/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace com::sun::star; namespace vcl { void Window::ShowFocus( const Rectangle& rRect ) { if( mpWindowImpl->mbInShowFocus ) return; mpWindowImpl->mbInShowFocus = true; ImplWinData* pWinData = ImplGetWinData(); // native themeing suggest not to use focus rects if( ! ( mpWindowImpl->mbUseNativeFocus && IsNativeWidgetEnabled() ) ) { if ( !mpWindowImpl->mbInPaint ) { if ( mpWindowImpl->mbFocusVisible ) { if ( *(pWinData->mpFocusRect) == rRect ) { mpWindowImpl->mbInShowFocus = false; return; } ImplInvertFocus( *(pWinData->mpFocusRect) ); } ImplInvertFocus( rRect ); } if ( !pWinData->mpFocusRect ) pWinData->mpFocusRect = new Rectangle( rRect ); else *(pWinData->mpFocusRect) = rRect; mpWindowImpl->mbFocusVisible = true; } else { if( ! mpWindowImpl->mbNativeFocusVisible ) { mpWindowImpl->mbNativeFocusVisible = true; if ( !mpWindowImpl->mbInPaint ) Invalidate(); } } mpWindowImpl->mbInShowFocus = false; } void Window::HideFocus() { if( mpWindowImpl->mbInHideFocus ) return; mpWindowImpl->mbInHideFocus = true; // native themeing can suggest not to use focus rects if( ! ( mpWindowImpl->mbUseNativeFocus && IsNativeWidgetEnabled() ) ) { if ( !mpWindowImpl->mbFocusVisible ) { mpWindowImpl->mbInHideFocus = false; return; } if ( !mpWindowImpl->mbInPaint ) ImplInvertFocus( *(ImplGetWinData()->mpFocusRect) ); mpWindowImpl->mbFocusVisible = false; } else { if( mpWindowImpl->mbNativeFocusVisible ) { mpWindowImpl->mbNativeFocusVisible = false; if ( !mpWindowImpl->mbInPaint ) Invalidate(); } } mpWindowImpl->mbInHideFocus = false; } void Window::ShowTracking( const Rectangle& rRect, sal_uInt16 nFlags ) { ImplWinData* pWinData = ImplGetWinData(); if ( !mpWindowImpl->mbInPaint || !(nFlags & SHOWTRACK_WINDOW) ) { if ( mpWindowImpl->mbTrackVisible ) { if ( (*(pWinData->mpTrackRect) == rRect) && (pWinData->mnTrackFlags == nFlags) ) return; InvertTracking( *(pWinData->mpTrackRect), pWinData->mnTrackFlags ); } InvertTracking( rRect, nFlags ); } if ( !pWinData->mpTrackRect ) pWinData->mpTrackRect = new Rectangle( rRect ); else *(pWinData->mpTrackRect) = rRect; pWinData->mnTrackFlags = nFlags; mpWindowImpl->mbTrackVisible = true; } void Window::HideTracking() { if ( mpWindowImpl->mbTrackVisible ) { ImplWinData* pWinData = ImplGetWinData(); if ( !mpWindowImpl->mbInPaint || !(pWinData->mnTrackFlags & SHOWTRACK_WINDOW) ) InvertTracking( *(pWinData->mpTrackRect), pWinData->mnTrackFlags ); mpWindowImpl->mbTrackVisible = false; } } void Window::InvertTracking( const Rectangle& rRect, sal_uInt16 nFlags ) { OutputDevice *pOutDev = GetOutDev(); Rectangle aRect( pOutDev->ImplLogicToDevicePixel( rRect ) ); if ( aRect.IsEmpty() ) return; aRect.Justify(); SalGraphics* pGraphics; if ( nFlags & SHOWTRACK_WINDOW ) { if ( !IsDeviceOutputNecessary() ) return; // we need a graphics if ( !mpGraphics ) { if ( !pOutDev->AcquireGraphics() ) return; } if ( mbInitClipRegion ) InitClipRegion(); if ( mbOutputClipped ) return; pGraphics = mpGraphics; } else { pGraphics = ImplGetFrameGraphics(); if ( nFlags & SHOWTRACK_CLIP ) { Point aPoint( mnOutOffX, mnOutOffY ); vcl::Region aRegion( Rectangle( aPoint, Size( mnOutWidth, mnOutHeight ) ) ); ImplClipBoundaries( aRegion, false, false ); pOutDev->SelectClipRegion( aRegion, pGraphics ); } } sal_uInt16 nStyle = nFlags & SHOWTRACK_STYLE; if ( nStyle == SHOWTRACK_OBJECT ) pGraphics->Invert( aRect.Left(), aRect.Top(), aRect.GetWidth(), aRect.GetHeight(), SAL_INVERT_TRACKFRAME, this ); else if ( nStyle == SHOWTRACK_SPLIT ) pGraphics->Invert( aRect.Left(), aRect.Top(), aRect.GetWidth(), aRect.GetHeight(), SAL_INVERT_50, this ); else { long nBorder = 1; if ( nStyle == SHOWTRACK_BIG ) nBorder = 5; pGraphics->Invert( aRect.Left(), aRect.Top(), aRect.GetWidth(), nBorder, SAL_INVERT_50, this ); pGraphics->Invert( aRect.Left(), aRect.Bottom()-nBorder+1, aRect.GetWidth(), nBorder, SAL_INVERT_50, this ); pGraphics->Invert( aRect.Left(), aRect.Top()+nBorder, nBorder, aRect.GetHeight()-(nBorder*2), SAL_INVERT_50, this ); pGraphics->Invert( aRect.Right()-nBorder+1, aRect.Top()+nBorder, nBorder, aRect.GetHeight()-(nBorder*2), SAL_INVERT_50, this ); } } void Window::InvertTracking( const tools::Polygon& rPoly, sal_uInt16 nFlags ) { sal_uInt16 nPoints = rPoly.GetSize(); if ( nPoints < 2 ) return; OutputDevice *pOutDev = GetOutDev(); tools::Polygon aPoly( pOutDev->ImplLogicToDevicePixel( rPoly ) ); SalGraphics* pGraphics; if ( nFlags & SHOWTRACK_WINDOW ) { if ( !IsDeviceOutputNecessary() ) return; // we need a graphics if ( !mpGraphics ) { if ( !pOutDev->AcquireGraphics() ) return; } if ( mbInitClipRegion ) InitClipRegion(); if ( mbOutputClipped ) return; pGraphics = mpGraphics; } else { pGraphics = ImplGetFrameGraphics(); if ( nFlags & SHOWTRACK_CLIP ) { Point aPoint( mnOutOffX, mnOutOffY ); vcl::Region aRegion( Rectangle( aPoint, Size( mnOutWidth, mnOutHeight ) ) ); ImplClipBoundaries( aRegion, false, false ); pOutDev->SelectClipRegion( aRegion, pGraphics ); } } const SalPoint* pPtAry = reinterpret_cast(aPoly.GetConstPointAry()); pGraphics->Invert( nPoints, pPtAry, SAL_INVERT_TRACKFRAME, this ); } IMPL_LINK_TYPED( Window, ImplTrackTimerHdl, Timer*, pTimer, void ) { ImplSVData* pSVData = ImplGetSVData(); // Bei Button-Repeat muessen wir den Timeout umsetzen if ( pSVData->maWinData.mnTrackFlags & StartTrackingFlags::ButtonRepeat ) pTimer->SetTimeout( GetSettings().GetMouseSettings().GetButtonRepeat() ); // Tracking-Event erzeugen Point aMousePos( mpWindowImpl->mpFrameData->mnLastMouseX, mpWindowImpl->mpFrameData->mnLastMouseY ); if( ImplIsAntiparallel() ) { // - RTL - re-mirror frame pos at pChild const OutputDevice *pOutDev = GetOutDev(); pOutDev->ReMirror( aMousePos ); } MouseEvent aMEvt( ImplFrameToOutput( aMousePos ), mpWindowImpl->mpFrameData->mnClickCount, MouseEventModifiers::NONE, mpWindowImpl->mpFrameData->mnMouseCode, mpWindowImpl->mpFrameData->mnMouseCode ); TrackingEvent aTEvt( aMEvt, TrackingEventFlags::Repeat ); Tracking( aTEvt ); } void Window::StartTracking( StartTrackingFlags nFlags ) { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maWinData.mpTrackWin.get() != this ) { if ( pSVData->maWinData.mpTrackWin ) pSVData->maWinData.mpTrackWin->EndTracking( TrackingEventFlags::Cancel ); } if ( nFlags & (StartTrackingFlags::ScrollRepeat | StartTrackingFlags::ButtonRepeat) ) { pSVData->maWinData.mpTrackTimer = new AutoTimer; if ( nFlags & StartTrackingFlags::ScrollRepeat ) pSVData->maWinData.mpTrackTimer->SetTimeout( GetSettings().GetMouseSettings().GetScrollRepeat() ); else pSVData->maWinData.mpTrackTimer->SetTimeout( GetSettings().GetMouseSettings().GetButtonStartRepeat() ); pSVData->maWinData.mpTrackTimer->SetTimeoutHdl( LINK( this, Window, ImplTrackTimerHdl ) ); pSVData->maWinData.mpTrackTimer->Start(); } pSVData->maWinData.mpTrackWin = this; pSVData->maWinData.mnTrackFlags = nFlags; CaptureMouse(); } void Window::EndTracking( TrackingEventFlags nFlags ) { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maWinData.mpTrackWin.get() == this ) { // due to DbgChkThis in brackets, as the window could be destroyed // in the handler { if ( pSVData->maWinData.mpTrackTimer ) { delete pSVData->maWinData.mpTrackTimer; pSVData->maWinData.mpTrackTimer = nullptr; } pSVData->maWinData.mpTrackWin = nullptr; pSVData->maWinData.mnTrackFlags = StartTrackingFlags::NONE; ReleaseMouse(); } // call EndTracking if required if ( !(nFlags & TrackingEventFlags::DontCallHdl) ) { Point aMousePos( mpWindowImpl->mpFrameData->mnLastMouseX, mpWindowImpl->mpFrameData->mnLastMouseY ); if( ImplIsAntiparallel() ) { // - RTL - re-mirror frame pos at pChild const OutputDevice *pOutDev = GetOutDev(); pOutDev->ReMirror( aMousePos ); } MouseEvent aMEvt( ImplFrameToOutput( aMousePos ), mpWindowImpl->mpFrameData->mnClickCount, MouseEventModifiers::NONE, mpWindowImpl->mpFrameData->mnMouseCode, mpWindowImpl->mpFrameData->mnMouseCode ); TrackingEvent aTEvt( aMEvt, nFlags | TrackingEventFlags::End ); Tracking( aTEvt ); } } } bool Window::IsTracking() const { return (ImplGetSVData()->maWinData.mpTrackWin == this); } void Window::StartAutoScroll( StartAutoScrollFlags nFlags ) { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maWinData.mpAutoScrollWin.get() != this ) { if ( pSVData->maWinData.mpAutoScrollWin ) pSVData->maWinData.mpAutoScrollWin->EndAutoScroll(); } pSVData->maWinData.mpAutoScrollWin = this; pSVData->maWinData.mnAutoScrollFlags = nFlags; pSVData->maAppData.mpWheelWindow = VclPtr::Create( this ); } void Window::EndAutoScroll() { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maWinData.mpAutoScrollWin.get() == this ) { pSVData->maWinData.mpAutoScrollWin = nullptr; pSVData->maWinData.mnAutoScrollFlags = StartAutoScrollFlags::NONE; pSVData->maAppData.mpWheelWindow->ImplStop(); pSVData->maAppData.mpWheelWindow->doLazyDelete(); pSVData->maAppData.mpWheelWindow = nullptr; } } sal_uIntPtr Window::SaveFocus() { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maWinData.mpFocusWin ) { ImplFocusDelData* pDelData = new ImplFocusDelData; pSVData->maWinData.mpFocusWin->ImplAddDel( pDelData ); pDelData->mpFocusWin = pSVData->maWinData.mpFocusWin; return reinterpret_cast(pDelData); } else return 0; } bool Window::EndSaveFocus( sal_uIntPtr nSaveId, bool bRestore ) { if ( !nSaveId ) return false; else { bool bOK = true; ImplFocusDelData* pDelData = reinterpret_cast(nSaveId); if ( !pDelData->IsDead() ) { pDelData->mpFocusWin->ImplRemoveDel( pDelData ); if ( bRestore ) pDelData->mpFocusWin->GrabFocus(); } else bOK = !bRestore; delete pDelData; return bOK; } } void Window::SetZoom( const Fraction& rZoom ) { if ( mpWindowImpl && mpWindowImpl->maZoom != rZoom ) { mpWindowImpl->maZoom = rZoom; CompatStateChanged( StateChangedType::Zoom ); } } inline long WinFloatRound( double fVal ) { return( fVal > 0.0 ? (long) ( fVal + 0.5 ) : -(long) ( -fVal + 0.5 ) ); } void Window::SetZoomedPointFont(vcl::RenderContext& rRenderContext, const vcl::Font& rFont) { const Fraction& rZoom = GetZoom(); if (rZoom.GetNumerator() != rZoom.GetDenominator()) { vcl::Font aFont(rFont); Size aSize = aFont.GetSize(); double n = double(aSize.Width()); n *= double(rZoom.GetNumerator()); n /= double(rZoom.GetDenominator()); aSize.Width() = WinFloatRound(n); n = double(aSize.Height()); n *= double(rZoom.GetNumerator()); n /= double(rZoom.GetDenominator()); aSize.Height() = WinFloatRound(n); aFont.SetSize(aSize); SetPointFont(rRenderContext, aFont); // Use another font if the representation is to be scaled, // and the actual font is not scalable FontMetric aMetric = rRenderContext.GetFontMetric(); long nFontDiff = std::abs(rRenderContext.GetFont().GetSize().Height() - aMetric.GetSize().Height()); if ((aMetric.GetType() == TYPE_RASTER) && (nFontDiff >= 2)) { DefaultFontType nType; if (aMetric.GetPitch() == PITCH_FIXED) nType = DefaultFontType::FIXED; else nType = DefaultFontType::UI_SANS; vcl::Font aTempFont = OutputDevice::GetDefaultFont(nType, rRenderContext.GetSettings().GetLanguageTag().getLanguageType(), GetDefaultFontFlags::NONE); aFont.SetName(aTempFont.GetName()); SetPointFont(rRenderContext, aFont); } } else { SetPointFont(rRenderContext, rFont); } } long Window::CalcZoom( long nCalc ) const { const Fraction& rZoom = GetZoom(); if ( rZoom.GetNumerator() != rZoom.GetDenominator() ) { double n = (double)nCalc; n *= (double)rZoom.GetNumerator(); n /= (double)rZoom.GetDenominator(); nCalc = WinFloatRound( n ); } return nCalc; } void Window::SetControlFont() { if (mpWindowImpl && mpWindowImpl->mpControlFont) { delete mpWindowImpl->mpControlFont; mpWindowImpl->mpControlFont = nullptr; CompatStateChanged(StateChangedType::ControlFont); } } void Window::SetControlFont(const vcl::Font& rFont) { if (rFont == vcl::Font()) { SetControlFont(); return; } if (mpWindowImpl->mpControlFont) { if (*mpWindowImpl->mpControlFont == rFont) return; *mpWindowImpl->mpControlFont = rFont; } else mpWindowImpl->mpControlFont = new vcl::Font(rFont); CompatStateChanged(StateChangedType::ControlFont); } vcl::Font Window::GetControlFont() const { if (mpWindowImpl->mpControlFont) return *mpWindowImpl->mpControlFont; else { vcl::Font aFont; return aFont; } } void Window::ApplyControlFont(vcl::RenderContext& rRenderContext, const vcl::Font& rFont) { vcl::Font aFont(rFont); if (IsControlFont()) aFont.Merge(GetControlFont()); SetZoomedPointFont(rRenderContext, aFont); } void Window::SetControlForeground() { if (mpWindowImpl->mbControlForeground) { mpWindowImpl->maControlForeground = Color(COL_TRANSPARENT); mpWindowImpl->mbControlForeground = false; CompatStateChanged(StateChangedType::ControlForeground); } } void Window::SetControlForeground(const Color& rColor) { if (rColor.GetTransparency()) { if (mpWindowImpl->mbControlForeground) { mpWindowImpl->maControlForeground = Color(COL_TRANSPARENT); mpWindowImpl->mbControlForeground = false; CompatStateChanged(StateChangedType::ControlForeground); } } else { if (mpWindowImpl->maControlForeground != rColor) { mpWindowImpl->maControlForeground = rColor; mpWindowImpl->mbControlForeground = true; CompatStateChanged(StateChangedType::ControlForeground); } } } void Window::ApplyControlForeground(vcl::RenderContext& rRenderContext, const Color& rDefaultColor) { Color aTextColor(rDefaultColor); if (IsControlForeground()) aTextColor = GetControlForeground(); rRenderContext.SetTextColor(aTextColor); } void Window::SetControlBackground() { if (mpWindowImpl->mbControlBackground) { mpWindowImpl->maControlBackground = Color(COL_TRANSPARENT); mpWindowImpl->mbControlBackground = false; CompatStateChanged(StateChangedType::ControlBackground); } } void Window::SetControlBackground(const Color& rColor) { if (rColor.GetTransparency()) { if (mpWindowImpl->mbControlBackground) { mpWindowImpl->maControlBackground = Color(COL_TRANSPARENT); mpWindowImpl->mbControlBackground = false; CompatStateChanged(StateChangedType::ControlBackground); } } else { if (mpWindowImpl->maControlBackground != rColor) { mpWindowImpl->maControlBackground = rColor; mpWindowImpl->mbControlBackground = true; CompatStateChanged(StateChangedType::ControlBackground); } } } void Window::ApplyControlBackground(vcl::RenderContext& rRenderContext, const Color& rDefaultColor) { Color aColor(rDefaultColor); if (IsControlBackground()) aColor = GetControlBackground(); rRenderContext.SetBackground(aColor); } Size Window::CalcWindowSize( const Size& rOutSz ) const { Size aSz = rOutSz; aSz.Width() += mpWindowImpl->mnLeftBorder+mpWindowImpl->mnRightBorder; aSz.Height() += mpWindowImpl->mnTopBorder+mpWindowImpl->mnBottomBorder; return aSz; } Size Window::CalcOutputSize( const Size& rWinSz ) const { Size aSz = rWinSz; aSz.Width() -= mpWindowImpl->mnLeftBorder+mpWindowImpl->mnRightBorder; aSz.Height() -= mpWindowImpl->mnTopBorder+mpWindowImpl->mnBottomBorder; return aSz; } vcl::Font Window::GetDrawPixelFont(OutputDevice* pDev) const { vcl::Font aFont = GetPointFont(*pDev); Size aFontSize = aFont.GetSize(); MapMode aPtMapMode(MAP_POINT); aFontSize = pDev->LogicToPixel( aFontSize, aPtMapMode ); aFont.SetSize( aFontSize ); return aFont; } long Window::GetDrawPixel( OutputDevice* pDev, long nPixels ) const { long nP = nPixels; if ( pDev->GetOutDevType() != OUTDEV_WINDOW ) { MapMode aMap( MAP_100TH_MM ); Size aSz( nP, 0 ); aSz = PixelToLogic( aSz, aMap ); aSz = pDev->LogicToPixel( aSz, aMap ); nP = aSz.Width(); } return nP; } static void lcl_HandleScrollHelper( ScrollBar* pScrl, long nN, bool isMultiplyByLineSize ) { if ( pScrl && nN && pScrl->IsEnabled() && pScrl->IsInputEnabled() && ! pScrl->IsInModalMode() ) { long nNewPos = pScrl->GetThumbPos(); if ( nN == -LONG_MAX ) nNewPos += pScrl->GetPageSize(); else if ( nN == LONG_MAX ) nNewPos -= pScrl->GetPageSize(); else { // allowing both chunked and continuous scrolling if(isMultiplyByLineSize){ nN*=pScrl->GetLineSize(); } const double fVal = (double)(nNewPos - nN); if ( fVal < LONG_MIN ) nNewPos = LONG_MIN; else if ( fVal > LONG_MAX ) nNewPos = LONG_MAX; else nNewPos = (long)fVal; } pScrl->DoScroll( nNewPos ); } } bool Window::HandleScrollCommand( const CommandEvent& rCmd, ScrollBar* pHScrl, ScrollBar* pVScrl ) { bool bRet = false; if ( pHScrl || pVScrl ) { switch( rCmd.GetCommand() ) { case CommandEventId::StartAutoScroll: { StartAutoScrollFlags nFlags = StartAutoScrollFlags::NONE; if ( pHScrl ) { if ( (pHScrl->GetVisibleSize() < pHScrl->GetRangeMax()) && pHScrl->IsEnabled() && pHScrl->IsInputEnabled() && ! pHScrl->IsInModalMode() ) nFlags |= StartAutoScrollFlags::Horz; } if ( pVScrl ) { if ( (pVScrl->GetVisibleSize() < pVScrl->GetRangeMax()) && pVScrl->IsEnabled() && pVScrl->IsInputEnabled() && ! pVScrl->IsInModalMode() ) nFlags |= StartAutoScrollFlags::Vert; } if ( nFlags != StartAutoScrollFlags::NONE ) { StartAutoScroll( nFlags ); bRet = true; } } break; case CommandEventId::Wheel: { const CommandWheelData* pData = rCmd.GetWheelData(); if ( pData && (CommandWheelMode::SCROLL == pData->GetMode()) ) { if (!pData->IsDeltaPixel()) { sal_uLong nScrollLines = pData->GetScrollLines(); long nLines; if ( nScrollLines == COMMAND_WHEEL_PAGESCROLL ) { if ( pData->GetDelta() < 0 ) nLines = -LONG_MAX; else nLines = LONG_MAX; } else nLines = pData->GetNotchDelta() * (long)nScrollLines; if ( nLines ) { ImplHandleScroll( nullptr, 0L, pData->IsHorz() ? pHScrl : pVScrl, nLines ); bRet = true; } } else { // Mobile / touch scrolling section const Point & deltaPoint = rCmd.GetMousePosPixel(); double deltaXInPixels = double(deltaPoint.X()); double deltaYInPixels = double(deltaPoint.Y()); Size winSize = this->GetOutputSizePixel(); if(pHScrl) { double visSizeX = double(pHScrl->GetVisibleSize()); double ratioX = deltaXInPixels / double(winSize.getWidth()); long deltaXInLogic = long(visSizeX * ratioX); // Touch need to work by pixels. Did not apply this to // Android, as android code may require adaptations // to work with this scrolling code #ifndef IOS long lineSizeX = pHScrl->GetLineSize(); if(lineSizeX) { deltaXInLogic /= lineSizeX; } else { deltaXInLogic = 0; } #endif if ( deltaXInLogic) { #ifndef IOS bool isMultiplyByLineSize = true; #else bool isMultiplyByLineSize = false; #endif lcl_HandleScrollHelper( pHScrl, deltaXInLogic, isMultiplyByLineSize ); bRet = true; } } if(pVScrl) { double visSizeY = double(pVScrl->GetVisibleSize()); double ratioY = deltaYInPixels / double(winSize.getHeight()); long deltaYInLogic = long(visSizeY * ratioY); // Touch need to work by pixels. Did not apply this to // Android, as android code may require adaptations // to work with this scrolling code #ifndef IOS long lineSizeY = pVScrl->GetLineSize(); if(lineSizeY) { deltaYInLogic /= lineSizeY; } else { deltaYInLogic = 0; } #endif if ( deltaYInLogic ) { #ifndef IOS bool isMultiplyByLineSize = true; #else bool isMultiplyByLineSize = false; #endif lcl_HandleScrollHelper( pVScrl, deltaYInLogic, isMultiplyByLineSize ); bRet = true; } } } } } break; case CommandEventId::AutoScroll: { const CommandScrollData* pData = rCmd.GetAutoScrollData(); if ( pData && (pData->GetDeltaX() || pData->GetDeltaY()) ) { ImplHandleScroll( pHScrl, pData->GetDeltaX(), pVScrl, pData->GetDeltaY() ); bRet = true; } } break; default: break; } } return bRet; } // Note that when called for CommandEventId::Wheel above, despite its name, // pVScrl isn't necessarily the vertical scroll bar. Depending on // whether the scroll is horizontal or vertical, it is either the // horizontal or vertical scroll bar. nY is correspondingly either // the horizontal or vertical scroll amount. void Window::ImplHandleScroll( ScrollBar* pHScrl, long nX, ScrollBar* pVScrl, long nY ) { lcl_HandleScrollHelper( pHScrl, nX, true ); lcl_HandleScrollHelper( pVScrl, nY, true ); } DockingManager* Window::GetDockingManager() { return ImplGetDockingManager(); } void Window::EnableDocking( bool bEnable ) { // update list of dockable windows if( bEnable ) ImplGetDockingManager()->AddWindow( this ); else ImplGetDockingManager()->RemoveWindow( this ); } // retrieves the list of owner draw decorated windows for this window hiearchy ::std::vector >& Window::ImplGetOwnerDrawList() { return ImplGetTopmostFrameWindow()->mpWindowImpl->mpFrameData->maOwnerDrawList; } void Window::SetHelpId( const OString& rHelpId ) { mpWindowImpl->maHelpId = rHelpId; } const OString& Window::GetHelpId() const { return mpWindowImpl->maHelpId; } void Window::SetUniqueId( const OString& rUniqueId ) { mpWindowImpl->maUniqId = rUniqueId; } const OString& Window::GetUniqueId() const { return mpWindowImpl->maUniqId; } // --------- old inline methods --------------- vcl::Window* Window::ImplGetWindow() { if ( mpWindowImpl->mpClientWindow ) return mpWindowImpl->mpClientWindow; else return this; } ImplFrameData* Window::ImplGetFrameData() { return mpWindowImpl ? mpWindowImpl->mpFrameData : nullptr; } SalFrame* Window::ImplGetFrame() const { return mpWindowImpl ? mpWindowImpl->mpFrame : nullptr; } vcl::Window* Window::ImplGetParent() const { return mpWindowImpl ? mpWindowImpl->mpParent.get() : nullptr; } vcl::Window* Window::ImplGetClientWindow() const { return mpWindowImpl ? mpWindowImpl->mpClientWindow.get() : nullptr; } vcl::Window* Window::ImplGetBorderWindow() const { return mpWindowImpl ? mpWindowImpl->mpBorderWindow.get() : nullptr; } vcl::Window* Window::ImplGetFirstOverlapWindow() { if ( mpWindowImpl->mbOverlapWin ) return this; else return mpWindowImpl->mpOverlapWindow; } const vcl::Window* Window::ImplGetFirstOverlapWindow() const { if ( mpWindowImpl->mbOverlapWin ) return this; else return mpWindowImpl->mpOverlapWindow; } vcl::Window* Window::ImplGetFrameWindow() const { return mpWindowImpl ? mpWindowImpl->mpFrameWindow.get() : nullptr; } bool Window::IsDockingWindow() const { return mpWindowImpl && mpWindowImpl->mbDockWin; } bool Window::ImplIsFloatingWindow() const { return mpWindowImpl && mpWindowImpl->mbFloatWin; } bool Window::ImplIsSplitter() const { return mpWindowImpl && mpWindowImpl->mbSplitter; } bool Window::ImplIsPushButton() const { return mpWindowImpl && mpWindowImpl->mbPushButton; } bool Window::ImplIsOverlapWindow() const { return mpWindowImpl && mpWindowImpl->mbOverlapWin; } void Window::ImplSetMouseTransparent( bool bTransparent ) { if (mpWindowImpl) mpWindowImpl->mbMouseTransparent = bTransparent; } Point Window::ImplOutputToFrame( const Point& rPos ) { return Point( rPos.X()+mnOutOffX, rPos.Y()+mnOutOffY ); } Point Window::ImplFrameToOutput( const Point& rPos ) { return Point( rPos.X()-mnOutOffX, rPos.Y()-mnOutOffY ); } void Window::SetCompoundControl( bool bCompound ) { if (mpWindowImpl) mpWindowImpl->mbCompoundControl = bCompound; } void Window::IncrementLockCount() { mpWindowImpl->mnLockCount++; } void Window::DecrementLockCount() { mpWindowImpl->mnLockCount--; } WinBits Window::GetStyle() const { return mpWindowImpl ? mpWindowImpl->mnStyle : 0; } WinBits Window::GetPrevStyle() const { return mpWindowImpl ? mpWindowImpl->mnPrevStyle : 0; } WinBits Window::GetExtendedStyle() const { return mpWindowImpl ? mpWindowImpl->mnExtendedStyle : 0; } void Window::SetType( WindowType nType ) { if (mpWindowImpl) mpWindowImpl->mnType = nType; } WindowType Window::GetType() const { if (mpWindowImpl) return mpWindowImpl->mnType; else return 0; } Dialog* Window::GetParentDialog() const { const vcl::Window *pWindow = this; while( pWindow ) { if( pWindow->IsDialog() ) break; pWindow = pWindow->GetParent(); } return const_cast(dynamic_cast(pWindow)); } bool Window::IsSystemWindow() const { return mpWindowImpl && mpWindowImpl->mbSysWin; } bool Window::IsDialog() const { return mpWindowImpl && mpWindowImpl->mbDialog; } bool Window::IsMenuFloatingWindow() const { return mpWindowImpl && mpWindowImpl->mbMenuFloatingWindow; } bool Window::IsToolbarFloatingWindow() const { return mpWindowImpl && mpWindowImpl->mbToolbarFloatingWindow; } void Window::EnableAllResize( bool bEnable ) { mpWindowImpl->mbAllResize = bEnable; } void Window::EnableChildTransparentMode( bool bEnable ) { mpWindowImpl->mbChildTransparent = bEnable; } bool Window::IsChildTransparentModeEnabled() const { return mpWindowImpl && mpWindowImpl->mbChildTransparent; } bool Window::IsMouseTransparent() const { return mpWindowImpl && mpWindowImpl->mbMouseTransparent; } bool Window::IsPaintTransparent() const { return mpWindowImpl && mpWindowImpl->mbPaintTransparent; } void Window::SetDialogControlStart( bool bStart ) { mpWindowImpl->mbDlgCtrlStart = bStart; } bool Window::IsDialogControlStart() const { return mpWindowImpl && mpWindowImpl->mbDlgCtrlStart; } void Window::SetDialogControlFlags( DialogControlFlags nFlags ) { mpWindowImpl->mnDlgCtrlFlags = nFlags; } DialogControlFlags Window::GetDialogControlFlags() const { return mpWindowImpl->mnDlgCtrlFlags; } const InputContext& Window::GetInputContext() const { return mpWindowImpl->maInputContext; } bool Window::IsControlFont() const { return (mpWindowImpl->mpControlFont != nullptr); } Color Window::GetControlForeground() const { return mpWindowImpl->maControlForeground; } bool Window::IsControlForeground() const { return mpWindowImpl->mbControlForeground; } Color Window::GetControlBackground() const { return mpWindowImpl->maControlBackground; } bool Window::IsControlBackground() const { return mpWindowImpl->mbControlBackground; } bool Window::IsInPaint() const { return mpWindowImpl && mpWindowImpl->mbInPaint; } vcl::Window* Window::GetParent() const { return mpWindowImpl ? mpWindowImpl->mpRealParent.get() : nullptr; } bool Window::IsVisible() const { return mpWindowImpl && mpWindowImpl->mbVisible; } bool Window::IsReallyVisible() const { return mpWindowImpl && mpWindowImpl->mbReallyVisible; } bool Window::IsReallyShown() const { return mpWindowImpl && mpWindowImpl->mbReallyShown; } bool Window::IsInInitShow() const { return mpWindowImpl->mbInInitShow; } bool Window::IsEnabled() const { return mpWindowImpl && !mpWindowImpl->mbDisabled; } bool Window::IsInputEnabled() const { return mpWindowImpl && !mpWindowImpl->mbInputDisabled; } bool Window::IsAlwaysEnableInput() const { return mpWindowImpl->meAlwaysInputMode == AlwaysInputEnabled; } ActivateModeFlags Window::GetActivateMode() const { return mpWindowImpl->mnActivateMode; } bool Window::IsAlwaysOnTopEnabled() const { return mpWindowImpl->mbAlwaysOnTop; } bool Window::IsDefaultPos() const { return mpWindowImpl->mbDefPos; } bool Window::IsDefaultSize() const { return mpWindowImpl->mbDefSize; } void Window::EnablePaint( bool bEnable ) { mpWindowImpl->mbPaintDisabled = !bEnable; } bool Window::IsPaintEnabled() const { return !mpWindowImpl->mbPaintDisabled; } bool Window::IsUpdateMode() const { return !mpWindowImpl->mbNoUpdate; } void Window::SetParentUpdateMode( bool bUpdate ) { mpWindowImpl->mbNoParentUpdate = !bUpdate; } bool Window::IsActive() const { return mpWindowImpl->mbActive; } GetFocusFlags Window::GetGetFocusFlags() const { return mpWindowImpl->mnGetFocusFlags; } bool Window::IsCompoundControl() const { return mpWindowImpl->mbCompoundControl; } bool Window::IsWait() const { return (mpWindowImpl->mnWaitCount != 0); } vcl::Cursor* Window::GetCursor() const { if (!mpWindowImpl) return nullptr; return mpWindowImpl->mpCursor; } const Fraction& Window::GetZoom() const { return mpWindowImpl->maZoom; } bool Window::IsZoom() const { return mpWindowImpl->maZoom.GetNumerator() != mpWindowImpl->maZoom.GetDenominator(); } void Window::SetHelpText( const OUString& rHelpText ) { mpWindowImpl->maHelpText = rHelpText; mpWindowImpl->mbHelpTextDynamic = true; } void Window::SetQuickHelpText( const OUString& rHelpText ) { if (mpWindowImpl) mpWindowImpl->maQuickHelpText = rHelpText; } const OUString& Window::GetQuickHelpText() const { return mpWindowImpl->maQuickHelpText; } void Window::SetData( void* pNewData ) { mpWindowImpl->mpUserData = pNewData; } void* Window::GetData() const { return mpWindowImpl->mpUserData; } bool Window::IsCreatedWithToolkit() const { return mpWindowImpl->mbCreatedWithToolkit; } void Window::SetCreatedWithToolkit( bool b ) { mpWindowImpl->mbCreatedWithToolkit = b; } const Pointer& Window::GetPointer() const { return mpWindowImpl->maPointer; } VCLXWindow* Window::GetWindowPeer() const { return mpWindowImpl ? mpWindowImpl->mpVCLXWindow : nullptr; } void Window::SetPosPixel( const Point& rNewPos ) { setPosSizePixel( rNewPos.X(), rNewPos.Y(), 0, 0, PosSizeFlags::Pos ); } void Window::SetSizePixel( const Size& rNewSize ) { setPosSizePixel( 0, 0, rNewSize.Width(), rNewSize.Height(), PosSizeFlags::Size ); } void Window::SetPosSizePixel( const Point& rNewPos, const Size& rNewSize ) { setPosSizePixel( rNewPos.X(), rNewPos.Y(), rNewSize.Width(), rNewSize.Height()); } void Window::SetOutputSizePixel( const Size& rNewSize ) { SetSizePixel( Size( rNewSize.Width()+mpWindowImpl->mnLeftBorder+mpWindowImpl->mnRightBorder, rNewSize.Height()+mpWindowImpl->mnTopBorder+mpWindowImpl->mnBottomBorder ) ); } //When a widget wants to renegotiate layout, get toplevel parent dialog and call //resize on it. Mark all intermediate containers (or container-alike) widgets //as dirty for the size remains unchanged, but layout changed circumstances namespace { bool queue_ungrouped_resize(vcl::Window *pOrigWindow) { bool bSomeoneCares = false; vcl::Window *pWindow = pOrigWindow->GetParent(); if (pWindow) { if (isContainerWindow(*pWindow)) { bSomeoneCares = true; } else if (pWindow->GetType() == WINDOW_TABCONTROL) { bSomeoneCares = true; } pWindow->queue_resize(); } return bSomeoneCares; } } void Window::InvalidateSizeCache() { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnOptimalWidthCache = -1; pWindowImpl->mnOptimalHeightCache = -1; } void Window::queue_resize(StateChangedType eReason) { if (IsDisposed()) return; bool bSomeoneCares = queue_ungrouped_resize(this); if (eReason != StateChangedType::Visible) { InvalidateSizeCache(); } WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; if (pWindowImpl->m_xSizeGroup && pWindowImpl->m_xSizeGroup->get_mode() != VCL_SIZE_GROUP_NONE) { std::set > &rWindows = pWindowImpl->m_xSizeGroup->get_widgets(); for (auto aI = rWindows.begin(), aEnd = rWindows.end(); aI != aEnd; ++aI) { vcl::Window *pOther = *aI; if (pOther == this) continue; queue_ungrouped_resize(pOther); } } if (bSomeoneCares && !mpWindowImpl->mbInDispose) { //fdo#57090 force a resync of the borders of the borderwindow onto this //window in case they have changed vcl::Window* pBorderWindow = ImplGetBorderWindow(); if (pBorderWindow) pBorderWindow->Resize(); } } namespace { VclAlign toAlign(const OString &rValue) { VclAlign eRet = VCL_ALIGN_FILL; if (rValue == "fill") eRet = VCL_ALIGN_FILL; else if (rValue == "start") eRet = VCL_ALIGN_START; else if (rValue == "end") eRet = VCL_ALIGN_END; else if (rValue == "center") eRet = VCL_ALIGN_CENTER; return eRet; } } bool Window::set_font_attribute(const OString &rKey, const OString &rValue) { if (rKey == "weight") { vcl::Font aFont(GetControlFont()); if (rValue == "thin") aFont.SetWeight(WEIGHT_THIN); else if (rValue == "ultralight") aFont.SetWeight(WEIGHT_ULTRALIGHT); else if (rValue == "light") aFont.SetWeight(WEIGHT_LIGHT); else if (rValue == "book") aFont.SetWeight(WEIGHT_SEMILIGHT); else if (rValue == "normal") aFont.SetWeight(WEIGHT_NORMAL); else if (rValue == "medium") aFont.SetWeight(WEIGHT_MEDIUM); else if (rValue == "semibold") aFont.SetWeight(WEIGHT_SEMIBOLD); else if (rValue == "bold") aFont.SetWeight(WEIGHT_BOLD); else if (rValue == "ultrabold") aFont.SetWeight(WEIGHT_ULTRABOLD); else aFont.SetWeight(WEIGHT_BLACK); SetControlFont(aFont); } else if (rKey == "style") { vcl::Font aFont(GetControlFont()); if (rValue == "normal") aFont.SetItalic(ITALIC_NONE); else if (rValue == "oblique") aFont.SetItalic(ITALIC_OBLIQUE); else if (rValue == "italic") aFont.SetItalic(ITALIC_NORMAL); SetControlFont(aFont); } else if (rKey == "underline") { vcl::Font aFont(GetControlFont()); aFont.SetUnderline(toBool(rValue) ? UNDERLINE_SINGLE : UNDERLINE_NONE); SetControlFont(aFont); } else if (rKey == "size") { vcl::Font aFont(GetControlFont()); sal_Int32 nHeight = rValue.toInt32() / 1000; aFont.SetHeight(nHeight); SetControlFont(aFont); } else { SAL_INFO("vcl.layout", "unhandled font attribute: " << rKey.getStr()); return false; } return true; } bool Window::set_property(const OString &rKey, const OString &rValue) { if ((rKey == "label") || (rKey == "title") || (rKey == "text") ) { SetText(OStringToOUString(VclBuilder::convertMnemonicMarkup(rValue), RTL_TEXTENCODING_UTF8)); } else if (rKey == "visible") Show(toBool(rValue)); else if (rKey == "sensitive") Enable(toBool(rValue)); else if (rKey == "resizable") { WinBits nBits = GetStyle(); nBits &= ~(WB_SIZEABLE); if (toBool(rValue)) nBits |= WB_SIZEABLE; SetStyle(nBits); } else if (rKey == "xalign") { WinBits nBits = GetStyle(); nBits &= ~(WB_LEFT | WB_CENTER | WB_RIGHT); float f = rValue.toFloat(); if (f == 0.0) nBits |= WB_LEFT; else if (f == 1.0) nBits |= WB_RIGHT; else if (f == 0.5) nBits |= WB_CENTER; SetStyle(nBits); } else if (rKey == "justification") { WinBits nBits = GetStyle(); nBits &= ~(WB_LEFT | WB_CENTER | WB_RIGHT); if (rValue == "left") nBits |= WB_LEFT; else if (rValue == "right") nBits |= WB_RIGHT; else if (rValue == "center") nBits |= WB_CENTER; SetStyle(nBits); } else if (rKey == "yalign") { WinBits nBits = GetStyle(); nBits &= ~(WB_TOP | WB_VCENTER | WB_BOTTOM); float f = rValue.toFloat(); if (f == 0.0) nBits |= WB_TOP; else if (f == 1.0) nBits |= WB_BOTTOM; else if (f == 0.5) nBits |= WB_CENTER; SetStyle(nBits); } else if (rKey == "wrap") { WinBits nBits = GetStyle(); nBits &= ~(WB_WORDBREAK); if (toBool(rValue)) nBits |= WB_WORDBREAK; SetStyle(nBits); } else if (rKey == "height-request") set_height_request(rValue.toInt32()); else if (rKey == "width-request") set_width_request(rValue.toInt32()); else if (rKey == "hexpand") set_hexpand(toBool(rValue)); else if (rKey == "vexpand") set_vexpand(toBool(rValue)); else if (rKey == "halign") set_halign(toAlign(rValue)); else if (rKey == "valign") set_valign(toAlign(rValue)); else if (rKey == "tooltip-markup") SetQuickHelpText(OStringToOUString(rValue, RTL_TEXTENCODING_UTF8)); else if (rKey == "tooltip-text") SetQuickHelpText(OStringToOUString(rValue, RTL_TEXTENCODING_UTF8)); else if (rKey == "border-width") set_border_width(rValue.toInt32()); else if (rKey == "margin-left") set_margin_left(rValue.toInt32()); else if (rKey == "margin-right") set_margin_right(rValue.toInt32()); else if (rKey == "margin-top") set_margin_top(rValue.toInt32()); else if (rKey == "margin-bottom") set_margin_bottom(rValue.toInt32()); else if (rKey == "hscrollbar-policy") { WinBits nBits = GetStyle(); nBits &= ~(WB_AUTOHSCROLL|WB_HSCROLL); if (rValue == "always") nBits |= WB_HSCROLL; else if (rValue == "automatic") nBits |= WB_AUTOHSCROLL; SetStyle(nBits); } else if (rKey == "vscrollbar-policy") { WinBits nBits = GetStyle(); nBits &= ~(WB_AUTOVSCROLL|WB_VSCROLL); if (rValue == "always") nBits |= WB_VSCROLL; else if (rValue == "automatic") nBits |= WB_AUTOVSCROLL; SetStyle(nBits); } else if (rKey == "accessible-name") { SetAccessibleName(OStringToOUString(rValue, RTL_TEXTENCODING_UTF8)); } else if (rKey == "accessible-description") { SetAccessibleDescription(OStringToOUString(rValue, RTL_TEXTENCODING_UTF8)); } else if (rKey == "use-markup") { //https://live.gnome.org/GnomeGoals/RemoveMarkupInMessages SAL_WARN_IF(toBool(rValue), "vcl.layout", "Use pango attributes instead of mark-up"); } else if (rKey == "has-focus") { if (toBool(rValue)) GrabFocus(); } else { SAL_INFO("vcl.layout", "unhandled property: " << rKey.getStr()); return false; } return true; } void Window::set_height_request(sal_Int32 nHeightRequest) { if (!mpWindowImpl) return; WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; if ( pWindowImpl->mnHeightRequest != nHeightRequest ) { pWindowImpl->mnHeightRequest = nHeightRequest; queue_resize(); } } void Window::set_width_request(sal_Int32 nWidthRequest) { if (!mpWindowImpl) return; WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; if ( pWindowImpl->mnWidthRequest != nWidthRequest ) { pWindowImpl->mnWidthRequest = nWidthRequest; queue_resize(); } } Size Window::get_ungrouped_preferred_size() const { Size aRet(get_width_request(), get_height_request()); if (aRet.Width() == -1 || aRet.Height() == -1) { //cache gets blown away by queue_resize WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; if (pWindowImpl->mnOptimalWidthCache == -1 || pWindowImpl->mnOptimalHeightCache == -1) { Size aOptimal(GetOptimalSize()); pWindowImpl->mnOptimalWidthCache = aOptimal.Width(); pWindowImpl->mnOptimalHeightCache = aOptimal.Height(); } if (aRet.Width() == -1) aRet.Width() = pWindowImpl->mnOptimalWidthCache; if (aRet.Height() == -1) aRet.Height() = pWindowImpl->mnOptimalHeightCache; } return aRet; } Size Window::get_preferred_size() const { Size aRet(get_ungrouped_preferred_size()); WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; if (pWindowImpl->m_xSizeGroup) { const VclSizeGroupMode eMode = pWindowImpl->m_xSizeGroup->get_mode(); if (eMode != VCL_SIZE_GROUP_NONE) { const bool bIgnoreInHidden = pWindowImpl->m_xSizeGroup->get_ignore_hidden(); const std::set > &rWindows = pWindowImpl->m_xSizeGroup->get_widgets(); for (auto aI = rWindows.begin(), aEnd = rWindows.end(); aI != aEnd; ++aI) { const vcl::Window *pOther = *aI; if (pOther == this) continue; if (bIgnoreInHidden && !pOther->IsVisible()) continue; Size aOtherSize = pOther->get_ungrouped_preferred_size(); if (eMode == VCL_SIZE_GROUP_BOTH || eMode == VCL_SIZE_GROUP_HORIZONTAL) aRet.Width() = std::max(aRet.Width(), aOtherSize.Width()); if (eMode == VCL_SIZE_GROUP_BOTH || eMode == VCL_SIZE_GROUP_VERTICAL) aRet.Height() = std::max(aRet.Height(), aOtherSize.Height()); } } } return aRet; } VclAlign Window::get_halign() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->meHalign; } void Window::set_halign(VclAlign eAlign) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->meHalign = eAlign; } VclAlign Window::get_valign() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->meValign; } void Window::set_valign(VclAlign eAlign) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->meValign = eAlign; } bool Window::get_hexpand() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mbHexpand; } void Window::set_hexpand(bool bExpand) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mbHexpand = bExpand; } bool Window::get_vexpand() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mbVexpand; } void Window::set_vexpand(bool bExpand) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mbVexpand = bExpand; } bool Window::get_expand() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mbExpand; } void Window::set_expand(bool bExpand) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mbExpand = bExpand; } VclPackType Window::get_pack_type() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mePackType; } void Window::set_pack_type(VclPackType ePackType) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mePackType = ePackType; } sal_Int32 Window::get_padding() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnPadding; } void Window::set_padding(sal_Int32 nPadding) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnPadding = nPadding; } bool Window::get_fill() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mbFill; } void Window::set_fill(bool bFill) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mbFill = bFill; } sal_Int32 Window::get_grid_width() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnGridWidth; } void Window::set_grid_width(sal_Int32 nCols) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnGridWidth = nCols; } sal_Int32 Window::get_grid_left_attach() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnGridLeftAttach; } void Window::set_grid_left_attach(sal_Int32 nAttach) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnGridLeftAttach = nAttach; } sal_Int32 Window::get_grid_height() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnGridHeight; } void Window::set_grid_height(sal_Int32 nRows) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnGridHeight = nRows; } sal_Int32 Window::get_grid_top_attach() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnGridTopAttach; } void Window::set_grid_top_attach(sal_Int32 nAttach) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnGridTopAttach = nAttach; } void Window::set_border_width(sal_Int32 nBorderWidth) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnBorderWidth = nBorderWidth; } sal_Int32 Window::get_border_width() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnBorderWidth; } void Window::set_margin_left(sal_Int32 nWidth) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnMarginLeft = nWidth; } sal_Int32 Window::get_margin_left() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnMarginLeft; } void Window::set_margin_right(sal_Int32 nWidth) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnMarginRight = nWidth; } sal_Int32 Window::get_margin_right() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnMarginRight; } void Window::set_margin_top(sal_Int32 nWidth) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnMarginTop = nWidth; } sal_Int32 Window::get_margin_top() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnMarginTop; } void Window::set_margin_bottom(sal_Int32 nWidth) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mnMarginBottom = nWidth; } sal_Int32 Window::get_margin_bottom() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnMarginBottom; } sal_Int32 Window::get_height_request() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnHeightRequest; } sal_Int32 Window::get_width_request() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mnWidthRequest; } bool Window::get_secondary() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mbSecondary; } void Window::set_secondary(bool bSecondary) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mbSecondary = bSecondary; } bool Window::get_non_homogeneous() const { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; return pWindowImpl->mbNonHomogeneous; } void Window::set_non_homogeneous(bool bNonHomogeneous) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; pWindowImpl->mbNonHomogeneous = bNonHomogeneous; } void Window::add_to_size_group(std::shared_ptr xGroup) { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; //To-Do, multiple groups pWindowImpl->m_xSizeGroup = xGroup; pWindowImpl->m_xSizeGroup->insert(this); if (VCL_SIZE_GROUP_NONE != pWindowImpl->m_xSizeGroup->get_mode()) queue_resize(); } void Window::remove_from_all_size_groups() { WindowImpl *pWindowImpl = mpWindowImpl->mpBorderWindow ? mpWindowImpl->mpBorderWindow->mpWindowImpl : mpWindowImpl; //To-Do, multiple groups if (pWindowImpl->m_xSizeGroup) { if (VCL_SIZE_GROUP_NONE != pWindowImpl->m_xSizeGroup->get_mode()) queue_resize(); pWindowImpl->m_xSizeGroup->erase(this); pWindowImpl->m_xSizeGroup.reset(); } } void Window::add_mnemonic_label(FixedText *pLabel) { std::vector >& v = mpWindowImpl->m_aMnemonicLabels; if (std::find(v.begin(), v.end(), VclPtr(pLabel)) != v.end()) return; v.push_back(pLabel); pLabel->set_mnemonic_widget(this); } void Window::remove_mnemonic_label(FixedText *pLabel) { std::vector >& v = mpWindowImpl->m_aMnemonicLabels; auto aFind = std::find(v.begin(), v.end(), VclPtr(pLabel)); if (aFind == v.end()) return; v.erase(aFind); pLabel->set_mnemonic_widget(nullptr); } std::vector > Window::list_mnemonic_labels() const { return mpWindowImpl->m_aMnemonicLabels; } } /* namespace vcl */ /* vim:set shiftwidth=4 softtabstop=4 expandtab: */