNO_QUERY ); uno::Reference< awt::XWindow > xLeftDockWindow = uno::Reference< awt::XWindow >( createToolkitWindow( m_xContext, xParentWindow, DOCKINGAREASTRING ), uno::UNO_QUERY ); uno::Reference< awt::XWindow > xRightDockWindow = uno::Reference< awt::XWindow >( createToolkitWindow( m_xContext, xParentWindow, DOCKINGAREASTRING ), uno::UNO_QUERY ); uno::Reference< awt::XWindow > xBottomDockWindow = uno::Reference< awt::XWindow >( createToolkitWindow( m_xContext, xParentWindow, DOCKINGAREASTRING ), uno::UNO_QUERY ); SolarMutexClearableGuard aWriteLock; m_xContainerWindow = uno::Reference< awt::XWindow2 >( xParentWindow, uno::UNO_QUERY ); m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP] = xTopDockWindow; m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT] = xLeftDockWindow; m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_RIGHT] = xRightDockWindow; m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM] = xBottomDockWindow; aWriteLock.clear(); if ( xParentWindow.is() ) { SolarMutexGuard aGuard; VclPtr< ::DockingAreaWindow > pWindow = dynamic_cast< ::DockingAreaWindow* >(VCLUnoHelper::GetWindow( xTopDockWindow ).get() ); if( pWindow ) pWindow->SetAlign( WindowAlign::Top ); pWindow = dynamic_cast< ::DockingAreaWindow* >(VCLUnoHelper::GetWindow( xBottomDockWindow ).get() ); if( pWindow ) pWindow->SetAlign( WindowAlign::Bottom ); pWindow = dynamic_cast< ::DockingAreaWindow* >(VCLUnoHelper::GetWindow( xLeftDockWindow ).get() ); if( pWindow ) pWindow->SetAlign( WindowAlign::Left ); pWindow = dynamic_cast< ::DockingAreaWindow* >(VCLUnoHelper::GetWindow( xRightDockWindow ).get() ); if( pWindow ) pWindow->SetAlign( WindowAlign::Right ); implts_reparentToolbars(); } else { destroyToolbars(); resetDockingArea(); } } void ToolbarLayoutManager::setDockingAreaOffsets( const ::Rectangle& rOffsets ) { SolarMutexGuard g; m_aDockingAreaOffsets = rOffsets; m_bLayoutDirty = true; } OUString ToolbarLayoutManager::implts_generateGenericAddonToolbarTitle( sal_Int32 nNumber ) const { OUString aAddonGenericTitle(FWK_RESSTR(STR_TOOLBAR_TITLE_ADDON)); const vcl::I18nHelper& rI18nHelper = Application::GetSettings().GetUILocaleI18nHelper(); OUString aNumStr = rI18nHelper.GetNum( nNumber, 0, false, false ); aAddonGenericTitle = aAddonGenericTitle.replaceFirst( "%num%", aNumStr ); return OUString( aAddonGenericTitle ); } void ToolbarLayoutManager::implts_createAddonsToolBars() { SolarMutexClearableGuard aWriteLock; if ( !m_pAddonOptions ) m_pAddonOptions = new AddonsOptions; uno::Reference< ui::XUIElementFactory > xUIElementFactory( m_xUIElementFactoryManager ); uno::Reference< frame::XFrame > xFrame( m_xFrame ); aWriteLock.clear(); if (isPreviewFrame()) return; // no addon toolbars for preview frame! uno::Sequence< uno::Sequence< beans::PropertyValue > > aAddonToolBarData; uno::Reference< ui::XUIElement > xUIElement; sal_uInt32 nCount = m_pAddonOptions->GetAddonsToolBarCount(); OUString aElementType( "toolbar" ); uno::Sequence< beans::PropertyValue > aPropSeq( 2 ); aPropSeq[0].Name = "Frame"; aPropSeq[0].Value <<= xFrame; aPropSeq[1].Name = "ConfigurationData"; for ( sal_uInt32 i = 0; i < nCount; i++ ) { OUString aAddonToolBarName( "private:resource/toolbar/addon_" + m_pAddonOptions->GetAddonsToolbarResourceName(i) ); aAddonToolBarData = m_pAddonOptions->GetAddonsToolBarPart( i ); aPropSeq[1].Value <<= aAddonToolBarData; UIElement aElement = implts_findToolbar( aAddonToolBarName ); // #i79828 // It's now possible that we are called more than once. Be sure to not create // add-on toolbars more than once! if ( aElement.m_xUIElement.is() ) continue; try { xUIElement = xUIElementFactory->createUIElement( aAddonToolBarName, aPropSeq ); if ( xUIElement.is() ) { uno::Reference< awt::XDockableWindow > xDockWindow( xUIElement->getRealInterface(), uno::UNO_QUERY ); if ( xDockWindow.is() ) { try { xDockWindow->addDockableWindowListener( uno::Reference< awt::XDockableWindowListener >( static_cast< OWeakObject * >( this ), uno::UNO_QUERY )); xDockWindow->enableDocking( sal_True ); uno::Reference< awt::XWindow > xWindow( xDockWindow, uno::UNO_QUERY ); if ( xWindow.is() ) xWindow->addWindowListener( uno::Reference< awt::XWindowListener >( static_cast< OWeakObject * >( this ), uno::UNO_QUERY )); } catch (const uno::Exception&) { } } OUString aGenericAddonTitle = implts_generateGenericAddonToolbarTitle( i+1 ); if ( !aElement.m_aName.isEmpty() ) { // Reuse a local entry so we are able to use the latest // UI changes for this document. implts_setElementData( aElement, xDockWindow ); aElement.m_xUIElement = xUIElement; if ( aElement.m_aUIName.isEmpty() ) { aElement.m_aUIName = aGenericAddonTitle; implts_writeWindowStateData( aElement ); } } else { // Create new UI element and try to read its state data UIElement aNewToolbar( aAddonToolBarName, aElementType, xUIElement ); aNewToolbar.m_bFloating = true; implts_readWindowStateData( aAddonToolBarName, aNewToolbar ); implts_setElementData( aNewToolbar, xDockWindow ); if ( aNewToolbar.m_aUIName.isEmpty() ) { aNewToolbar.m_aUIName = aGenericAddonTitle; implts_writeWindowStateData( aNewToolbar ); } implts_insertToolbar( aNewToolbar ); } uno::Reference< awt::XWindow > xWindow( xDockWindow, uno::UNO_QUERY ); if ( xWindow.is() ) { // Set generic title for add-on toolbar SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow->GetText().isEmpty() ) pWindow->SetText( aGenericAddonTitle ); if ( pWindow->GetType() == WINDOW_TOOLBOX ) { ToolBox* pToolbar = static_cast(pWindow); pToolbar->SetMenuType(); } } } } catch (const container::NoSuchElementException&) { } catch (const lang::IllegalArgumentException&) { } } } void ToolbarLayoutManager::implts_createCustomToolBars() { SolarMutexClearableGuard aReadLock; if ( !m_bComponentAttached ) return; uno::Reference< ui::XUIElementFactory > xUIElementFactory( m_xUIElementFactoryManager ); uno::Reference< frame::XFrame > xFrame( m_xFrame ); uno::Reference< ui::XUIConfigurationManager > xModuleCfgMgr( m_xModuleCfgMgr, uno::UNO_QUERY ); uno::Reference< ui::XUIConfigurationManager > xDocCfgMgr( m_xDocCfgMgr, uno::UNO_QUERY ); aReadLock.clear(); if ( xFrame.is() ) { if (isPreviewFrame()) return; // no custom toolbars for preview frame! uno::Sequence< uno::Sequence< beans::PropertyValue > > aTbxSeq; if ( xDocCfgMgr.is() ) { aTbxSeq = xDocCfgMgr->getUIElementsInfo( ui::UIElementType::TOOLBAR ); implts_createCustomToolBars( aTbxSeq ); // first create all document based toolbars } if ( xModuleCfgMgr.is() ) { aTbxSeq = xModuleCfgMgr->getUIElementsInfo( ui::UIElementType::TOOLBAR ); implts_createCustomToolBars( aTbxSeq ); // second create module based toolbars } } } void ToolbarLayoutManager::implts_createNonContextSensitiveToolBars() { SolarMutexClearableGuard aReadLock; if ( !m_xPersistentWindowState.is() || !m_xFrame.is() || !m_bComponentAttached ) return; uno::Reference< ui::XUIElementFactory > xUIElementFactory( m_xUIElementFactoryManager ); uno::Reference< container::XNameAccess > xPersistentWindowState( m_xPersistentWindowState ); aReadLock.clear(); if (isPreviewFrame()) return; std::vector< OUString > aMakeVisibleToolbars; try { uno::Sequence< OUString > aToolbarNames = xPersistentWindowState->getElementNames(); if ( aToolbarNames.getLength() > 0 ) { OUString aElementType; OUString aElementName; OUString aName; uno::Reference< ui::XUIElement > xUIElement; aMakeVisibleToolbars.reserve(aToolbarNames.getLength()); SolarMutexGuard g; const OUString* pTbNames = aToolbarNames.getConstArray(); for ( sal_Int32 i = 0; i < aToolbarNames.getLength(); i++ ) { aName = pTbNames[i]; parseResourceURL( aName, aElementType, aElementName ); // Check that we only create: // - Toolbars (the statusbar is also member of the persistent window state) // - Not custom toolbars, there are created with their own method (implts_createCustomToolbars) if ( aElementType.equalsIgnoreAsciiCase("toolbar") && aElementName.indexOf( "custom_" ) == -1 ) { UIElement aNewToolbar = implts_findToolbar( aName ); bool bFound = ( aNewToolbar.m_aName == aName ); if ( !bFound ) implts_readWindowStateData( aName, aNewToolbar ); if ( aNewToolbar.m_bVisible && !aNewToolbar.m_bContextSensitive ) { if ( !bFound ) implts_insertToolbar( aNewToolbar ); aMakeVisibleToolbars.push_back( aName ); } } } } } catch (const uno::RuntimeException&) { throw; } catch (const uno::Exception&) { } if ( !aMakeVisibleToolbars.empty() ) ::std::for_each( aMakeVisibleToolbars.begin(), aMakeVisibleToolbars.end(), ::boost::bind( &ToolbarLayoutManager::requestToolbar, this, _1)); } void ToolbarLayoutManager::implts_createCustomToolBars( const uno::Sequence< uno::Sequence< beans::PropertyValue > >& aTbxSeqSeq ) { const uno::Sequence< beans::PropertyValue >* pTbxSeq = aTbxSeqSeq.getConstArray(); for ( sal_Int32 i = 0; i < aTbxSeqSeq.getLength(); i++ ) { const uno::Sequence< beans::PropertyValue >& rTbxSeq = pTbxSeq[i]; OUString aTbxResName; OUString aTbxTitle; for ( sal_Int32 j = 0; j < rTbxSeq.getLength(); j++ ) { if ( rTbxSeq[j].Name == "ResourceURL" ) rTbxSeq[j].Value >>= aTbxResName; else if ( rTbxSeq[j].Name == "UIName" ) rTbxSeq[j].Value >>= aTbxTitle; } // Only create custom toolbars. Their name have to start with "custom_"! if ( !aTbxResName.isEmpty() && ( aTbxResName.indexOf( "custom_" ) != -1 ) ) implts_createCustomToolBar( aTbxResName, aTbxTitle ); } } void ToolbarLayoutManager::implts_createCustomToolBar( const OUString& aTbxResName, const OUString& aTitle ) { if ( !aTbxResName.isEmpty() ) { if ( !createToolbar( aTbxResName ) ) SAL_WARN("fwk.uielement", "ToolbarLayoutManager cannot create custom toolbar"); uno::Reference< ui::XUIElement > xUIElement = getToolbar( aTbxResName ); if ( !aTitle.isEmpty() && xUIElement.is() ) { SolarMutexGuard aGuard; vcl::Window* pWindow = getWindowFromXUIElement( xUIElement ); if ( pWindow ) pWindow->SetText( aTitle ); } } } void ToolbarLayoutManager::implts_reparentToolbars() { SolarMutexClearableGuard aWriteLock; UIElementVector aUIElementVector = m_aUIElements; vcl::Window* pContainerWindow = VCLUnoHelper::GetWindow( m_xContainerWindow ); vcl::Window* pTopDockWindow = VCLUnoHelper::GetWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP] ); vcl::Window* pBottomDockWindow = VCLUnoHelper::GetWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM] ); vcl::Window* pLeftDockWindow = VCLUnoHelper::GetWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT] ); vcl::Window* pRightDockWindow = VCLUnoHelper::GetWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_RIGHT] ); aWriteLock.clear(); SolarMutexGuard aGuard; if ( pContainerWindow ) { UIElementVector::iterator pIter; for ( pIter = aUIElementVector.begin(); pIter != aUIElementVector.end(); ++pIter ) { uno::Reference< ui::XUIElement > xUIElement( pIter->m_xUIElement ); if ( xUIElement.is() ) { uno::Reference< awt::XWindow > xWindow; try { // We have to retrieve the window reference with try/catch as it is // possible that all elements have been disposed! xWindow = uno::Reference< awt::XWindow >( xUIElement->getRealInterface(), uno::UNO_QUERY ); } catch (const uno::RuntimeException&) { throw; } catch (const uno::Exception&) { } vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow ) { // Reparent our child windows according to their current state. if ( pIter->m_bFloating ) pWindow->SetParent( pContainerWindow ); else { if ( pIter->m_aDockedData.m_nDockedArea == ui::DockingArea_DOCKINGAREA_TOP ) pWindow->SetParent( pTopDockWindow ); else if ( pIter->m_aDockedData.m_nDockedArea == ui::DockingArea_DOCKINGAREA_BOTTOM ) pWindow->SetParent( pBottomDockWindow ); else if ( pIter->m_aDockedData.m_nDockedArea == ui::DockingArea_DOCKINGAREA_LEFT ) pWindow->SetParent( pLeftDockWindow ); else pWindow->SetParent( pRightDockWindow ); } } } } } } void ToolbarLayoutManager::implts_setToolbarCreation( bool bStart ) { SolarMutexGuard g; m_bToolbarCreation = bStart; } bool ToolbarLayoutManager::implts_isToolbarCreationActive() { SolarMutexGuard g; return m_bToolbarCreation; } void ToolbarLayoutManager::implts_setElementData( UIElement& rElement, const uno::Reference< awt::XDockableWindow >& rDockWindow ) { SolarMutexClearableGuard aReadLock; bool bShowElement( rElement.m_bVisible && !rElement.m_bMasterHide && implts_isParentWindowVisible() ); aReadLock.clear(); uno::Reference< awt::XDockableWindow > xDockWindow( rDockWindow ); uno::Reference< awt::XWindow2 > xWindow( xDockWindow, uno::UNO_QUERY ); vcl::Window* pWindow( 0 ); ToolBox* pToolBox( 0 ); if ( xDockWindow.is() && xWindow.is() ) { { SolarMutexGuard aGuard; pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow ) { OUString aText = pWindow->GetText(); if ( aText.isEmpty() ) pWindow->SetText( rElement.m_aUIName ); if ( rElement.m_bNoClose ) pWindow->SetStyle( pWindow->GetStyle() & ~WB_CLOSEABLE ); if ( pWindow->GetType() == WINDOW_TOOLBOX ) pToolBox = static_cast(pWindow); } if ( pToolBox ) { pToolBox->SetButtonType( (ButtonType)rElement.m_nStyle ); if ( rElement.m_bNoClose ) pToolBox->SetFloatStyle( pToolBox->GetFloatStyle() & ~WB_CLOSEABLE ); } } if ( rElement.m_bFloating ) { if ( pWindow ) { SolarMutexGuard aGuard; OUString aText = pWindow->GetText(); if ( aText.isEmpty() ) pWindow->SetText( rElement.m_aUIName ); } awt::Point aPos(rElement.m_aFloatingData.m_aPos); bool bWriteData( false ); bool bUndefPos = hasDefaultPosValue( rElement.m_aFloatingData.m_aPos ); bool bSetSize = ( rElement.m_aFloatingData.m_aSize.Width != 0 && rElement.m_aFloatingData.m_aSize.Height != 0 ); xDockWindow->setFloatingMode( sal_True ); if ( bUndefPos ) { aPos = implts_findNextCascadeFloatingPos(); rElement.m_aFloatingData.m_aPos = aPos; // set new cascaded position bWriteData = true; } if( bSetSize ) xWindow->setOutputSize(rElement.m_aFloatingData.m_aSize); else { if( pToolBox ) { // set an optimal initial floating size SolarMutexGuard aGuard; ::Size aSize( pToolBox->CalcFloatingWindowSizePixel() ); pToolBox->SetOutputSizePixel( aSize ); } } // #i60882# IMPORTANT: Set position after size as it is // possible that we position some part of the toolbar // outside of the desktop. A default constructed toolbar // always has one line. Now VCL automatically // position the toolbar back into the desktop. Therefore // we resize the toolbar with the new (wrong) position. // To fix this problem we have to set the size BEFORE the // position. xWindow->setPosSize( aPos.X, aPos.Y, 0, 0, awt::PosSize::POS ); if ( bWriteData ) implts_writeWindowStateData( rElement ); if ( bShowElement && pWindow ) { SolarMutexGuard aGuard; pWindow->Show( true, ShowFlags::NoFocusChange | ShowFlags::NoActivate ); } } else { bool bSetSize( false ); awt::Point aDockPos; ::Point aPixelPos; ::Size aSize; if ( pToolBox ) { SolarMutexGuard aGuard; pToolBox->SetAlign( ImplConvertAlignment(rElement.m_aDockedData.m_nDockedArea ) ); pToolBox->SetLineCount( 1 ); xDockWindow->setFloatingMode( sal_False ); if ( rElement.m_aDockedData.m_bLocked ) xDockWindow->lock(); aSize = pToolBox->CalcWindowSizePixel(); bSetSize = true; if ( isDefaultPos( rElement.m_aDockedData.m_aPos )) { implts_findNextDockingPos( (ui::DockingArea)rElement.m_aDockedData.m_nDockedArea, aSize, aDockPos, aPixelPos ); rElement.m_aDockedData.m_aPos = aDockPos; } } xWindow->setPosSize( aPixelPos.X(), aPixelPos.Y(), 0, 0, awt::PosSize::POS ); if( bSetSize ) xWindow->setOutputSize( AWTSize( aSize) ); if ( pWindow ) { SolarMutexGuard aGuard; if ( !bShowElement ) pWindow->Hide(); } } } } void ToolbarLayoutManager::implts_destroyDockingAreaWindows() { SolarMutexClearableGuard aWriteLock; uno::Reference< awt::XWindow > xTopDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP] ); uno::Reference< awt::XWindow > xLeftDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT] ); uno::Reference< awt::XWindow > xRightDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_RIGHT] ); uno::Reference< awt::XWindow > xBottomDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM] ); m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP].clear(); m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT].clear(); m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_RIGHT].clear(); m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM].clear(); aWriteLock.clear(); // destroy windows xTopDockingWindow->dispose(); xLeftDockingWindow->dispose(); xRightDockingWindow->dispose(); xBottomDockingWindow->dispose(); } // persistence methods bool ToolbarLayoutManager::implts_readWindowStateData( const OUString& aName, UIElement& rElementData ) { return LayoutManager::readWindowStateData( aName, rElementData, m_xPersistentWindowState, m_pGlobalSettings, m_bGlobalSettings, m_xContext ); } void ToolbarLayoutManager::implts_writeWindowStateData( const UIElement& rElementData ) { SolarMutexResettableGuard aWriteLock; uno::Reference< container::XNameAccess > xPersistentWindowState( m_xPersistentWindowState ); m_bStoreWindowState = true; // set flag to determine that we triggered the notification aWriteLock.clear(); bool bPersistent( false ); uno::Reference< beans::XPropertySet > xPropSet( rElementData.m_xUIElement, uno::UNO_QUERY ); if ( xPropSet.is() ) { try { // Check persistent flag of the user interface element xPropSet->getPropertyValue("Persistent") >>= bPersistent; } catch (const beans::UnknownPropertyException&) { bPersistent = true; // Non-configurable elements should at least store their dimension/position } catch (const lang::WrappedTargetException&) { } } if ( bPersistent && xPersistentWindowState.is() ) { try { uno::Sequence< beans::PropertyValue > aWindowState( 9 ); aWindowState[0].Name = WINDOWSTATE_PROPERTY_DOCKED; aWindowState[0].Value = ::uno::makeAny( !rElementData.m_bFloating ); aWindowState[1].Name = WINDOWSTATE_PROPERTY_VISIBLE; aWindowState[1].Value = uno::makeAny( rElementData.m_bVisible ); aWindowState[2].Name = WINDOWSTATE_PROPERTY_DOCKINGAREA; aWindowState[2].Value = uno::makeAny( static_cast< ui::DockingArea >( rElementData.m_aDockedData.m_nDockedArea ) ); awt::Point aPos = rElementData.m_aDockedData.m_aPos; aWindowState[3].Name = WINDOWSTATE_PROPERTY_DOCKPOS; aWindowState[3].Value <<= aPos; aPos = rElementData.m_aFloatingData.m_aPos; aWindowState[4].Name = WINDOWSTATE_PROPERTY_POS; aWindowState[4].Value <<= aPos; aWindowState[5].Name = WINDOWSTATE_PROPERTY_SIZE; aWindowState[5].Value <<= rElementData.m_aFloatingData.m_aSize; aWindowState[6].Name = WINDOWSTATE_PROPERTY_UINAME; aWindowState[6].Value = uno::makeAny( rElementData.m_aUIName ); aWindowState[7].Name = WINDOWSTATE_PROPERTY_LOCKED; aWindowState[7].Value = uno::makeAny( rElementData.m_aDockedData.m_bLocked ); aWindowState[8].Name = WINDOWSTATE_PROPERTY_STYLE; aWindowState[8].Value = uno::makeAny( static_cast(rElementData.m_nStyle) ); OUString aName = rElementData.m_aName; if ( xPersistentWindowState->hasByName( aName )) { uno::Reference< container::XNameReplace > xReplace( xPersistentWindowState, uno::UNO_QUERY ); xReplace->replaceByName( aName, uno::makeAny( aWindowState )); } else { uno::Reference< container::XNameContainer > xInsert( xPersistentWindowState, uno::UNO_QUERY ); xInsert->insertByName( aName, uno::makeAny( aWindowState )); } } catch (const uno::Exception&) { } } // Reset flag aWriteLock.reset(); m_bStoreWindowState = false; aWriteLock.clear(); } /****************************************************************************** LOOKUP PART FOR TOOLBARS ******************************************************************************/ UIElement& ToolbarLayoutManager::impl_findToolbar( const OUString& aName ) { static UIElement aEmptyElement; UIElementVector::iterator pIter; SolarMutexGuard g; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_aName == aName ) return *pIter; } return aEmptyElement; } UIElement ToolbarLayoutManager::implts_findToolbar( const OUString& aName ) { SolarMutexGuard g; return impl_findToolbar( aName ); } UIElement ToolbarLayoutManager::implts_findToolbar( const uno::Reference< uno::XInterface >& xToolbar ) { UIElement aToolbar; UIElementVector::const_iterator pIter; SolarMutexGuard g; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_xUIElement.is() ) { uno::Reference< uno::XInterface > xIfac( pIter->m_xUIElement->getRealInterface(), uno::UNO_QUERY ); if ( xIfac == xToolbar ) { aToolbar = *pIter; break; } } } return aToolbar; } uno::Reference< awt::XWindow > ToolbarLayoutManager::implts_getXWindow( const OUString& aName ) { UIElementVector::iterator pIter; uno::Reference< awt::XWindow > xWindow; SolarMutexGuard g; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_aName == aName && pIter->m_xUIElement.is() ) { xWindow = uno::Reference< awt::XWindow >( pIter->m_xUIElement->getRealInterface(), uno::UNO_QUERY ); break; } } return xWindow; } vcl::Window* ToolbarLayoutManager::implts_getWindow( const OUString& aName ) { uno::Reference< awt::XWindow > xWindow = implts_getXWindow( aName ); vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); return pWindow; } bool ToolbarLayoutManager::implts_insertToolbar( const UIElement& rUIElement ) { UIElement aTempData; bool bFound( false ); bool bResult( false ); aTempData = implts_findToolbar( rUIElement.m_aName ); if ( aTempData.m_aName == rUIElement.m_aName ) bFound = true; if ( !bFound ) { SolarMutexGuard g; m_aUIElements.push_back( rUIElement ); bResult = true; } return bResult; } void ToolbarLayoutManager::implts_setToolbar( const UIElement& rUIElement ) { SolarMutexGuard g; UIElement& rData = impl_findToolbar( rUIElement.m_aName ); if ( rData.m_aName == rUIElement.m_aName ) rData = rUIElement; else m_aUIElements.push_back( rUIElement ); } /****************************************************************************** LAYOUT CODE PART FOR TOOLBARS ******************************************************************************/ awt::Point ToolbarLayoutManager::implts_findNextCascadeFloatingPos() { const sal_Int32 nHotZoneX = 50; const sal_Int32 nHotZoneY = 50; const sal_Int32 nCascadeIndentX = 15; const sal_Int32 nCascadeIndentY = 15; SolarMutexClearableGuard aReadLock; uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow ); uno::Reference< awt::XWindow > xTopDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP] ); uno::Reference< awt::XWindow > xLeftDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT] ); aReadLock.clear(); awt::Point aStartPos( nCascadeIndentX, nCascadeIndentY ); awt::Point aCurrPos( aStartPos ); awt::Rectangle aRect; if ( xContainerWindow.is() ) { SolarMutexGuard aGuard; vcl::Window* pContainerWindow = VCLUnoHelper::GetWindow( xContainerWindow ); if ( pContainerWindow ) aStartPos = AWTPoint(pContainerWindow->OutputToScreenPixel(VCLPoint(aStartPos))); } // Determine size of top and left docking area awt::Rectangle aTopRect( xTopDockingWindow->getPosSize() ); awt::Rectangle aLeftRect( xLeftDockingWindow->getPosSize() ); aStartPos.X += aLeftRect.Width + nCascadeIndentX; aStartPos.Y += aTopRect.Height + nCascadeIndentY; aCurrPos = aStartPos; // Try to find a cascaded position for the new floating window UIElementVector::const_iterator pIter; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_xUIElement.is() ) { uno::Reference< awt::XDockableWindow > xDockWindow( pIter->m_xUIElement->getRealInterface(), uno::UNO_QUERY ); uno::Reference< awt::XWindow > xWindow( xDockWindow, uno::UNO_QUERY ); if ( xDockWindow.is() && xDockWindow->isFloating() ) { SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->IsVisible() ) { awt::Rectangle aFloatRect = xWindow->getPosSize(); if ((( aFloatRect.X - nHotZoneX ) <= aCurrPos.X ) && ( aFloatRect.X >= aCurrPos.X ) && (( aFloatRect.Y - nHotZoneY ) <= aCurrPos.Y ) && ( aFloatRect.Y >= aCurrPos.Y )) { aCurrPos.X = aFloatRect.X + nCascadeIndentX; aCurrPos.Y = aFloatRect.Y + nCascadeIndentY; } } } } } return aCurrPos; } void ToolbarLayoutManager::implts_sortUIElements() { SolarMutexGuard g; UIElementVector::iterator pIterStart = m_aUIElements.begin(); UIElementVector::iterator pIterEnd = m_aUIElements.end(); std::stable_sort( pIterStart, pIterEnd ); // first created element should first // We have to reset our temporary flags. UIElementVector::iterator pIter; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) pIter->m_bUserActive = false; } void ToolbarLayoutManager::implts_getUIElementVectorCopy( UIElementVector& rCopy ) { SolarMutexGuard g; rCopy = m_aUIElements; } ::Size ToolbarLayoutManager::implts_getTopBottomDockingAreaSizes() { ::Size aSize; uno::Reference< awt::XWindow > xTopDockingAreaWindow; uno::Reference< awt::XWindow > xBottomDockingAreaWindow; SolarMutexClearableGuard aReadLock; xTopDockingAreaWindow = m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP]; xBottomDockingAreaWindow = m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM]; aReadLock.clear(); if ( xTopDockingAreaWindow.is() ) aSize.Width() = xTopDockingAreaWindow->getPosSize().Height; if ( xBottomDockingAreaWindow.is() ) aSize.Height() = xBottomDockingAreaWindow->getPosSize().Height; return aSize; } void ToolbarLayoutManager::implts_getDockingAreaElementInfos( ui::DockingArea eDockingArea, std::vector< SingleRowColumnWindowData >& rRowColumnsWindowData ) { std::vector< UIElement > aWindowVector; if (( eDockingArea < ui::DockingArea_DOCKINGAREA_TOP ) || ( eDockingArea > ui::DockingArea_DOCKINGAREA_RIGHT )) eDockingArea = ui::DockingArea_DOCKINGAREA_TOP; uno::Reference< awt::XWindow > xDockAreaWindow; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; aWindowVector.reserve(m_aUIElements.size()); xDockAreaWindow = m_xDockAreaWindows[eDockingArea]; UIElementVector::iterator pIter; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_aDockedData.m_nDockedArea == eDockingArea && pIter->m_bVisible && !pIter->m_bFloating ) { uno::Reference< ui::XUIElement > xUIElement( pIter->m_xUIElement ); if ( xUIElement.is() ) { uno::Reference< awt::XWindow > xWindow( xUIElement->getRealInterface(), uno::UNO_QUERY ); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( xDockWindow.is() ) { // docked windows aWindowVector.push_back( *pIter ); } } } } aReadLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ rRowColumnsWindowData.clear(); // Collect data from windows that are on the same row/column sal_Int32 j; sal_Int32 nIndex( 0 ); sal_Int32 nLastPos( 0 ); sal_Int32 nCurrPos( -1 ); sal_Int32 nLastRowColPixelPos( 0 ); awt::Rectangle aDockAreaRect; if ( xDockAreaWindow.is() ) aDockAreaRect = xDockAreaWindow->getPosSize(); if ( eDockingArea == ui::DockingArea_DOCKINGAREA_TOP ) nLastRowColPixelPos = 0; else if ( eDockingArea == ui::DockingArea_DOCKINGAREA_BOTTOM ) nLastRowColPixelPos = aDockAreaRect.Height; else if ( eDockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) nLastRowColPixelPos = 0; else nLastRowColPixelPos = aDockAreaRect.Width; const sal_uInt32 nCount = aWindowVector.size(); for ( j = 0; j < sal_Int32( nCount); j++ ) { const UIElement& rElement = aWindowVector[j]; uno::Reference< awt::XWindow > xWindow; uno::Reference< ui::XUIElement > xUIElement( rElement.m_xUIElement ); awt::Rectangle aPosSize; if ( !lcl_checkUIElement(xUIElement,aPosSize,xWindow) ) continue; if ( isHorizontalDockingArea( eDockingArea )) { if ( nCurrPos == -1 ) { nCurrPos = rElement.m_aDockedData.m_aPos.Y; nLastPos = 0; SingleRowColumnWindowData aRowColumnWindowData; aRowColumnWindowData.nRowColumn = nCurrPos; rRowColumnsWindowData.push_back( aRowColumnWindowData ); } sal_Int32 nSpace( 0 ); if ( rElement.m_aDockedData.m_aPos.Y != nCurrPos ) { if ( eDockingArea == ui::DockingArea_DOCKINGAREA_TOP ) nLastRowColPixelPos += rRowColumnsWindowData[nIndex].nStaticSize; else nLastRowColPixelPos -= rRowColumnsWindowData[nIndex].nStaticSize; ++nIndex; nLastPos = 0; nCurrPos = rElement.m_aDockedData.m_aPos.Y; SingleRowColumnWindowData aRowColumnWindowData; aRowColumnWindowData.nRowColumn = nCurrPos; rRowColumnsWindowData.push_back( aRowColumnWindowData ); } // Calc space before an element and store it nSpace = ( rElement.m_aDockedData.m_aPos.X - nLastPos ); if ( rElement.m_aDockedData.m_aPos.X >= nLastPos ) { rRowColumnsWindowData[nIndex].nSpace += nSpace; nLastPos = rElement.m_aDockedData.m_aPos.X + aPosSize.Width; } else { nSpace = 0; nLastPos += aPosSize.Width; } rRowColumnsWindowData[nIndex].aRowColumnSpace.push_back( nSpace ); rRowColumnsWindowData[nIndex].aRowColumnWindows.push_back( xWindow ); rRowColumnsWindowData[nIndex].aUIElementNames.push_back( rElement.m_aName ); rRowColumnsWindowData[nIndex].aRowColumnWindowSizes.push_back( awt::Rectangle( rElement.m_aDockedData.m_aPos.X, rElement.m_aDockedData.m_aPos.Y, aPosSize.Width, aPosSize.Height )); if ( rRowColumnsWindowData[nIndex].nStaticSize < aPosSize.Height ) rRowColumnsWindowData[nIndex].nStaticSize = aPosSize.Height; if ( eDockingArea == ui::DockingArea_DOCKINGAREA_TOP ) rRowColumnsWindowData[nIndex].aRowColumnRect = awt::Rectangle( 0, nLastRowColPixelPos, aDockAreaRect.Width, aPosSize.Height ); else rRowColumnsWindowData[nIndex].aRowColumnRect = awt::Rectangle( 0, ( nLastRowColPixelPos - aPosSize.Height ), aDockAreaRect.Width, aPosSize.Height ); rRowColumnsWindowData[nIndex].nVarSize += aPosSize.Width + nSpace; } else { if ( nCurrPos == -1 ) { nCurrPos = rElement.m_aDockedData.m_aPos.X; nLastPos = 0; SingleRowColumnWindowData aRowColumnWindowData; aRowColumnWindowData.nRowColumn = nCurrPos; rRowColumnsWindowData.push_back( aRowColumnWindowData ); } sal_Int32 nSpace( 0 ); if ( rElement.m_aDockedData.m_aPos.X != nCurrPos ) { if ( eDockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) nLastRowColPixelPos += rRowColumnsWindowData[nIndex].nStaticSize; else nLastRowColPixelPos -= rRowColumnsWindowData[nIndex].nStaticSize; ++nIndex; nLastPos = 0; nCurrPos = rElement.m_aDockedData.m_aPos.X; SingleRowColumnWindowData aRowColumnWindowData; aRowColumnWindowData.nRowColumn = nCurrPos; rRowColumnsWindowData.push_back( aRowColumnWindowData ); } // Calc space before an element and store it nSpace = ( rElement.m_aDockedData.m_aPos.Y - nLastPos ); if ( rElement.m_aDockedData.m_aPos.Y > nLastPos ) { rRowColumnsWindowData[nIndex].nSpace += nSpace; nLastPos = rElement.m_aDockedData.m_aPos.Y + aPosSize.Height; } else { nSpace = 0; nLastPos += aPosSize.Height; } rRowColumnsWindowData[nIndex].aRowColumnSpace.push_back( nSpace ); rRowColumnsWindowData[nIndex].aRowColumnWindows.push_back( xWindow ); rRowColumnsWindowData[nIndex].aUIElementNames.push_back( rElement.m_aName ); rRowColumnsWindowData[nIndex].aRowColumnWindowSizes.push_back( awt::Rectangle( rElement.m_aDockedData.m_aPos.X, rElement.m_aDockedData.m_aPos.Y, aPosSize.Width, aPosSize.Height )); if ( rRowColumnsWindowData[nIndex].nStaticSize < aPosSize.Width ) rRowColumnsWindowData[nIndex].nStaticSize = aPosSize.Width; if ( eDockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) rRowColumnsWindowData[nIndex].aRowColumnRect = awt::Rectangle( nLastRowColPixelPos, 0, aPosSize.Width, aDockAreaRect.Height ); else rRowColumnsWindowData[nIndex].aRowColumnRect = awt::Rectangle( ( nLastRowColPixelPos - aPosSize.Width ), 0, aPosSize.Width, aDockAreaRect.Height ); rRowColumnsWindowData[nIndex].nVarSize += aPosSize.Height + nSpace; } } } void ToolbarLayoutManager::implts_getDockingAreaElementInfoOnSingleRowCol( ui::DockingArea eDockingArea, sal_Int32 nRowCol, SingleRowColumnWindowData& rRowColumnWindowData ) { std::vector< UIElement > aWindowVector; if (( eDockingArea < ui::DockingArea_DOCKINGAREA_TOP ) || ( eDockingArea > ui::DockingArea_DOCKINGAREA_RIGHT )) eDockingArea = ui::DockingArea_DOCKINGAREA_TOP; bool bHorzDockArea = isHorizontalDockingArea( eDockingArea ); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; UIElementVector::iterator pIter; UIElementVector::iterator pEnd = m_aUIElements.end(); for ( pIter = m_aUIElements.begin(); pIter != pEnd; ++pIter ) { if ( pIter->m_aDockedData.m_nDockedArea == eDockingArea ) { bool bSameRowCol = bHorzDockArea ? ( pIter->m_aDockedData.m_aPos.Y == nRowCol ) : ( pIter->m_aDockedData.m_aPos.X == nRowCol ); uno::Reference< ui::XUIElement > xUIElement( pIter->m_xUIElement ); if ( bSameRowCol && xUIElement.is() ) { uno::Reference< awt::XWindow > xWindow( xUIElement->getRealInterface(), uno::UNO_QUERY ); if ( xWindow.is() ) { SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( pWindow && pIter->m_bVisible && xDockWindow.is() && !pIter->m_bFloating ) aWindowVector.push_back( *pIter ); // docked windows } } } } aReadLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // Initialize structure rRowColumnWindowData.aUIElementNames.clear(); rRowColumnWindowData.aRowColumnWindows.clear(); rRowColumnWindowData.aRowColumnWindowSizes.clear(); rRowColumnWindowData.aRowColumnSpace.clear(); rRowColumnWindowData.nVarSize = 0; rRowColumnWindowData.nStaticSize = 0; rRowColumnWindowData.nSpace = 0; rRowColumnWindowData.nRowColumn = nRowCol; // Collect data from windows that are on the same row/column sal_Int32 j; sal_Int32 nLastPos( 0 ); const sal_uInt32 nCount = aWindowVector.size(); for ( j = 0; j < sal_Int32( nCount); j++ ) { const UIElement& rElement = aWindowVector[j]; uno::Reference< awt::XWindow > xWindow; uno::Reference< ui::XUIElement > xUIElement( rElement.m_xUIElement ); awt::Rectangle aPosSize; if ( !lcl_checkUIElement(xUIElement,aPosSize,xWindow) ) continue; sal_Int32 nSpace; if ( isHorizontalDockingArea( eDockingArea )) { nSpace = ( rElement.m_aDockedData.m_aPos.X - nLastPos ); // Calc space before an element and store it if ( rElement.m_aDockedData.m_aPos.X > nLastPos ) rRowColumnWindowData.nSpace += nSpace; else nSpace = 0; nLastPos = rElement.m_aDockedData.m_aPos.X + aPosSize.Width; rRowColumnWindowData.aRowColumnWindowSizes.push_back( awt::Rectangle( rElement.m_aDockedData.m_aPos.X, rElement.m_aDockedData.m_aPos.Y, aPosSize.Width, aPosSize.Height )); if ( rRowColumnWindowData.nStaticSize < aPosSize.Height ) rRowColumnWindowData.nStaticSize = aPosSize.Height; rRowColumnWindowData.nVarSize += aPosSize.Width; } else { // Calc space before an element and store it nSpace = ( rElement.m_aDockedData.m_aPos.Y - nLastPos ); if ( rElement.m_aDockedData.m_aPos.Y > nLastPos ) rRowColumnWindowData.nSpace += nSpace; else nSpace = 0; nLastPos = rElement.m_aDockedData.m_aPos.Y + aPosSize.Height; rRowColumnWindowData.aRowColumnWindowSizes.push_back( awt::Rectangle( rElement.m_aDockedData.m_aPos.X, rElement.m_aDockedData.m_aPos.Y, aPosSize.Width, aPosSize.Height )); if ( rRowColumnWindowData.nStaticSize < aPosSize.Width ) rRowColumnWindowData.nStaticSize = aPosSize.Width; rRowColumnWindowData.nVarSize += aPosSize.Height; } rRowColumnWindowData.aUIElementNames.push_back( rElement.m_aName ); rRowColumnWindowData.aRowColumnWindows.push_back( xWindow ); rRowColumnWindowData.aRowColumnSpace.push_back( nSpace ); rRowColumnWindowData.nVarSize += nSpace; } } ::Rectangle ToolbarLayoutManager::implts_getWindowRectFromRowColumn( ui::DockingArea DockingArea, const SingleRowColumnWindowData& rRowColumnWindowData, const ::Point& rMousePos, const OUString& rExcludeElementName ) { ::Rectangle aWinRect; if (( DockingArea < ui::DockingArea_DOCKINGAREA_TOP ) || ( DockingArea > ui::DockingArea_DOCKINGAREA_RIGHT )) DockingArea = ui::DockingArea_DOCKINGAREA_TOP; if ( rRowColumnWindowData.aRowColumnWindows.empty() ) return aWinRect; else { SolarMutexClearableGuard aReadLock; vcl::Window* pContainerWindow( VCLUnoHelper::GetWindow( m_xContainerWindow )); vcl::Window* pDockingAreaWindow( VCLUnoHelper::GetWindow( m_xDockAreaWindows[DockingArea] )); aReadLock.clear(); // Calc correct position of the column/row rectangle to be able to compare it with mouse pos/tracking rect SolarMutexGuard aGuard; // Retrieve output size from container Window if ( pDockingAreaWindow && pContainerWindow ) { const sal_uInt32 nCount = rRowColumnWindowData.aRowColumnWindows.size(); for ( sal_uInt32 i = 0; i < nCount; i++ ) { awt::Rectangle aWindowRect = rRowColumnWindowData.aRowColumnWindows[i]->getPosSize(); ::Rectangle aRect( aWindowRect.X, aWindowRect.Y, aWindowRect.X+aWindowRect.Width, aWindowRect.Y+aWindowRect.Height ); aRect.SetPos( pContainerWindow->ScreenToOutputPixel( pDockingAreaWindow->OutputToScreenPixel( aRect.TopLeft() ))); if ( aRect.IsInside( rMousePos )) { // Check if we have found the excluded element. If yes, we have to provide an empty rectangle. // We prevent that a toolbar cannot be moved when the mouse pointer is inside its own rectangle! if ( rExcludeElementName != rRowColumnWindowData.aUIElementNames[i] ) return aRect; else break; } } } } return aWinRect; } ::Rectangle ToolbarLayoutManager::implts_determineFrontDockingRect( ui::DockingArea eDockingArea, sal_Int32 nRowCol, const ::Rectangle& rDockedElementRect, const OUString& rMovedElementName, const ::Rectangle& rMovedElementRect ) { SingleRowColumnWindowData aRowColumnWindowData; bool bHorzDockArea( isHorizontalDockingArea( eDockingArea )); implts_getDockingAreaElementInfoOnSingleRowCol( eDockingArea, nRowCol, aRowColumnWindowData ); if ( aRowColumnWindowData.aRowColumnWindows.empty() ) return rMovedElementRect; else { sal_Int32 nSpace( 0 ); ::Rectangle aFrontDockingRect( rMovedElementRect ); const sal_uInt32 nCount = aRowColumnWindowData.aRowColumnWindows.size(); for ( sal_uInt32 i = 0; i < nCount; i++ ) { if ( bHorzDockArea ) { if ( aRowColumnWindowData.aRowColumnWindowSizes[i].X >= rDockedElementRect.Left() ) { nSpace += aRowColumnWindowData.aRowColumnSpace[i]; break; } else if ( aRowColumnWindowData.aUIElementNames[i] == rMovedElementName ) nSpace += aRowColumnWindowData.aRowColumnWindowSizes[i].Width + aRowColumnWindowData.aRowColumnSpace[i]; else nSpace = 0; } else { if ( aRowColumnWindowData.aRowColumnWindowSizes[i].Y >= rDockedElementRect.Top() ) { nSpace += aRowColumnWindowData.aRowColumnSpace[i]; break; } else if ( aRowColumnWindowData.aUIElementNames[i] == rMovedElementName ) nSpace += aRowColumnWindowData.aRowColumnWindowSizes[i].Height + aRowColumnWindowData.aRowColumnSpace[i]; else nSpace = 0; } } if ( nSpace > 0 ) { sal_Int32 nMove = std::min( nSpace, static_cast(aFrontDockingRect.getWidth()) ); if ( bHorzDockArea ) aFrontDockingRect.Move( -nMove, 0 ); else aFrontDockingRect.Move( 0, -nMove ); } return aFrontDockingRect; } } void ToolbarLayoutManager::implts_findNextDockingPos( ui::DockingArea DockingArea, const ::Size& aUIElementSize, awt::Point& rVirtualPos, ::Point& rPixelPos ) { SolarMutexClearableGuard aReadLock; if (( DockingArea < ui::DockingArea_DOCKINGAREA_TOP ) || ( DockingArea > ui::DockingArea_DOCKINGAREA_RIGHT )) DockingArea = ui::DockingArea_DOCKINGAREA_TOP; uno::Reference< awt::XWindow > xDockingWindow( m_xDockAreaWindows[DockingArea] ); ::Size aDockingWinSize; vcl::Window* pDockingWindow( 0 ); aReadLock.clear(); { // Retrieve output size from container Window SolarMutexGuard aGuard; pDockingWindow = VCLUnoHelper::GetWindow( xDockingWindow ); if ( pDockingWindow ) aDockingWinSize = pDockingWindow->GetOutputSizePixel(); } sal_Int32 nFreeRowColPixelPos( 0 ); sal_Int32 nMaxSpace( 0 ); sal_Int32 nNeededSpace( 0 ); sal_Int32 nTopDockingAreaSize( 0 ); if ( isHorizontalDockingArea( DockingArea )) { nMaxSpace = aDockingWinSize.Width(); nNeededSpace = aUIElementSize.Width(); } else { nMaxSpace = aDockingWinSize.Height(); nNeededSpace = aUIElementSize.Height(); nTopDockingAreaSize = implts_getTopBottomDockingAreaSizes().Width(); } std::vector< SingleRowColumnWindowData > aRowColumnsWindowData; implts_getDockingAreaElementInfos( DockingArea, aRowColumnsWindowData ); sal_Int32 nPixelPos( 0 ); const sal_uInt32 nCount = aRowColumnsWindowData.size(); for ( sal_uInt32 i = 0; i < nCount; i++ ) { SingleRowColumnWindowData& rRowColumnWindowData = aRowColumnsWindowData[i]; if (( DockingArea == ui::DockingArea_DOCKINGAREA_BOTTOM ) || ( DockingArea == ui::DockingArea_DOCKINGAREA_RIGHT )) nPixelPos += rRowColumnWindowData.nStaticSize; if ((( nMaxSpace - rRowColumnWindowData.nVarSize ) >= nNeededSpace ) || ( rRowColumnWindowData.nSpace >= nNeededSpace )) { // Check current row where we can find the needed space sal_Int32 nCurrPos( 0 ); const sal_uInt32 nWindowSizesCount = rRowColumnWindowData.aRowColumnWindowSizes.size(); for ( sal_uInt32 j = 0; j < nWindowSizesCount; j++ ) { awt::Rectangle rRect = rRowColumnWindowData.aRowColumnWindowSizes[j]; sal_Int32& rSpace = rRowColumnWindowData.aRowColumnSpace[j]; if ( isHorizontalDockingArea( DockingArea )) { if ( rSpace >= nNeededSpace ) { rVirtualPos = awt::Point( nCurrPos, rRowColumnWindowData.nRowColumn ); if ( DockingArea == ui::DockingArea_DOCKINGAREA_TOP ) rPixelPos = ::Point( nCurrPos, nPixelPos ); else rPixelPos = ::Point( nCurrPos, aDockingWinSize.Height() - nPixelPos ); return; } nCurrPos = rRect.X + rRect.Width; } else { if ( rSpace >= nNeededSpace ) { rVirtualPos = awt::Point( rRowColumnWindowData.nRowColumn, nCurrPos ); if ( DockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) rPixelPos = ::Point( nPixelPos, nTopDockingAreaSize + nCurrPos ); else rPixelPos = ::Point( aDockingWinSize.Width() - nPixelPos , nTopDockingAreaSize + nCurrPos ); return; } nCurrPos = rRect.Y + rRect.Height; } } if (( nCurrPos + nNeededSpace ) <= nMaxSpace ) { if ( isHorizontalDockingArea( DockingArea )) { rVirtualPos = awt::Point( nCurrPos, rRowColumnWindowData.nRowColumn ); if ( DockingArea == ui::DockingArea_DOCKINGAREA_TOP ) rPixelPos = ::Point( nCurrPos, nPixelPos ); else rPixelPos = ::Point( nCurrPos, aDockingWinSize.Height() - nPixelPos ); return; } else { rVirtualPos = awt::Point( rRowColumnWindowData.nRowColumn, nCurrPos ); if ( DockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) rPixelPos = ::Point( nPixelPos, nTopDockingAreaSize + nCurrPos ); else rPixelPos = ::Point( aDockingWinSize.Width() - nPixelPos , nTopDockingAreaSize + nCurrPos ); return; } } } if (( DockingArea == ui::DockingArea_DOCKINGAREA_TOP ) || ( DockingArea == ui::DockingArea_DOCKINGAREA_LEFT )) nPixelPos += rRowColumnWindowData.nStaticSize; } sal_Int32 nNextFreeRowCol( 0 ); sal_Int32 nRowColumnsCount = aRowColumnsWindowData.size(); if ( nRowColumnsCount > 0 ) nNextFreeRowCol = aRowColumnsWindowData[nRowColumnsCount-1].nRowColumn+1; else nNextFreeRowCol = 0; if ( nNextFreeRowCol == 0 ) { if ( DockingArea == ui::DockingArea_DOCKINGAREA_BOTTOM ) nFreeRowColPixelPos = aDockingWinSize.Height() - aUIElementSize.Height(); else if ( DockingArea == ui::DockingArea_DOCKINGAREA_RIGHT ) nFreeRowColPixelPos = aDockingWinSize.Width() - aUIElementSize.Width(); } if ( isHorizontalDockingArea( DockingArea )) { rVirtualPos = awt::Point( 0, nNextFreeRowCol ); if ( DockingArea == ui::DockingArea_DOCKINGAREA_TOP ) rPixelPos = ::Point( 0, nFreeRowColPixelPos ); else rPixelPos = ::Point( 0, aDockingWinSize.Height() - nFreeRowColPixelPos ); } else { rVirtualPos = awt::Point( nNextFreeRowCol, 0 ); rPixelPos = ::Point( aDockingWinSize.Width() - nFreeRowColPixelPos, 0 ); } } void ToolbarLayoutManager::implts_calcWindowPosSizeOnSingleRowColumn( sal_Int32 nDockingArea, sal_Int32 nOffset, SingleRowColumnWindowData& rRowColumnWindowData, const ::Size& rContainerSize ) { sal_Int32 nDiff(0); sal_Int32 nRCSpace( rRowColumnWindowData.nSpace ); sal_Int32 nTopDockingAreaSize(0); sal_Int32 nBottomDockingAreaSize(0); sal_Int32 nContainerClientSize(0); if ( rRowColumnWindowData.aRowColumnWindows.empty() ) return; if ( isHorizontalDockingArea( nDockingArea )) { nContainerClientSize = rContainerSize.Width(); nDiff = nContainerClientSize - rRowColumnWindowData.nVarSize; } else { nTopDockingAreaSize = implts_getTopBottomDockingAreaSizes().Width(); nBottomDockingAreaSize = implts_getTopBottomDockingAreaSizes().Height(); nContainerClientSize = ( rContainerSize.Height() - nTopDockingAreaSize - nBottomDockingAreaSize ); nDiff = nContainerClientSize - rRowColumnWindowData.nVarSize; } const sal_uInt32 nCount = rRowColumnWindowData.aRowColumnWindowSizes.size(); if (( nDiff < 0 ) && ( nRCSpace > 0 )) { // First we try to reduce the size of blank space before/behind docked windows sal_Int32 i = nCount - 1; while ( i >= 0 ) { sal_Int32 nSpace = rRowColumnWindowData.aRowColumnSpace[i]; if ( nSpace >= -nDiff ) { if ( isHorizontalDockingArea( nDockingArea )) { // Try to move this and all user elements behind with the calculated difference for ( sal_uInt32 j = i; j < nCount; j++ ) rRowColumnWindowData.aRowColumnWindowSizes[j].X += nDiff; } else { // Try to move this and all user elements behind with the calculated difference for ( sal_uInt32 j = i; j < nCount; j++ ) rRowColumnWindowData.aRowColumnWindowSizes[j].Y += nDiff; } nDiff = 0; break; } else if ( nSpace > 0 ) { if ( isHorizontalDockingArea( nDockingArea )) { // Try to move this and all user elements behind with the calculated difference for ( sal_uInt32 j = i; j < nCount; j++ ) rRowColumnWindowData.aRowColumnWindowSizes[j].X -= nSpace; } else { // Try to move this and all user elements behind with the calculated difference for ( sal_uInt32 j = i; j < nCount; j++ ) rRowColumnWindowData.aRowColumnWindowSizes[j].Y -= nSpace; } nDiff += nSpace; } --i; } } // Check if we have to reduce further if ( nDiff < 0 ) { // Now we have to reduce the size of certain docked windows sal_Int32 i = sal_Int32( nCount - 1 ); while ( i >= 0 ) { awt::Rectangle& rWinRect = rRowColumnWindowData.aRowColumnWindowSizes[i]; ::Size aMinSize; SolarMutexGuard aGuard; { uno::Reference< awt::XWindow > xWindow = rRowColumnWindowData.aRowColumnWindows[i]; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) aMinSize = static_cast(pWindow)->CalcMinimumWindowSizePixel(); } if (( aMinSize.Width() > 0 ) && ( aMinSize.Height() > 0 )) { if ( isHorizontalDockingArea( nDockingArea )) { sal_Int32 nMaxReducation = ( rWinRect.Width - aMinSize.Width() ); if ( nMaxReducation >= -nDiff ) { rWinRect.Width = rWinRect.Width + nDiff; nDiff = 0; } else { rWinRect.Width = aMinSize.Width(); nDiff += nMaxReducation; } // Try to move this and all user elements behind with the calculated difference for ( sal_uInt32 j = i; j < nCount; j++ ) rRowColumnWindowData.aRowColumnWindowSizes[j].X += nDiff; } else { sal_Int32 nMaxReducation = ( rWinRect.Height - aMinSize.Height() ); if ( nMaxReducation >= -nDiff ) { rWinRect.Height = rWinRect.Height + nDiff; nDiff = 0; } else { rWinRect.Height = aMinSize.Height(); nDiff += nMaxReducation; } // Try to move this and all user elements behind with the calculated difference for ( sal_uInt32 j = i; j < nCount; j++ ) rRowColumnWindowData.aRowColumnWindowSizes[j].Y += nDiff; } } if ( nDiff >= 0 ) break; --i; } } SolarMutexClearableGuard aReadLock; vcl::Window* pDockAreaWindow = VCLUnoHelper::GetWindow( m_xDockAreaWindows[nDockingArea] ); aReadLock.clear(); sal_Int32 nCurrPos( 0 ); SolarMutexGuard aGuard; for ( sal_uInt32 i = 0; i < nCount; i++ ) { uno::Reference< awt::XWindow > xWindow = rRowColumnWindowData.aRowColumnWindows[i]; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); vcl::Window* pOldParentWindow = pWindow->GetParent(); if ( pDockAreaWindow != pOldParentWindow ) pWindow->SetParent( pDockAreaWindow ); awt::Rectangle aWinRect = rRowColumnWindowData.aRowColumnWindowSizes[i]; if ( isHorizontalDockingArea( nDockingArea )) { if ( aWinRect.X < nCurrPos ) aWinRect.X = nCurrPos; pWindow->SetPosSizePixel( ::Point( aWinRect.X, nOffset ), ::Size( aWinRect.Width, rRowColumnWindowData.nStaticSize )); pWindow->Show( true, ShowFlags::NoFocusChange | ShowFlags::NoActivate ); nCurrPos += ( aWinRect.X - nCurrPos ) + aWinRect.Width; } else { if ( aWinRect.Y < nCurrPos ) aWinRect.Y = nCurrPos; pWindow->SetPosSizePixel( ::Point( nOffset, aWinRect.Y ), ::Size( rRowColumnWindowData.nStaticSize, aWinRect.Height )); pWindow->Show( true, ShowFlags::NoFocusChange | ShowFlags::NoActivate ); nCurrPos += ( aWinRect.Y - nCurrPos ) + aWinRect.Height; } } } void ToolbarLayoutManager::implts_setLayoutDirty() { SolarMutexGuard g; m_bLayoutDirty = true; } void ToolbarLayoutManager::implts_setLayoutInProgress( bool bInProgress ) { SolarMutexGuard g; m_bLayoutInProgress = bInProgress; } ::Rectangle ToolbarLayoutManager::implts_calcHotZoneRect( const ::Rectangle& rRect, sal_Int32 nHotZoneOffset ) { ::Rectangle aRect( rRect ); aRect.Left() -= nHotZoneOffset; aRect.Top() -= nHotZoneOffset; aRect.Right() += nHotZoneOffset; aRect.Bottom() += nHotZoneOffset; return aRect; } void ToolbarLayoutManager::implts_calcDockingPosSize( UIElement& rUIElement, DockingOperation& rDockingOperation, ::Rectangle& rTrackingRect, const Point& rMousePos ) { SolarMutexResettableGuard aReadLock; uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow ); ::Size aContainerWinSize; vcl::Window* pContainerWindow( 0 ); ::Rectangle aDockingAreaOffsets( m_aDockingAreaOffsets ); aReadLock.clear(); if ( !rUIElement.m_xUIElement.is() ) { rTrackingRect = ::Rectangle(); return; } { // Retrieve output size from container Window SolarMutexGuard aGuard; pContainerWindow = VCLUnoHelper::GetWindow( xContainerWindow ); aContainerWinSize = pContainerWindow->GetOutputSizePixel(); } vcl::Window* pDockingAreaWindow( 0 ); ToolBox* pToolBox( 0 ); uno::Reference< awt::XWindow > xWindow( rUIElement.m_xUIElement->getRealInterface(), uno::UNO_QUERY ); uno::Reference< awt::XWindow > xDockingAreaWindow; ::Rectangle aTrackingRect( rTrackingRect ); ui::DockingArea eDockedArea( (ui::DockingArea)rUIElement.m_aDockedData.m_nDockedArea ); sal_Int32 nTopDockingAreaSize( implts_getTopBottomDockingAreaSizes().Width() ); sal_Int32 nBottomDockingAreaSize( implts_getTopBottomDockingAreaSizes().Height() ); bool bHorizontalDockArea(( eDockedArea == ui::DockingArea_DOCKINGAREA_TOP ) || ( eDockedArea == ui::DockingArea_DOCKINGAREA_BOTTOM )); sal_Int32 nMaxLeftRightDockAreaSize = aContainerWinSize.Height() - nTopDockingAreaSize - nBottomDockingAreaSize - aDockingAreaOffsets.Top() - aDockingAreaOffsets.Bottom(); ::Rectangle aDockingAreaRect; aReadLock.reset(); xDockingAreaWindow = m_xDockAreaWindows[eDockedArea]; aReadLock.clear(); { SolarMutexGuard aGuard; pDockingAreaWindow = VCLUnoHelper::GetWindow( xDockingAreaWindow ); vcl::Window* pDockWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pDockWindow && pDockWindow->GetType() == WINDOW_TOOLBOX ) pToolBox = static_cast(pDockWindow); aDockingAreaRect = ::Rectangle( pDockingAreaWindow->GetPosPixel(), pDockingAreaWindow->GetSizePixel() ); if ( pToolBox ) { // docked toolbars always have one line ::Size aSize = pToolBox->CalcWindowSizePixel( 1, ImplConvertAlignment( sal_Int16( eDockedArea )) ); aTrackingRect.SetSize( ::Size( aSize.Width(), aSize.Height() )); } } // default docking operation, dock on the given row/column bool bOpOutsideOfDockingArea( !aDockingAreaRect.IsInside( rMousePos )); std::vector< SingleRowColumnWindowData > aRowColumnsWindowData; rDockingOperation = DOCKOP_ON_COLROW; implts_getDockingAreaElementInfos( eDockedArea, aRowColumnsWindowData ); // determine current first row/column and last row/column sal_Int32 nMaxRowCol( -1 ); sal_Int32 nMinRowCol( SAL_MAX_INT32 ); const sal_uInt32 nCount = aRowColumnsWindowData.size(); for ( sal_uInt32 i = 0; i < nCount; i++ ) { if ( aRowColumnsWindowData[i].nRowColumn > nMaxRowCol ) nMaxRowCol = aRowColumnsWindowData[i].nRowColumn; if ( aRowColumnsWindowData[i].nRowColumn < nMinRowCol ) nMinRowCol = aRowColumnsWindowData[i].nRowColumn; } if ( !bOpOutsideOfDockingArea ) { // docking inside our docking area sal_Int32 nIndex( -1 ); sal_Int32 nRowCol( -1 ); ::Rectangle aWindowRect; ::Rectangle aRowColumnRect; const sal_uInt32 nWindowDataCount = aRowColumnsWindowData.size(); for ( sal_uInt32 i = 0; i < nWindowDataCount; i++ ) { ::Rectangle aRect( aRowColumnsWindowData[i].aRowColumnRect.X, aRowColumnsWindowData[i].aRowColumnRect.Y, aRowColumnsWindowData[i].aRowColumnRect.X + aRowColumnsWindowData[i].aRowColumnRect.Width, aRowColumnsWindowData[i].aRowColumnRect.Y + aRowColumnsWindowData[i].aRowColumnRect.Height ); { // Calc correct position of the column/row rectangle to be able to compare it with mouse pos/tracking rect SolarMutexGuard aGuard; aRect.SetPos( pContainerWindow->ScreenToOutputPixel( pDockingAreaWindow->OutputToScreenPixel( aRect.TopLeft() ))); } bool bIsInsideRowCol( aRect.IsInside( rMousePos ) ); if ( bIsInsideRowCol ) { nIndex = i; nRowCol = aRowColumnsWindowData[i].nRowColumn; rDockingOperation = implts_determineDockingOperation( eDockedArea, aRect, rMousePos ); aWindowRect = implts_getWindowRectFromRowColumn( eDockedArea, aRowColumnsWindowData[i], rMousePos, rUIElement.m_aName ); aRowColumnRect = aRect; break; } } OSL_ENSURE( ( nIndex >= 0 ) && ( nRowCol >= 0 ), "Impossible case - no row/column found but mouse pointer is inside our docking area" ); if (( nIndex >= 0 ) && ( nRowCol >= 0 )) { if ( rDockingOperation == DOCKOP_ON_COLROW ) { if ( !aWindowRect.IsEmpty()) { // Tracking rect is on a row/column and mouse is over a docked toolbar. // Determine if the tracking rect must be located before/after the docked toolbar. ::Rectangle aUIElementRect( aWindowRect ); sal_Int32 nMiddle( bHorizontalDockArea ? ( aWindowRect.Left() + aWindowRect.getWidth() / 2 ) : ( aWindowRect.Top() + aWindowRect.getHeight() / 2 )); bool bInsertBefore( bHorizontalDockArea ? ( rMousePos.X() < nMiddle ) : ( rMousePos.Y() < nMiddle )); if ( bInsertBefore ) { if ( bHorizontalDockArea ) { sal_Int32 nSize = ::std::max( sal_Int32( 0 ), std::min( sal_Int32( aContainerWinSize.Width() - aWindowRect.Left() ), sal_Int32( aTrackingRect.getWidth() ))); if ( nSize == 0 ) nSize = aWindowRect.getWidth(); aUIElementRect.SetSize( ::Size( nSize, aWindowRect.getHeight() )); aWindowRect = implts_determineFrontDockingRect( eDockedArea, nRowCol, aWindowRect,rUIElement.m_aName, aUIElementRect ); // Set virtual position rUIElement.m_aDockedData.m_aPos.X = aWindowRect.Left(); rUIElement.m_aDockedData.m_aPos.Y = nRowCol; } else { sal_Int32 nSize = ::std::max( sal_Int32( 0 ), std::min( sal_Int32( nTopDockingAreaSize + nMaxLeftRightDockAreaSize - aWindowRect.Top() ), sal_Int32( aTrackingRect.getHeight() ))); if ( nSize == 0 ) nSize = aWindowRect.getHeight(); aUIElementRect.SetSize( ::Size( aWindowRect.getWidth(), nSize )); aWindowRect = implts_determineFrontDockingRect( eDockedArea, nRowCol, aWindowRect, rUIElement.m_aName, aUIElementRect ); // Set virtual position sal_Int32 nPosY = pDockingAreaWindow->ScreenToOutputPixel( pContainerWindow->OutputToScreenPixel( aWindowRect.TopLeft() )).Y(); rUIElement.m_aDockedData.m_aPos.X = nRowCol; rUIElement.m_aDockedData.m_aPos.Y = nPosY; } rTrackingRect = aWindowRect; return; } else { if ( bHorizontalDockArea ) { sal_Int32 nSize = ::std::max( sal_Int32( 0 ), std::min( sal_Int32(( aContainerWinSize.Width() ) - aWindowRect.Right() ), sal_Int32( aTrackingRect.getWidth() ))); if ( nSize == 0 ) { aUIElementRect.SetPos( ::Point( aContainerWinSize.Width() - aTrackingRect.getWidth(), aWindowRect.Top() )); aUIElementRect.SetSize( ::Size( aTrackingRect.getWidth(), aWindowRect.getHeight() )); rUIElement.m_aDockedData.m_aPos.X = aUIElementRect.Left(); } else { aUIElementRect.SetPos( ::Point( aWindowRect.Right(), aWindowRect.Top() )); aUIElementRect.SetSize( ::Size( nSize, aWindowRect.getHeight() )); rUIElement.m_aDockedData.m_aPos.X = aWindowRect.Right(); } // Set virtual position rUIElement.m_aDockedData.m_aPos.Y = nRowCol; } else { sal_Int32 nSize = ::std::max( sal_Int32( 0 ), std::min( sal_Int32( nTopDockingAreaSize + nMaxLeftRightDockAreaSize - aWindowRect.Bottom() ), sal_Int32( aTrackingRect.getHeight() ))); aUIElementRect.SetPos( ::Point( aWindowRect.Left(), aWindowRect.Bottom() )); aUIElementRect.SetSize( ::Size( aWindowRect.getWidth(), nSize )); // Set virtual position sal_Int32 nPosY( 0 ); { SolarMutexGuard aGuard; nPosY = pDockingAreaWindow->ScreenToOutputPixel( pContainerWindow->OutputToScreenPixel( aWindowRect.BottomRight() )).Y(); } rUIElement.m_aDockedData.m_aPos.X = nRowCol; rUIElement.m_aDockedData.m_aPos.Y = nPosY; } rTrackingRect = aUIElementRect; return; } } else { implts_setTrackingRect( eDockedArea, rMousePos, aTrackingRect ); rTrackingRect = implts_calcTrackingAndElementRect( eDockedArea, nRowCol, rUIElement, aTrackingRect, aRowColumnRect, aContainerWinSize ); return; } } else { if ((( nRowCol == nMinRowCol ) && ( rDockingOperation == DOCKOP_BEFORE_COLROW )) || (( nRowCol == nMaxRowCol ) && ( rDockingOperation == DOCKOP_AFTER_COLROW ))) bOpOutsideOfDockingArea = true; else { // handle docking before/after a row implts_setTrackingRect( eDockedArea, rMousePos, aTrackingRect ); rTrackingRect = implts_calcTrackingAndElementRect( eDockedArea, nRowCol, rUIElement, aTrackingRect, aRowColumnRect, aContainerWinSize ); sal_Int32 nOffsetX( 0 ); sal_Int32 nOffsetY( 0 ); if ( bHorizontalDockArea ) nOffsetY = sal_Int32( floor( aRowColumnRect.getHeight() / 2.0 + 0.5 )); else nOffsetX = sal_Int32( floor( aRowColumnRect.getWidth() / 2.0 + 0.5 )); if ( rDockingOperation == DOCKOP_BEFORE_COLROW ) { if (( eDockedArea == ui::DockingArea_DOCKINGAREA_TOP ) || ( eDockedArea == ui::DockingArea_DOCKINGAREA_LEFT )) { // Docking before/after means move track rectangle half column/row. // As left and top are ordered 0...n instead of right and bottom // which uses n...0, we have to use negative values for top/left. nOffsetX *= -1; nOffsetY *= -1; } } else { if (( eDockedArea == ui::DockingArea_DOCKINGAREA_BOTTOM ) || ( eDockedArea == ui::DockingArea_DOCKINGAREA_RIGHT )) { // Docking before/after means move track rectangle half column/row. // As left and top are ordered 0...n instead of right and bottom // which uses n...0, we have to use negative values for top/left. nOffsetX *= -1; nOffsetY *= -1; } nRowCol++; } if ( bHorizontalDockArea ) rUIElement.m_aDockedData.m_aPos.Y = nRowCol; else rUIElement.m_aDockedData.m_aPos.X = nRowCol; rTrackingRect.Move( nOffsetX, nOffsetY ); rTrackingRect.SetSize( aTrackingRect.GetSize() ); } } } } // Docking outside of our docking window area => // Users want to dock before/after first/last docked element or to an empty docking area if ( bOpOutsideOfDockingArea ) { // set correct size for docking implts_setTrackingRect( eDockedArea, rMousePos, aTrackingRect ); rTrackingRect = aTrackingRect; if ( bHorizontalDockArea ) { sal_Int32 nPosX( std::max( sal_Int32( rTrackingRect.Left()), sal_Int32( 0 ))); if (( nPosX + rTrackingRect.getWidth()) > aContainerWinSize.Width() ) nPosX = std::min( nPosX, std::max( sal_Int32( aContainerWinSize.Width() - rTrackingRect.getWidth() ), sal_Int32( 0 ))); sal_Int32 nSize = std::min( aContainerWinSize.Width(), rTrackingRect.getWidth() ); sal_Int32 nDockHeight = std::max( static_cast(aDockingAreaRect.getHeight()), sal_Int32( 0 )); if ( nDockHeight == 0 ) { sal_Int32 nPosY( std::max( aDockingAreaRect.Top(), aDockingAreaRect.Bottom() )); if ( eDockedArea == ui::DockingArea_DOCKINGAREA_BOTTOM ) nPosY -= rTrackingRect.getHeight(); rTrackingRect.SetPos( Point( nPosX, nPosY )); rUIElement.m_aDockedData.m_aPos.Y = 0; } else if ( rMousePos.Y() < ( aDockingAreaRect.Top() + ( nDockHeight / 2 ))) { rTrackingRect.SetPos( Point( nPosX, aDockingAreaRect.Top() - rTrackingRect.getHeight() )); if ( eDockedArea == ui::DockingArea_DOCKINGAREA_TOP ) rUIElement.m_aDockedData.m_aPos.Y = 0; else rUIElement.m_aDockedData.m_aPos.Y = ( nMaxRowCol >= 0 ) ? nMaxRowCol+1 : 0; rDockingOperation = DOCKOP_BEFORE_COLROW; } else { rTrackingRect.SetPos( Point( nPosX, aDockingAreaRect.Bottom() )); if ( eDockedArea == ui::DockingArea_DOCKINGAREA_TOP ) rUIElement.m_aDockedData.m_aPos.Y = ( nMaxRowCol >= 0 ) ? nMaxRowCol+1 : 0; else rUIElement.m_aDockedData.m_aPos.Y = 0; rDockingOperation = DOCKOP_AFTER_COLROW; } rTrackingRect.setWidth( nSize ); { SolarMutexGuard aGuard; nPosX = pDockingAreaWindow->ScreenToOutputPixel( pContainerWindow->OutputToScreenPixel( rTrackingRect.TopLeft() )).X(); } rUIElement.m_aDockedData.m_aPos.X = nPosX; } else { sal_Int32 nMaxDockingAreaHeight = std::max( sal_Int32( 0 ), sal_Int32( nMaxLeftRightDockAreaSize )); sal_Int32 nPosY( std::max( sal_Int32( aTrackingRect.Top()), sal_Int32( nTopDockingAreaSize ))); if (( nPosY + aTrackingRect.getHeight()) > ( nTopDockingAreaSize + nMaxDockingAreaHeight )) nPosY = std::min( nPosY, std::max( sal_Int32( nTopDockingAreaSize + ( nMaxDockingAreaHeight - aTrackingRect.getHeight() )), sal_Int32( nTopDockingAreaSize ))); sal_Int32 nSize = std::min( nMaxDockingAreaHeight, static_cast(aTrackingRect.getHeight()) ); sal_Int32 nDockWidth = std::max( static_cast(aDockingAreaRect.getWidth()), sal_Int32( 0 )); if ( nDockWidth == 0 ) { sal_Int32 nPosX( std::max( aDockingAreaRect.Left(), aDockingAreaRect.Right() )); if ( eDockedArea == ui::DockingArea_DOCKINGAREA_RIGHT ) nPosX -= rTrackingRect.getWidth(); rTrackingRect.SetPos( Point( nPosX, nPosY )); rUIElement.m_aDockedData.m_aPos.X = 0; } else if ( rMousePos.X() < ( aDockingAreaRect.Left() + ( nDockWidth / 2 ))) { rTrackingRect.SetPos( Point( aDockingAreaRect.Left() - rTrackingRect.getWidth(), nPosY )); if ( eDockedArea == ui::DockingArea_DOCKINGAREA_LEFT ) rUIElement.m_aDockedData.m_aPos.X = 0; else rUIElement.m_aDockedData.m_aPos.X = ( nMaxRowCol >= 0 ) ? nMaxRowCol+1 : 0; rDockingOperation = DOCKOP_BEFORE_COLROW; } else { rTrackingRect.SetPos( Point( aDockingAreaRect.Right(), nPosY )); if ( eDockedArea == ui::DockingArea_DOCKINGAREA_LEFT ) rUIElement.m_aDockedData.m_aPos.X = ( nMaxRowCol >= 0 ) ? nMaxRowCol+1 : 0; else rUIElement.m_aDockedData.m_aPos.X = 0; rDockingOperation = DOCKOP_AFTER_COLROW; } rTrackingRect.setHeight( nSize ); { SolarMutexGuard aGuard; nPosY = pDockingAreaWindow->ScreenToOutputPixel( pContainerWindow->OutputToScreenPixel( rTrackingRect.TopLeft() )).Y(); } rUIElement.m_aDockedData.m_aPos.Y = nPosY; } } } framework::ToolbarLayoutManager::DockingOperation ToolbarLayoutManager::implts_determineDockingOperation( ui::DockingArea DockingArea, const ::Rectangle& rRowColRect, const Point& rMousePos ) { const sal_Int32 nHorzVerticalRegionSize = 6; const sal_Int32 nHorzVerticalMoveRegion = 4; if ( rRowColRect.IsInside( rMousePos )) { if ( isHorizontalDockingArea( DockingArea )) { sal_Int32 nRegion = rRowColRect.getHeight() / nHorzVerticalRegionSize; sal_Int32 nPosY = rRowColRect.Top() + nRegion; if ( rMousePos.Y() < nPosY ) return ( DockingArea == ui::DockingArea_DOCKINGAREA_TOP ) ? DOCKOP_BEFORE_COLROW : DOCKOP_AFTER_COLROW; else if ( rMousePos.Y() < ( nPosY + nRegion*nHorzVerticalMoveRegion )) return DOCKOP_ON_COLROW; else return ( DockingArea == ui::DockingArea_DOCKINGAREA_TOP ) ? DOCKOP_AFTER_COLROW : DOCKOP_BEFORE_COLROW; } else { sal_Int32 nRegion = rRowColRect.getWidth() / nHorzVerticalRegionSize; sal_Int32 nPosX = rRowColRect.Left() + nRegion; if ( rMousePos.X() < nPosX ) return ( DockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) ? DOCKOP_BEFORE_COLROW : DOCKOP_AFTER_COLROW; else if ( rMousePos.X() < ( nPosX + nRegion*nHorzVerticalMoveRegion )) return DOCKOP_ON_COLROW; else return ( DockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) ? DOCKOP_AFTER_COLROW : DOCKOP_BEFORE_COLROW; } } else return DOCKOP_ON_COLROW; } ::Rectangle ToolbarLayoutManager::implts_calcTrackingAndElementRect( ui::DockingArea eDockingArea, sal_Int32 nRowCol, UIElement& rUIElement, const ::Rectangle& rTrackingRect, const ::Rectangle& rRowColumnRect, const ::Size& rContainerWinSize ) { SolarMutexResettableGuard aReadGuard; ::Rectangle aDockingAreaOffsets( m_aDockingAreaOffsets ); aReadGuard.clear(); bool bHorizontalDockArea( isHorizontalDockingArea( eDockingArea )); sal_Int32 nTopDockingAreaSize( implts_getTopBottomDockingAreaSizes().Width() ); sal_Int32 nBottomDockingAreaSize( implts_getTopBottomDockingAreaSizes().Height() ); sal_Int32 nMaxLeftRightDockAreaSize = rContainerWinSize.Height() - nTopDockingAreaSize - nBottomDockingAreaSize - aDockingAreaOffsets.Top() - aDockingAreaOffsets.Bottom(); ::Rectangle aTrackingRect( rTrackingRect ); if ( bHorizontalDockArea ) { sal_Int32 nPosX( std::max( sal_Int32( rTrackingRect.Left()), sal_Int32( 0 ))); if (( nPosX + rTrackingRect.getWidth()) > rContainerWinSize.Width() ) nPosX = std::min( nPosX, std::max( sal_Int32( rContainerWinSize.Width() - rTrackingRect.getWidth() ), sal_Int32( 0 ))); sal_Int32 nSize = std::min( rContainerWinSize.Width(), rTrackingRect.getWidth() ); aTrackingRect.SetPos( ::Point( nPosX, rRowColumnRect.Top() )); aTrackingRect.setWidth( nSize ); aTrackingRect.setHeight( rRowColumnRect.getHeight() ); // Set virtual position rUIElement.m_aDockedData.m_aPos.X = nPosX; rUIElement.m_aDockedData.m_aPos.Y = nRowCol; } else { sal_Int32 nMaxDockingAreaHeight = std::max( sal_Int32( 0 ), sal_Int32( nMaxLeftRightDockAreaSize )); sal_Int32 nPosY( std::max( sal_Int32( aTrackingRect.Top()), sal_Int32( nTopDockingAreaSize ))); if (( nPosY + aTrackingRect.getHeight()) > ( nTopDockingAreaSize + nMaxDockingAreaHeight )) nPosY = std::min( nPosY, std::max( sal_Int32( nTopDockingAreaSize + ( nMaxDockingAreaHeight - aTrackingRect.getHeight() )), sal_Int32( nTopDockingAreaSize ))); sal_Int32 nSize = std::min( nMaxDockingAreaHeight, static_cast(aTrackingRect.getHeight()) ); aTrackingRect.SetPos( ::Point( rRowColumnRect.Left(), nPosY )); aTrackingRect.setWidth( rRowColumnRect.getWidth() ); aTrackingRect.setHeight( nSize ); aReadGuard.reset(); uno::Reference< awt::XWindow > xDockingAreaWindow( m_xDockAreaWindows[eDockingArea] ); uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow ); aReadGuard.clear(); sal_Int32 nDockPosY( 0 ); vcl::Window* pDockingAreaWindow( 0 ); { SolarMutexGuard aGuard; pDockingAreaWindow = VCLUnoHelper::GetWindow( xDockingAreaWindow ); vcl::Window* pContainerWindow = VCLUnoHelper::GetWindow( xContainerWindow ); nDockPosY = pDockingAreaWindow->ScreenToOutputPixel( pContainerWindow->OutputToScreenPixel( ::Point( 0, nPosY ))).Y(); } // Set virtual position rUIElement.m_aDockedData.m_aPos.X = nRowCol; rUIElement.m_aDockedData.m_aPos.Y = nDockPosY; } return aTrackingRect; } void ToolbarLayoutManager::implts_setTrackingRect( ui::DockingArea eDockingArea, const ::Point& rMousePos, ::Rectangle& rTrackingRect ) { ::Point aPoint( rTrackingRect.TopLeft()); if ( isHorizontalDockingArea( eDockingArea )) aPoint.X() = rMousePos.X(); else aPoint.Y() = rMousePos.Y(); rTrackingRect.SetPos( aPoint ); } void ToolbarLayoutManager::implts_renumberRowColumnData( ui::DockingArea eDockingArea, DockingOperation /*eDockingOperation*/, const UIElement& rUIElement ) { SolarMutexClearableGuard aReadLock; uno::Reference< container::XNameAccess > xPersistentWindowState( m_xPersistentWindowState ); aReadLock.clear(); bool bHorzDockingArea( isHorizontalDockingArea( eDockingArea )); sal_Int32 nRowCol( bHorzDockingArea ? rUIElement.m_aDockedData.m_aPos.Y : rUIElement.m_aDockedData.m_aPos.X ); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; UIElementVector::iterator pIter; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if (( pIter->m_aDockedData.m_nDockedArea == sal_Int16( eDockingArea )) && ( pIter->m_aName != rUIElement.m_aName )) { // Don't change toolbars without a valid docking position! if ( isDefaultPos( pIter->m_aDockedData.m_aPos )) continue; sal_Int32 nWindowRowCol = ( bHorzDockingArea ) ? pIter->m_aDockedData.m_aPos.Y : pIter->m_aDockedData.m_aPos.X; if ( nWindowRowCol >= nRowCol ) { if ( bHorzDockingArea ) pIter->m_aDockedData.m_aPos.Y += 1; else pIter->m_aDockedData.m_aPos.X += 1; } } } aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // We have to change the persistent window state part if ( xPersistentWindowState.is() ) { try { uno::Sequence< OUString > aWindowElements = xPersistentWindowState->getElementNames(); for ( sal_Int32 i = 0; i < aWindowElements.getLength(); i++ ) { if ( rUIElement.m_aName != aWindowElements[i] ) { try { uno::Sequence< beans::PropertyValue > aPropValueSeq; awt::Point aDockedPos; ui::DockingArea nDockedArea( ui::DockingArea_DOCKINGAREA_DEFAULT ); xPersistentWindowState->getByName( aWindowElements[i] ) >>= aPropValueSeq; for ( sal_Int32 j = 0; j < aPropValueSeq.getLength(); j++ ) { if ( aPropValueSeq[j].Name == WINDOWSTATE_PROPERTY_DOCKINGAREA ) aPropValueSeq[j].Value >>= nDockedArea; else if ( aPropValueSeq[j].Name == WINDOWSTATE_PROPERTY_DOCKPOS ) aPropValueSeq[j].Value >>= aDockedPos; } // Don't change toolbars without a valid docking position! if ( isDefaultPos( aDockedPos )) continue; sal_Int32 nWindowRowCol = ( bHorzDockingArea ) ? aDockedPos.Y : aDockedPos.X; if (( nDockedArea == eDockingArea ) && ( nWindowRowCol >= nRowCol )) { if ( bHorzDockingArea ) aDockedPos.Y += 1; else aDockedPos.X += 1; uno::Reference< container::XNameReplace > xReplace( xPersistentWindowState, uno::UNO_QUERY ); xReplace->replaceByName( aWindowElements[i], makeAny( aPropValueSeq )); } } catch (const uno::Exception&) { } } } } catch (const uno::Exception&) { } } } // XWindowListener void SAL_CALL ToolbarLayoutManager::windowResized( const awt::WindowEvent& aEvent ) throw( uno::RuntimeException, std::exception ) { SolarMutexClearableGuard aWriteLock; bool bLocked( m_bDockingInProgress ); bool bLayoutInProgress( m_bLayoutInProgress ); aWriteLock.clear(); // Do not do anything if we are in the middle of a docking process. This would interfere all other // operations. We will store the new position and size in the docking handlers. // Do not do anything if we are in the middle of our layouting process. We will adapt the position // and size of the user interface elements. if ( !bLocked && !bLayoutInProgress ) { bool bNotify( false ); uno::Reference< awt::XWindow > xWindow( aEvent.Source, uno::UNO_QUERY ); UIElement aUIElement = implts_findToolbar( aEvent.Source ); if ( aUIElement.m_xUIElement.is() ) { if ( aUIElement.m_bFloating ) { uno::Reference< awt::XWindow2 > xWindow2( xWindow, uno::UNO_QUERY ); if( xWindow2.is() ) { awt::Rectangle aPos = xWindow2->getPosSize(); awt::Size aSize = xWindow2->getOutputSize(); // always use output size for consistency bool bVisible = xWindow2->isVisible(); // update element data aUIElement.m_aFloatingData.m_aPos = awt::Point(aPos.X, aPos.Y); aUIElement.m_aFloatingData.m_aSize = aSize; aUIElement.m_bVisible = bVisible; } implts_writeWindowStateData( aUIElement ); } else { implts_setLayoutDirty(); bNotify = true; } } if ( bNotify ) m_pParentLayouter->requestLayout( ILayoutNotifications::HINT_TOOLBARSPACE_HAS_CHANGED ); } } void SAL_CALL ToolbarLayoutManager::windowMoved( const awt::WindowEvent& /*aEvent*/ ) throw( uno::RuntimeException, std::exception ) { } void SAL_CALL ToolbarLayoutManager::windowShown( const lang::EventObject& /*aEvent*/ ) throw( uno::RuntimeException, std::exception ) { } void SAL_CALL ToolbarLayoutManager::windowHidden( const lang::EventObject& /*aEvent*/ ) throw( uno::RuntimeException, std::exception ) { } // XDockableWindowListener void SAL_CALL ToolbarLayoutManager::startDocking( const awt::DockingEvent& e ) throw (uno::RuntimeException, std::exception) { bool bWinFound( false ); SolarMutexClearableGuard aReadGuard; uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow ); uno::Reference< awt::XWindow2 > xWindow( e.Source, uno::UNO_QUERY ); aReadGuard.clear(); vcl::Window* pContainerWindow( 0 ); ::Point aMousePos; { SolarMutexGuard aGuard; pContainerWindow = VCLUnoHelper::GetWindow( xContainerWindow ); aMousePos = pContainerWindow->ScreenToOutputPixel( ::Point( e.MousePos.X, e.MousePos.Y )); } UIElement aUIElement = implts_findToolbar( e.Source ); if ( aUIElement.m_xUIElement.is() && xWindow.is() ) { awt::Rectangle aRect; bWinFound = true; uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( xDockWindow->isFloating() ) { awt::Rectangle aPos = xWindow->getPosSize(); awt::Size aSize = xWindow->getOutputSize(); aUIElement.m_aFloatingData.m_aPos = awt::Point(aPos.X, aPos.Y); aUIElement.m_aFloatingData.m_aSize = aSize; SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) { ToolBox* pToolBox = static_cast(pWindow); aUIElement.m_aFloatingData.m_nLines = pToolBox->GetFloatingLines(); aUIElement.m_aFloatingData.m_bIsHorizontal = isToolboxHorizontalAligned( pToolBox ); } } } SolarMutexGuard g; m_bDockingInProgress = bWinFound; m_aDockUIElement = aUIElement; m_aDockUIElement.m_bUserActive = true; m_aStartDockMousePos = aMousePos; } awt::DockingData SAL_CALL ToolbarLayoutManager::docking( const awt::DockingEvent& e ) throw (uno::RuntimeException, std::exception) { const sal_Int32 MAGNETIC_DISTANCE_UNDOCK = 25; const sal_Int32 MAGNETIC_DISTANCE_DOCK = 20; SolarMutexClearableGuard aReadLock; awt::DockingData aDockingData; uno::Reference< awt::XDockableWindow > xDockWindow( e.Source, uno::UNO_QUERY ); uno::Reference< awt::XWindow > xWindow( e.Source, uno::UNO_QUERY ); uno::Reference< awt::XWindow > xTopDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_TOP] ); uno::Reference< awt::XWindow > xLeftDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_LEFT] ); uno::Reference< awt::XWindow > xRightDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_RIGHT] ); uno::Reference< awt::XWindow > xBottomDockingWindow( m_xDockAreaWindows[ui::DockingArea_DOCKINGAREA_BOTTOM] ); uno::Reference< awt::XWindow2 > xContainerWindow( m_xContainerWindow ); UIElement aUIDockingElement( m_aDockUIElement ); DockingOperation eDockingOperation( DOCKOP_ON_COLROW ); bool bDockingInProgress( m_bDockingInProgress ); aReadLock.clear(); if ( bDockingInProgress ) aDockingData.TrackingRectangle = e.TrackingRectangle; if ( bDockingInProgress && xDockWindow.is() && xWindow.is() ) { try { SolarMutexGuard aGuard; sal_Int16 eDockingArea( -1 ); // none sal_Int32 nMagneticZone( aUIDockingElement.m_bFloating ? MAGNETIC_DISTANCE_DOCK : MAGNETIC_DISTANCE_UNDOCK ); awt::Rectangle aNewTrackingRect; ::Rectangle aTrackingRect( e.TrackingRectangle.X, e.TrackingRectangle.Y, ( e.TrackingRectangle.X + e.TrackingRectangle.Width ), ( e.TrackingRectangle.Y + e.TrackingRectangle.Height )); awt::Rectangle aTmpRect = xTopDockingWindow->getPosSize(); ::Rectangle aTopDockRect( aTmpRect.X, aTmpRect.Y, aTmpRect.Width, aTmpRect.Height ); ::Rectangle aHotZoneTopDockRect( implts_calcHotZoneRect( aTopDockRect, nMagneticZone )); aTmpRect = xBottomDockingWindow->getPosSize(); ::Rectangle aBottomDockRect( aTmpRect.X, aTmpRect.Y, ( aTmpRect.X + aTmpRect.Width), ( aTmpRect.Y + aTmpRect.Height )); ::Rectangle aHotZoneBottomDockRect( implts_calcHotZoneRect( aBottomDockRect, nMagneticZone )); aTmpRect = xLeftDockingWindow->getPosSize(); ::Rectangle aLeftDockRect( aTmpRect.X, aTmpRect.Y, ( aTmpRect.X + aTmpRect.Width ), ( aTmpRect.Y + aTmpRect.Height )); ::Rectangle aHotZoneLeftDockRect( implts_calcHotZoneRect( aLeftDockRect, nMagneticZone )); aTmpRect = xRightDockingWindow->getPosSize(); ::Rectangle aRightDockRect( aTmpRect.X, aTmpRect.Y, ( aTmpRect.X + aTmpRect.Width ), ( aTmpRect.Y + aTmpRect.Height )); ::Rectangle aHotZoneRightDockRect( implts_calcHotZoneRect( aRightDockRect, nMagneticZone )); vcl::Window* pContainerWindow( VCLUnoHelper::GetWindow( xContainerWindow ) ); ::Point aMousePos( pContainerWindow->ScreenToOutputPixel( ::Point( e.MousePos.X, e.MousePos.Y ))); if ( aHotZoneTopDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_TOP; else if ( aHotZoneBottomDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_BOTTOM; else if ( aHotZoneLeftDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_LEFT; else if ( aHotZoneRightDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_RIGHT; // Higher priority for movements inside the real docking area if ( aTopDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_TOP; else if ( aBottomDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_BOTTOM; else if ( aLeftDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_LEFT; else if ( aRightDockRect.IsInside( aMousePos )) eDockingArea = ui::DockingArea_DOCKINGAREA_RIGHT; // Determine if we have a toolbar and set alignment according to the docking area! vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); ToolBox* pToolBox = 0; if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) pToolBox = static_cast(pWindow); if ( eDockingArea != -1 ) { if ( eDockingArea == ui::DockingArea_DOCKINGAREA_TOP ) { aUIDockingElement.m_aDockedData.m_nDockedArea = ui::DockingArea_DOCKINGAREA_TOP; aUIDockingElement.m_bFloating = false; } else if ( eDockingArea == ui::DockingArea_DOCKINGAREA_BOTTOM ) { aUIDockingElement.m_aDockedData.m_nDockedArea = ui::DockingArea_DOCKINGAREA_BOTTOM; aUIDockingElement.m_bFloating = false; } else if ( eDockingArea == ui::DockingArea_DOCKINGAREA_LEFT ) { aUIDockingElement.m_aDockedData.m_nDockedArea = ui::DockingArea_DOCKINGAREA_LEFT; aUIDockingElement.m_bFloating = false; } else if ( eDockingArea == ui::DockingArea_DOCKINGAREA_RIGHT ) { aUIDockingElement.m_aDockedData.m_nDockedArea = ui::DockingArea_DOCKINGAREA_RIGHT; aUIDockingElement.m_bFloating = false; } ::Point aOutputPos = pContainerWindow->ScreenToOutputPixel( aTrackingRect.TopLeft() ); aTrackingRect.SetPos( aOutputPos ); ::Rectangle aNewDockingRect( aTrackingRect ); implts_calcDockingPosSize( aUIDockingElement, eDockingOperation, aNewDockingRect, aMousePos ); ::Point aScreenPos = pContainerWindow->OutputToScreenPixel( aNewDockingRect.TopLeft() ); aNewTrackingRect = awt::Rectangle( aScreenPos.X(), aScreenPos.Y(), aNewDockingRect.getWidth(), aNewDockingRect.getHeight() ); aDockingData.TrackingRectangle = aNewTrackingRect; } else if ( pToolBox && bDockingInProgress ) { bool bIsHorizontal = isToolboxHorizontalAligned( pToolBox ); awt::Size aFloatSize = aUIDockingElement.m_aFloatingData.m_aSize; if ( aFloatSize.Width > 0 && aFloatSize.Height > 0 ) { aUIDockingElement.m_aFloatingData.m_aPos = AWTPoint(pContainerWindow->ScreenToOutputPixel(VCLPoint(e.MousePos))); aDockingData.TrackingRectangle.Height = aFloatSize.Height; aDockingData.TrackingRectangle.Width = aFloatSize.Width; } else { aFloatSize = AWTSize(pToolBox->CalcWindowSizePixel()); if ( !bIsHorizontal ) { // Floating toolbars are always horizontal aligned! We have to swap // width/height if we have a vertical aligned toolbar. sal_Int32 nTemp = aFloatSize.Height; aFloatSize.Height = aFloatSize.Width; aFloatSize.Width = nTemp; } aDockingData.TrackingRectangle.Height = aFloatSize.Height; aDockingData.TrackingRectangle.Width = aFloatSize.Width; // For the first time we don't have any data about the floating size of a toolbar. // We calculate it and store it for later use. aUIDockingElement.m_aFloatingData.m_aPos = AWTPoint(pContainerWindow->ScreenToOutputPixel(VCLPoint(e.MousePos))); aUIDockingElement.m_aFloatingData.m_aSize = aFloatSize; aUIDockingElement.m_aFloatingData.m_nLines = pToolBox->GetFloatingLines(); aUIDockingElement.m_aFloatingData.m_bIsHorizontal = isToolboxHorizontalAligned( pToolBox ); } aDockingData.TrackingRectangle.X = e.MousePos.X; aDockingData.TrackingRectangle.Y = e.MousePos.Y; } aDockingData.bFloating = ( eDockingArea == -1 ); // Write current data to the member docking progress data SolarMutexGuard g; m_aDockUIElement.m_bFloating = aDockingData.bFloating; if ( !aDockingData.bFloating ) { m_aDockUIElement.m_aDockedData = aUIDockingElement.m_aDockedData; m_eDockOperation = eDockingOperation; } else m_aDockUIElement.m_aFloatingData = aUIDockingElement.m_aFloatingData; } catch (const uno::Exception&) { } } return aDockingData; } void SAL_CALL ToolbarLayoutManager::endDocking( const awt::EndDockingEvent& e ) throw (uno::RuntimeException, std::exception) { bool bDockingInProgress( false ); bool bStartDockFloated( false ); bool bFloating( false ); UIElement aUIDockingElement; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexResettableGuard aWriteLock; bDockingInProgress = m_bDockingInProgress; aUIDockingElement = m_aDockUIElement; bFloating = aUIDockingElement.m_bFloating; UIElement& rUIElement = impl_findToolbar( aUIDockingElement.m_aName ); if ( rUIElement.m_aName == aUIDockingElement.m_aName ) { if ( aUIDockingElement.m_bFloating ) { // Write last position into position data uno::Reference< awt::XWindow > xWindow( aUIDockingElement.m_xUIElement->getRealInterface(), uno::UNO_QUERY ); rUIElement.m_aFloatingData = aUIDockingElement.m_aFloatingData; awt::Rectangle aTmpRect = xWindow->getPosSize(); rUIElement.m_aFloatingData.m_aPos = awt::Point(aTmpRect.X, aTmpRect.Y); // make changes also for our local data as we use it to make data persistent aUIDockingElement.m_aFloatingData = rUIElement.m_aFloatingData; } else { rUIElement.m_aDockedData = aUIDockingElement.m_aDockedData; rUIElement.m_aFloatingData.m_aSize = aUIDockingElement.m_aFloatingData.m_aSize; if ( m_eDockOperation != DOCKOP_ON_COLROW ) { // we have to renumber our row/column data to insert a new row/column implts_renumberRowColumnData((ui::DockingArea)aUIDockingElement.m_aDockedData.m_nDockedArea, m_eDockOperation, aUIDockingElement ); } } bStartDockFloated = rUIElement.m_bFloating; rUIElement.m_bFloating = m_aDockUIElement.m_bFloating; rUIElement.m_bUserActive = true; } // reset member for next docking operation m_aDockUIElement.m_xUIElement.clear(); m_eDockOperation = DOCKOP_ON_COLROW; aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ implts_writeWindowStateData( aUIDockingElement ); if ( bDockingInProgress ) { SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( uno::Reference< awt::XWindow >( e.Source, uno::UNO_QUERY )); ToolBox* pToolBox = 0; if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) pToolBox = static_cast(pWindow); if ( pToolBox ) { if( e.bFloating ) { if ( aUIDockingElement.m_aFloatingData.m_bIsHorizontal ) pToolBox->SetAlign(); else pToolBox->SetAlign( WindowAlign::Left ); } else { ::Size aSize; pToolBox->SetAlign( ImplConvertAlignment( aUIDockingElement.m_aDockedData.m_nDockedArea) ); // Docked toolbars have always one line aSize = pToolBox->CalcWindowSizePixel( 1 ); // Lock layouting updates as our listener would be called due to SetSizePixel pToolBox->SetOutputSizePixel( aSize ); } } } implts_sortUIElements(); aWriteLock.reset(); m_bDockingInProgress = false; m_bLayoutDirty = !bStartDockFloated || !bFloating; bool bNotify = m_bLayoutDirty; aWriteLock.clear(); if ( bNotify ) m_pParentLayouter->requestLayout( ILayoutNotifications::HINT_TOOLBARSPACE_HAS_CHANGED ); } sal_Bool SAL_CALL ToolbarLayoutManager::prepareToggleFloatingMode( const lang::EventObject& e ) throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aReadLock; bool bDockingInProgress = m_bDockingInProgress; aReadLock.clear(); UIElement aUIDockingElement = implts_findToolbar( e.Source ); bool bWinFound( !aUIDockingElement.m_aName.isEmpty() ); uno::Reference< awt::XWindow > xWindow( e.Source, uno::UNO_QUERY ); if ( bWinFound && xWindow.is() ) { if ( !bDockingInProgress ) { awt::Rectangle aRect; uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); if ( xDockWindow->isFloating() ) { { SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) { ToolBox* pToolBox = static_cast< ToolBox *>( pWindow ); aUIDockingElement.m_aFloatingData.m_aPos = AWTPoint(pToolBox->GetPosPixel()); aUIDockingElement.m_aFloatingData.m_aSize = AWTSize(pToolBox->GetOutputSizePixel()); aUIDockingElement.m_aFloatingData.m_nLines = pToolBox->GetFloatingLines(); aUIDockingElement.m_aFloatingData.m_bIsHorizontal = isToolboxHorizontalAligned( pToolBox ); } } UIElement aUIElement = implts_findToolbar( aUIDockingElement.m_aName ); if ( aUIElement.m_aName == aUIDockingElement.m_aName ) implts_setToolbar( aUIDockingElement ); } } } return sal_True; } void SAL_CALL ToolbarLayoutManager::toggleFloatingMode( const lang::EventObject& e ) throw (uno::RuntimeException, std::exception) { UIElement aUIDockingElement; SolarMutexResettableGuard aReadLock; bool bDockingInProgress( m_bDockingInProgress ); if ( bDockingInProgress ) aUIDockingElement = m_aDockUIElement; aReadLock.clear(); vcl::Window* pWindow( 0 ); ToolBox* pToolBox( 0 ); uno::Reference< awt::XWindow2 > xWindow; { SolarMutexGuard aGuard; xWindow = uno::Reference< awt::XWindow2 >( e.Source, uno::UNO_QUERY ); pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) pToolBox = static_cast(pWindow); } if ( !bDockingInProgress ) { aUIDockingElement = implts_findToolbar( e.Source ); bool bWinFound = ( !aUIDockingElement.m_aName.isEmpty() ); if ( bWinFound && xWindow.is() ) { aUIDockingElement.m_bFloating = !aUIDockingElement.m_bFloating; aUIDockingElement.m_bUserActive = true; implts_setLayoutInProgress(); if ( aUIDockingElement.m_bFloating ) { SolarMutexGuard aGuard; if ( pToolBox ) { pToolBox->SetLineCount( aUIDockingElement.m_aFloatingData.m_nLines ); if ( aUIDockingElement.m_aFloatingData.m_bIsHorizontal ) pToolBox->SetAlign(); else pToolBox->SetAlign( WindowAlign::Left ); } bool bUndefPos = hasDefaultPosValue( aUIDockingElement.m_aFloatingData.m_aPos ); bool bSetSize = !hasEmptySize( aUIDockingElement.m_aFloatingData.m_aSize ); if ( bUndefPos ) aUIDockingElement.m_aFloatingData.m_aPos = implts_findNextCascadeFloatingPos(); if ( !bSetSize ) { if ( pToolBox ) aUIDockingElement.m_aFloatingData.m_aSize = AWTSize(pToolBox->CalcFloatingWindowSizePixel()); else if ( pWindow ) aUIDockingElement.m_aFloatingData.m_aSize = AWTSize(pWindow->GetOutputSizePixel()); } xWindow->setPosSize( aUIDockingElement.m_aFloatingData.m_aPos.X, aUIDockingElement.m_aFloatingData.m_aPos.Y, 0, 0, awt::PosSize::POS ); xWindow->setOutputSize(aUIDockingElement.m_aFloatingData.m_aSize); } else { if ( isDefaultPos( aUIDockingElement.m_aDockedData.m_aPos )) { // Docking on its default position without a preset position - // we have to find a good place for it. ::Point aPixelPos; awt::Point aDockPos; ::Size aSize; { SolarMutexGuard aGuard; if ( pToolBox ) aSize = pToolBox->CalcWindowSizePixel( 1, ImplConvertAlignment( aUIDockingElement.m_aDockedData.m_nDockedArea ) ); else if ( pWindow ) aSize = pWindow->GetSizePixel(); } implts_findNextDockingPos((ui::DockingArea)aUIDockingElement.m_aDockedData.m_nDockedArea, aSize, aDockPos, aPixelPos ); aUIDockingElement.m_aDockedData.m_aPos = aDockPos; } SolarMutexGuard aGuard; if ( pToolBox ) { pToolBox->SetAlign( ImplConvertAlignment( aUIDockingElement.m_aDockedData.m_nDockedArea) ); ::Size aSize = pToolBox->CalcWindowSizePixel( 1 ); awt::Rectangle aRect = xWindow->getPosSize(); xWindow->setPosSize( aRect.X, aRect.Y, 0, 0, awt::PosSize::POS ); xWindow->setOutputSize( AWTSize( aSize ) ); } } implts_setLayoutInProgress( false ); implts_setToolbar( aUIDockingElement ); implts_writeWindowStateData( aUIDockingElement ); implts_sortUIElements(); implts_setLayoutDirty(); aReadLock.reset(); ILayoutNotifications* pParentLayouter( m_pParentLayouter ); aReadLock.clear(); if ( pParentLayouter ) pParentLayouter->requestLayout( ILayoutNotifications::HINT_TOOLBARSPACE_HAS_CHANGED ); } } else { SolarMutexGuard aGuard; if ( pToolBox ) { if ( aUIDockingElement.m_bFloating ) { if ( aUIDockingElement.m_aFloatingData.m_bIsHorizontal ) pToolBox->SetAlign(); else pToolBox->SetAlign( WindowAlign::Left ); } else pToolBox->SetAlign( ImplConvertAlignment( aUIDockingElement.m_aDockedData.m_nDockedArea) ); } } } void SAL_CALL ToolbarLayoutManager::closed( const lang::EventObject& e ) throw (uno::RuntimeException, std::exception) { OUString aName; UIElement aUIElement; UIElementVector::iterator pIter; SolarMutexClearableGuard aWriteLock; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { uno::Reference< ui::XUIElement > xUIElement( pIter->m_xUIElement ); if ( xUIElement.is() ) { uno::Reference< uno::XInterface > xIfac( xUIElement->getRealInterface(), uno::UNO_QUERY ); if ( xIfac == e.Source ) { aName = pIter->m_aName; // user closes a toolbar => // context sensitive toolbar: only destroy toolbar and store state. // non context sensitive toolbar: make it invisible, store state and destroy it. if ( !pIter->m_bContextSensitive ) pIter->m_bVisible = false; aUIElement = *pIter; break; } } } aWriteLock.clear(); // destroy element if ( !aName.isEmpty() ) { implts_writeWindowStateData( aUIElement ); destroyToolbar( aName ); SolarMutexClearableGuard aReadLock; bool bLayoutDirty = m_bLayoutDirty; ILayoutNotifications* pParentLayouter( m_pParentLayouter ); aWriteLock.clear(); if ( bLayoutDirty && pParentLayouter ) pParentLayouter->requestLayout( ILayoutNotifications::HINT_TOOLBARSPACE_HAS_CHANGED ); } } void SAL_CALL ToolbarLayoutManager::endPopupMode( const awt::EndPopupModeEvent& /*e*/ ) throw (uno::RuntimeException, std::exception) { } // XUIConfigurationListener void SAL_CALL ToolbarLayoutManager::elementInserted( const ui::ConfigurationEvent& rEvent ) throw (uno::RuntimeException, std::exception) { UIElement aUIElement = implts_findToolbar( rEvent.ResourceURL ); uno::Reference< ui::XUIElementSettings > xElementSettings( aUIElement.m_xUIElement, uno::UNO_QUERY ); if ( xElementSettings.is() ) { OUString aConfigSourcePropName( "ConfigurationSource" ); uno::Reference< beans::XPropertySet > xPropSet( xElementSettings, uno::UNO_QUERY ); if ( xPropSet.is() ) { if ( rEvent.Source == uno::Reference< uno::XInterface >( m_xDocCfgMgr, uno::UNO_QUERY )) xPropSet->setPropertyValue( aConfigSourcePropName, makeAny( m_xDocCfgMgr )); } xElementSettings->updateSettings(); } else { OUString aElementType; OUString aElementName; parseResourceURL( rEvent.ResourceURL, aElementType, aElementName ); if ( aElementName.indexOf( "custom_" ) != -1 ) { // custom toolbar must be directly created, shown and layouted! createToolbar( rEvent.ResourceURL ); uno::Reference< ui::XUIElement > xUIElement = getToolbar( rEvent.ResourceURL ); if ( xUIElement.is() ) { OUString aUIName; uno::Reference< ui::XUIConfigurationManager > xCfgMgr; uno::Reference< beans::XPropertySet > xPropSet; try { xCfgMgr = uno::Reference< ui::XUIConfigurationManager >( rEvent.Source, uno::UNO_QUERY ); xPropSet = uno::Reference< beans::XPropertySet >( xCfgMgr->getSettings( rEvent.ResourceURL, sal_False ), uno::UNO_QUERY ); if ( xPropSet.is() ) xPropSet->getPropertyValue("UIName") >>= aUIName; } catch (const container::NoSuchElementException&) { } catch (const beans::UnknownPropertyException&) { } catch (const lang::WrappedTargetException&) { } { SolarMutexGuard aGuard; vcl::Window* pWindow = getWindowFromXUIElement( xUIElement ); if ( pWindow ) pWindow->SetText( aUIName ); } showToolbar( rEvent.ResourceURL ); } } } } void SAL_CALL ToolbarLayoutManager::elementRemoved( const ui::ConfigurationEvent& rEvent ) throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aReadLock; uno::Reference< awt::XWindow > xContainerWindow( m_xContainerWindow, uno::UNO_QUERY ); uno::Reference< ui::XUIConfigurationManager > xModuleCfgMgr( m_xModuleCfgMgr ); uno::Reference< ui::XUIConfigurationManager > xDocCfgMgr( m_xDocCfgMgr ); aReadLock.clear(); UIElement aUIElement = implts_findToolbar( rEvent.ResourceURL ); uno::Reference< ui::XUIElementSettings > xElementSettings( aUIElement.m_xUIElement, uno::UNO_QUERY ); if ( xElementSettings.is() ) { bool bNoSettings( false ); OUString aConfigSourcePropName( "ConfigurationSource" ); uno::Reference< uno::XInterface > xElementCfgMgr; uno::Reference< beans::XPropertySet > xPropSet( xElementSettings, uno::UNO_QUERY ); if ( xPropSet.is() ) xPropSet->getPropertyValue( aConfigSourcePropName ) >>= xElementCfgMgr; if ( !xElementCfgMgr.is() ) return; // Check if the same UI configuration manager has changed => check further if ( rEvent.Source == xElementCfgMgr ) { // Same UI configuration manager where our element has its settings if ( rEvent.Source == uno::Reference< uno::XInterface >( xDocCfgMgr, uno::UNO_QUERY )) { // document settings removed if ( xModuleCfgMgr->hasSettings( rEvent.ResourceURL )) { xPropSet->setPropertyValue( aConfigSourcePropName, makeAny( xModuleCfgMgr )); xElementSettings->updateSettings(); return; } } bNoSettings = true; } // No settings anymore, element must be destroyed if ( xContainerWindow.is() && bNoSettings ) destroyToolbar( rEvent.ResourceURL ); } } void SAL_CALL ToolbarLayoutManager::elementReplaced( const ui::ConfigurationEvent& rEvent ) throw (uno::RuntimeException, std::exception) { UIElement aUIElement = implts_findToolbar( rEvent.ResourceURL ); uno::Reference< ui::XUIElementSettings > xElementSettings( aUIElement.m_xUIElement, uno::UNO_QUERY ); if ( xElementSettings.is() ) { OUString aConfigSourcePropName( "ConfigurationSource" ); uno::Reference< uno::XInterface > xElementCfgMgr; uno::Reference< beans::XPropertySet > xPropSet( xElementSettings, uno::UNO_QUERY ); if ( xPropSet.is() ) xPropSet->getPropertyValue( aConfigSourcePropName ) >>= xElementCfgMgr; if ( !xElementCfgMgr.is() ) return; // Check if the same UI configuration manager has changed => update settings if ( rEvent.Source == xElementCfgMgr ) { xElementSettings->updateSettings(); SolarMutexClearableGuard aWriteLock; bool bNotify = !aUIElement.m_bFloating; m_bLayoutDirty = bNotify; ILayoutNotifications* pParentLayouter( m_pParentLayouter ); aWriteLock.clear(); if ( bNotify && pParentLayouter ) pParentLayouter->requestLayout( ILayoutNotifications::HINT_TOOLBARSPACE_HAS_CHANGED ); } } } uno::Reference< ui::XUIElement > ToolbarLayoutManager::getToolbar( const OUString& aName ) { return implts_findToolbar( aName ).m_xUIElement; } uno::Sequence< uno::Reference< ui::XUIElement > > ToolbarLayoutManager::getToolbars() { uno::Sequence< uno::Reference< ui::XUIElement > > aSeq; SolarMutexGuard g; if ( m_aUIElements.size() > 0 ) { sal_uInt32 nCount(0); UIElementVector::iterator pIter; for ( pIter = m_aUIElements.begin(); pIter != m_aUIElements.end(); ++pIter ) { if ( pIter->m_xUIElement.is() ) { ++nCount; aSeq.realloc( nCount ); aSeq[nCount-1] = pIter->m_xUIElement; } } } return aSeq; } bool ToolbarLayoutManager::floatToolbar( const OUString& rResourceURL ) { UIElement aUIElement = implts_findToolbar( rResourceURL ); if ( aUIElement.m_xUIElement.is() ) { try { uno::Reference< awt::XDockableWindow > xDockWindow( aUIElement.m_xUIElement->getRealInterface(), uno::UNO_QUERY ); if ( xDockWindow.is() && !xDockWindow->isFloating() ) { aUIElement.m_bFloating = true; implts_writeWindowStateData( aUIElement ); xDockWindow->setFloatingMode( true ); implts_setLayoutDirty(); implts_setToolbar( aUIElement ); return true; } } catch (const lang::DisposedException&) { } } return false; } bool ToolbarLayoutManager::lockToolbar( const OUString& rResourceURL ) { UIElement aUIElement = implts_findToolbar( rResourceURL ); if ( aUIElement.m_xUIElement.is() ) { try { uno::Reference< awt::XDockableWindow > xDockWindow( aUIElement.m_xUIElement->getRealInterface(), uno::UNO_QUERY ); if ( xDockWindow.is() && !xDockWindow->isFloating() && !xDockWindow->isLocked() ) { aUIElement.m_aDockedData.m_bLocked = true; implts_writeWindowStateData( aUIElement ); xDockWindow->lock(); implts_setLayoutDirty(); implts_setToolbar( aUIElement ); return true; } } catch (const lang::DisposedException&) { } } return false; } bool ToolbarLayoutManager::unlockToolbar( const OUString& rResourceURL ) { UIElement aUIElement = implts_findToolbar( rResourceURL ); if ( aUIElement.m_xUIElement.is() ) { try { uno::Reference< awt::XDockableWindow > xDockWindow( aUIElement.m_xUIElement->getRealInterface(), uno::UNO_QUERY ); if ( xDockWindow.is() && !xDockWindow->isFloating() && xDockWindow->isLocked() ) { aUIElement.m_aDockedData.m_bLocked = false; implts_writeWindowStateData( aUIElement ); xDockWindow->unlock(); implts_setLayoutDirty(); implts_setToolbar( aUIElement ); return true; } } catch (const lang::DisposedException&) { } } return false; } bool ToolbarLayoutManager::isToolbarVisible( const OUString& rResourceURL ) { uno::Reference< awt::XWindow2 > xWindow2( implts_getXWindow( rResourceURL ), uno::UNO_QUERY ); return ( xWindow2.is() && xWindow2->isVisible() ); } bool ToolbarLayoutManager::isToolbarFloating( const OUString& rResourceURL ) { uno::Reference< awt::XDockableWindow > xDockWindow( implts_getXWindow( rResourceURL ), uno::UNO_QUERY ); return ( xDockWindow.is() && xDockWindow->isFloating() ); } bool ToolbarLayoutManager::isToolbarDocked( const OUString& rResourceURL ) { return !isToolbarFloating( rResourceURL ); } bool ToolbarLayoutManager::isToolbarLocked( const OUString& rResourceURL ) { uno::Reference< awt::XDockableWindow > xDockWindow( implts_getXWindow( rResourceURL ), uno::UNO_QUERY ); return ( xDockWindow.is() && xDockWindow->isLocked() ); } awt::Size ToolbarLayoutManager::getToolbarSize( const OUString& rResourceURL ) { vcl::Window* pWindow = implts_getWindow( rResourceURL ); SolarMutexGuard aGuard; if ( pWindow ) { ::Size aSize = pWindow->GetSizePixel(); awt::Size aWinSize; aWinSize.Width = aSize.Width(); aWinSize.Height = aSize.Height(); return aWinSize; } return awt::Size(); } awt::Point ToolbarLayoutManager::getToolbarPos( const OUString& rResourceURL ) { awt::Point aPos; UIElement aUIElement = implts_findToolbar( rResourceURL ); uno::Reference< awt::XWindow > xWindow( implts_getXWindow( rResourceURL )); if ( xWindow.is() ) { if ( aUIElement.m_bFloating ) { awt::Rectangle aRect = xWindow->getPosSize(); aPos.X = aRect.X; aPos.Y = aRect.Y; } else aPos = aUIElement.m_aDockedData.m_aPos; } return aPos; } void ToolbarLayoutManager::setToolbarSize( const OUString& rResourceURL, const awt::Size& aSize ) { uno::Reference< awt::XWindow2 > xWindow( implts_getXWindow( rResourceURL ), uno::UNO_QUERY ); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); UIElement aUIElement = implts_findToolbar( rResourceURL ); if ( xWindow.is() && xDockWindow.is() && xDockWindow->isFloating() ) { xWindow->setOutputSize( aSize ); aUIElement.m_aFloatingData.m_aSize = aSize; implts_setToolbar( aUIElement ); implts_writeWindowStateData( aUIElement ); implts_sortUIElements(); } } void ToolbarLayoutManager::setToolbarPos( const OUString& rResourceURL, const awt::Point& aPos ) { uno::Reference< awt::XWindow > xWindow( implts_getXWindow( rResourceURL )); uno::Reference< awt::XDockableWindow > xDockWindow( xWindow, uno::UNO_QUERY ); UIElement aUIElement = implts_findToolbar( rResourceURL ); if ( xWindow.is() && xDockWindow.is() && xDockWindow->isFloating() ) { xWindow->setPosSize( aPos.X, aPos.Y, 0, 0, awt::PosSize::POS ); aUIElement.m_aFloatingData.m_aPos = aPos; implts_setToolbar( aUIElement ); implts_writeWindowStateData( aUIElement ); implts_sortUIElements(); } } void ToolbarLayoutManager::setToolbarPosSize( const OUString& rResourceURL, const awt::Point& aPos, const awt::Size& aSize ) { setToolbarPos( rResourceURL, aPos ); setToolbarSize( rResourceURL, aSize ); } } // namespace framework /* vim:set shiftwidth=4 softtabstop=4 expandtab: */