/* -*- 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 . */ #ifndef INCLUDED_SW_SOURCE_CORE_INC_WRONG_HXX #define INCLUDED_SW_SOURCE_CORE_INC_WRONG_HXX #include #include #include #include #include #include #include #include #include #include #include "TextFrameIndex.hxx" #if defined _MSC_VER // For MSVC (without /vmg) SwTextNode must consistently be defined for // WrongListIterator::m_pGetWrongList of pointer-to-SwTextNode-member type to consistently have the // same size in all translation units that include this file: #include #endif class SwWrongList; enum WrongAreaLineType { WRONGAREA_NONE, WRONGAREA_WAVE, WRONGAREA_BOLDWAVE, WRONGAREA_BOLD, WRONGAREA_DASHED }; enum WrongListType { WRONGLIST_SPELL, WRONGLIST_GRAMMAR, WRONGLIST_SMARTTAG, WRONGLIST_CHANGETRACKING }; // ST2 class SwWrongArea { public: OUString maType; sal_Int32 mnPos; sal_Int32 mnLen; SwWrongList* mpSubList; Color mColor; WrongAreaLineType mLineType; SwWrongArea( const OUString& rType, WrongListType listType, css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag, sal_Int32 nPos, sal_Int32 nLen); SwWrongArea( const OUString& rType, css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag, sal_Int32 nPos, sal_Int32 nLen, SwWrongList* pSubList); private: static Color getGrammarColor ( css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag) { try { if (xPropertyBag.is()) { const OUString colorKey("LineColor"); css::uno::Any aLineColor = xPropertyBag->getValue(colorKey); css::util::Color lineColor = 0; if (aLineColor >>= lineColor) { return Color( lineColor ); } } } catch(const css::container::NoSuchElementException&) { } catch(const css::uno::RuntimeException&) { } return COL_LIGHTBLUE; } static WrongAreaLineType getGrammarLineType( css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag ) { try { if (xPropertyBag.is()) { const OUString typeKey("LineType"); css::uno::Any aLineType = xPropertyBag->getValue(typeKey); ::sal_Int16 lineType = 0; if (!(aLineType >>= lineType)) { return WRONGAREA_WAVE; } if (css::awt::FontUnderline::BOLDWAVE == lineType) { return WRONGAREA_BOLDWAVE; } if (css::awt::FontUnderline::BOLD == lineType) { return WRONGAREA_BOLD; } if (css::awt::FontUnderline::DASH == lineType) { return WRONGAREA_DASHED; } if (css::awt::FontUnderline::SMALLWAVE == lineType) { return WRONGAREA_WAVE; //Code draws wave height based on space that fits. } } } catch(const css::container::NoSuchElementException&) { } catch(const css::uno::RuntimeException&) { } return WRONGAREA_WAVE; } static Color getSmartColor ( css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag) { try { if (xPropertyBag.is()) { const OUString colorKey("LineColor"); css::uno::Any aLineColor = xPropertyBag->getValue(colorKey); css::util::Color lineColor = 0; if (aLineColor >>= lineColor) { return Color( lineColor ); } } } catch(const css::container::NoSuchElementException&) { } catch(const css::uno::RuntimeException&) { } return SwViewOption::GetSmarttagColor( ); } static WrongAreaLineType getSmartLineType( css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag ) { try { if (xPropertyBag.is()) { const OUString typeKey("LineType"); css::uno::Any aLineType = xPropertyBag->getValue(typeKey); ::sal_Int16 lineType = 0; if (!(aLineType >>= lineType)) { return WRONGAREA_DASHED; } if (css::awt::FontUnderline::WAVE == lineType) { return WRONGAREA_WAVE; } if (css::awt::FontUnderline::BOLDWAVE == lineType) { return WRONGAREA_BOLDWAVE; } if (css::awt::FontUnderline::BOLD == lineType) { return WRONGAREA_BOLD; } if (css::awt::FontUnderline::SMALLWAVE == lineType) { return WRONGAREA_WAVE; //Code draws wave height based on space that fits. } } } catch(const css::container::NoSuchElementException&) { } catch(const css::uno::RuntimeException&) { } return WRONGAREA_DASHED; } static Color getWrongAreaColor(WrongListType listType, css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag ) { if (WRONGLIST_SPELL == listType) { return SwViewOption::GetSpellColor(); } else if (WRONGLIST_GRAMMAR == listType) { return getGrammarColor(xPropertyBag); } else if (WRONGLIST_SMARTTAG == listType) { return getSmartColor(xPropertyBag); } return SwViewOption::GetSpellColor(); } static WrongAreaLineType getWrongAreaLineType(WrongListType listType, css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag ) { if (WRONGLIST_SPELL == listType) { return WRONGAREA_WAVE; } else if (WRONGLIST_GRAMMAR == listType) { return getGrammarLineType(xPropertyBag); } else if (WRONGLIST_SMARTTAG == listType) { return getSmartLineType(xPropertyBag); } return WRONGAREA_WAVE; } }; class SwWrongList { std::vector maList; WrongListType meType; sal_Int32 mnBeginInvalid; // Start of the invalid range sal_Int32 mnEndInvalid; // End of the invalid range static void ShiftLeft( sal_Int32 &rPos, sal_Int32 nStart, sal_Int32 nEnd ) { if( rPos > nStart ) rPos = rPos > nEnd ? rPos - nEnd + nStart : nStart; } void Invalidate_( sal_Int32 nBegin, sal_Int32 nEnd ); void Insert(sal_uInt16 nWhere, std::vector::iterator startPos, std::vector::iterator const & endPos); void Remove( sal_uInt16 nIdx, sal_uInt16 nLen ); SwWrongList& operator= (const SwWrongList &) = delete; SwWrongList( const SwWrongList& rCpy ) = delete; public: SwWrongList( WrongListType eType ); virtual ~SwWrongList(); virtual SwWrongList* Clone(); virtual void CopyFrom( const SwWrongList& rCopy ); WrongListType GetWrongListType() const { return meType; } sal_Int32 GetBeginInv() const { return mnBeginInvalid; } sal_Int32 GetEndInv() const { return mnEndInvalid; } void SetInvalid( sal_Int32 nBegin, sal_Int32 nEnd ); void Validate(){ mnBeginInvalid = mnEndInvalid = COMPLETE_STRING; } void Invalidate( sal_Int32 nBegin, sal_Int32 nEnd ); bool InvalidateWrong(); enum class FreshState { FRESH, CURSOR, NOTHING }; FreshState Fresh( sal_Int32 &rStart, sal_Int32 &rEnd, sal_Int32 nPos, sal_Int32 nLen, sal_uInt16 nIndex, sal_Int32 nCursorPos ); sal_uInt16 GetWrongPos( sal_Int32 nValue ) const; bool Check( sal_Int32 &rChk, sal_Int32 &rLn ) const; bool InWrongWord( sal_Int32 &rChk, sal_Int32 &rLn ) const; sal_Int32 NextWrong( sal_Int32 nChk ) const; void Move( sal_Int32 nPos, sal_Int32 nDiff ); void ClearList(); // Divide the list into two part, the wrong words until nSplitPos will be // removed and transferred to a new SwWrongList. SwWrongList* SplitList( sal_Int32 nSplitPos ); // Join the next SwWrongList, nInsertPos is my own text length, where // the other wrong list has to be inserted. void JoinList( SwWrongList* pNext, sal_Int32 nInsertPos ); sal_Int32 Len( sal_uInt16 nIdx ) const { return nIdx < maList.size() ? maList[nIdx].mnLen : 0; } sal_Int32 Pos( sal_uInt16 nIdx ) const { return nIdx < maList.size() ? maList[nIdx].mnPos : 0; } sal_uInt16 Count() const { return static_cast(maList.size()); } void Insert( const OUString& rType, css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag, sal_Int32 nNewPos, sal_Int32 nNewLen, sal_uInt16 nWhere ) { std::vector::iterator i = maList.begin(); if ( nWhere >= maList.size() ) i = maList.end(); // robust else i += nWhere; maList.insert(i, SwWrongArea( rType, meType, xPropertyBag, nNewPos, nNewLen) ); } void Insert( const OUString& rType, css::uno::Reference< css::container::XStringKeyMap > const & xPropertyBag, sal_Int32 nNewPos, sal_Int32 nNewLen ); SwWrongList* SubList( sal_uInt16 nIdx ) const { return nIdx < maList.size() ? maList[nIdx].mpSubList : nullptr; } void InsertSubList( sal_Int32 nNewPos, sal_Int32 nNewLen, sal_uInt16 nWhere, SwWrongList* pSubList ); const SwWrongArea* GetElement( sal_uInt16 nIdx ) const { return nIdx < maList.size() ? &maList[nIdx] : nullptr; } void RemoveEntry( sal_Int32 nBegin, sal_Int32 nEnd ); bool LookForEntry( sal_Int32 nBegin, sal_Int32 nEnd ); }; class SwTextNode; class SwTextFrame; namespace sw { struct MergedPara; class WrongListIteratorBase { protected: SwWrongList const* (SwTextNode::*const m_pGetWrongList)() const; sw::MergedPara const*const m_pMergedPara; size_t m_CurrentExtent; TextFrameIndex m_CurrentIndex; SwWrongList const*const m_pWrongList; public: /// for the text frame WrongListIteratorBase(SwTextFrame const& rFrame, SwWrongList const* (SwTextNode::*pGetWrongList)() const); /// for SwTextSlot WrongListIteratorBase(SwWrongList const& rWrongList); }; class WrongListIterator : public WrongListIteratorBase { public: /// for the text frame WrongListIterator(SwTextFrame const& rFrame, SwWrongList const* (SwTextNode::*pGetWrongList)() const); /// for SwTextSlot WrongListIterator(SwWrongList const& rWrongList); bool Check(TextFrameIndex &rStart, TextFrameIndex &rLen); const SwWrongArea* GetWrongElement(TextFrameIndex nStart); bool LooksUseful() { return m_pMergedPara || m_pWrongList; } }; class WrongListIteratorCounter : public WrongListIteratorBase { public: WrongListIteratorCounter(SwTextFrame const& rFrame, SwWrongList const* (SwTextNode::*pGetWrongList)() const); WrongListIteratorCounter(SwWrongList const& rWrongList); sal_uInt16 GetElementCount(); std::optional> GetElementAt(sal_uInt16 nIndex); }; } // namespace sw #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */