/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include using namespace vcl; void Control::ImplInitControlData() { mbHasControlFocus = false; mbShowAccelerator = false; mpControlData.reset(new ImplControlData); } Control::Control( WindowType nType ) : Window( nType ) { ImplInitControlData(); } Control::Control( vcl::Window* pParent, WinBits nStyle ) : Window( WindowType::CONTROL ) { ImplInitControlData(); ImplInit( pParent, nStyle, nullptr ); } Control::~Control() { disposeOnce(); } void Control::dispose() { mpControlData.reset(); Window::dispose(); } void Control::EnableRTL( bool bEnable ) { // convenience: for controls also switch layout mode SetLayoutMode( bEnable ? ComplexTextLayoutFlags::BiDiRtl | ComplexTextLayoutFlags::TextOriginLeft : ComplexTextLayoutFlags::TextOriginLeft ); CompatStateChanged( StateChangedType::Mirroring ); OutputDevice::EnableRTL(bEnable); } void Control::Resize() { ImplClearLayoutData(); Window::Resize(); } void Control::FillLayoutData() const { } void Control::CreateLayoutData() const { SAL_WARN_IF( mpControlData->mpLayoutData, "vcl", "Control::CreateLayoutData: should be called with non-existent layout data only!" ); mpControlData->mpLayoutData.reset( new vcl::ControlLayoutData ); } bool Control::HasLayoutData() const { return mpControlData && mpControlData->mpLayoutData != nullptr; } void Control::SetText( const OUString& rStr ) { ImplClearLayoutData(); Window::SetText( rStr ); } ControlLayoutData::ControlLayoutData() : m_pParent( nullptr ) { } tools::Rectangle ControlLayoutData::GetCharacterBounds( long nIndex ) const { return (nIndex >= 0 && nIndex < static_cast(m_aUnicodeBoundRects.size())) ? m_aUnicodeBoundRects[ nIndex ] : tools::Rectangle(); } tools::Rectangle Control::GetCharacterBounds( long nIndex ) const { if( !HasLayoutData() ) FillLayoutData(); return mpControlData->mpLayoutData ? mpControlData->mpLayoutData->GetCharacterBounds( nIndex ) : tools::Rectangle(); } long ControlLayoutData::GetIndexForPoint( const Point& rPoint ) const { long nIndex = -1; for( long i = m_aUnicodeBoundRects.size()-1; i >= 0; i-- ) { Point aTopLeft = m_aUnicodeBoundRects[i].TopLeft(); Point aBottomRight = m_aUnicodeBoundRects[i].BottomRight(); if (rPoint.X() >= aTopLeft.X() && rPoint.Y() >= aTopLeft.Y() && rPoint.X() <= aBottomRight.X() && rPoint.Y() <= aBottomRight.Y()) { nIndex = i; break; } } return nIndex; } long Control::GetIndexForPoint( const Point& rPoint ) const { if( ! HasLayoutData() ) FillLayoutData(); return mpControlData->mpLayoutData ? mpControlData->mpLayoutData->GetIndexForPoint( rPoint ) : -1; } long ControlLayoutData::GetLineCount() const { long nLines = m_aLineIndices.size(); if( nLines == 0 && !m_aDisplayText.isEmpty() ) nLines = 1; return nLines; } Pair ControlLayoutData::GetLineStartEnd( long nLine ) const { Pair aPair( -1, -1 ); int nDisplayLines = m_aLineIndices.size(); if( nLine >= 0 && nLine < nDisplayLines ) { aPair.A() = m_aLineIndices[nLine]; if( nLine+1 < nDisplayLines ) aPair.B() = m_aLineIndices[nLine+1]-1; else aPair.B() = m_aDisplayText.getLength()-1; } else if( nLine == 0 && nDisplayLines == 0 && !m_aDisplayText.isEmpty() ) { // special case for single line controls so the implementations // in that case do not have to fill in the line indices aPair.A() = 0; aPair.B() = m_aDisplayText.getLength()-1; } return aPair; } Pair Control::GetLineStartEnd( long nLine ) const { if( !HasLayoutData() ) FillLayoutData(); return mpControlData->mpLayoutData ? mpControlData->mpLayoutData->GetLineStartEnd( nLine ) : Pair( -1, -1 ); } long ControlLayoutData::ToRelativeLineIndex( long nIndex ) const { // is the index sensible at all ? if( nIndex >= 0 && nIndex < m_aDisplayText.getLength() ) { int nDisplayLines = m_aLineIndices.size(); // if only 1 line exists, then absolute and relative index are // identical -> do nothing if( nDisplayLines > 1 ) { int nLine; for( nLine = nDisplayLines-1; nLine >= 0; nLine-- ) { if( m_aLineIndices[nLine] <= nIndex ) { nIndex -= m_aLineIndices[nLine]; break; } } if( nLine < 0 ) { SAL_WARN_IF( nLine < 0, "vcl", "ToRelativeLineIndex failed" ); nIndex = -1; } } } else nIndex = -1; return nIndex; } long Control::ToRelativeLineIndex( long nIndex ) const { if( !HasLayoutData() ) FillLayoutData(); return mpControlData->mpLayoutData ? mpControlData->mpLayoutData->ToRelativeLineIndex( nIndex ) : -1; } OUString Control::GetDisplayText() const { if( !HasLayoutData() ) FillLayoutData(); return mpControlData->mpLayoutData ? mpControlData->mpLayoutData->m_aDisplayText : GetText(); } bool Control::EventNotify( NotifyEvent& rNEvt ) { // tdf#91081 if control is not valid, skip the emission - chaining to the parent if (mpControlData) { if ( rNEvt.GetType() == MouseNotifyEvent::GETFOCUS ) { if ( !mbHasControlFocus ) { mbHasControlFocus = true; CompatStateChanged( StateChangedType::ControlFocus ); if ( ImplCallEventListenersAndHandler( VclEventId::ControlGetFocus, {} ) ) // been destroyed within the handler return true; } } else { if ( rNEvt.GetType() == MouseNotifyEvent::LOSEFOCUS ) { vcl::Window* pFocusWin = Application::GetFocusWindow(); if ( !pFocusWin || !ImplIsWindowOrChild( pFocusWin ) ) { mbHasControlFocus = false; CompatStateChanged( StateChangedType::ControlFocus ); if ( ImplCallEventListenersAndHandler( VclEventId::ControlLoseFocus, [this] () { maLoseFocusHdl.Call(*this); } ) ) // been destroyed within the handler return true; } } } } return Window::EventNotify( rNEvt ); } void Control::StateChanged( StateChangedType nStateChange ) { if( nStateChange == StateChangedType::InitShow || nStateChange == StateChangedType::Visible || nStateChange == StateChangedType::Zoom || nStateChange == StateChangedType::ControlFont ) { ImplClearLayoutData(); } Window::StateChanged( nStateChange ); } void Control::AppendLayoutData( const Control& rSubControl ) const { if( !rSubControl.HasLayoutData() ) rSubControl.FillLayoutData(); if( !rSubControl.HasLayoutData() || rSubControl.mpControlData->mpLayoutData->m_aDisplayText.isEmpty() ) return; long nCurrentIndex = mpControlData->mpLayoutData->m_aDisplayText.getLength(); mpControlData->mpLayoutData->m_aDisplayText += rSubControl.mpControlData->mpLayoutData->m_aDisplayText; int nLines = rSubControl.mpControlData->mpLayoutData->m_aLineIndices.size(); int n; mpControlData->mpLayoutData->m_aLineIndices.push_back( nCurrentIndex ); for( n = 1; n < nLines; n++ ) mpControlData->mpLayoutData->m_aLineIndices.push_back( rSubControl.mpControlData->mpLayoutData->m_aLineIndices[n] + nCurrentIndex ); int nRectangles = rSubControl.mpControlData->mpLayoutData->m_aUnicodeBoundRects.size(); tools::Rectangle aRel = const_cast(rSubControl).GetWindowExtentsRelative( const_cast(this) ); for( n = 0; n < nRectangles; n++ ) { tools::Rectangle aRect = rSubControl.mpControlData->mpLayoutData->m_aUnicodeBoundRects[n]; aRect.Move( aRel.Left(), aRel.Top() ); mpControlData->mpLayoutData->m_aUnicodeBoundRects.push_back( aRect ); } } void Control::CallEventListeners( VclEventId nEvent, void* pData) { VclPtr xThis(this); UITestLogger::getInstance().logAction(xThis, nEvent); vcl::Window::CallEventListeners(nEvent, pData); } bool Control::ImplCallEventListenersAndHandler( VclEventId nEvent, std::function const & callHandler ) { VclPtr xThis(this); Control::CallEventListeners( nEvent ); if ( !xThis->IsDisposed() ) { if (callHandler) { callHandler(); } if ( !xThis->IsDisposed() ) return false; } return true; } void Control::SetLayoutDataParent( const Control* pParent ) const { if( HasLayoutData() ) mpControlData->mpLayoutData->m_pParent = pParent; } void Control::ImplClearLayoutData() const { if (mpControlData) mpControlData->mpLayoutData.reset(); } void Control::ImplDrawFrame( OutputDevice* pDev, tools::Rectangle& rRect ) { // use a deco view to draw the frame // However, since there happens a lot of magic there, we need to fake some (style) settings // on the device AllSettings aOriginalSettings( pDev->GetSettings() ); AllSettings aNewSettings( aOriginalSettings ); StyleSettings aStyle( aNewSettings.GetStyleSettings() ); // The *only known* clients of the Draw methods of the various VCL-controls are form controls: // During print preview, and during printing, Draw is called. Thus, drawing always happens with a // mono (colored) border aStyle.SetOptions( aStyle.GetOptions() | StyleSettingsOptions::Mono ); aStyle.SetMonoColor( GetSettings().GetStyleSettings().GetMonoColor() ); aNewSettings.SetStyleSettings( aStyle ); // #i67023# do not call data changed listeners for this fake // since they may understandably invalidate on settings changed pDev->OutputDevice::SetSettings( aNewSettings ); DecorationView aDecoView( pDev ); rRect = aDecoView.DrawFrame( rRect, DrawFrameStyle::Out, DrawFrameFlags::WindowBorder ); pDev->OutputDevice::SetSettings( aOriginalSettings ); } void Control::SetShowAccelerator(bool bVal) { mbShowAccelerator = bVal; }; ControlLayoutData::~ControlLayoutData() { if( m_pParent ) m_pParent->ImplClearLayoutData(); } Size Control::GetOptimalSize() const { return Size( GetTextWidth( GetText() ) + 2 * 12, GetTextHeight() + 2 * 6 ); } void Control::SetReferenceDevice( OutputDevice* _referenceDevice ) { if ( mpControlData->mpReferenceDevice == _referenceDevice ) return; mpControlData->mpReferenceDevice = _referenceDevice; Invalidate(); } OutputDevice* Control::GetReferenceDevice() const { // tdf#118377 It can happen that mpReferenceDevice is already disposed and // stays disposed (see task, even when Dialog is closed). I have no idea if // this may be very bad - someone who knows more about lifetime of OutputDevice's // will have to decide. // To secure this, I changed all accesses to mpControlData->mpReferenceDevice to // use Control::GetReferenceDevice() - only use mpControlData->mpReferenceDevice // inside Control::SetReferenceDevice and Control::GetReferenceDevice(). // Control::GetReferenceDevice() will now reset mpReferenceDevice if it is already // disposed. This way all usages will do a kind of 'test-and-get' call. if(nullptr != mpControlData->mpReferenceDevice && mpControlData->mpReferenceDevice->isDisposed()) { const_cast(this)->SetReferenceDevice(nullptr); } return mpControlData->mpReferenceDevice; } const vcl::Font& Control::GetCanonicalFont( const StyleSettings& _rStyle ) const { return _rStyle.GetLabelFont(); } const Color& Control::GetCanonicalTextColor( const StyleSettings& _rStyle ) const { return _rStyle.GetLabelTextColor(); } void Control::ApplySettings(vcl::RenderContext& rRenderContext) { const StyleSettings& rStyleSettings = rRenderContext.GetSettings().GetStyleSettings(); ApplyControlFont(rRenderContext, GetCanonicalFont(rStyleSettings)); ApplyControlForeground(rRenderContext, GetCanonicalTextColor(rStyleSettings)); rRenderContext.SetTextFillColor(); } void Control::ImplInitSettings() { ApplySettings(*this); } tools::Rectangle Control::DrawControlText( OutputDevice& _rTargetDevice, const tools::Rectangle& rRect, const OUString& _rStr, DrawTextFlags _nStyle, MetricVector* _pVector, OUString* _pDisplayText, const Size* i_pDeviceSize ) const { OUString rPStr = _rStr; DrawTextFlags nPStyle = _nStyle; bool autoacc = ImplGetSVData()->maNWFData.mbAutoAccel; if (autoacc && !mbShowAccelerator) { rPStr = GetNonMnemonicString( _rStr ); nPStyle &= ~DrawTextFlags::HideMnemonic; } if( !GetReferenceDevice() || ( GetReferenceDevice() == &_rTargetDevice ) ) { const tools::Rectangle aRet = _rTargetDevice.GetTextRect(rRect, rPStr, nPStyle); _rTargetDevice.DrawText(aRet, rPStr, nPStyle, _pVector, _pDisplayText); return aRet; } ControlTextRenderer aRenderer( *this, _rTargetDevice, *GetReferenceDevice() ); return aRenderer.DrawText(rRect, rPStr, nPStyle, _pVector, _pDisplayText, i_pDeviceSize); } tools::Rectangle Control::GetControlTextRect( OutputDevice& _rTargetDevice, const tools::Rectangle & rRect, const OUString& _rStr, DrawTextFlags _nStyle, Size* o_pDeviceSize ) const { OUString rPStr = _rStr; DrawTextFlags nPStyle = _nStyle; bool autoacc = ImplGetSVData()->maNWFData.mbAutoAccel; if (autoacc && !mbShowAccelerator) { rPStr = GetNonMnemonicString( _rStr ); nPStyle &= ~DrawTextFlags::HideMnemonic; } if ( !GetReferenceDevice() || ( GetReferenceDevice() == &_rTargetDevice ) ) { tools::Rectangle aRet = _rTargetDevice.GetTextRect( rRect, rPStr, nPStyle ); if (o_pDeviceSize) { *o_pDeviceSize = aRet.GetSize(); } return aRet; } ControlTextRenderer aRenderer( *this, _rTargetDevice, *GetReferenceDevice() ); return aRenderer.GetTextRect(rRect, rPStr, nPStyle, o_pDeviceSize); } Font Control::GetUnzoomedControlPointFont() const { Font aFont(GetCanonicalFont(GetSettings().GetStyleSettings())); if (IsControlFont()) aFont.Merge(GetControlFont()); return aFont; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */