/* -*- 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 #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 #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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define CTYPE_CNT 0 #define CTYPE_CTT 1 using namespace ::com::sun::star; using namespace ::com::sun::star::text; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::container; namespace { /* Symbolic name representations of numeric values used for the Outline Content Visibility popup menu item ids. The numbers are chosen arbitrarily to not over overlap other menu item ids. see: SwContentTree::ExecuteContextMenuAction, navigatorcontextmenu.ui 1512 toggle outline content visibility of the selected outline entry 1513 make the outline content of the selected outline entry and children not visible 1514 make the outline content of the selected entry and children visible */ const sal_uInt32 TOGGLE_OUTLINE_CONTENT_VISIBILITY = 1512; const sal_uInt32 HIDE_OUTLINE_CONTENT_VISIBILITY = 1513; const sal_uInt32 SHOW_OUTLINE_CONTENT_VISIBILITY = 1514; constexpr char NAVI_BOOKMARK_DELIM = '\x01'; } class SwContentArr : public o3tl::sorted_vector, o3tl::less_ptr_to, o3tl::find_partialorder_ptrequals> { }; namespace { std::map> lcl_DocOutLineExpandStateMap; bool lcl_IsContent(const weld::TreeIter& rEntry, const weld::TreeView& rTreeView) { return weld::fromId(rTreeView.get_id(rEntry))->GetTypeId() == CTYPE_CNT; } bool lcl_IsContentType(const weld::TreeIter& rEntry, const weld::TreeView& rTreeView) { return weld::fromId(rTreeView.get_id(rEntry))->GetTypeId() == CTYPE_CTT; } bool lcl_IsLowerOutlineContent(const weld::TreeIter& rEntry, const weld::TreeView& rTreeView, sal_uInt8 nLevel) { return weld::fromId(rTreeView.get_id(rEntry))->GetOutlineLevel() < nLevel; } bool lcl_FindShell(SwWrtShell const * pShell) { bool bFound = false; SwView *pView = SwModule::GetFirstView(); while (pView) { if(pShell == &pView->GetWrtShell()) { bFound = true; break; } pView = SwModule::GetNextView(pView); } return bFound; } bool lcl_IsUiVisibleBookmark(const ::sw::mark::MarkBase* pMark) { return IDocumentMarkAccess::GetType(*pMark) == IDocumentMarkAccess::MarkType::BOOKMARK; } OUString lcl_GetFootnoteText(const SwTextFootnote& rTextFootnote) { SwNodeIndex aIdx(*rTextFootnote.GetStartNode(), 1); SwContentNode* pCNd = aIdx.GetNode().GetTextNode(); if(!pCNd) pCNd = SwNodes::GoNext(&aIdx); return pCNd->IsTextNode() ? static_cast(pCNd)->GetText() : OUString(); } void getAnchorPos(SwPosition& rPos) { // get the top most anchor position of the position if (SwFrameFormat* pFlyFormat = rPos.GetNode().GetFlyFormat()) { SwNode* pAnchorNode; SwFrameFormat* pTmp = pFlyFormat; while (pTmp && (pAnchorNode = pTmp->GetAnchor().GetAnchorNode()) && (pTmp = pAnchorNode->GetFlyFormat())) { pFlyFormat = pTmp; } if (const SwPosition* pPos = pFlyFormat->GetAnchor().GetContentAnchor()) rPos = *pPos; } } bool lcl_IsLowerRegionContent(const weld::TreeIter& rEntry, const weld::TreeView& rTreeView, sal_uInt8 nLevel) { return weld::fromId(rTreeView.get_id(rEntry))->GetRegionLevel() < nLevel; } void lcl_SelectAllFootnotesOrEndnotes(SwWrtShell& rWrtShell, SwContentType* pContentType) { const auto nCount = pContentType->GetMemberCount(); if (nCount == 0) return; rWrtShell.AssureStdMode(); SwCursor* pCursor = rWrtShell.getShellCursor(true); rWrtShell.StartAction(); rWrtShell.EnterAddMode(); for (size_t i = 0; i < nCount; i++) { const SwTextFootnoteContent* pTextFootnoteCnt = static_cast(pContentType->GetMember(i)); if (pTextFootnoteCnt && !pTextFootnoteCnt->IsInvisible()) { if (const SwTextAttr* pTextAttr = pTextFootnoteCnt->GetTextFootnote()) { const SwTextFootnote* pTextFootnote = pTextAttr->GetFootnote().GetTextFootnote(); if (!pTextFootnote) continue; const SwTextNode& rTextNode = pTextFootnote->GetTextNode(); auto nStart = pTextAttr->GetStart(); pCursor->GetPoint()->Assign(rTextNode, nStart + 1); rWrtShell.SetMark(); rWrtShell.SttSelect(); pCursor->GetPoint()->Assign(rTextNode, nStart); rWrtShell.EndSelect(); } } } rWrtShell.LeaveAddMode(); rWrtShell.EndAction(); } } // Content, contains names and reference at the content type. SwContent::SwContent(const SwContentType* pCnt, OUString aName, double nYPos) : SwTypeNumber(CTYPE_CNT), m_pParent(pCnt), m_sContentName(std::move(aName)), m_nYPosition(nYPos), m_bInvisible(false) { } SwTypeNumber::~SwTypeNumber() { } bool SwContent::IsProtect() const { return false; } bool SwTextFieldContent::IsProtect() const { return m_pFormatField->IsProtect(); } bool SwPostItContent::IsProtect() const { return m_pField->IsProtect(); } bool SwURLFieldContent::IsProtect() const { return m_pINetAttr->IsProtect(); } bool SwRegionContent::IsProtect() const { return m_pSectionFormat->GetSection()->IsProtect(); } SwGraphicContent::~SwGraphicContent() { } SwTOXBaseContent::~SwTOXBaseContent() { } const TranslateId STR_CONTENT_TYPE_ARY[] = { STR_CONTENT_TYPE_OUTLINE, STR_CONTENT_TYPE_TABLE, STR_CONTENT_TYPE_FRAME, STR_CONTENT_TYPE_GRAPHIC, STR_CONTENT_TYPE_OLE, STR_CONTENT_TYPE_BOOKMARK, STR_CONTENT_TYPE_REGION, STR_CONTENT_TYPE_URLFIELD, STR_CONTENT_TYPE_REFERENCE, STR_CONTENT_TYPE_INDEX, STR_CONTENT_TYPE_POSTIT, STR_CONTENT_TYPE_DRAWOBJECT, STR_CONTENT_TYPE_TEXTFIELD, STR_CONTENT_TYPE_FOOTNOTE, STR_CONTENT_TYPE_ENDNOTE }; const TranslateId STR_CONTENT_TYPE_SINGLE_ARY[] = { STR_CONTENT_TYPE_SINGLE_OUTLINE, STR_CONTENT_TYPE_SINGLE_TABLE, STR_CONTENT_TYPE_SINGLE_FRAME, STR_CONTENT_TYPE_SINGLE_GRAPHIC, STR_CONTENT_TYPE_SINGLE_OLE, STR_CONTENT_TYPE_SINGLE_BOOKMARK, STR_CONTENT_TYPE_SINGLE_REGION, STR_CONTENT_TYPE_SINGLE_URLFIELD, STR_CONTENT_TYPE_SINGLE_REFERENCE, STR_CONTENT_TYPE_SINGLE_INDEX, STR_CONTENT_TYPE_SINGLE_POSTIT, STR_CONTENT_TYPE_SINGLE_DRAWOBJECT, STR_CONTENT_TYPE_SINGLE_TEXTFIELD, STR_CONTENT_TYPE_SINGLE_FOOTNOTE, STR_CONTENT_TYPE_SINGLE_ENDNOTE }; namespace { bool checkVisibilityChanged( const SwContentArr& rSwContentArrA, const SwContentArr& rSwContentArrB) { if(rSwContentArrA.size() != rSwContentArrB.size()) { return true; } for(size_t a(0); a < rSwContentArrA.size(); a++) { if(rSwContentArrA[a]->IsInvisible() != rSwContentArrB[a]->IsInvisible()) { return true; } } return false; } // Gets "YPos" for content, i.e. a number used to sort content members in Navigator's list sal_Int32 getYPos(const SwNode& rNode) { SwNodeOffset nIndex = rNode.GetIndex(); if (rNode.GetNodes().GetEndOfExtras().GetIndex() >= nIndex) { // Not a node of BodyText // Are we in a fly? if (const auto pFlyFormat = rNode.GetFlyFormat()) { // Get node index of anchor if (SwNode* pAnchorNode = pFlyFormat->GetAnchor().GetAnchorNode()) { return getYPos(*pAnchorNode); } } } return sal_Int32(nIndex); } } // end of anonymous namespace SwContentType::SwContentType(SwWrtShell* pShell, ContentTypeId nType, sal_uInt8 nLevel) : SwTypeNumber(CTYPE_CTT), m_pWrtShell(pShell), m_sContentTypeName(SwResId(STR_CONTENT_TYPE_ARY[static_cast(nType)])), m_sSingleContentTypeName(SwResId(STR_CONTENT_TYPE_SINGLE_ARY[static_cast(nType)])), m_nMemberCount(0), m_nContentType(nType), m_nOutlineLevel(nLevel), m_bDataValid(false), m_bEdit(false), m_bDelete(true) { switch(m_nContentType) { case ContentTypeId::OUTLINE: m_sTypeToken = "outline"; break; case ContentTypeId::TABLE: m_sTypeToken = "table"; m_bEdit = true; m_bRenamable = true; break; case ContentTypeId::FRAME: m_sTypeToken = "frame"; m_bEdit = true; m_bRenamable = true; break; case ContentTypeId::GRAPHIC: m_sTypeToken = "graphic"; m_bEdit = true; m_bRenamable = true; break; case ContentTypeId::OLE: m_sTypeToken = "ole"; m_bEdit = true; m_bRenamable = true; break; case ContentTypeId::TEXTFIELD: m_bEdit = true; break; case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: m_bEdit = true; break; case ContentTypeId::BOOKMARK: { const bool bProtectedBM = m_pWrtShell->getIDocumentSettingAccess().get( DocumentSettingId::PROTECT_BOOKMARKS); m_bEdit = true; m_bDelete = !bProtectedBM; m_bRenamable = !bProtectedBM; } break; case ContentTypeId::REGION: m_sTypeToken = "region"; m_bEdit = true; m_bRenamable = true; break; case ContentTypeId::INDEX: m_bEdit = true; m_bRenamable = true; break; case ContentTypeId::REFERENCE: m_bEdit = false; break; case ContentTypeId::URLFIELD: m_bEdit = true; break; case ContentTypeId::POSTIT: m_bEdit = true; break; case ContentTypeId::DRAWOBJECT: m_sTypeToken = "drawingobject"; m_bEdit = true; m_bRenamable = true; break; default: break; } const int nShift = static_cast(m_nContentType); assert(nShift > -1); const sal_Int32 nMask = 1 << nShift; const sal_Int32 nBlock = SwModule::get()->GetNavigationConfig()->GetSortAlphabeticallyBlock(); m_bAlphabeticSort = nBlock & nMask; FillMemberList(); } SwContentType::~SwContentType() { } const SwContent* SwContentType::GetMember(size_t nIndex) { if(!m_bDataValid || !m_pMember) { FillMemberList(); } if(nIndex < m_pMember->size()) return (*m_pMember)[nIndex].get(); return nullptr; } void SwContentType::Invalidate() { m_bDataValid = false; } void SwContentType::FillMemberList(bool* pbContentChanged) { std::unique_ptr pOldMember; size_t nOldMemberCount = 0; if(m_pMember && pbContentChanged) { pOldMember = std::move(m_pMember); nOldMemberCount = pOldMember->size(); m_pMember.reset( new SwContentArr ); *pbContentChanged = false; } else if(!m_pMember) m_pMember.reset( new SwContentArr ); else m_pMember->clear(); switch(m_nContentType) { case ContentTypeId::OUTLINE : { const SwNodeOffset nEndOfExtrasIndex = m_pWrtShell->GetNodes().GetEndOfExtras().GetIndex(); // provide for up to 99999 outline nodes in frames to be sorted in document layout order double nOutlinesInFramesIndexAdjustment = 0.00001; const SwOutlineNodes& rOutlineNodes(m_pWrtShell->GetNodes().GetOutLineNds()); const size_t nOutlineCount = rOutlineNodes.size(); for (size_t i = 0; i < nOutlineCount; ++i) { SwTextNode* pNode = rOutlineNodes[i]->GetTextNode(); const sal_uInt8 nLevel = pNode->GetAttrOutlineLevel() - 1; if (nLevel >= m_nOutlineLevel) continue; double nYPos = m_bAlphabeticSort ? 0 : static_cast(getYPos(*pNode)); if (nEndOfExtrasIndex >= pNode->GetIndex() && pNode->GetFlyFormat()) { nYPos += nOutlinesInFramesIndexAdjustment; nOutlinesInFramesIndexAdjustment += 0.00001; } OUString aEntry(comphelper::string::stripStart( m_pWrtShell->getIDocumentOutlineNodesAccess()->getOutlineText( i, m_pWrtShell->GetLayout(), true, false, false), ' ')); aEntry = SwNavigationPI::CleanEntry(aEntry); auto pCnt(std::make_unique(this, aEntry, i, nLevel, m_pWrtShell->IsOutlineMovable(i), nYPos)); if (!pNode->getLayoutFrame(m_pWrtShell->GetLayout())) pCnt->SetInvisible(); m_pMember->insert(std::move(pCnt)); } // need to check level and equal entry number after creation due to possible outline // nodes in frames, headers, footers if (pOldMember) { assert(pbContentChanged && "pbContentChanged is always set if pOldMember is"); if (pOldMember->size() != m_pMember->size()) { *pbContentChanged = true; break; } for (size_t i = 0; i < pOldMember->size(); i++) { if (static_cast((*pOldMember)[i].get())->GetOutlineLevel() != static_cast((*m_pMember)[i].get())->GetOutlineLevel()) { *pbContentChanged = true; break; } } } } break; case ContentTypeId::TABLE : { const size_t nCount = m_pWrtShell->GetTableFrameFormatCount(true); const sw::TableFrameFormats* pFrameFormats = m_pWrtShell->GetDoc()->GetTableFrameFormats(); for(size_t n = 0, i = 0; i < nCount + n; ++i) { const SwTableFormat& rTableFormat = *(*pFrameFormats)[i]; if(!rTableFormat.IsUsed()) // skip deleted tables { n++; continue; } tools::Long nYPos = 0; if (!m_bAlphabeticSort) { if (SwTable* pTable = SwTable::FindTable(&rTableFormat)) nYPos = getYPos(*pTable->GetTableNode()); } auto pCnt = std::make_unique(this, rTableFormat.GetName(), nYPos); if(!rTableFormat.IsVisible()) pCnt->SetInvisible(); m_pMember->insert(std::move(pCnt)); } if (pOldMember) { // need to check visibility (and equal entry number) after // creation due to a sorted list being used here (before, // entries with same index were compared already at creation // time what worked before a sorted list was used) *pbContentChanged = checkVisibilityChanged( *pOldMember, *m_pMember); } } break; case ContentTypeId::OLE : case ContentTypeId::FRAME : case ContentTypeId::GRAPHIC : { FlyCntType eType = FLYCNTTYPE_FRM; if(m_nContentType == ContentTypeId::OLE) eType = FLYCNTTYPE_OLE; else if(m_nContentType == ContentTypeId::GRAPHIC) eType = FLYCNTTYPE_GRF; Point aNullPt; size_t nCount = m_pWrtShell->GetFlyCount(eType, /*bIgnoreTextBoxes=*/true); std::vector formats(m_pWrtShell->GetFlyFrameFormats(eType, /*bIgnoreTextBoxes=*/true)); SAL_WARN_IF(nCount != formats.size(), "sw.ui", "Count differs"); nCount = formats.size(); for (size_t i = 0; i < nCount; ++i) { SwFrameFormat const*const pFrameFormat = formats[i]; const OUString sFrameName = pFrameFormat->GetName(); SwContent* pCnt; tools::Long nYPos = m_bAlphabeticSort ? 0 : pFrameFormat->FindLayoutRect(false, &aNullPt).Top(); if(ContentTypeId::GRAPHIC == m_nContentType) { OUString sLink; SwDoc::GetGrfNms(*static_cast(pFrameFormat), &sLink, nullptr); pCnt = new SwGraphicContent(this, sFrameName, INetURLObject::decode(sLink, INetURLObject::DecodeMechanism::Unambiguous), nYPos); } else { pCnt = new SwContent(this, sFrameName, nYPos); } if(!pFrameFormat->IsVisible()) pCnt->SetInvisible(); m_pMember->insert(std::unique_ptr(pCnt)); } if (pOldMember) { // need to check visibility (and equal entry number) after // creation due to a sorted list being used here (before, // entries with same index were compared already at creation // time what worked before a sorted list was used) assert(pbContentChanged && "pbContentChanged is always set if pOldMember is"); *pbContentChanged = checkVisibilityChanged( *pOldMember, *m_pMember); } } break; case ContentTypeId::BOOKMARK: { tools::Long nYPos = 0; IDocumentMarkAccess* const pMarkAccess = m_pWrtShell->getIDocumentMarkAccess(); for(auto ppBookmark = pMarkAccess->getBookmarksBegin(); ppBookmark != pMarkAccess->getBookmarksEnd(); ++ppBookmark) { if(lcl_IsUiVisibleBookmark(*ppBookmark)) { const OUString& rBkmName = (*ppBookmark)->GetName(); //nYPos from 0 -> text::Bookmarks will be sorted alphabetically auto pCnt(std::make_unique(this, rBkmName, m_bAlphabeticSort ? 0 : nYPos++)); m_pMember->insert(std::move(pCnt)); } } } break; case ContentTypeId::TEXTFIELD: { std::vector aArr; const SwFieldTypes& rFieldTypes = *m_pWrtShell->GetDoc()->getIDocumentFieldsAccess().GetFieldTypes(); const size_t nSize = rFieldTypes.size(); for (size_t i = 0; i < nSize; ++i) { const SwFieldType* pFieldType = rFieldTypes[i].get(); if (pFieldType->Which() == SwFieldIds::Postit) continue; std::vector vFields; pFieldType->GatherFields(vFields); for (SwFormatField* pFormatField: vFields) { if (SwTextField* pTextField = pFormatField->GetTextField()) { // fields in header footer don't behave well, skip them if (m_pWrtShell->GetDoc()->IsInHeaderFooter(pTextField->GetTextNode())) continue; aArr.emplace_back(pTextField); } } } if (!m_bAlphabeticSort) { const SwNodeOffset nEndOfExtrasIndex = m_pWrtShell->GetNodes().GetEndOfExtras().GetIndex(); // use stable sort array to list fields in document model order std::stable_sort(aArr.begin(), aArr.end(), [&nEndOfExtrasIndex, this]( const SwTextField* a, const SwTextField* b){ SwPosition aPos(a->GetTextNode(), a->GetStart()); SwPosition bPos(b->GetTextNode(), b->GetStart()); // use anchor position for entries that are located in flys if (nEndOfExtrasIndex >= aPos.GetNodeIndex()) getAnchorPos(aPos); if (nEndOfExtrasIndex >= bPos.GetNodeIndex()) getAnchorPos(bPos); if (aPos == bPos) { // probably in same or nested fly frame // sort using layout position SwRect aCharRect, bCharRect; std::shared_ptr pPamForTextField; if (SwTextFrame* pFrame = static_cast( a->GetTextNode().getLayoutFrame(m_pWrtShell->GetLayout()))) { SwTextField::GetPamForTextField(*a, pPamForTextField); if (pPamForTextField) pFrame->GetCharRect(aCharRect, *pPamForTextField->GetPoint()); } if (SwTextFrame* pFrame = static_cast( b->GetTextNode().getLayoutFrame(m_pWrtShell->GetLayout()))) { SwTextField::GetPamForTextField(*b, pPamForTextField); if (pPamForTextField) pFrame->GetCharRect(bCharRect, *pPamForTextField->GetPoint()); } return aCharRect.Top() < bCharRect.Top(); } return aPos < bPos;}); } std::vector aDocumentStatisticsSubTypesList; tools::Long nYPos = 0; for (SwTextField* pTextField : aArr) { const SwField* pField = pTextField->GetFormatField().GetField(); OUString sExpandField = pField->ExpandField(true, m_pWrtShell->GetLayout()); if (!sExpandField.isEmpty()) sExpandField = u" - " + sExpandField; OUString sText; if (pField->GetTypeId() == SwFieldTypesEnum::DocumentStatistics) { if (aDocumentStatisticsSubTypesList.empty()) SwFieldMgr(m_pWrtShell).GetSubTypes(SwFieldTypesEnum::DocumentStatistics, aDocumentStatisticsSubTypesList); OUString sSubType; if (pField->GetSubType() < aDocumentStatisticsSubTypesList.size()) sSubType = u" - " + aDocumentStatisticsSubTypesList[pField->GetSubType()]; sText = pField->GetDescription() + u" - " + pField->GetFieldName() + sSubType + sExpandField; } else if (pField->GetTypeId() == SwFieldTypesEnum::GetRef) { assert(dynamic_cast(pField)); const SwGetRefField* pRefField(static_cast(pField)); if (pRefField->IsRefToHeadingCrossRefBookmark() || pRefField->IsRefToNumItemCrossRefBookmark()) { OUString sExpandedTextOfReferencedTextNode = pRefField->GetExpandedTextOfReferencedTextNode( *m_pWrtShell->GetLayout()); if (sExpandedTextOfReferencedTextNode.getLength() > 80) { sExpandedTextOfReferencedTextNode = OUString::Concat( sExpandedTextOfReferencedTextNode.subView(0, 80)) + u"..."; } sText = pField->GetDescription() + u" - " + sExpandedTextOfReferencedTextNode + sExpandField; } else { OUString sFieldSubTypeOrName; auto nSubType = pField->GetSubType(); if (nSubType == REF_FOOTNOTE) sFieldSubTypeOrName = SwResId(STR_FLDREF_FOOTNOTE); else if (nSubType == REF_ENDNOTE) sFieldSubTypeOrName = SwResId(STR_FLDREF_ENDNOTE); else sFieldSubTypeOrName = pField->GetFieldName(); sText = pField->GetDescription() + u" - " + sFieldSubTypeOrName + sExpandField; } } else sText = pField->GetDescription() + u" - " + pField->GetFieldName() + sExpandField; auto pCnt(std::make_unique(this, sText, &pTextField->GetFormatField(), m_bAlphabeticSort ? 0 : nYPos++)); if (!pTextField->GetTextNode().getLayoutFrame(m_pWrtShell->GetLayout())) pCnt->SetInvisible(); m_pMember->insert(std::move(pCnt)); } } break; // We will separate footnotes and endnotes here. case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: { const SwFootnoteIdxs& rFootnoteIdxs = m_pWrtShell->GetDoc()->GetFootnoteIdxs(); if (rFootnoteIdxs.empty()) break; // insert footnotes and endnotes tools::Long nPos = 0; for (const SwTextFootnote* pTextFootnote : rFootnoteIdxs) { if ((!pTextFootnote->GetFootnote().IsEndNote() && m_nContentType == ContentTypeId::FOOTNOTE) || (pTextFootnote->GetFootnote().IsEndNote() && m_nContentType == ContentTypeId::ENDNOTE)) { const SwFormatFootnote& rFormatFootnote = pTextFootnote->GetFootnote(); const OUString sText = rFormatFootnote.GetViewNumStr(*m_pWrtShell->GetDoc(), m_pWrtShell->GetLayout(), true) + " " + lcl_GetFootnoteText(*pTextFootnote); auto pCnt(std::make_unique( this, sText, pTextFootnote, ++nPos)); if (!pTextFootnote->GetTextNode().getLayoutFrame(m_pWrtShell->GetLayout())) pCnt->SetInvisible(); m_pMember->insert(std::move(pCnt)); } } } break; case ContentTypeId::REGION : { size_t nCount = m_pWrtShell->GetSectionFormatCount(); for (size_t i = 0; i < nCount; ++i) { const SwSectionFormat* pFormat = &m_pWrtShell->GetSectionFormat(i); if (!pFormat->IsInNodesArr()) continue; const SwSection* pSection = pFormat->GetSection(); if (SectionType eTmpType = pSection->GetType(); eTmpType == SectionType::ToxContent || eTmpType == SectionType::ToxHeader) continue; const SwNodeIndex* pNodeIndex = pFormat->GetContent().GetContentIdx(); if (pNodeIndex) { const OUString& sSectionName = pSection->GetSectionName(); sal_uInt8 nLevel = 0; SwSectionFormat* pParentFormat = pFormat->GetParent(); while(pParentFormat) { nLevel++; pParentFormat = pParentFormat->GetParent(); } auto pCnt(std::make_unique(this, sSectionName, nLevel, m_bAlphabeticSort ? 0 : getYPos(pNodeIndex->GetNode()), pFormat)); if (!pFormat->IsVisible() || pSection->IsHidden()) pCnt->SetInvisible(); m_pMember->insert(std::move(pCnt)); } if (pOldMember) { // need to check visibility (and equal entry number) after // creation due to a sorted list being used here (before, // entries with same index were compared already at creation // time what worked before a sorted list was used) assert(pbContentChanged && "pbContentChanged is always set if pOldMember is"); *pbContentChanged = checkVisibilityChanged( *pOldMember, *m_pMember); } } } break; case ContentTypeId::REFERENCE: { std::vector aRefMarks; m_pWrtShell->GetRefMarks( &aRefMarks ); tools::Long nYPos = 0; for (const auto& rRefMark : aRefMarks) { m_pMember->insert(std::make_unique(this, rRefMark, m_bAlphabeticSort ? 0 : nYPos++)); } } break; case ContentTypeId::URLFIELD: { SwGetINetAttrs aArr; m_pWrtShell->GetINetAttrs(aArr, false); if (m_bAlphabeticSort) { for (auto& r : aArr) { auto pCnt(std::make_unique(this, r.sText, INetURLObject::decode( r.rINetAttr.GetINetFormat().GetValue(), INetURLObject::DecodeMechanism::Unambiguous), &r.rINetAttr, 0)); m_pMember->insert(std::move(pCnt)); } break; } // use stable sort array to list hyperlinks in document order const SwNodeOffset nEndOfExtrasIndex = m_pWrtShell->GetNodes().GetEndOfExtras().GetIndex(); bool bHasEntryInFly = false; std::vector aStableSortINetAttrsArray; for (SwGetINetAttr& r : aArr) { aStableSortINetAttrsArray.emplace_back(&r); if (!bHasEntryInFly) { if (nEndOfExtrasIndex >= r.rINetAttr.GetTextNode().GetIndex()) { // Not a node of BodyText // Are we in a fly? if (r.rINetAttr.GetTextNode().GetFlyFormat()) bHasEntryInFly = true; } } } std::stable_sort(aStableSortINetAttrsArray.begin(), aStableSortINetAttrsArray.end(), [](const SwGetINetAttr* a, const SwGetINetAttr* b){ SwPosition aSwPos(a->rINetAttr.GetTextNode(), a->rINetAttr.GetStart()); SwPosition bSwPos(b->rINetAttr.GetTextNode(), b->rINetAttr.GetStart()); return aSwPos < bSwPos;}); // When there are hyperlinks in text frames do an additional sort using the text frame // anchor position to place entries in the order of document layout appearance. if (bHasEntryInFly) { std::stable_sort(aStableSortINetAttrsArray.begin(), aStableSortINetAttrsArray.end(), [nEndOfExtrasIndex](const SwGetINetAttr* a, const SwGetINetAttr* b){ const SwTextNode& aTextNode = a->rINetAttr.GetTextNode(); const SwTextNode& bTextNode = b->rINetAttr.GetTextNode(); SwPosition aPos(aTextNode, a->rINetAttr.GetStart()); SwPosition bPos(bTextNode, b->rINetAttr.GetStart()); // use anchor position for entries that are located in flys if (nEndOfExtrasIndex >= aTextNode.GetIndex()) if (auto pFlyFormat = aTextNode.GetFlyFormat()) if (const SwPosition* pPos = pFlyFormat->GetAnchor().GetContentAnchor()) aPos = *pPos; if (nEndOfExtrasIndex >= bTextNode.GetIndex()) if (auto pFlyFormat = bTextNode.GetFlyFormat()) if (const SwPosition* pPos = pFlyFormat->GetAnchor().GetContentAnchor()) bPos = *pPos; return aPos < bPos;}); } SwGetINetAttrs::size_type n = 0; for (auto p : aStableSortINetAttrsArray) { auto pCnt = std::make_unique(this, p->sText, INetURLObject::decode(p->rINetAttr.GetINetFormat().GetValue(), INetURLObject::DecodeMechanism::Unambiguous), &p->rINetAttr, ++n); m_pMember->insert(std::move(pCnt)); } } break; case ContentTypeId::INDEX: { const sal_uInt16 nCount = m_pWrtShell->GetTOXCount(); for ( sal_uInt16 nTox = 0; nTox < nCount; nTox++ ) { const SwTOXBase* pBase = m_pWrtShell->GetTOX( nTox ); OUString sTOXNm( pBase->GetTOXName() ); SwContent* pCnt = new SwTOXBaseContent( this, sTOXNm, m_bAlphabeticSort ? 0 : nTox, *pBase); if(pBase && !pBase->IsVisible()) pCnt->SetInvisible(); m_pMember->insert( std::unique_ptr(pCnt) ); const size_t nPos = m_pMember->size() - 1; if (pOldMember) { assert(pbContentChanged && "pbContentChanged is always set if pOldMember is"); if (!*pbContentChanged && nOldMemberCount > nPos && (*pOldMember)[nPos]->IsInvisible() != pCnt->IsInvisible()) *pbContentChanged = true; } } } break; case ContentTypeId::POSTIT: { SwPostItMgr* aMgr = m_pWrtShell->GetView().GetPostItMgr(); if (aMgr) { tools::Long nYPos = 0; for(SwPostItMgr::const_iterator i = aMgr->begin(); i != aMgr->end(); ++i) { if (const SwFormatField* pFormatField = dynamic_cast((*i)->GetBroadcaster())) // SwPostit { if (pFormatField->GetTextField() && pFormatField->IsFieldInDoc()) { OUString sEntry = pFormatField->GetField()->GetPar2(); sEntry = RemoveNewline(sEntry); std::unique_ptr pCnt(new SwPostItContent( this, sEntry, pFormatField, nYPos)); if (!pFormatField->GetTextField()->GetTextNode().getLayoutFrame( m_pWrtShell->GetLayout())) pCnt->SetInvisible(); if (pOldMember) { assert(pbContentChanged && "pbContentChanged is always set if pOldMember is"); if (!*pbContentChanged && nOldMemberCount > o3tl::make_unsigned(nYPos) && (*pOldMember)[nYPos]->IsInvisible() != pCnt->IsInvisible()) *pbContentChanged = true; } m_pMember->insert(std::move(pCnt)); nYPos++; } } } } } break; case ContentTypeId::DRAWOBJECT: { IDocumentDrawModelAccess& rIDDMA = m_pWrtShell->getIDocumentDrawModelAccess(); SwDrawModel* pModel = rIDDMA.GetDrawModel(); if(pModel) { SdrPage* pPage = pModel->GetPage(0); for (const rtl::Reference& pTemp : *pPage) { // #i51726# - all drawing objects can be named now if (!pTemp->IsVirtualObj() && !pTemp->GetName().isEmpty()) { tools::Long nYPos = LONG_MIN; const bool bIsVisible = rIDDMA.IsVisibleLayerId(pTemp->GetLayer()); if (bIsVisible) nYPos = m_bAlphabeticSort ? 0 : pTemp->GetLogicRect().Top(); auto pCnt(std::make_unique(this, pTemp->GetName(), nYPos)); if (!bIsVisible) pCnt->SetInvisible(); m_pMember->insert(std::move(pCnt)); } } if (pOldMember) { // need to check visibility (and equal entry number) after // creation due to a sorted list being used here (before, // entries with same index were compared already at creation // time what worked before a sorted list was used) assert(pbContentChanged && "pbContentChanged is always set if pOldMember is"); *pbContentChanged = checkVisibilityChanged( *pOldMember, *m_pMember); } } } break; default: break; } m_nMemberCount = m_pMember->size(); if (pOldMember) { assert(pbContentChanged && "pbContentChanged is always set if pOldMember is"); if (!*pbContentChanged && pOldMember->size() != m_nMemberCount) *pbContentChanged = true; } m_bDataValid = true; } namespace { enum STR_CONTEXT_IDX { IDX_STR_OUTLINE_LEVEL = 0, IDX_STR_DISPLAY = 1, IDX_STR_ACTIVE_VIEW = 2, IDX_STR_HIDDEN = 3, IDX_STR_ACTIVE = 4, IDX_STR_INACTIVE = 5, IDX_STR_EDIT_ENTRY = 6, IDX_STR_DELETE_ENTRY = 7, IDX_STR_SEND_OUTLINE_TO_CLIPBOARD_ENTRY = 8, IDX_STR_OUTLINE_TRACKING = 9, IDX_STR_OUTLINE_TRACKING_DEFAULT = 10, IDX_STR_OUTLINE_TRACKING_FOCUS = 11, IDX_STR_OUTLINE_TRACKING_OFF = 12 }; } const TranslateId STR_CONTEXT_ARY[] = { STR_OUTLINE_LEVEL, STR_DISPLAY, STR_ACTIVE_VIEW, STR_HIDDEN, STR_ACTIVE, STR_INACTIVE, STR_EDIT_ENTRY, STR_DELETE_ENTRY, STR_SEND_OUTLINE_TO_CLIPBOARD_ENTRY, STR_OUTLINE_TRACKING, STR_OUTLINE_TRACKING_DEFAULT, STR_OUTLINE_TRACKING_FOCUS, STR_OUTLINE_TRACKING_OFF }; SwContentTree::SwContentTree(std::unique_ptr xTreeView, SwNavigationPI* pDialog) : m_xTreeView(std::move(xTreeView)) , m_aDropTargetHelper(*this) , m_pDialog(pDialog) , m_sSpace(u" "_ustr) , m_aUpdTimer("SwContentTree m_aUpdTimer") , m_aOverlayObjectDelayTimer("SwContentTree m_aOverlayObjectDelayTimer") , m_sInvisible(SwResId(STR_INVISIBLE)) , m_pHiddenShell(nullptr) , m_pActiveShell(nullptr) , m_pConfig(SwModule::get()->GetNavigationConfig()) , m_nActiveBlock(0) , m_nHiddenBlock(0) , m_nEntryCount(0) , m_nRootType(ContentTypeId::UNKNOWN) , m_nLastSelType(ContentTypeId::UNKNOWN) , m_nOutlineLevel(MAXLEVEL) , m_eState(State::ACTIVE) , m_bIsRoot(false) , m_bIsIdleClear(false) , m_bIsLastReadOnly(false) , m_bIsOutlineMoveable(true) , m_bViewHasChanged(false) { m_xTreeView->set_size_request(m_xTreeView->get_approximate_digit_width() * 30, m_xTreeView->get_text_height() * 14); m_xTreeView->set_help_id(HID_NAVIGATOR_TREELIST); m_xTreeView->connect_expanding(LINK(this, SwContentTree, ExpandHdl)); m_xTreeView->connect_collapsing(LINK(this, SwContentTree, CollapseHdl)); m_xTreeView->connect_row_activated(LINK(this, SwContentTree, ContentDoubleClickHdl)); m_xTreeView->connect_selection_changed(LINK(this, SwContentTree, SelectHdl)); m_xTreeView->connect_focus_in(LINK(this, SwContentTree, FocusInHdl)); m_xTreeView->connect_key_press(LINK(this, SwContentTree, KeyInputHdl)); m_xTreeView->connect_popup_menu(LINK(this, SwContentTree, CommandHdl)); m_xTreeView->connect_query_tooltip(LINK(this, SwContentTree, QueryTooltipHdl)); m_xTreeView->connect_drag_begin(LINK(this, SwContentTree, DragBeginHdl)); m_xTreeView->connect_mouse_move(LINK(this, SwContentTree, MouseMoveHdl)); m_xTreeView->connect_mouse_press(LINK(this, SwContentTree, MousePressHdl)); for (ContentTypeId i : o3tl::enumrange()) { if (i != ContentTypeId::OUTLINE) mTrackContentType[i] = true; m_aActiveContentArr[i] = nullptr; m_aHiddenContentArr[i] = nullptr; } for (int i = 0; i < CONTEXT_COUNT; ++i) { m_aContextStrings[i] = SwResId(STR_CONTEXT_ARY[i]); } m_nActiveBlock = m_pConfig->GetActiveBlock(); // Restore outline headings expand state (same session persistence only) if (SwView* pView = GetActiveView(); pView && pView->GetDocShell()) { OUString sDocTitle = pView->GetDocShell()->GetTitle(); auto it = lcl_DocOutLineExpandStateMap.find(sDocTitle); if (it != lcl_DocOutLineExpandStateMap.end()) mOutLineNodeMap = it->second; if (comphelper::LibreOfficeKit::isActive()) { if (pView->m_nNaviExpandedStatus < 0) m_nActiveBlock = 1; else m_nActiveBlock = pView->m_nNaviExpandedStatus; } } m_aUpdTimer.SetInvokeHandler(LINK(this, SwContentTree, TimerUpdate)); m_aUpdTimer.SetTimeout(1000); m_aOverlayObjectDelayTimer.SetInvokeHandler(LINK(this, SwContentTree, OverlayObjectDelayTimerHdl)); m_aOverlayObjectDelayTimer.SetTimeout(500); } SwContentTree::~SwContentTree() { if (SwView* pView = GetActiveView(); pView && pView->GetDocShell()) { OUString sDocTitle = pView->GetDocShell()->GetTitle(); lcl_DocOutLineExpandStateMap[sDocTitle] = mOutLineNodeMap; if (comphelper::LibreOfficeKit::isActive()) pView->m_nNaviExpandedStatus = m_nActiveBlock; } clear(); // If applicable erase content types previously. m_aUpdTimer.Stop(); SetActiveShell(nullptr); } IMPL_LINK(SwContentTree, MousePressHdl, const MouseEvent&, rMEvt, bool) { m_bSelectTo = rMEvt.IsShift() && (m_pConfig->IsNavigateOnSelect() || rMEvt.GetClicks() == 2); return false; } IMPL_LINK(SwContentTree, MouseMoveHdl, const MouseEvent&, rMEvt, bool) { // Prevent trying to bring entry to attention when handling document change. The mouse over // entry might not be valid, for example, when the mouse pointer is on an entry that is deleted // in the document by an undo/redo. if (m_bDocHasChanged) return false; if (m_eState == State::HIDDEN) return false; if (std::unique_ptr xEntry(m_xTreeView->make_iterator()); m_xTreeView->get_dest_row_at_pos(rMEvt.GetPosPixel(), xEntry.get(), false, false) && !rMEvt.IsLeaveWindow()) { if (!m_xOverlayCompareEntry) m_xOverlayCompareEntry.reset(m_xTreeView->make_iterator().release()); else if (m_xTreeView->iter_compare(*xEntry, *m_xOverlayCompareEntry) == 0) return false; // The entry under the mouse has not changed. m_xTreeView->copy_iterator(*xEntry, *m_xOverlayCompareEntry); BringEntryToAttention(*xEntry); } else { if (m_xOverlayCompareEntry) m_xOverlayCompareEntry.reset(); m_aOverlayObjectDelayTimer.Stop(); if (m_xOverlayObject && m_xOverlayObject->getOverlayManager()) { m_xOverlayObject->getOverlayManager()->remove(*m_xOverlayObject); m_xOverlayObject.reset(); } } return false; } // Drag&Drop methods IMPL_LINK(SwContentTree, DragBeginHdl, bool&, rUnsetDragIcon, bool) { rUnsetDragIcon = true; bool bDisallow = true; // don't allow if tree root is selected std::unique_ptr xEntry(m_xTreeView->make_iterator()); bool bEntry = m_xTreeView->get_selected(xEntry.get()); if (!bEntry || lcl_IsContentType(*xEntry, *m_xTreeView)) { return true; // disallow } if (m_bIsRoot && m_nRootType == ContentTypeId::OUTLINE) { // Only move drag entry and continuous selected siblings: m_aDndOutlinesSelected.clear(); std::unique_ptr xScratch(m_xTreeView->make_iterator(xEntry.get())); // Find first selected of continuous siblings while (m_xTreeView->iter_previous_sibling(*xScratch) && m_xTreeView->is_selected(*xScratch)) { m_xTreeView->copy_iterator(*xScratch, *xEntry); } // Record continuous selected siblings do { SwOutlineContent* pOutlineContent = weld::fromId(m_xTreeView->get_id(*xEntry)); if (!pOutlineContent) // shouldn't happen continue; m_aDndOutlinesSelected.push_back(pOutlineContent->GetOutlinePos()); } while (m_xTreeView->iter_next_sibling(*xEntry) && m_xTreeView->is_selected(*xEntry)); bDisallow = false; } rtl::Reference xContainer = new TransferDataContainer; if (FillTransferData(*xContainer)) { bDisallow = false; m_xTreeView->enable_drag_source(xContainer, DND_ACTION_COPY); } return bDisallow; } SwContentTreeDropTarget::SwContentTreeDropTarget(SwContentTree& rTreeView) : DropTargetHelper(rTreeView.get_widget().get_drop_target()) , m_rTreeView(rTreeView) { } sal_Int8 SwContentTreeDropTarget::AcceptDrop(const AcceptDropEvent& rEvt) { sal_Int8 nAccept = m_rTreeView.AcceptDrop(rEvt); if (nAccept != DND_ACTION_NONE) { // to enable the autoscroll when we're close to the edges weld::TreeView& rWidget = m_rTreeView.get_widget(); rWidget.get_dest_row_at_pos(rEvt.maPosPixel, nullptr, true); } return nAccept; } bool SwContentTree::IsInDrag() const { return m_xTreeView->get_drag_source() == m_xTreeView.get(); } bool SwContentTree::HasHeadings() const { const std::unique_ptr& rpContentT = m_aActiveContentArr[ContentTypeId::OUTLINE]; if (rpContentT && rpContentT->GetMemberCount() > 0) return true; return false; } // QueryDrop will be executed in the navigator sal_Int8 SwContentTree::AcceptDrop(const AcceptDropEvent& rEvt) { sal_Int8 nRet = DND_ACTION_NONE; if( m_bIsRoot ) { if( m_bIsOutlineMoveable ) nRet = rEvt.mnAction; } else if (!IsInDrag()) nRet = GetParentWindow()->AcceptDrop(); return nRet; } // Drop will be executed in the navigator static void* lcl_GetOutlineKey(SwContentTree& rTree, SwOutlineContent const * pContent) { void* key = nullptr; if (pContent) { SwWrtShell* pShell = rTree.GetWrtShell(); auto const nPos = pContent->GetOutlinePos(); key = static_cast(pShell->getIDocumentOutlineNodesAccess()->getOutlineNode( nPos )); } return key; } sal_Int8 SwContentTreeDropTarget::ExecuteDrop(const ExecuteDropEvent& rEvt) { return m_rTreeView.ExecuteDrop(rEvt); } sal_Int8 SwContentTree::ExecuteDrop(const ExecuteDropEvent& rEvt) { std::unique_ptr xDropEntry(m_xTreeView->make_iterator()); if (!m_xTreeView->get_dest_row_at_pos(rEvt.maPosPixel, xDropEntry.get(), true)) xDropEntry.reset(); if (m_nRootType == ContentTypeId::OUTLINE) { if (xDropEntry && lcl_IsContent(*xDropEntry, *m_xTreeView)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xDropEntry)))); SwOutlineContent* pOutlineContent = weld::fromId(m_xTreeView->get_id(*xDropEntry)); assert(pOutlineContent); void* key = lcl_GetOutlineKey(*this, pOutlineContent); assert(key); if (!mOutLineNodeMap[key]) { while (m_xTreeView->iter_has_child(*xDropEntry)) { std::unique_ptr xChildEntry(m_xTreeView->make_iterator(xDropEntry.get())); bool bChildEntry = m_xTreeView->iter_children(*xChildEntry); while (bChildEntry) { m_xTreeView->copy_iterator(*xChildEntry, *xDropEntry); bChildEntry = m_xTreeView->iter_next_sibling(*xChildEntry); } } } } SwOutlineNodes::size_type nTargetPos = 0; if (!xDropEntry) { // dropped in blank space -> move to bottom nTargetPos = GetWrtShell()->getIDocumentOutlineNodesAccess()->getOutlineNodesCount() - 1; } else if (!lcl_IsContent(*xDropEntry, *m_xTreeView)) { // dropped on "heading" parent -> move to start nTargetPos = SwOutlineNodes::npos; } else { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xDropEntry)))); nTargetPos = weld::fromId(m_xTreeView->get_id(*xDropEntry))->GetOutlinePos(); } if( MAXLEVEL > m_nOutlineLevel && // Not all layers are displayed. nTargetPos != SwOutlineNodes::npos) { std::unique_ptr xNext(m_xTreeView->make_iterator(xDropEntry.get())); bool bNext = m_xTreeView->iter_next(*xNext); if (bNext) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xNext)))); nTargetPos = weld::fromId(m_xTreeView->get_id(*xNext))->GetOutlinePos() - 1; } else nTargetPos = GetWrtShell()->getIDocumentOutlineNodesAccess()->getOutlineNodesCount() - 1; } // remove the drop highlight before we change the contents of the tree so we don't // try and dereference a removed entry in post-processing drop m_xTreeView->unset_drag_dest_row(); MoveOutline(nTargetPos); } return IsInDrag() ? DND_ACTION_NONE : GetParentWindow()->ExecuteDrop(rEvt); } namespace { bool IsAllExpanded(const weld::TreeView& rContentTree, const weld::TreeIter& rEntry) { if (!rContentTree.get_row_expanded(rEntry)) return false; if (!rContentTree.iter_has_child(rEntry)) return false; std::unique_ptr xChild(rContentTree.make_iterator(&rEntry)); (void)rContentTree.iter_children(*xChild); do { if (rContentTree.iter_has_child(*xChild) || rContentTree.get_children_on_demand(*xChild)) { if (!IsAllExpanded(rContentTree, *xChild)) return false; } } while (rContentTree.iter_next_sibling(*xChild)); return true; } void ExpandOrCollapseAll(weld::TreeView& rContentTree, weld::TreeIter& rEntry) { bool bExpand = !IsAllExpanded(rContentTree, rEntry); bExpand ? rContentTree.expand_row(rEntry) : rContentTree.collapse_row(rEntry); int nRefDepth = rContentTree.get_iter_depth(rEntry); while (rContentTree.iter_next(rEntry) && rContentTree.get_iter_depth(rEntry) > nRefDepth) { if (rContentTree.iter_has_child(rEntry)) bExpand ? rContentTree.expand_row(rEntry) : rContentTree.collapse_row(rEntry); } } } // Handler for Dragging and ContextMenu static bool lcl_InsertExpandCollapseAllItem(const weld::TreeView& rContentTree, const weld::TreeIter& rEntry, weld::Menu& rPop) { if (rContentTree.iter_has_child(rEntry) || rContentTree.get_children_on_demand(rEntry)) { rPop.set_label(OUString::number(800), IsAllExpanded(rContentTree, rEntry) ? SwResId(STR_COLLAPSEALL) : SwResId(STR_EXPANDALL)); return false; } return true; } static void lcl_SetOutlineContentEntriesSensitivities(SwContentTree* pThis, const weld::TreeView& rContentTree, const weld::TreeIter& rEntry, weld::Menu& rPop) { rPop.set_sensitive(OUString::number(TOGGLE_OUTLINE_CONTENT_VISIBILITY), false); rPop.set_sensitive(OUString::number(HIDE_OUTLINE_CONTENT_VISIBILITY), false); rPop.set_sensitive(OUString::number(SHOW_OUTLINE_CONTENT_VISIBILITY), false); // todo: multi selection if (rContentTree.count_selected_rows() > 1) return; bool bIsRoot = lcl_IsContentType(rEntry, rContentTree); const SwNodes& rNodes = pThis->GetWrtShell()->GetNodes(); const SwOutlineNodes& rOutlineNodes = rNodes.GetOutLineNds(); size_t nOutlinePos = weld::GetAbsPos(rContentTree, rEntry); if (!bIsRoot) --nOutlinePos; if (nOutlinePos >= rOutlineNodes.size()) return; int nFirstLevel = pThis->GetWrtShell()->getIDocumentOutlineNodesAccess()->getOutlineLevel(nOutlinePos); { // determine if any concerned outline node has content bool bHasContent(false); size_t nPos = nOutlinePos; SwNode* pSttNd = rOutlineNodes[nPos]; SwNode* pEndNd = &rNodes.GetEndOfContent(); if (rOutlineNodes.size() > nPos + 1) pEndNd = rOutlineNodes[nPos + 1]; // selected SwNodeIndex aIdx(*pSttNd); if (SwNodes::GoNext(&aIdx) != pEndNd) bHasContent = true; // descendants if (!bHasContent && (rContentTree.iter_has_child(rEntry) || rContentTree.get_children_on_demand(rEntry))) { while (++nPos < rOutlineNodes.size() && (bIsRoot || pThis->GetWrtShell()->getIDocumentOutlineNodesAccess()->getOutlineLevel(nPos) > nFirstLevel)) { pSttNd = rOutlineNodes[nPos]; pEndNd = &rNodes.GetEndOfContent(); if (rOutlineNodes.size() > nPos + 1) pEndNd = rOutlineNodes[nPos + 1]; // test for content in outline node aIdx.Assign(*pSttNd); if (SwNodes::GoNext(&aIdx) != pEndNd) { bHasContent = true; break; } } } if (!bHasContent) return; // no content in any of the concerned outline nodes } // determine for subs if all are folded or unfolded or if they are mixed if (rContentTree.iter_has_child(rEntry) || rContentTree.get_children_on_demand(rEntry)) { // skip no content nodes // we know there is content from results above so this is presumably safe size_t nPos = nOutlinePos; while (true) { SwNode* pSttNd = rOutlineNodes[nPos]; SwNode* pEndNd = rOutlineNodes.back(); if (!bIsRoot && rOutlineNodes.size() > nPos + 1) pEndNd = rOutlineNodes[nPos + 1]; SwNodeIndex aIdx(*pSttNd); if (SwNodes::GoNext(&aIdx) != pEndNd) break; nPos++; } bool bHasFolded(!pThis->GetWrtShell()->IsOutlineContentVisible(nPos)); bool bHasUnfolded(!bHasFolded); while ((++nPos < pThis->GetWrtShell()->getIDocumentOutlineNodesAccess()->getOutlineNodesCount()) && (bIsRoot || pThis->GetWrtShell()->getIDocumentOutlineNodesAccess()->getOutlineLevel(nPos) > nFirstLevel)) { SwNode* pSttNd = rOutlineNodes[nPos]; SwNode* pEndNd = &rNodes.GetEndOfContent(); if (rOutlineNodes.size() > nPos + 1) pEndNd = rOutlineNodes[nPos + 1]; SwNodeIndex aIdx(*pSttNd); if (SwNodes::GoNext(&aIdx) == pEndNd) continue; // skip if no content if (!pThis->GetWrtShell()->IsOutlineContentVisible(nPos)) bHasFolded = true; else bHasUnfolded = true; if (bHasFolded && bHasUnfolded) break; // mixed so no need to continue } rPop.set_sensitive(OUString::number(HIDE_OUTLINE_CONTENT_VISIBILITY), bHasUnfolded); rPop.set_sensitive(OUString::number(SHOW_OUTLINE_CONTENT_VISIBILITY), bHasFolded); } rPop.set_sensitive(OUString::number(TOGGLE_OUTLINE_CONTENT_VISIBILITY), !bIsRoot); } IMPL_LINK(SwContentTree, CommandHdl, const CommandEvent&, rCEvt, bool) { if (rCEvt.GetCommand() != CommandEventId::ContextMenu) return false; grab_focus(); // select clicked entry or limit selection to root entry if needed if (std::unique_ptr xEntry(m_xTreeView->make_iterator()); rCEvt.IsMouseEvent() && m_xTreeView->get_dest_row_at_pos( rCEvt.GetMousePosPixel(), xEntry.get(), false)) { // if clicked entry is not currently selected then clear selections and select it if (!m_xTreeView->is_selected(*xEntry)) m_xTreeView->set_cursor(*xEntry); // if root entry is selected then clear selections and select it else if (m_xTreeView->is_selected(0)) m_xTreeView->set_cursor(0); } UpdateContentFunctionsToolbar(); std::unique_ptr xBuilder(Application::CreateBuilder(m_xTreeView.get(), u"modules/swriter/ui/navigatorcontextmenu.ui"_ustr)); std::unique_ptr xPop = xBuilder->weld_menu(u"navmenu"_ustr); bool bOutline(false); std::unique_ptr xSubPop1 = xBuilder->weld_menu(u"outlinelevel"_ustr); std::unique_ptr xSubPop2 = xBuilder->weld_menu(u"dragmodemenu"_ustr); std::unique_ptr xSubPop3 = xBuilder->weld_menu(u"displaymenu"_ustr); std::unique_ptr xSubPopOutlineTracking = xBuilder->weld_menu(u"outlinetracking"_ustr); std::unique_ptr xSubPopOutlineContent = xBuilder->weld_menu(u"outlinecontent"_ustr); xSubPopOutlineContent->append(OUString::number(TOGGLE_OUTLINE_CONTENT_VISIBILITY), SwResId(STR_OUTLINE_CONTENT_VISIBILITY_TOGGLE)); xSubPopOutlineContent->append(OUString::number(HIDE_OUTLINE_CONTENT_VISIBILITY), SwResId(STR_OUTLINE_CONTENT_VISIBILITY_HIDE_ALL)); xSubPopOutlineContent->append(OUString::number(SHOW_OUTLINE_CONTENT_VISIBILITY), SwResId(STR_OUTLINE_CONTENT_VISIBILITY_SHOW_ALL)); xSubPopOutlineContent->set_item_help_id(OUString::number(TOGGLE_OUTLINE_CONTENT_VISIBILITY), HID_NAVIGATOR_TREELIST); xSubPopOutlineContent->set_item_help_id(OUString::number(HIDE_OUTLINE_CONTENT_VISIBILITY), HID_NAVIGATOR_TREELIST); xSubPopOutlineContent->set_item_help_id(OUString::number(SHOW_OUTLINE_CONTENT_VISIBILITY), HID_NAVIGATOR_TREELIST); // Add entries to the Outline Tracking submenu OUString sId; for(int i = 1; i <= 3; ++i) { sId = OUString::number(i + 10); xSubPopOutlineTracking->append_radio(sId, m_aContextStrings[IDX_STR_OUTLINE_TRACKING + i]); xSubPopOutlineTracking->set_item_help_id(sId, HID_NAV_OUTLINE_TRACKING); } xSubPopOutlineTracking->set_active(OUString::number(10 + m_nOutlineTracking), true); // Add entries to the Outline Level submenu for (int i = 1; i <= MAXLEVEL; ++i) { sId = OUString::number(i + 100); xSubPop1->append_radio(sId, OUString::number(i)); xSubPop1->set_item_help_id(sId, HID_NAV_OUTLINE_LEVEL); } xSubPop1->set_active(OUString::number(100 + m_nOutlineLevel), true); // Insert the list of the open files in the Display submenu { sal_uInt16 nId = 301; SwView *pView = SwModule::GetFirstView(); while (pView) { OUString sInsert = pView->GetDocShell()->GetTitle() + " (" + m_aContextStrings[pView == GetActiveView() ? IDX_STR_ACTIVE : IDX_STR_INACTIVE] + ")"; sId = OUString::number(nId); xSubPop3->append_radio(sId, sInsert); xSubPop3->set_item_help_id(sId, HID_NAV_DISPLAY); if (State::CONSTANT == m_eState && m_pActiveShell == &pView->GetWrtShell()) xSubPop3->set_active(sId, true); pView = SwModule::GetNextView(pView); nId++; } // Active Window sId = OUString::number(nId++); xSubPop3->append_radio(sId, m_aContextStrings[IDX_STR_ACTIVE_VIEW]); xSubPop3->set_item_help_id(sId, HID_NAV_DISPLAY); // There can be only one hidden shell if (m_pHiddenShell) { OUString sHiddenEntry = m_pHiddenShell->GetView().GetDocShell()->GetTitle() + " (" + m_aContextStrings[IDX_STR_HIDDEN] + ")"; sId = OUString::number(nId); xSubPop3->append_radio(sId, sHiddenEntry); xSubPop3->set_item_help_id(sId, HID_NAV_DISPLAY); } if (State::ACTIVE == m_eState) xSubPop3->set_active(OUString::number(--nId), true); else if (State::HIDDEN == m_eState) xSubPop3->set_active(OUString::number(nId), true); } std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (!m_xTreeView->get_selected(xEntry.get())) xEntry.reset(); bool bRemoveGotoEntry = false; if (State::HIDDEN == m_eState || !xEntry || !lcl_IsContent(*xEntry, *m_xTreeView) || weld::fromId(m_xTreeView->get_id(*xEntry))->IsInvisible()) bRemoveGotoEntry = true; bool bRemovePostItEntries = true; bool bRemoveUpdateIndexEntry = true; bool bRemoveReadonlyIndexEntry = true; bool bRemoveCopyEntry = true; bool bRemoveEditEntry = true; bool bRemoveUnprotectEntry = true; bool bRemoveDeleteChapterEntry = true, bRemoveDeleteAllTablesEntry = true, bRemoveDeleteTableEntry = true, bRemoveDeleteAllFramesEntry = true, bRemoveDeleteFrameEntry = true, bRemoveDeleteAllImagesEntry = true, bRemoveDeleteImageEntry = true, bRemoveDeleteAllOLEObjectsEntry = true, bRemoveDeleteOLEObjectEntry = true, bRemoveDeleteAllBookmarksEntry = true, bRemoveDeleteBookmarkEntry = true, bRemoveDeleteAllRegionsEntry = true, bRemoveDeleteRegionEntry = true, bRemoveDeleteAllHyperlinksEntry = true, bRemoveDeleteHyperlinkEntry = true, bRemoveDeleteAllReferencesEntry = true, bRemoveDeleteReferenceEntry = true, bRemoveDeleteAllIndexesEntry = true, bRemoveDeleteIndexEntry= true, bRemoveDeleteAllCommentsEntry = true, bRemoveDeleteCommentEntry = true, bRemoveDeleteAllDrawingObjectsEntry = true, bRemoveDeleteDrawingObjectEntry = true, bRemoveDeleteAllFieldsEntry = true, bRemoveDeleteFieldEntry = true, bRemoveDeleteAllFootnotesEntry = true, bRemoveDeleteFootnoteEntry = true, bRemoveDeleteAllEndnotesEntry = true, bRemoveDeleteEndnoteEntry = true; bool bRemoveMakeAllFootnotesEndnotesEntry = true, bRemoveMakeAllEndnotesFootnotesEntry = true; bool bRemoveRenameEntry = true; bool bRemoveSelectEntry = true; bool bRemoveToggleExpandEntry = true; bool bRemoveChapterEntries = true; bool bRemoveSendOutlineEntry = true; bool bRemoveTableTracking = true; bool bRemoveSectionTracking = true; bool bRemoveFrameTracking = true; bool bRemoveImageTracking = true; bool bRemoveOLEobjectTracking = true; bool bRemoveBookmarkTracking = true; bool bRemoveHyperlinkTracking = true; bool bRemoveReferenceTracking = true; bool bRemoveIndexTracking = true; bool bRemoveCommentTracking = true; bool bRemoveDrawingObjectTracking = true; bool bRemoveFieldTracking = true; bool bRemoveFootnoteTracking = true; bool bRemoveEndnoteTracking = true; bool bRemoveSortEntry = true; bool bRemoveProtectSection = true; bool bRemoveHideSection = true; if (xEntry) { const SwContentType* pType; if (lcl_IsContentType(*xEntry, *m_xTreeView)) pType = weld::fromId(m_xTreeView->get_id(*xEntry)); else pType = weld::fromId( m_xTreeView->get_id(*xEntry))->GetParent(); const ContentTypeId nContentType = pType->GetType(); if (nContentType != ContentTypeId::FOOTNOTE && nContentType != ContentTypeId::ENDNOTE && nContentType != ContentTypeId::POSTIT && nContentType != ContentTypeId::UNKNOWN) { bRemoveSortEntry = false; xPop->set_active(u"sort"_ustr, pType->IsAlphabeticSort()); } OUString aIdent; switch (nContentType) { case ContentTypeId::TABLE: aIdent = "tabletracking"; bRemoveTableTracking = false; break; case ContentTypeId::REGION: aIdent = "sectiontracking"; bRemoveSectionTracking = false; break; case ContentTypeId::FRAME: aIdent = "frametracking"; bRemoveFrameTracking = false; break; case ContentTypeId::GRAPHIC: aIdent = "imagetracking"; bRemoveImageTracking = false; break; case ContentTypeId::OLE: aIdent = "oleobjecttracking"; bRemoveOLEobjectTracking = false; break; case ContentTypeId::BOOKMARK: aIdent = "bookmarktracking"; bRemoveBookmarkTracking = false; break; case ContentTypeId::URLFIELD: aIdent = "hyperlinktracking"; bRemoveHyperlinkTracking = false; break; case ContentTypeId::REFERENCE: aIdent = "referencetracking"; bRemoveReferenceTracking = false; break; case ContentTypeId::INDEX: aIdent = "indextracking"; bRemoveIndexTracking = false; break; case ContentTypeId::POSTIT: aIdent = "commenttracking"; bRemoveCommentTracking = false; break; case ContentTypeId::DRAWOBJECT: aIdent = "drawingobjecttracking"; bRemoveDrawingObjectTracking = false; break; case ContentTypeId::TEXTFIELD: aIdent = "fieldtracking"; bRemoveFieldTracking = false; break; case ContentTypeId::FOOTNOTE: aIdent = "footnotetracking"; bRemoveFootnoteTracking = false; break; case ContentTypeId::ENDNOTE: aIdent = "endnotetracking"; bRemoveEndnoteTracking = false; break; default: break; } if (!aIdent.isEmpty()) xPop->set_active(aIdent, mTrackContentType[nContentType]); // Edit only if the shown content is coming from the current view. if (State::HIDDEN != m_eState && (State::ACTIVE == m_eState || (GetActiveView() && m_pActiveShell == GetActiveView()->GetWrtShellPtr())) && lcl_IsContent(*xEntry, *m_xTreeView)) { bool bReadonly = m_pActiveShell->GetView().GetDocShell()->IsReadOnly(); const bool bVisible = !weld::fromId(m_xTreeView->get_id(*xEntry))->IsInvisible(); const bool bProtected = weld::fromId(m_xTreeView->get_id(*xEntry))->IsProtect(); const bool bProtectBM = (ContentTypeId::BOOKMARK == nContentType) && m_pActiveShell->getIDocumentSettingAccess().get(DocumentSettingId::PROTECT_BOOKMARKS); const bool bEditable = !bReadonly && pType->IsEditable() && ((bVisible && !bProtected) || ContentTypeId::REGION == nContentType); const bool bDeletable = pType->IsDeletable() && IsDeletable(*xEntry); const bool bRenamable = !bReadonly && (pType->IsRenamable() || (ContentTypeId::BOOKMARK == nContentType && !bProtectBM)); // Choose which Delete entry to show. if (bDeletable) { switch (nContentType) { case ContentTypeId::OUTLINE: bRemoveDeleteChapterEntry = false; break; case ContentTypeId::FRAME: bRemoveDeleteFrameEntry = false; break; case ContentTypeId::GRAPHIC: bRemoveDeleteImageEntry = false; break; case ContentTypeId::OLE: bRemoveDeleteOLEObjectEntry = false; break; case ContentTypeId::BOOKMARK: bRemoveDeleteBookmarkEntry = false; break; case ContentTypeId::REGION: bRemoveDeleteRegionEntry = false; break; case ContentTypeId::URLFIELD: bRemoveDeleteHyperlinkEntry = false; break; case ContentTypeId::REFERENCE: bRemoveDeleteReferenceEntry = false; break; case ContentTypeId::POSTIT: bRemoveDeleteCommentEntry = false; break; case ContentTypeId::DRAWOBJECT: bRemoveDeleteDrawingObjectEntry = false; break; case ContentTypeId::TEXTFIELD: bRemoveDeleteFieldEntry = false; break; case ContentTypeId::FOOTNOTE: bRemoveDeleteFootnoteEntry = false; break; case ContentTypeId::ENDNOTE: bRemoveDeleteEndnoteEntry = false; break; default: break; } } if (ContentTypeId::FOOTNOTE == nContentType || ContentTypeId::ENDNOTE == nContentType) { void* pUserData = weld::fromId(m_xTreeView->get_id(*xEntry)); const SwTextFootnote* pFootnote = static_cast(pUserData)->GetTextFootnote(); if (!pFootnote) bRemoveGotoEntry = true; } else if(ContentTypeId::OUTLINE == nContentType) { bOutline = true; lcl_SetOutlineContentEntriesSensitivities(this, *m_xTreeView, *xEntry, *xSubPopOutlineContent); bRemoveToggleExpandEntry = lcl_InsertExpandCollapseAllItem(*m_xTreeView, *xEntry, *xPop); if (!bReadonly) { bRemoveSelectEntry = false; if (!pType->IsAlphabeticSort()) bRemoveChapterEntries = false; } bRemoveCopyEntry = false; } else if (bEditable) { if(ContentTypeId::INDEX == nContentType) { bRemoveReadonlyIndexEntry = false; bRemoveEditEntry = false; const SwTOXBase* pBase = weld::fromId(m_xTreeView->get_id(*xEntry))->GetTOXBase(); if (!pBase->IsTOXBaseInReadonly() && !SwEditShell::IsTOXBaseReadonly(*pBase)) { bRemoveUpdateIndexEntry = false; bRemoveDeleteIndexEntry = false; } else bReadonly = true; xPop->set_active(OUString::number(405), SwEditShell::IsTOXBaseReadonly(*pBase)); } else if(ContentTypeId::TABLE == nContentType) { bRemoveSelectEntry = false; bRemoveEditEntry = false; bRemoveUnprotectEntry = false; bRemoveDeleteTableEntry = false; bool bFull = false; OUString sTableName = weld::fromId(m_xTreeView->get_id(*xEntry))->GetName(); bool bProt = m_pActiveShell->HasTableAnyProtection( &sTableName, &bFull ); xPop->set_sensitive(OUString::number(403), !bFull); xPop->set_sensitive(OUString::number(404), bProt); xPop->set_sensitive(u"deletetable"_ustr, !bFull); } else if(ContentTypeId::REGION == nContentType) { bRemoveEditEntry = false; bRemoveProtectSection = false; bRemoveHideSection = false; SwContent* pCnt = weld::fromId(m_xTreeView->get_id(*xEntry)); assert(dynamic_cast(static_cast(pCnt))); const SwSectionFormat* pSectionFormat = static_cast(pCnt)->GetSectionFormat(); bool bHidden = pSectionFormat->GetSection()->IsHidden(); bRemoveSelectEntry = bHidden || !bVisible; xPop->set_active(u"protectsection"_ustr, bProtected); xPop->set_active(u"hidesection"_ustr, bHidden); } else bRemoveEditEntry = false; } if (bRenamable && !bReadonly) bRemoveRenameEntry = false; } else { if (ContentTypeId::OUTLINE == nContentType) { bOutline = true; if (State::HIDDEN != m_eState) { lcl_SetOutlineContentEntriesSensitivities(this, *m_xTreeView, *xEntry, *xSubPopOutlineContent); bRemoveSendOutlineEntry = false; } bRemoveToggleExpandEntry = lcl_InsertExpandCollapseAllItem(*m_xTreeView, *xEntry, *xPop); } else if (State::HIDDEN != m_eState && !m_pActiveShell->GetView().GetDocShell()->IsReadOnly() && pType->GetMemberCount() > 0) { // Choose which Delete All entry to show. if (pType->IsDeletable() && IsDeletable(*xEntry)) { switch (nContentType) { case ContentTypeId::TABLE: bRemoveDeleteAllTablesEntry = false; break; case ContentTypeId::FRAME: bRemoveDeleteAllFramesEntry = false; break; case ContentTypeId::GRAPHIC: bRemoveDeleteAllImagesEntry = false; break; case ContentTypeId::OLE: bRemoveDeleteAllOLEObjectsEntry = false; break; case ContentTypeId::BOOKMARK: bRemoveDeleteAllBookmarksEntry = false; break; case ContentTypeId::REGION: bRemoveDeleteAllRegionsEntry = false; break; case ContentTypeId::URLFIELD: bRemoveDeleteAllHyperlinksEntry = false; break; case ContentTypeId::REFERENCE: bRemoveDeleteAllReferencesEntry = false; break; case ContentTypeId::INDEX: bRemoveDeleteAllIndexesEntry = false; break; case ContentTypeId::POSTIT: bRemoveDeleteAllCommentsEntry = false; break; case ContentTypeId::DRAWOBJECT: bRemoveDeleteAllDrawingObjectsEntry = false; break; case ContentTypeId::TEXTFIELD: bRemoveDeleteAllFieldsEntry = false; break; case ContentTypeId::FOOTNOTE: bRemoveDeleteAllFootnotesEntry = false; bRemoveMakeAllFootnotesEndnotesEntry = false; break; case ContentTypeId::ENDNOTE: bRemoveDeleteAllEndnotesEntry = false; bRemoveMakeAllEndnotesFootnotesEntry = false; break; default: break; } } if (nContentType == ContentTypeId::POSTIT) { const SwViewOption* m_pViewOpt = m_pActiveShell->GetViewOptions(); xPop->set_active(u"showcomments"_ustr, m_pViewOpt->IsPostIts()); xPop->set_active(u"showresolvedcomments"_ustr, m_pViewOpt->IsResolvedPostIts()); bRemovePostItEntries = false; } } } } if (bRemoveToggleExpandEntry) xPop->remove(OUString::number(800)); if (bRemoveGotoEntry) xPop->remove(OUString::number(900)); if (bRemoveSelectEntry) xPop->remove(OUString::number(805)); if (bRemoveChapterEntries) { xPop->remove(OUString::number(801)); xPop->remove(OUString::number(802)); xPop->remove(OUString::number(803)); xPop->remove(OUString::number(804)); } if (bRemoveSendOutlineEntry) xPop->remove(OUString::number(700)); if (bRemovePostItEntries) { xPop->remove(u"showcomments"_ustr); xPop->remove(u"showresolvedcomments"_ustr); } if (bRemoveDeleteChapterEntry) xPop->remove(u"deletechapter"_ustr); if (bRemoveDeleteAllTablesEntry) xPop->remove(u"deletealltables"_ustr); if (bRemoveDeleteTableEntry) xPop->remove(u"deletetable"_ustr); if (bRemoveDeleteAllFramesEntry) xPop->remove(u"deleteallframes"_ustr); if (bRemoveDeleteFrameEntry) xPop->remove(u"deleteframe"_ustr); if (bRemoveDeleteAllImagesEntry) xPop->remove(u"deleteallimages"_ustr); if (bRemoveDeleteImageEntry) xPop->remove(u"deleteimage"_ustr); if (bRemoveDeleteAllOLEObjectsEntry) xPop->remove(u"deletealloleobjects"_ustr); if (bRemoveDeleteOLEObjectEntry) xPop->remove(u"deleteoleobject"_ustr); if (bRemoveDeleteAllBookmarksEntry) xPop->remove(u"deleteallbookmarks"_ustr); if (bRemoveDeleteBookmarkEntry) xPop->remove(u"deletebookmark"_ustr); if (bRemoveDeleteAllRegionsEntry) xPop->remove(u"deleteallregions"_ustr); if (bRemoveDeleteRegionEntry) xPop->remove(u"deleteregion"_ustr); if (bRemoveDeleteAllHyperlinksEntry) xPop->remove(u"deleteallhyperlinks"_ustr); if (bRemoveDeleteHyperlinkEntry) xPop->remove(u"deletehyperlink"_ustr); if (bRemoveDeleteAllReferencesEntry) xPop->remove(u"deleteallreferences"_ustr); if (bRemoveDeleteReferenceEntry) xPop->remove(u"deletereference"_ustr); if (bRemoveDeleteAllIndexesEntry) xPop->remove(u"deleteallindexes"_ustr); if (bRemoveDeleteIndexEntry) xPop->remove(u"deleteindex"_ustr); if (bRemoveDeleteAllCommentsEntry) xPop->remove(u"deleteallcomments"_ustr); if (bRemoveDeleteCommentEntry) xPop->remove(u"deletecomment"_ustr); if (bRemoveDeleteAllDrawingObjectsEntry) xPop->remove(u"deletealldrawingobjects"_ustr); if (bRemoveDeleteDrawingObjectEntry) xPop->remove(u"deletedrawingobject"_ustr); if (bRemoveDeleteAllFieldsEntry) xPop->remove(u"deleteallfields"_ustr); if (bRemoveDeleteFieldEntry) xPop->remove(u"deletefield"_ustr); if (bRemoveDeleteAllFootnotesEntry) xPop->remove(u"deleteallfootnotes"_ustr); if (bRemoveDeleteFootnoteEntry) xPop->remove(u"deletefootnote"_ustr); if (bRemoveDeleteAllEndnotesEntry) xPop->remove(u"deleteallendnotes"_ustr); if (bRemoveDeleteEndnoteEntry) xPop->remove(u"deleteendnote"_ustr); if (bRemoveMakeAllFootnotesEndnotesEntry) xPop->remove(u"makeallfootnotesendnotes"_ustr); if (bRemoveMakeAllEndnotesFootnotesEntry) xPop->remove(u"makeallendnotesfootnotes"_ustr); bool bRemoveDeleteEntry = bRemoveDeleteChapterEntry && bRemoveDeleteTableEntry && bRemoveDeleteFrameEntry && bRemoveDeleteImageEntry && bRemoveDeleteOLEObjectEntry && bRemoveDeleteBookmarkEntry && bRemoveDeleteRegionEntry && bRemoveDeleteHyperlinkEntry && bRemoveDeleteReferenceEntry && bRemoveDeleteIndexEntry && bRemoveDeleteCommentEntry && bRemoveDeleteDrawingObjectEntry && bRemoveDeleteFieldEntry && bRemoveDeleteFootnoteEntry && bRemoveDeleteEndnoteEntry && bRemoveDeleteAllTablesEntry && bRemoveDeleteAllFramesEntry && bRemoveDeleteAllImagesEntry && bRemoveDeleteAllOLEObjectsEntry && bRemoveDeleteAllBookmarksEntry && bRemoveDeleteAllRegionsEntry && bRemoveDeleteAllHyperlinksEntry && bRemoveDeleteAllReferencesEntry && bRemoveDeleteAllIndexesEntry && bRemoveDeleteCommentEntry && bRemoveDeleteAllDrawingObjectsEntry && bRemoveDeleteAllFieldsEntry && bRemoveDeleteAllFootnotesEntry && bRemoveDeleteAllEndnotesEntry; bool bRemoveMakeFootnotesEndnotesViceVersaEntry = bRemoveMakeAllFootnotesEndnotesEntry && bRemoveMakeAllEndnotesFootnotesEntry; if (bRemoveRenameEntry) xPop->remove(OUString::number(502)); if (bRemoveUpdateIndexEntry) xPop->remove(OUString::number(402)); if (bRemoveReadonlyIndexEntry) xPop->remove(OUString::number(405)); if (bRemoveUnprotectEntry) xPop->remove(OUString::number(404)); if (bRemoveEditEntry) xPop->remove(OUString::number(403)); if (bRemoveToggleExpandEntry && bRemoveSendOutlineEntry) xPop->remove(u"separator1"_ustr); if (bRemoveCopyEntry) xPop->remove(u"copy"_ustr); if (bRemoveGotoEntry && bRemoveCopyEntry && bRemoveSelectEntry && bRemoveDeleteEntry && bRemoveMakeFootnotesEndnotesViceVersaEntry && bRemoveChapterEntries && bRemovePostItEntries && bRemoveRenameEntry && bRemoveReadonlyIndexEntry && bRemoveUnprotectEntry && bRemoveEditEntry) xPop->remove(u"separator2"_ustr); if (!bOutline) { xSubPop1.reset(); xPop->remove(OUString::number(1)); // outline level menu } if (!bOutline || State::HIDDEN == m_eState) { xSubPopOutlineTracking.reset(); xPop->remove(OUString::number(4)); // outline tracking menu } if (!bOutline || State::HIDDEN == m_eState || !m_pActiveShell->GetViewOptions()->IsShowOutlineContentVisibilityButton() || m_pActiveShell->getIDocumentOutlineNodesAccess()->getOutlineNodesCount() == 0) { xSubPopOutlineContent.reset(); xPop->remove(OUString::number(5)); // outline folding menu xPop->remove(u"separator3"_ustr); } if (bRemoveTableTracking) xPop->remove(u"tabletracking"_ustr); if (bRemoveSectionTracking) xPop->remove(u"sectiontracking"_ustr); if (bRemoveFrameTracking) xPop->remove(u"frametracking"_ustr); if (bRemoveImageTracking) xPop->remove(u"imagetracking"_ustr); if (bRemoveOLEobjectTracking) xPop->remove(u"oleobjecttracking"_ustr); if (bRemoveBookmarkTracking) xPop->remove(u"bookmarktracking"_ustr); if (bRemoveHyperlinkTracking) xPop->remove(u"hyperlinktracking"_ustr); if (bRemoveReferenceTracking) xPop->remove(u"referencetracking"_ustr); if (bRemoveIndexTracking) xPop->remove(u"indextracking"_ustr); if (bRemoveCommentTracking) xPop->remove(u"commenttracking"_ustr); if (bRemoveDrawingObjectTracking) xPop->remove(u"drawingobjecttracking"_ustr); if (bRemoveFieldTracking) xPop->remove(u"fieldtracking"_ustr); if (bRemoveFootnoteTracking) xPop->remove(u"footnotetracking"_ustr); if (bRemoveEndnoteTracking) xPop->remove(u"endnotetracking"_ustr); if (bRemoveSortEntry) xPop->remove(u"sort"_ustr); if (bRemoveProtectSection) xPop->remove(u"protectsection"_ustr); if (bRemoveHideSection) xPop->remove(u"hidesection"_ustr); bool bSetSensitiveCollapseAllCategories = false; if (!m_bIsRoot && xEntry) { bool bEntry = m_xTreeView->get_iter_first(*xEntry); while (bEntry) { if (m_xTreeView->get_row_expanded(*xEntry)) { bSetSensitiveCollapseAllCategories = true; break; } bEntry = m_xTreeView->iter_next_sibling(*xEntry); } } xPop->set_sensitive(u"collapseallcategories"_ustr, bSetSensitiveCollapseAllCategories); OUString sCommand = xPop->popup_at_rect(m_xTreeView.get(), tools::Rectangle(rCEvt.GetMousePosPixel(), Size(1,1))); if (!sCommand.isEmpty()) ExecuteContextMenuAction(sCommand); return true; } void SwContentTree::InsertContent(const weld::TreeIter& rParent) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(rParent)))); SwContentType* pCntType = weld::fromId(m_xTreeView->get_id(rParent)); bool bGraphic = pCntType->GetType() == ContentTypeId::GRAPHIC; std::unique_ptr xChild = m_xTreeView->make_iterator(); const size_t nCount = pCntType->GetMemberCount(); for(size_t i = 0; i < nCount; ++i) { const SwContent* pCnt = pCntType->GetMember(i); OUString sEntry = pCnt->GetName(); if (sEntry.isEmpty()) sEntry = m_sSpace; OUString sId(weld::toId(pCnt)); insert(&rParent, sEntry, sId, false, xChild.get()); m_xTreeView->set_sensitive(*xChild, !pCnt->IsInvisible()); if (bGraphic) { const OUString& rsURL = static_cast(pCnt)->GetLink(); if (!rsURL.isEmpty()) { if (FStatHelper::IsDocument(rsURL)) { m_xTreeView->set_image(*xChild, RID_BMP_NAVI_GRAPHIC_LINK); } else { m_xTreeView->set_image(*xChild, RID_BMP_NAVI_GRAPHIC_BROKENLINK); } } } } } void SwContentTree::insert(const weld::TreeIter* pParent, const OUString& rStr, const OUString& rId, bool bChildrenOnDemand, weld::TreeIter* pRet) { m_xTreeView->insert(pParent, -1, &rStr, &rId, nullptr, nullptr, bChildrenOnDemand, pRet); ++m_nEntryCount; } void SwContentTree::remove(const weld::TreeIter& rIter) { if (m_xTreeView->iter_has_child(rIter)) { std::unique_ptr xChild = m_xTreeView->make_iterator(&rIter); (void)m_xTreeView->iter_children(*xChild); remove(*xChild); } m_xTreeView->remove(rIter); --m_nEntryCount; } // Content will be integrated into the Box only on demand. bool SwContentTree::RequestingChildren(const weld::TreeIter& rParent) { // Does the parent already have children or is it not a 'children on demand' node? if (m_xTreeView->iter_has_child(rParent) || !m_xTreeView->get_children_on_demand(rParent)) return false; // Is this a content type? if (lcl_IsContentType(rParent, *m_xTreeView)) { std::unique_ptr xChild = m_xTreeView->make_iterator(); assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(rParent)))); SwContentType* pCntType = weld::fromId(m_xTreeView->get_id(rParent)); const size_t nCount = pCntType->GetMemberCount(); // Add for outline plus/minus if (pCntType->GetType() == ContentTypeId::OUTLINE) { if (pCntType->IsAlphabeticSort()) { for (size_t i = 0; i < nCount; ++i) { const SwContent* pCnt = pCntType->GetMember(i); if (pCnt) { OUString sEntry = pCnt->GetName(); if (sEntry.isEmpty()) sEntry = m_sSpace; OUString sId(weld::toId(pCnt)); insert(&rParent, sEntry, sId, false, xChild.get()); m_xTreeView->set_sensitive(*xChild, !pCnt->IsInvisible()); } } } else { std::vector> aParentCandidates; for (size_t i = 0; i < nCount; ++i) { const SwContent* pCnt = pCntType->GetMember(i); if (pCnt) { const auto nLevel = static_cast(pCnt)->GetOutlineLevel(); OUString sEntry = pCnt->GetName(); if (sEntry.isEmpty()) sEntry = m_sSpace; OUString sId(weld::toId(pCnt)); auto lambda = [nLevel, this](const std::unique_ptr& entry) { return lcl_IsLowerOutlineContent(*entry, *m_xTreeView, nLevel); }; // if there is a preceding outline node candidate with a lower outline level // use that as a parent, otherwise use the root node auto aFind = std::find_if(aParentCandidates.rbegin(), aParentCandidates.rend(), lambda); if (aFind != aParentCandidates.rend()) insert(aFind->get(), sEntry, sId, false, xChild.get()); else insert(&rParent, sEntry, sId, false, xChild.get()); m_xTreeView->set_sensitive(*xChild, !pCnt->IsInvisible()); m_xTreeView->set_extra_row_indent( *xChild, nLevel + 1 - m_xTreeView->get_iter_depth(*xChild)); // remove any parent candidates equal to or higher than this node std::erase_if(aParentCandidates, std::not_fn(lambda)); // add this node as a parent candidate for any following nodes at a higher // outline level aParentCandidates.emplace_back(m_xTreeView->make_iterator(xChild.get())); } } } } else if (pCntType->GetType() == ContentTypeId::REGION) { if (pCntType->IsAlphabeticSort()) { for(size_t i = 0; i < nCount; ++i) { const SwRegionContent* pCnt = static_cast(pCntType->GetMember(i)); OUString sEntry = pCnt->GetName(); OUString sId(weld::toId(pCnt)); const auto nLevel = pCnt->GetRegionLevel(); insert(&rParent, sEntry, sId, false, xChild.get()); m_xTreeView->set_sensitive(*xChild, !pCnt->IsInvisible()); m_xTreeView->set_extra_row_indent(*xChild, nLevel); bool bHidden = pCnt->GetSectionFormat()->GetSection()->IsHidden(); if (pCnt->IsProtect()) m_xTreeView->set_image(*xChild, bHidden ? RID_BMP_PROT_HIDE : RID_BMP_PROT_NO_HIDE); else m_xTreeView->set_image(*xChild, bHidden ? RID_BMP_HIDE : RID_BMP_NO_HIDE); } } else { std::vector> aParentCandidates; for(size_t i = 0; i < nCount; ++i) { const SwRegionContent* pCnt = static_cast(pCntType->GetMember(i)); OUString sEntry = pCnt->GetName(); OUString sId(weld::toId(pCnt)); const auto nLevel = pCnt->GetRegionLevel(); auto lambda = [nLevel, this](const std::unique_ptr& xEntry) { return lcl_IsLowerRegionContent(*xEntry, *m_xTreeView, nLevel); }; // if there is a preceding region node candidate with a lower region level use // that as a parent, otherwise use the root node auto aFind = std::find_if(aParentCandidates.rbegin(), aParentCandidates.rend(), lambda); if (aFind != aParentCandidates.rend()) insert(aFind->get(), sEntry, sId, false, xChild.get()); else insert(&rParent, sEntry, sId, false, xChild.get()); m_xTreeView->set_sensitive(*xChild, !pCnt->IsInvisible()); bool bHidden = pCnt->GetSectionFormat()->GetSection()->IsHidden(); if (pCnt->IsProtect()) m_xTreeView->set_image(*xChild, bHidden ? RID_BMP_PROT_HIDE : RID_BMP_PROT_NO_HIDE); else m_xTreeView->set_image(*xChild, bHidden ? RID_BMP_HIDE : RID_BMP_NO_HIDE); // remove any parent candidates equal to or higher than this node std::erase_if(aParentCandidates, std::not_fn(lambda)); // add this node as a parent candidate for any following nodes at a higher region level aParentCandidates.emplace_back(m_xTreeView->make_iterator(xChild.get())); } } } else if (pCntType->GetType() == ContentTypeId::POSTIT) { std::vector> aParentCandidates; for(size_t i = 0; i < nCount; ++i) { const SwPostItContent* pCnt = static_cast(pCntType->GetMember(i)); OUString sEntry = pCnt->GetName(); OUString sId(weld::toId(pCnt)); const SwPostItField* pPostItField = static_cast(pCnt->GetPostIt()->GetField()); auto lambda = [&pPostItField, this](const std::unique_ptr& xEntry) { SwPostItContent* pParentCandidateCnt = weld::fromId(m_xTreeView->get_id(*xEntry)); return pPostItField->GetParentPostItId() == static_cast(pParentCandidateCnt->GetPostIt() ->GetField())->GetPostItId(); }; // if a parent candidate is not found use the passed root node auto aFind = std::find_if(aParentCandidates.rbegin(), aParentCandidates.rend(), lambda); if (aFind != aParentCandidates.rend()) insert(aFind->get(), sEntry, sId, false, xChild.get()); else insert(&rParent, sEntry, sId, false, xChild.get()); m_xTreeView->set_sensitive(*xChild, !pCnt->IsInvisible()); // clear parent candidates when encountering a postit that doesn't have a parent // following postits can't have a parent that is in these candidates if (pPostItField->GetParentPostItId() == 0) aParentCandidates.clear(); aParentCandidates.emplace_back(m_xTreeView->make_iterator(xChild.get())); } } else InsertContent(rParent); return nCount != 0; } return false; } void SwContentTree::ExpandAllHeadings() { if (HasHeadings()) { std::unique_ptr xEntry = GetEntryAtAbsPos(0); if (xEntry) { if (!IsAllExpanded(*m_xTreeView, *xEntry)) ExpandOrCollapseAll(*m_xTreeView, *xEntry); } } } SdrObject* SwContentTree::GetDrawingObjectsByContent(const SwContent *pCnt) { SdrObject *pRetObj = nullptr; switch(pCnt->GetParent()->GetType()) { case ContentTypeId::DRAWOBJECT: { SdrView* pDrawView = m_pActiveShell->GetDrawView(); if (pDrawView) { SwDrawModel* pDrawModel = m_pActiveShell->GetDoc()->getIDocumentDrawModelAccess().GetDrawModel(); SdrPage* pPage = pDrawModel->GetPage(0); for (const rtl::Reference& pTemp : *pPage) { if( pTemp->GetName() == pCnt->GetName()) { pRetObj = pTemp.get(); break; } } } break; } default: pRetObj = nullptr; } return pRetObj; } void SwContentTree::Expand(const weld::TreeIter& rParent, std::vector>* pNodesToExpand) { if (!m_xTreeView->iter_has_child(rParent) && !m_xTreeView->get_children_on_demand(rParent)) return; // pNodesToExpand is used by the Display function to restore the trees expand structure for // hierarchical content types, e.g., OUTLINE and REGION. if (pNodesToExpand) pNodesToExpand->emplace_back(m_xTreeView->make_iterator(&rParent)); // rParentId is a string representation of a pointer to SwContentType or SwContent const OUString aParentId = m_xTreeView->get_id(rParent); // bParentIsContentType tells if the passed rParent tree entry is a content type or content const bool bParentIsContentType = lcl_IsContentType(rParent, *m_xTreeView); // eParentContentTypeId is the content type of the passed rParent tree entry const ContentTypeId eParentContentTypeId = bParentIsContentType ? weld::fromId(aParentId)->GetType() : weld::fromId(aParentId)->GetParent()->GetType(); if (m_nRootType == ContentTypeId::UNKNOWN && bParentIsContentType) { // m_nActiveBlock and m_nHiddenBlock are used to persist the content type expand state for // the all content view mode const int nShift = static_cast(eParentContentTypeId); SAL_WARN_IF(nShift < 0, "sw.ui", "ContentTypeId::UNKNOWN negative shift"); if (nShift >= 0) { const sal_Int32 nOr = 1 << nShift; //linear -> Bitposition if (State::HIDDEN != m_eState) { m_nActiveBlock |= nOr; m_pConfig->SetActiveBlock(m_nActiveBlock); } else m_nHiddenBlock |= nOr; } } if (m_nRootType == ContentTypeId::OUTLINE || (m_nRootType == ContentTypeId::UNKNOWN && eParentContentTypeId == ContentTypeId::OUTLINE)) { if (bParentIsContentType) { std::map< void*, bool > aCurrOutLineNodeMap; SwWrtShell* pShell = GetWrtShell(); bool bParentHasChild = RequestingChildren(rParent); if (bParentHasChild) { std::unique_ptr xChild(m_xTreeView->make_iterator(&rParent)); bool bChild = m_xTreeView->iter_next(*xChild); while (bChild && lcl_IsContent(*xChild, *m_xTreeView)) { if (m_xTreeView->iter_has_child(*xChild)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xChild)))); auto const nPos = weld::fromId(m_xTreeView->get_id(*xChild))->GetOutlinePos(); void* key = static_cast(pShell->getIDocumentOutlineNodesAccess()->getOutlineNode( nPos )); aCurrOutLineNodeMap.emplace( key, false ); std::map::iterator iter = mOutLineNodeMap.find( key ); if( iter != mOutLineNodeMap.end() && mOutLineNodeMap[key]) { aCurrOutLineNodeMap[key] = true; RequestingChildren(*xChild); if (pNodesToExpand) pNodesToExpand->emplace_back(m_xTreeView->make_iterator(xChild.get())); m_xTreeView->set_children_on_demand(*xChild, false); } } bChild = m_xTreeView->iter_next(*xChild); } } mOutLineNodeMap = std::move(aCurrOutLineNodeMap); return; } else // content entry { SwWrtShell* pShell = GetWrtShell(); assert(dynamic_cast(weld::fromId(aParentId))); auto const nPos = weld::fromId(aParentId)->GetOutlinePos(); void* key = static_cast(pShell->getIDocumentOutlineNodesAccess()->getOutlineNode( nPos )); mOutLineNodeMap[key] = true; } } else if (m_nRootType == ContentTypeId::REGION || (m_nRootType == ContentTypeId::UNKNOWN && eParentContentTypeId == ContentTypeId::REGION)) { if (bParentIsContentType) { std::map aCurrentRegionNodeExpandMap; if (RequestingChildren(rParent)) { std::unique_ptr xChild(m_xTreeView->make_iterator(&rParent)); while (m_xTreeView->iter_next(*xChild) && lcl_IsContent(*xChild, *m_xTreeView)) { if (m_xTreeView->iter_has_child(*xChild)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xChild)))); const void* key = static_cast(weld::fromId( m_xTreeView->get_id(*xChild))->GetSectionFormat()); bool bExpandNode = m_aRegionNodeExpandMap.contains(key) && m_aRegionNodeExpandMap[key]; aCurrentRegionNodeExpandMap.emplace(key, bExpandNode); if (bExpandNode) { if (pNodesToExpand) pNodesToExpand->emplace_back(m_xTreeView->make_iterator(xChild.get())); RequestingChildren(*xChild); m_xTreeView->set_children_on_demand(*xChild, false); } } } } m_aRegionNodeExpandMap = std::move(aCurrentRegionNodeExpandMap); return; } else // content entry { assert(dynamic_cast(weld::fromId(aParentId))); const void* key = static_cast( weld::fromId(aParentId)->GetSectionFormat()); m_aRegionNodeExpandMap[key] = true; } } else if (m_nRootType == ContentTypeId::POSTIT || (m_nRootType == ContentTypeId::UNKNOWN && eParentContentTypeId == ContentTypeId::POSTIT)) { if (bParentIsContentType) { std::map aCurrentPostItNodeExpandMap; if (RequestingChildren(rParent)) { std::unique_ptr xChild(m_xTreeView->make_iterator(&rParent)); while (m_xTreeView->iter_next(*xChild) && lcl_IsContent(*xChild, *m_xTreeView)) { if (m_xTreeView->iter_has_child(*xChild)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xChild)))); const void* key = static_cast(weld::fromId( m_xTreeView->get_id(*xChild))->GetPostIt()); bool bExpandNode = m_aPostItNodeExpandMap.contains(key) && m_aPostItNodeExpandMap[key]; aCurrentPostItNodeExpandMap.emplace(key, bExpandNode); if (bExpandNode) { if (pNodesToExpand) pNodesToExpand->emplace_back(m_xTreeView->make_iterator(xChild.get())); RequestingChildren(*xChild); m_xTreeView->set_children_on_demand(*xChild, false); } } } } m_aPostItNodeExpandMap = std::move(aCurrentPostItNodeExpandMap); return; } else // content entry { assert(dynamic_cast(weld::fromId(aParentId))); const void* key = static_cast( weld::fromId(aParentId)->GetPostIt()); m_aPostItNodeExpandMap[key] = true; } } RequestingChildren(rParent); } IMPL_LINK(SwContentTree, ExpandHdl, const weld::TreeIter&, rParent, bool) { Expand(rParent, nullptr); return true; } IMPL_LINK(SwContentTree, CollapseHdl, const weld::TreeIter&, rParent, bool) { if (!m_xTreeView->iter_has_child(rParent) || m_xTreeView->get_children_on_demand(rParent)) return true; if (lcl_IsContentType(rParent, *m_xTreeView)) { if (m_bIsRoot) { // collapse to children of root node std::unique_ptr xEntry(m_xTreeView->make_iterator(&rParent)); if (m_xTreeView->iter_children(*xEntry)) { do { m_xTreeView->collapse_row(*xEntry); } while (m_xTreeView->iter_next(*xEntry)); } return false; // return false to notify caller not to do collapse } ContentTypeId eContentTypeId = weld::fromId(m_xTreeView->get_id(rParent))->GetType(); const int nShift = static_cast(eContentTypeId); SAL_WARN_IF(nShift < 0, "sw.ui", "ContentTypeId::UNKNOWN negative shift"); if (nShift >= 0) { const sal_Int32 nAnd = ~(1 << nShift); if (State::HIDDEN != m_eState) { m_nActiveBlock &= nAnd; m_pConfig->SetActiveBlock(m_nActiveBlock); } else m_nHiddenBlock &= nAnd; } } else // content entry { SwWrtShell* pShell = GetWrtShell(); ContentTypeId eContentTypeId = weld::fromId(m_xTreeView->get_id(rParent))->GetParent()->GetType(); if (eContentTypeId == ContentTypeId::OUTLINE) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(rParent)))); auto const nPos = weld::fromId(m_xTreeView->get_id(rParent))->GetOutlinePos(); void* key = static_cast(pShell->getIDocumentOutlineNodesAccess()->getOutlineNode( nPos )); mOutLineNodeMap[key] = false; } else if(eContentTypeId == ContentTypeId::REGION) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(rParent)))); const void* key = static_cast(weld::fromId(m_xTreeView->get_id(rParent))->GetSectionFormat()); m_aRegionNodeExpandMap[key] = false; } else if(eContentTypeId == ContentTypeId::POSTIT) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(rParent)))); const void* key = static_cast(weld::fromId(m_xTreeView->get_id(rParent))->GetPostIt()); m_aPostItNodeExpandMap[key] = false; } } return true; } // Also on double click will be initially opened only. IMPL_LINK_NOARG(SwContentTree, ContentDoubleClickHdl, weld::TreeView&, bool) { if (m_nRowActivateEventId) Application::RemoveUserEvent(m_nRowActivateEventId); // post the event to process row activate after mouse press event to be able to set key // modifier for selection feature (tdf#154211) m_nRowActivateEventId = Application::PostUserEvent(LINK(this, SwContentTree, AsyncContentDoubleClickHdl)); bool bConsumed = false; std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_cursor(xEntry.get()) && lcl_IsContent(*xEntry, *m_xTreeView) && (State::HIDDEN != m_eState)) { SwContent* pCnt = weld::fromId(m_xTreeView->get_id(*xEntry)); assert(pCnt && "no UserData"); if (pCnt && !pCnt->IsInvisible()) { // fdo#36308 don't expand outlines on double-click bConsumed = pCnt->GetParent()->GetType() == ContentTypeId::OUTLINE; } } return bConsumed; // false/true == allow/disallow more to be done, i.e. expand/collapse children } IMPL_LINK_NOARG(SwContentTree, AsyncContentDoubleClickHdl, void*, void) { m_nRowActivateEventId = nullptr; std::unique_ptr xEntry(m_xTreeView->make_iterator()); bool bEntry = m_xTreeView->get_cursor(xEntry.get()); // Is it a content type? OSL_ENSURE(bEntry, "no current entry!"); if (bEntry) { if (lcl_IsContentType(*xEntry, *m_xTreeView) && !m_xTreeView->iter_has_child(*xEntry)) { RequestingChildren(*xEntry); m_xTreeView->set_children_on_demand(*xEntry, false); } else if (!lcl_IsContentType(*xEntry, *m_xTreeView) && (State::HIDDEN != m_eState)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry)))); SwContent* pCnt = weld::fromId(m_xTreeView->get_id(*xEntry)); assert(pCnt && "no UserData"); if (pCnt && !pCnt->IsInvisible()) { if (State::CONSTANT == m_eState) { m_pActiveShell->GetView().GetViewFrame().GetWindow().ToTop(); } //Jump to content type: GotoContent(pCnt); } } } } namespace { OUString GetImageIdForContentTypeId(ContentTypeId eType) { OUString sResId; switch (eType) { case ContentTypeId::OUTLINE: sResId = RID_BMP_NAVI_OUTLINE; break; case ContentTypeId::TABLE: sResId = RID_BMP_NAVI_TABLE; break; case ContentTypeId::FRAME: sResId = RID_BMP_NAVI_FRAME; break; case ContentTypeId::GRAPHIC: sResId = RID_BMP_NAVI_GRAPHIC; break; case ContentTypeId::OLE: sResId = RID_BMP_NAVI_OLE; break; case ContentTypeId::BOOKMARK: sResId = RID_BMP_NAVI_BOOKMARK; break; case ContentTypeId::REGION: sResId = RID_BMP_NAVI_REGION; break; case ContentTypeId::URLFIELD: sResId = RID_BMP_NAVI_URLFIELD; break; case ContentTypeId::REFERENCE: sResId = RID_BMP_NAVI_REFERENCE; break; case ContentTypeId::INDEX: sResId = RID_BMP_NAVI_INDEX; break; case ContentTypeId::POSTIT: sResId = RID_BMP_NAVI_POSTIT; break; case ContentTypeId::DRAWOBJECT: sResId = RID_BMP_NAVI_DRAWOBJECT; break; case ContentTypeId::TEXTFIELD: sResId = RID_BMP_NAVI_TEXTFIELD; break; case ContentTypeId::FOOTNOTE: sResId = RID_BMP_NAVI_FOOTNOTE; break; case ContentTypeId::ENDNOTE: sResId = RID_BMP_NAVI_ENDNOTE; break; case ContentTypeId::UNKNOWN: SAL_WARN("sw.ui", "ContentTypeId::UNKNOWN has no bitmap preview"); break; } return sResId; }; } size_t SwContentTree::GetAbsPos(const weld::TreeIter& rIter) { return weld::GetAbsPos(*m_xTreeView, rIter); } size_t SwContentTree::GetEntryCount() const { return m_nEntryCount; } size_t SwContentTree::GetChildCount(const weld::TreeIter& rParent) const { if (!m_xTreeView->iter_has_child(rParent)) return 0; std::unique_ptr xParent(m_xTreeView->make_iterator(&rParent)); size_t nCount = 0; auto nRefDepth = m_xTreeView->get_iter_depth(*xParent); auto nActDepth = nRefDepth; do { if (!m_xTreeView->iter_next(*xParent)) xParent.reset(); else nActDepth = m_xTreeView->get_iter_depth(*xParent); nCount++; } while(xParent && nRefDepth < nActDepth); nCount--; return nCount; } std::unique_ptr SwContentTree::GetEntryAtAbsPos(size_t nAbsPos) const { std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (!m_xTreeView->get_iter_first(*xEntry)) xEntry.reset(); while (nAbsPos && xEntry) { if (!m_xTreeView->iter_next(*xEntry)) xEntry.reset(); nAbsPos--; } return xEntry; } void SwContentTree::Display( bool bActive ) { // First read the selected entry to select it later again if necessary // -> the user data here are no longer valid! std::unique_ptr xOldSelEntry(m_xTreeView->make_iterator()); if (!m_xTreeView->get_selected(xOldSelEntry.get())) xOldSelEntry.reset(); size_t nEntryRelPos = 0; // relative position to their parent size_t nOldEntryCount = GetEntryCount(); sal_Int32 nOldScrollPos = 0; if (xOldSelEntry) { UpdateLastSelType(); nOldScrollPos = m_xTreeView->vadjustment_get_value(); std::unique_ptr xParentEntry = m_xTreeView->make_iterator(xOldSelEntry.get()); while (m_xTreeView->get_iter_depth(*xParentEntry)) m_xTreeView->iter_parent(*xParentEntry); if (m_xTreeView->get_iter_depth(*xOldSelEntry)) nEntryRelPos = GetAbsPos(*xOldSelEntry) - GetAbsPos(*xParentEntry); } clear(); if (!bActive) { m_aOverlayObjectDelayTimer.Stop(); if (m_xOverlayObject && m_xOverlayObject->getOverlayManager()) { m_xOverlayObject->getOverlayManager()->remove(*m_xOverlayObject); m_xOverlayObject.reset(); } m_eState = State::HIDDEN; } else if (State::HIDDEN == m_eState) m_eState = State::ACTIVE; SwWrtShell* pShell = GetWrtShell(); if (pShell) { std::unique_ptr xEntry = m_xTreeView->make_iterator(); std::unique_ptr xCntTypeEntry; std::vector> aNodesToExpand; // all content navigation view if(m_nRootType == ContentTypeId::UNKNOWN) { m_xTreeView->freeze(); for( ContentTypeId nCntType : o3tl::enumrange() ) { std::unique_ptr& rpContentT = bActive ? m_aActiveContentArr[nCntType] : m_aHiddenContentArr[nCntType]; if(!rpContentT) rpContentT.reset(new SwContentType(pShell, nCntType, m_nOutlineLevel )); OUString aImage(GetImageIdForContentTypeId(nCntType)); bool bChOnDemand = 0 != rpContentT->GetMemberCount(); // In case of LOK, empty content types must be hidden in the contenttree if (comphelper::LibreOfficeKit::isActive() && !bChOnDemand) { continue; } OUString sId(weld::toId(rpContentT.get())); insert(nullptr, rpContentT->GetName(), sId, bChOnDemand, xEntry.get()); m_xTreeView->set_image(*xEntry, aImage); m_xTreeView->set_sensitive(*xEntry, bChOnDemand); if (nCntType == m_nLastSelType) xCntTypeEntry = m_xTreeView->make_iterator(xEntry.get()); sal_Int32 nExpandOptions = (State::HIDDEN == m_eState) ? m_nHiddenBlock : m_nActiveBlock; if (nExpandOptions & (1 << static_cast(nCntType))) { // fill contents of to-be expanded entries while frozen Expand(*xEntry, &aNodesToExpand); m_xTreeView->set_children_on_demand(*xEntry, false); } } m_xTreeView->thaw(); // restore visual expanded tree state for (const auto& rNode : aNodesToExpand) m_xTreeView->expand_row(*rNode); } // root content navigation view else { m_xTreeView->freeze(); std::unique_ptr& rpRootContentT = bActive ? m_aActiveContentArr[m_nRootType] : m_aHiddenContentArr[m_nRootType]; if(!rpRootContentT) rpRootContentT.reset(new SwContentType(pShell, m_nRootType, m_nOutlineLevel )); OUString aImage(GetImageIdForContentTypeId(m_nRootType)); bool bChOnDemand(m_nRootType == ContentTypeId::OUTLINE || m_nRootType == ContentTypeId::REGION || m_nRootType == ContentTypeId::POSTIT); OUString sId(weld::toId(rpRootContentT.get())); insert(nullptr, rpRootContentT->GetName(), sId, bChOnDemand, xEntry.get()); m_xTreeView->set_image(*xEntry, aImage); xCntTypeEntry = m_xTreeView->make_iterator(xEntry.get()); if (!bChOnDemand) InsertContent(*xEntry); else { // fill contents of to-be expanded entries while frozen Expand(*xEntry, &aNodesToExpand); m_xTreeView->set_children_on_demand(*xEntry, false); } m_xTreeView->set_sensitive(*xEntry, m_xTreeView->iter_has_child(*xEntry)); m_xTreeView->thaw(); if (bChOnDemand) { // restore visual expanded tree state for (const auto& rNode : aNodesToExpand) m_xTreeView->expand_row(*rNode); } else m_xTreeView->expand_row(*xEntry); } // Reselect the old selected entry. If it is not available, select the entry at the old // selected entry position unless that entry position is now a content type or is past the // end of the member list then select the entry at the previous entry position. if (xOldSelEntry) { std::unique_ptr xSelEntry = m_xTreeView->make_iterator(xCntTypeEntry.get()); if (nEntryRelPos) { std::unique_ptr xIter(m_xTreeView->make_iterator(xCntTypeEntry.get())); std::unique_ptr xTemp(m_xTreeView->make_iterator(xIter.get())); sal_uLong nPos = 1; bool bNext; while ((bNext = m_xTreeView->iter_next(*xIter) && lcl_IsContent(*xIter, *m_xTreeView))) { if (nPos == nEntryRelPos) { m_xTreeView->copy_iterator(*xIter, *xSelEntry); break; } m_xTreeView->copy_iterator(*xIter, *xTemp); // note previous entry nPos++; } if (!bNext) xSelEntry = std::move(xTemp); } // set_cursor unselects all entries, makes passed entry visible, and selects it m_xTreeView->set_cursor(*xSelEntry); } UpdateContentFunctionsToolbar(); } if (!m_bIgnoreDocChange && GetEntryCount() == nOldEntryCount) { m_xTreeView->vadjustment_set_value(nOldScrollPos); } } void SwContentTree::clear() { m_xTreeView->freeze(); m_xTreeView->clear(); m_nEntryCount = 0; m_xTreeView->thaw(); } bool SwContentTree::FillTransferData(TransferDataContainer& rTransfer) { SwWrtShell* pWrtShell = GetWrtShell(); OSL_ENSURE(pWrtShell, "no Shell!"); std::unique_ptr xEntry(m_xTreeView->make_iterator()); bool bEntry = m_xTreeView->get_cursor(xEntry.get()); if (!bEntry || lcl_IsContentType(*xEntry, *m_xTreeView) || !pWrtShell) return false; assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry)))); SwContent* pCnt = weld::fromId(m_xTreeView->get_id(*xEntry)); OUString sEntry; OUString sUrl; OUString sCrossRef; bool bUrl = true; bool bCrossRef = true; OUString sOutlineText; const ContentTypeId eActType = pCnt->GetParent()->GetType(); switch (eActType) { case ContentTypeId::OUTLINE: { const SwOutlineNodes::size_type nPos = static_cast(pCnt)->GetOutlinePos(); OSL_ENSURE(nPos < pWrtShell->getIDocumentOutlineNodesAccess()->getOutlineNodesCount(), "outlinecnt changed"); // make sure outline may actually be copied if( pWrtShell->IsOutlineCopyable( nPos ) ) { const SwNumRule* pOutlRule = pWrtShell->GetOutlineNumRule(); const SwTextNode* pTextNd = pWrtShell->getIDocumentOutlineNodesAccess()->getOutlineNode(nPos); if (pTextNd && pOutlRule && pTextNd->IsNumbered(pWrtShell->GetLayout())) { SwNumberTree::tNumberVector aNumVector = pTextNd->GetNumberVector(pWrtShell->GetLayout()); for( int nLevel = 0; nLevel <= pTextNd->GetActualListLevel(); nLevel++ ) { const SwNumberTree::tSwNumTreeNumber nVal = aNumVector[nLevel] + 1; sEntry += OUString::number( nVal - pOutlRule->Get(nLevel).GetStart() ) + "."; } } sEntry += pWrtShell->getIDocumentOutlineNodesAccess()->getOutlineText(nPos, pWrtShell->GetLayout(), false); sOutlineText = pWrtShell->getIDocumentOutlineNodesAccess()->getOutlineText(nPos, pWrtShell->GetLayout()); m_bIsOutlineMoveable = static_cast(pCnt)->IsMoveable(); } } break; case ContentTypeId::BOOKMARK: sEntry = m_xTreeView->get_text(*xEntry); break; case ContentTypeId::TABLE: case ContentTypeId::FRAME: case ContentTypeId::REGION: bCrossRef = false; sEntry = m_xTreeView->get_text(*xEntry); break; // content types that cannot be inserted, as URL, section, or reference case ContentTypeId::POSTIT: case ContentTypeId::INDEX: return false; // content types than can only be inserted as a cross-reference case ContentTypeId::REFERENCE: case ContentTypeId::TEXTFIELD: case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: bUrl = false; sEntry = m_xTreeView->get_text(*xEntry); break; // content types that can only be inserted as a hyperlink case ContentTypeId::URLFIELD: sUrl = static_cast(pCnt)->GetURL(); [[fallthrough]]; case ContentTypeId::OLE: case ContentTypeId::GRAPHIC: case ContentTypeId::DRAWOBJECT: bCrossRef = false; sEntry = m_xTreeView->get_text(*xEntry); break; default: return false; } if(!sEntry.isEmpty()) { const SwDocShell* pDocShell = pWrtShell->GetView().GetDocShell(); if (bUrl && sUrl.isEmpty()) { if(pDocShell->HasName()) { SfxMedium* pMedium = pDocShell->GetMedium(); sUrl = pMedium->GetURLObject().GetURLNoMark(); } else if (SwView* pView = GetActiveView(); State::CONSTANT == m_eState && (!pView || m_pActiveShell != pView->GetWrtShellPtr())) { // Urls of inactive views cannot dragged without // file names, also. return false; } else if (eActType != ContentTypeId::REGION && eActType != ContentTypeId::BOOKMARK) { // For sections and bookmarks a link is also allowed // without a filename into its own document. return false; } const OUString& rToken = pCnt->GetParent()->GetTypeToken(); sUrl += "#" + sEntry; if(!rToken.isEmpty()) { sUrl += OUStringChar(cMarkSeparator) + rToken; } } if (bCrossRef) { if (eActType == ContentTypeId::TEXTFIELD) { SwTextFieldContent* pTextFieldContent = static_cast(pCnt); const SwFormatField* pFormatField = pTextFieldContent->GetFormatField(); const SwField* pField = pFormatField->GetField(); if (SwFieldTypesEnum::Sequence != pField->GetTypeId()) return false; OUString sVal = pField->ExpandField(true, m_pActiveShell->GetLayout()); sal_uInt32 nSeqNo = sVal.toUInt32(); if (nSeqNo > 0) { --nSeqNo; sVal = OUString::number(nSeqNo); } else return false; const OUString sFieldTypeName = pField->GetTyp()->GetName(); sCrossRef = OUString::number(static_cast(REFERENCESUBTYPE::REF_SEQUENCEFLD)) + u"|" + sFieldTypeName + u"|" + sVal; } else if (eActType == ContentTypeId::REFERENCE) { sCrossRef = OUString::number(static_cast(REFERENCESUBTYPE::REF_SETREFATTR)) + u"|" + sEntry; } else if (eActType == ContentTypeId::BOOKMARK) { sCrossRef = OUString::number(static_cast(REFERENCESUBTYPE::REF_BOOKMARK)) + u"|" + sEntry; } else if (eActType == ContentTypeId::FOOTNOTE || eActType == ContentTypeId::ENDNOTE) { SeqFieldLstElem aElem(sEntry, 0); SwSeqFieldList aArr; size_t nIdx = 0; OUString sVal; if (m_pActiveShell->GetSeqFootnoteList(aArr, eActType == ContentTypeId::ENDNOTE) && aArr.SeekEntry(aElem, &nIdx)) sVal = OUString::number(aArr[nIdx].nSeqNo); else return false; REFERENCESUBTYPE eReferenceSubType = eActType == ContentTypeId::FOOTNOTE ? REFERENCESUBTYPE::REF_FOOTNOTE : REFERENCESUBTYPE::REF_ENDNOTE; sCrossRef = OUString::number(static_cast(eReferenceSubType)) + u"|" + sEntry + u"|" + sVal; } else if (eActType == ContentTypeId::OUTLINE) { sEntry = sOutlineText; const SwOutlineNodes::size_type nPos = static_cast(pCnt)->GetOutlinePos(); const SwTextNode* pTextNode = pWrtShell->GetNodes().GetOutLineNds()[nPos]->GetTextNode(); sw::mark::MarkBase const * const pMark = pWrtShell->getIDocumentMarkAccess()->getMarkForTextNode( *pTextNode, IDocumentMarkAccess::MarkType::CROSSREF_HEADING_BOOKMARK); // REFERENCESUBTYPE_OUTLINE is changed to REFERENCESUBTYPE::BOOKMARK in // SwWrtShell::NavigatorPaste. It is used to differentiate between a // headings reference and a regular bookmark reference to show different // options in the reference mark type popup menu. sCrossRef = OUString::number(static_cast(REFERENCESUBTYPE::REF_OUTLINE)) + u"|" + pMark->GetName(); } } NaviContentBookmark aBmk(sUrl, sCrossRef, sEntry, pDocShell); aBmk.Copy(rTransfer); // An INetBookmark must a be delivered to foreign DocShells if (bUrl && pDocShell->HasName()) { INetBookmark aBkmk( sUrl, sEntry ); rTransfer.CopyINetBookmark( aBkmk ); } } return true; } void SwContentTree::ToggleToRoot() { if(!m_bIsRoot) { std::unique_ptr xEntry(m_xTreeView->make_iterator()); bool bEntry = m_xTreeView->get_cursor(xEntry.get()); if (bEntry) { const SwContentType* pCntType; if (lcl_IsContentType(*xEntry, *m_xTreeView)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry)))); pCntType = weld::fromId(m_xTreeView->get_id(*xEntry)); } else { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry)))); pCntType = weld::fromId(m_xTreeView->get_id(*xEntry))->GetParent(); } m_nRootType = pCntType->GetType(); m_bIsRoot = true; if (m_nRootType == ContentTypeId::OUTLINE || m_nRootType == ContentTypeId::DRAWOBJECT) { m_xTreeView->set_selection_mode(SelectionMode::Multiple); } Display(State::HIDDEN != m_eState); } } else { m_xTreeView->set_selection_mode(SelectionMode::Single); m_nLastSelType = m_nRootType; m_nRootType = ContentTypeId::UNKNOWN; m_bIsRoot = false; // Other content type member data could have changed while in root view. Fill the content // member lists excluding the toggled from root content which should already have the most // recent data. if (State::HIDDEN != m_eState) { for (ContentTypeId i : o3tl::enumrange()) { if (i != m_nLastSelType && m_aActiveContentArr[i]) m_aActiveContentArr[i]->FillMemberList(); } } Display(State::HIDDEN != m_eState); } m_pConfig->SetRootType( m_nRootType ); weld::Toolbar* pBox = GetParentWindow()->m_xContent5ToolBox.get(); pBox->set_item_active(u"root"_ustr, m_bIsRoot); } bool SwContentTree::HasContentChanged() { bool bContentChanged = false; // - Run through the local array and the Treelistbox in parallel. // - Are the records not expanded, they are discarded only in the array // and the content type will be set as the new UserData. // - Is the root mode is active only this will be updated. // Valid for the displayed content types is: // the Memberlist will be erased and the membercount will be updated // If content will be checked, the memberlists will be replenished // at the same time. Once a difference occurs it will be only replenished // no longer checked. Finally, the box is filled again. if (State::HIDDEN == m_eState) { for(ContentTypeId i : o3tl::enumrange()) { if(m_aActiveContentArr[i]) m_aActiveContentArr[i]->Invalidate(); } return false; } // single content type navigation view if(m_bIsRoot) { std::unique_ptr xRootEntry(m_xTreeView->make_iterator()); if (!m_xTreeView->get_iter_first(*xRootEntry)) return true; assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xRootEntry)))); const ContentTypeId nType = weld::fromId(m_xTreeView->get_id(*xRootEntry))->GetType(); SwContentType* pArrType = m_aActiveContentArr[nType].get(); assert(weld::toId(pArrType) == m_xTreeView->get_id(*xRootEntry)); if (!pArrType) return true; pArrType->FillMemberList(&bContentChanged); if (bContentChanged) return true; // FillMemberList tests if member count in old member array equals member count in new // member array. Test here for member count difference between array and tree. const size_t nChildCount = GetChildCount(*xRootEntry); if (nChildCount != pArrType->GetMemberCount()) return true; std::unique_ptr xEntry(m_xTreeView->make_iterator(xRootEntry.get())); for (size_t j = 0; j < nChildCount; ++j) { if (!m_xTreeView->iter_next(*xEntry)) { SAL_WARN("sw.ui", "unexpected missing entry"); return true; } // FillMemberList clears the content type member list and refills with new data. // Treeview entry user data is set here to the string representation of the pointer to // the member data in the array. The Display function will clear and recreate the // treeview from the content type member arrays if content change is detected. const SwContent* pCnt = pArrType->GetMember(j); if (pCnt->IsInvisible() != m_xTreeView->get_sensitive(*xEntry, 0)) return true; OUString sEntryText = m_xTreeView->get_text(*xEntry); if (sEntryText != pCnt->GetName() && !(sEntryText == m_sSpace && pCnt->GetName().isEmpty())) { return true; } // Set_id needs to be done here because FillMemberList clears the content type member // list and refills with new data making the previously set id invalid. If there is no // content change detected the Display function will not be called and the tree entry // user data will not be set to the new content member pointer address. OUString sSubId(weld::toId(pCnt)); m_xTreeView->set_id(*xEntry, sSubId); } } // all content types navigation view else { // Fill member list for each content type and check for content change. If content change // is detected only fill member lists for remaining content types. The Display function // will clear and recreate the treeview from the content type member arrays if content has // changed. if (comphelper::LibreOfficeKit::isActive()) { // In case of LOK, empty contentTypes are hidden, even in all content view // so it is not enough to check only the m_xTreeView. bool bCountChanged = false; bool bHasContentChanged = false; for (ContentTypeId i : o3tl::enumrange()) { if (m_aActiveContentArr[i]) { auto nLastTMCount = m_aActiveContentArr[i]->GetMemberCount(); if (i == ContentTypeId::OUTLINE) // this is required for checking if header level is changed m_aActiveContentArr[i]->FillMemberList(&bHasContentChanged); else m_aActiveContentArr[i]->FillMemberList(); // If the member count of a type is changed, then the content is surely changed if (m_aActiveContentArr[i]->GetMemberCount() != nLastTMCount) bCountChanged = true; if (bHasContentChanged) bContentChanged = true; } } if (bCountChanged || bContentChanged) return true; } std::unique_ptr xEntry(m_xTreeView->make_iterator()); // lambda function to find the next content type entry auto lcl_nextContentTypeEntry = [this, &xEntry](){ while (m_xTreeView->get_iter_depth(*xEntry)) m_xTreeView->iter_parent(*xEntry); return m_xTreeView->iter_next_sibling(*xEntry); }; for (bool bEntry = m_xTreeView->get_iter_first(*xEntry); bEntry; bEntry = lcl_nextContentTypeEntry()) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry)))); SwContentType* pCntType = weld::fromId(m_xTreeView->get_id(*xEntry)); const size_t nCntCount = pCntType->GetMemberCount(); const ContentTypeId nType = pCntType->GetType(); SwContentType* pArrType = m_aActiveContentArr[nType].get(); assert(weld::toId(pArrType) == m_xTreeView->get_id(*xEntry)); if (!pArrType) { bContentChanged = true; continue; } // all content type member lists must be filled! if (bContentChanged) { // If content change has already been detected there is no need to detect // other content change so no argument is supplied here to FillMemberList. pArrType->FillMemberList(); continue; } pArrType->FillMemberList(&bContentChanged); if (bContentChanged) continue; // does entry have children? if (m_xTreeView->get_row_expanded(*xEntry)) { const size_t nChildCount = GetChildCount(*xEntry); if(nChildCount != pArrType->GetMemberCount()) { bContentChanged = true; continue; } for(size_t j = 0; j < nChildCount; ++j) { if (!m_xTreeView->iter_next(*xEntry)) { SAL_WARN("sw.ui", "unexpected missing entry"); bContentChanged = true; break; } const SwContent* pCnt = pArrType->GetMember(j); if (pCnt->IsInvisible() != m_xTreeView->get_sensitive(*xEntry, 0)) { bContentChanged = true; break; } OUString sEntryText = m_xTreeView->get_text(*xEntry); if( sEntryText != pCnt->GetName() && !(sEntryText == m_sSpace && pCnt->GetName().isEmpty())) { bContentChanged = true; break; } // See comment above in single content type navigation view block for why the // following is done here. OUString sSubId(weld::toId(pCnt)); m_xTreeView->set_id(*xEntry, sSubId); } } // not expanded and has children else if (m_xTreeView->iter_has_child(*xEntry)) { bool bRemoveChildren = false; const size_t nOldChildCount = GetChildCount(*xEntry); const size_t nNewChildCount = pArrType->GetMemberCount(); if (nOldChildCount != nNewChildCount) { bRemoveChildren = true; } else { std::unique_ptr xChild(m_xTreeView->make_iterator(xEntry.get())); (void)m_xTreeView->iter_children(*xChild); for (size_t j = 0; j < nOldChildCount; ++j) { const SwContent* pCnt = pArrType->GetMember(j); OUString sSubId(weld::toId(pCnt)); m_xTreeView->set_id(*xChild, sSubId); OUString sEntryText = m_xTreeView->get_text(*xChild); if( sEntryText != pCnt->GetName() && !(sEntryText == m_sSpace && pCnt->GetName().isEmpty())) { bRemoveChildren = true; } (void)m_xTreeView->iter_next(*xChild); } } if (bRemoveChildren) { std::unique_ptr xRemove(m_xTreeView->make_iterator(xEntry.get())); while (m_xTreeView->iter_children(*xRemove)) { remove(*xRemove); m_xTreeView->copy_iterator(*xEntry, *xRemove); } m_xTreeView->set_children_on_demand(*xEntry, nNewChildCount != 0); } } else if((nCntCount != 0) != (pArrType->GetMemberCount()!=0)) { bContentChanged = true; continue; } } } return bContentChanged; } void SwContentTree::UpdateLastSelType() { std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_selected(xEntry.get())) { while (m_xTreeView->get_iter_depth(*xEntry)) m_xTreeView->iter_parent(*xEntry); void* pId = weld::fromId(m_xTreeView->get_id(*xEntry)); if (pId && lcl_IsContentType(*xEntry, *m_xTreeView)) { assert(dynamic_cast(static_cast(pId))); m_nLastSelType = static_cast(pId)->GetType(); } } } void SwContentTree::FindActiveTypeAndRemoveUserData() { UpdateLastSelType(); // If clear is called by TimerUpdate: // Only for root can the validity of the UserData be guaranteed. m_xTreeView->all_foreach([this](weld::TreeIter& rEntry){ m_xTreeView->set_id(rEntry, u""_ustr); return false; }); } void SwContentTree::SetHiddenShell(SwWrtShell* pSh) { m_pHiddenShell = pSh; m_eState = State::HIDDEN; FindActiveTypeAndRemoveUserData(); for(ContentTypeId i : o3tl::enumrange()) { m_aHiddenContentArr[i].reset(); } Display(false); GetParentWindow()->UpdateListBox(); } void SwContentTree::SetActiveShell(SwWrtShell* pSh) { bool bClear = m_pActiveShell != pSh; if (State::ACTIVE == m_eState && bClear) { EndListeningAll(); m_pActiveShell = pSh; FindActiveTypeAndRemoveUserData(); clear(); } else if (State::CONSTANT == m_eState) { EndListeningAll(); m_pActiveShell = pSh; m_eState = State::ACTIVE; bClear = true; } // tdf#148432 in LTR UI override the navigator treeview direction based on // the first page directionality if (m_pActiveShell && !AllSettings::GetLayoutRTL()) { const SwPageDesc& rDesc = m_pActiveShell->GetPageDesc(0); const SvxFrameDirectionItem& rFrameDir = rDesc.GetMaster().GetFrameDir(); m_xTreeView->set_direction(rFrameDir.GetValue() == SvxFrameDirection::Horizontal_RL_TB); } // Only if it is the active view, the array will be deleted and // the screen filled new. if (State::ACTIVE == m_eState && bClear) { if (m_pActiveShell) StartListening(*m_pActiveShell->GetView().GetDocShell()); FindActiveTypeAndRemoveUserData(); for(ContentTypeId i : o3tl::enumrange()) { m_aActiveContentArr[i].reset(); } Display(true); } } void SwContentTree::SetConstantShell(SwWrtShell* pSh) { EndListeningAll(); m_pActiveShell = pSh; m_eState = State::CONSTANT; StartListening(*m_pActiveShell->GetView().GetDocShell()); FindActiveTypeAndRemoveUserData(); for(ContentTypeId i : o3tl::enumrange()) { m_aActiveContentArr[i].reset(); } Display(true); } void SwContentTree::Notify(SfxBroadcaster & rBC, SfxHint const& rHint) { if (rHint.GetId() == SfxHintId::ThisIsAnSfxEventHint) { const SfxEventHint* pEventHint = static_cast(&rHint); if (pEventHint->GetEventId() == SfxEventHintId::CloseView) { SfxViewEventHint const*const pVEHint(static_cast(&rHint)); if (m_pActiveShell) { SwXTextView* pDyingShell = dynamic_cast(pVEHint->GetController().get()); if (pDyingShell && pDyingShell->GetView() == &m_pActiveShell->GetView()) { SetActiveShell(nullptr); // our view is dying, clear our pointers to it } } return; } } SfxListener::Notify(rBC, rHint); switch (rHint.GetId()) { case SfxHintId::SwNavigatorUpdateTracking: UpdateTracking(); break; case SfxHintId::SwNavigatorSelectOutlinesWithSelections: { if (m_nRootType == ContentTypeId::OUTLINE) { SelectOutlinesWithSelection(); // make first selected entry visible std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (xEntry && m_xTreeView->get_selected(xEntry.get())) m_xTreeView->scroll_to_row(*xEntry); } else if (m_nRootType == ContentTypeId::UNKNOWN) m_xTreeView->unselect_all(); break; } case SfxHintId::DocChanged: OverlayObject(); if (!m_bIgnoreDocChange) { m_bDocHasChanged = true; TimerUpdate(&m_aUpdTimer); } break; case SfxHintId::ModeChanged: if (SwWrtShell* pShell = GetWrtShell()) { const bool bReadOnly = pShell->GetView().GetDocShell()->IsReadOnly(); if (bReadOnly != m_bIsLastReadOnly) { m_bIsLastReadOnly = bReadOnly; std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_cursor(xEntry.get())) { m_xTreeView->select(*xEntry); UpdateContentFunctionsToolbar(); } else m_xTreeView->unselect_all(); } } break; default: break; } } // Handler for outline entry up/down left/right movement void SwContentTree::ExecCommand(std::u16string_view rCmd, bool bOutlineWithChildren) { if (m_xTreeView->count_selected_rows() == 0) return; const bool bUp = rCmd == u"chapterup"; const bool bUpDown = bUp || rCmd == u"chapterdown"; const bool bLeft = rCmd == u"promote"; const bool bLeftRight = bLeft || rCmd == u"demote"; if (!bUpDown && !bLeftRight) return; if (GetWrtShell()->GetView().GetDocShell()->IsReadOnly() || (State::ACTIVE != m_eState && (State::CONSTANT != m_eState || m_pActiveShell != GetParentWindow()->GetCreateView()->GetWrtShellPtr()))) { return; } SwWrtShell *const pShell = GetWrtShell(); const SwNodes& rNodes = pShell->GetNodes(); const SwOutlineNodes& rOutlineNodes = rNodes.GetOutLineNds(); const SwOutlineNodes::size_type nOutlineNdsSize = rOutlineNodes.size(); std::vector selectedOutlineNodes; std::vector> selected; m_xTreeView->selected_foreach([&](weld::TreeIter& rEntry){ // it's possible to select the root node too which is a really bad idea if (lcl_IsContentType(rEntry, *m_xTreeView)) return false; // filter out children of selected parents so they don't get promoted // or moved twice (except if there is Ctrl modifier, since in that // case children are re-parented) if ((bLeftRight || bOutlineWithChildren) && !selected.empty()) { std::unique_ptr xParent(m_xTreeView->make_iterator(&rEntry)); for (bool bParent = m_xTreeView->iter_parent(*xParent); bParent; bParent = m_xTreeView->iter_parent(*xParent)) { if (m_xTreeView->iter_compare(*selected.back(), *xParent) == 0) { return false; } } } selected.emplace_back(m_xTreeView->make_iterator(&rEntry)); // Use the outline node position in the SwOutlineNodes array. Bad things // happen if the tree entry position is used and it doesn't match the node position // in SwOutlineNodes, which is usually the case for outline nodes in frames. const SwOutlineNodes::size_type nPos = weld::fromId(m_xTreeView->get_id(rEntry))->GetOutlinePos(); if (nPos < nOutlineNdsSize) { SwNode* pNode = rNodes.GetOutLineNds()[ nPos ]; if (pNode) { selectedOutlineNodes.push_back(pNode->GetTextNode()); } } return false; }); if (!selected.size()) return; if (bUpDown && !bUp) { // to move down, start at the end! std::reverse(selected.begin(), selected.end()); } m_bIgnoreDocChange = true; SwOutlineNodes::size_type nActPos; bool bStartedAction = false; MakeAllOutlineContentTemporarilyVisible a(GetWrtShell()->GetDoc()); // get first regular document content node outline node position in outline nodes array SwOutlineNodes::size_type nFirstRegularDocContentOutlineNodePos = SwOutlineNodes::npos; SwNodeOffset nEndOfExtrasIndex = rNodes.GetEndOfExtras().GetIndex(); sal_Int32 nHasInlineHeading = 0; for (SwOutlineNodes::size_type nPos = 0; nPos < nOutlineNdsSize; nPos++) { if (rOutlineNodes[nPos]->GetIndex() > nEndOfExtrasIndex) { nFirstRegularDocContentOutlineNodePos = nPos; break; } if ( bUpDown && rOutlineNodes[nPos] != SwOutlineNodes::GetRootNode(rOutlineNodes[nPos]) ) ++nHasInlineHeading; } for (auto const& pCurrentEntry : selected) { nActPos = weld::fromId( m_xTreeView->get_id(*pCurrentEntry))->GetOutlinePos(); // outline nodes in frames and tables are not up/down moveable if (nActPos == SwOutlineNodes::npos || (bUpDown && (!pShell->IsOutlineMovable(nActPos) || nFirstRegularDocContentOutlineNodePos == SwOutlineNodes::npos))) { // except inline headings, i.e. Inline Heading frames with // single outlines, and anchored as characters, which headings // are movable with their anchor node, if they are // 1) not in other frames or 2) not in tables and 3) not protected const SwNode* pRootNode = nHasInlineHeading > 0 ? SwOutlineNodes::GetRootNode(rOutlineNodes[nActPos]) : nullptr; if ( !pRootNode || pRootNode == rOutlineNodes[nActPos] || pRootNode != SwOutlineNodes::GetRootNode(pRootNode) || // frame in frame pRootNode->FindTableNode() || // frame in table pRootNode->IsProtect() ) // write protection { continue; } } if (!bStartedAction) { pShell->StartAllAction(); pShell->StartUndo(bLeftRight ? SwUndoId::OUTLINE_LR : SwUndoId::OUTLINE_UD); bStartedAction = true; } pShell->GotoOutline( nActPos); // If text selection != box selection pShell->Push(); if (nHasInlineHeading && bUpDown) { SwOutlineNodesInline aOutlineNodesInline; // sort inline headings correctly for (SwNode* pNode : rOutlineNodes) aOutlineNodesInline.insert(pNode); const SwOutlineNodes::size_type nOutlineNdsSizeInline = aOutlineNodesInline.size(); // move outline position up/down (outline position promote/demote) SwOutlineNodes::difference_type nDir = bUp ? -1 : 1; SwOutlineNodesInline::size_type nActPosInline; aOutlineNodesInline.Seek_Entry(rOutlineNodes[nActPos], &nActPosInline); if ( (nDir == -1 && nActPosInline > 0) || (nDir == 1 && nActPosInline < nOutlineNdsSizeInline - 1) ) { // make outline selection for use by MoveOutlinePara pShell->MakeOutlineSel(nActPos, nActPos, bOutlineWithChildren, true, &aOutlineNodesInline); int nActPosOutlineLevel = rOutlineNodes[nActPos]->GetTextNode()->GetAttrOutlineLevel(); // search for sorted position SwOutlineNodesInline::size_type nPos; aOutlineNodesInline.Seek_Entry_By_Anchor(SwOutlineNodes::GetRootNode(rOutlineNodes[nActPos]), &nPos); if (!bUp) { // move down int nPosOutlineLevel = -1; while (++nPos < nOutlineNdsSizeInline) { nPosOutlineLevel = aOutlineNodesInline[nPos]->GetTextNode()->GetAttrOutlineLevel(); // discontinue if moving out of parent or equal level is found if (nPosOutlineLevel <= nActPosOutlineLevel) { break; } // count the children of the node when they are not included in the move if (!bOutlineWithChildren) nDir++; } if (nPosOutlineLevel >= nActPosOutlineLevel) { // move past children while (++nPos < nOutlineNdsSizeInline) { nPosOutlineLevel = aOutlineNodesInline[nPos]->GetTextNode()->GetAttrOutlineLevel(); // discontinue if moving out of parent or equal level is found if (nPosOutlineLevel <= nActPosOutlineLevel) break; nDir++; } } } else { // move up while (nPos && --nPos >= nFirstRegularDocContentOutlineNodePos - nHasInlineHeading) { int nPosOutlineLevel = aOutlineNodesInline[nPos]->GetTextNode()->GetAttrOutlineLevel(); // discontinue if equal level is found if (nPosOutlineLevel == nActPosOutlineLevel) { break; } // discontinue if moving out of parent if (nPosOutlineLevel < nActPosOutlineLevel) { // Required for expected chapter placement when the chapter being moved // up has an outline level less than the outline level of chapters it // is being moved above and then encounters a chapter with an outline // level that is greater before reaching a chapter with the same // outline level as itself. if (nDir < -1) nDir++; break; } nDir--; } } pShell->MoveOutlinePara(nDir, &aOutlineNodesInline); } pShell->ClearMark(); } else if (bUpDown) { // move outline position up/down (outline position promote/demote) SwOutlineNodes::difference_type nDir = bUp ? -1 : 1; if ((nDir == -1 && nActPos > 0) || (nDir == 1 && nActPos < nOutlineNdsSize - 1)) { // make outline selection for use by MoveOutlinePara pShell->MakeOutlineSel(nActPos, nActPos, bOutlineWithChildren); int nActPosOutlineLevel = rOutlineNodes[nActPos]->GetTextNode()->GetAttrOutlineLevel(); SwOutlineNodes::size_type nPos = nActPos; if (!bUp) { // move down int nPosOutlineLevel = -1; while (++nPos < nOutlineNdsSize) { nPosOutlineLevel = rOutlineNodes[nPos]->GetTextNode()->GetAttrOutlineLevel(); // discontinue if moving out of parent or equal level is found if (nPosOutlineLevel <= nActPosOutlineLevel) break; // count the children of the node when they are not included in the move if (!bOutlineWithChildren) nDir++; } if (nPosOutlineLevel >= nActPosOutlineLevel) { // move past children while (++nPos < nOutlineNdsSize) { nPosOutlineLevel = rOutlineNodes[nPos]->GetTextNode()->GetAttrOutlineLevel(); // discontinue if moving out of parent or equal level is found if (nPosOutlineLevel <= nActPosOutlineLevel) break; nDir++; } } } else { // move up while (nPos && --nPos >= nFirstRegularDocContentOutlineNodePos) { int nPosOutlineLevel = rOutlineNodes[nPos]->GetTextNode()->GetAttrOutlineLevel(); // discontinue if equal level is found if (nPosOutlineLevel == nActPosOutlineLevel) break; // discontinue if moving out of parent if (nPosOutlineLevel < nActPosOutlineLevel) { // Required for expected chapter placement when the chapter being moved // up has an outline level less than the outline level of chapters it // is being moved above and then encounters a chapter with an outline // level that is greater before reaching a chapter with the same // outline level as itself. if (nDir < -1) nDir++; break; } nDir--; } } pShell->MoveOutlinePara(nDir); } pShell->ClearMark(); } else { // move outline left/right (outline level promote/demote) if (!pShell->IsProtectedOutlinePara()) { bool bAllow = true; const SwOutlineNodes& rOutlNds = pShell->GetDoc()->GetNodes().GetOutLineNds(); const int nActLevel = rOutlNds[nActPos]->GetTextNode()->GetAttrOutlineLevel(); if (!bLeft) { // disallow if any outline node to demote will exceed MAXLEVEL SwOutlineNodes::size_type nPos = nActPos; do { int nLevel = rOutlNds[nPos]->GetTextNode()->GetAttrOutlineLevel(); if (nLevel == MAXLEVEL) { bAllow = false; break; } } while (bOutlineWithChildren && ++nPos < rOutlNds.size() && rOutlNds[nPos]->GetTextNode()->GetAttrOutlineLevel() > nActLevel); } else { // disallow if trying to promote outline of level 1 if (nActLevel == 1) bAllow = false; } if (bAllow) { SwOutlineNodes::size_type nPos = nActPos; do { pShell->SwCursorShell::GotoOutline(nPos); pShell->OutlineUpDown(bLeft ? -1 : 1); } while (bOutlineWithChildren && ++nPos < rOutlNds.size() && rOutlNds[nPos]->GetTextNode()->GetAttrOutlineLevel() > nActLevel); } } } pShell->Pop(SwCursorShell::PopMode::DeleteCurrent); // Cursor is now back at the current heading. } if (bStartedAction) { pShell->EndUndo(); pShell->EndAllAction(); if (m_aActiveContentArr[ContentTypeId::OUTLINE]) m_aActiveContentArr[ContentTypeId::OUTLINE]->Invalidate(); // tdf#143547 LO Writer: navigator should stand still on promoting and demoting // In addition to m_bIgnoreDocChange being true, selections are cleared before the Display // call. Either of these conditions disable restore of scroll position happening in the // Display function so it needs to be done here. auto nOldScrollPos = m_xTreeView->vadjustment_get_value(); // clear all selections to prevent the Display function from trying to reselect selected entries m_xTreeView->unselect_all(); Display(true); m_xTreeView->vadjustment_set_value(nOldScrollPos); if (m_bIsRoot) { // reselect entries, do this only when in outline content navigation mode const SwOutlineNodes& rOutlineNds = pShell->GetNodes().GetOutLineNds(); for (SwTextNode* pNode : selectedOutlineNodes) { m_xTreeView->all_foreach([this, &rOutlineNds, pNode](weld::TreeIter& rEntry){ if (lcl_IsContentType(rEntry, *m_xTreeView)) return false; SwOutlineNodes::size_type nPos = weld::fromId( m_xTreeView->get_id(rEntry))->GetOutlinePos(); if (pNode == rOutlineNds[nPos]->GetTextNode()) { std::unique_ptr xParent(m_xTreeView->make_iterator(&rEntry)); if (m_xTreeView->iter_parent(*xParent) && !m_xTreeView->get_row_expanded(*xParent)) { m_xTreeView->expand_row(*xParent); } m_xTreeView->select(rEntry); return true; } return false; }); } UpdateContentFunctionsToolbar(); } else { m_pActiveShell->GetView().GetEditWin().GrabFocus(); m_bIgnoreDocChange = false; UpdateTracking(); grab_focus(); } } m_bIgnoreDocChange = false; } void SwContentTree::ShowTree() { m_xTreeView->show(); m_aUpdTimer.Start(); } void SwContentTree::HideTree() { // folded together will not be idled m_aUpdTimer.Stop(); m_xTreeView->hide(); } static void lcl_SelectByContentTypeAndAddress(SwContentTree* pThis, weld::TreeView& rContentTree, ContentTypeId nType, const void* ptr) { if (!ptr) { rContentTree.set_cursor(-1); pThis->UpdateContentFunctionsToolbar(); return; } // find content type entry std::unique_ptr xIter(rContentTree.make_iterator()); bool bFoundEntry = rContentTree.get_iter_first(*xIter); while (bFoundEntry) { void* pUserData = weld::fromId(rContentTree.get_id(*xIter)); assert(dynamic_cast(static_cast(pUserData))); if (nType == static_cast(pUserData)->GetType()) break; bFoundEntry = rContentTree.iter_next_sibling(*xIter); } if (!bFoundEntry) { rContentTree.set_cursor(-1); pThis->UpdateContentFunctionsToolbar(); return; } // assure content type entry is expanded rContentTree.expand_row(*xIter); // find content type content entry and select it const void* p = nullptr; while (rContentTree.iter_next(*xIter) && lcl_IsContent(*xIter, rContentTree)) { void* pUserData = weld::fromId(rContentTree.get_id(*xIter)); switch( nType ) { case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: { assert(dynamic_cast(static_cast(pUserData))); SwTextFootnoteContent* pCnt = static_cast(pUserData); p = pCnt->GetTextFootnote(); break; } case ContentTypeId::URLFIELD: { assert(dynamic_cast(static_cast(pUserData))); SwURLFieldContent* pCnt = static_cast(pUserData); p = static_cast(pCnt->GetINetAttr()); break; } case ContentTypeId::TEXTFIELD: { assert(dynamic_cast(static_cast(pUserData))); SwTextFieldContent* pCnt = static_cast(pUserData); p = pCnt->GetFormatField()->GetField(); break; } case ContentTypeId::POSTIT: { assert(dynamic_cast(static_cast(pUserData))); SwPostItContent* pCnt = static_cast(pUserData); p = pCnt->GetPostIt()->GetField(); break; } default: break; } if (ptr == p) { // get first selected for comparison std::unique_ptr xFirstSelected(rContentTree.make_iterator()); if (!rContentTree.get_selected(xFirstSelected.get())) xFirstSelected.reset(); if (rContentTree.count_selected_rows() != 1 || !xFirstSelected || rContentTree.iter_compare(*xIter, *xFirstSelected) != 0) { // unselect all entries and make passed entry visible and selected rContentTree.set_cursor(*xIter); pThis->UpdateContentFunctionsToolbar(); } return; } } rContentTree.set_cursor(-1); pThis->UpdateContentFunctionsToolbar(); return; } static void lcl_SelectByContentTypeAndName(SwContentTree* pThis, weld::TreeView& rContentTree, std::u16string_view rContentTypeName, std::u16string_view rName) { if (rName.empty()) return; // find content type entry std::unique_ptr xIter(rContentTree.make_iterator()); bool bFoundEntry = rContentTree.get_iter_first(*xIter); while (bFoundEntry && rContentTypeName != rContentTree.get_text(*xIter)) bFoundEntry = rContentTree.iter_next_sibling(*xIter); // find content type content entry and select it if (!bFoundEntry) return; rContentTree.expand_row(*xIter); // assure content type entry is expanded while (rContentTree.iter_next(*xIter) && lcl_IsContent(*xIter, rContentTree)) { if (rName == rContentTree.get_text(*xIter)) { // get first selected for comparison std::unique_ptr xFirstSelected(rContentTree.make_iterator()); if (!rContentTree.get_selected(xFirstSelected.get())) xFirstSelected.reset(); if (rContentTree.count_selected_rows() != 1 || !xFirstSelected || rContentTree.iter_compare(*xIter, *xFirstSelected) != 0) { // unselect all entries and make passed entry visible and selected rContentTree.set_cursor(*xIter); pThis->UpdateContentFunctionsToolbar(); } break; } } } static void lcl_SelectDrawObjectByName(SwContentTree* pThis, weld::TreeView& rContentTree, std::u16string_view rName) { if (rName.empty()) return; // find content type entry std::unique_ptr xIter(rContentTree.make_iterator()); bool bFoundEntry = rContentTree.get_iter_first(*xIter); while (bFoundEntry && SwResId(STR_CONTENT_TYPE_DRAWOBJECT) != rContentTree.get_text(*xIter)) bFoundEntry = rContentTree.iter_next_sibling(*xIter); // find content type content entry and select it if (bFoundEntry) { rContentTree.expand_row(*xIter); // assure content type entry is expanded while (rContentTree.iter_next(*xIter) && lcl_IsContent(*xIter, rContentTree)) { if (rName == rContentTree.get_text(*xIter)) { if (!rContentTree.is_selected(*xIter)) { rContentTree.select(*xIter); rContentTree.scroll_to_row(*xIter); pThis->UpdateContentFunctionsToolbar(); } break; } } } } /** No idle with focus or while dragging */ IMPL_LINK_NOARG(SwContentTree, TimerUpdate, Timer *, void) { // No need to update if content tree is not visible if (!m_xTreeView->is_visible()) return; // No update while focus is not in document. // No update while drag and drop. // Query view because the Navigator is cleared too late. SwView* pView = GetParentWindow()->GetCreateView(); SwWrtShell* pActShell = pView ? pView->GetWrtShellPtr() : nullptr; if(pActShell && pActShell->GetWin() && (pActShell->GetWin()->HasFocus() || m_bDocHasChanged || m_bViewHasChanged) && !IsInDrag() && !pActShell->ActionPend()) { if (m_bDocHasChanged || m_bViewHasChanged) { if (State::CONSTANT == m_eState && !lcl_FindShell(m_pActiveShell)) { SetActiveShell(pActShell); GetParentWindow()->UpdateListBox(); } if (State::ACTIVE == m_eState && pActShell != GetWrtShell()) { SetActiveShell(pActShell); } else if (SolarMutexGuard aGuard; (State::ACTIVE == m_eState || (State::CONSTANT == m_eState && pActShell == GetWrtShell())) && HasContentChanged()) { FindActiveTypeAndRemoveUserData(); Display(true); } } UpdateTracking(); m_bIsIdleClear = false; m_bDocHasChanged = false; m_bViewHasChanged = false; } else if (!pView && State::ACTIVE == m_eState && !m_bIsIdleClear) // this block seems never to be entered { if(m_pActiveShell) { SetActiveShell(nullptr); } clear(); m_bIsIdleClear = true; } } void SwContentTree::UpdateTracking() { if (State::HIDDEN == m_eState || !m_pActiveShell) return; // only when treeview or treeview context menu does not have focus if (m_xTreeView->has_focus() || m_xTreeView->has_child_focus()) return; // m_bIgnoreDocChange is set on delete and outline visibility toggle if (m_bIgnoreDocChange) { m_bIgnoreDocChange = false; return; } // bTrack is used to disallow tracking after jumping to an outline until the outline position // that was jumped to is no longer the current outline position. bool bTrack = true; if (m_nLastGotoContentWasOutlinePos != SwOutlineNodes::npos) { if (m_pActiveShell->GetOutlinePos() == m_nLastGotoContentWasOutlinePos) bTrack = false; else m_nLastGotoContentWasOutlinePos = SwOutlineNodes::npos; } if (bTrack) { // graphic, frame, and ole if (m_pActiveShell->GetSelectionType() & (SelectionType::Graphic | SelectionType::Frame | SelectionType::Ole)) { OUString aContentTypeName; if (m_pActiveShell->GetSelectionType() == SelectionType::Graphic && !(m_bIsRoot && m_nRootType != ContentTypeId::GRAPHIC)) { if (!mTrackContentType[ContentTypeId::GRAPHIC]) return; aContentTypeName = SwResId(STR_CONTENT_TYPE_GRAPHIC); } else if (m_pActiveShell->GetSelectionType() == SelectionType::Frame && !(m_bIsRoot && m_nRootType != ContentTypeId::FRAME)) { if (!mTrackContentType[ContentTypeId::FRAME]) return; aContentTypeName = SwResId(STR_CONTENT_TYPE_FRAME); } else if (m_pActiveShell->GetSelectionType() == SelectionType::Ole && !(m_bIsRoot && m_nRootType != ContentTypeId::OLE)) { if (!mTrackContentType[ContentTypeId::OLE]) return; aContentTypeName = SwResId(STR_CONTENT_TYPE_OLE); } if (!aContentTypeName.isEmpty()) { OUString aName(m_pActiveShell->GetFlyName()); lcl_SelectByContentTypeAndName(this, *m_xTreeView, aContentTypeName, aName); return; } } // drawing if ((m_pActiveShell->GetSelectionType() & (SelectionType::DrawObject | SelectionType::DrawObjectEditMode | SelectionType::DbForm)) && !(m_bIsRoot && m_nRootType != ContentTypeId::DRAWOBJECT)) { if (mTrackContentType[ContentTypeId::DRAWOBJECT]) { // Multiple selection is possible when in root content navigation view so unselect all // selected entries before reselecting. This causes a bit of an annoyance when the treeview // scroll bar is used and focus is in the document by causing the last selected entry to // scroll back into view. if (m_bIsRoot) m_xTreeView->unselect_all(); SdrView* pSdrView = m_pActiveShell->GetDrawView(); if (pSdrView) { for (size_t nIdx(0); nIdx < pSdrView->GetMarkedObjectList().GetMarkCount(); nIdx++) { SdrObject* pSelected = pSdrView->GetMarkedObjectList().GetMark(nIdx)->GetMarkedSdrObj(); OUString aName(pSelected->GetName()); if (!aName.isEmpty()) lcl_SelectDrawObjectByName(this, *m_xTreeView, aName); } } else { // clear treeview selections m_xTreeView->unselect_all(); UpdateContentFunctionsToolbar(); } } return; } // footnotes and endnotes if (SwContentAtPos aContentAtPos(IsAttrAtPos::Ftn); m_pActiveShell->GetContentAtPos(m_pActiveShell->GetCursorDocPos(), aContentAtPos) && aContentAtPos.pFndTextAttr && !(m_bIsRoot && (m_nRootType != ContentTypeId::FOOTNOTE && m_nRootType != ContentTypeId::ENDNOTE))) { if (!aContentAtPos.pFndTextAttr->GetFootnote().IsEndNote()) { if (mTrackContentType[ContentTypeId::FOOTNOTE]) lcl_SelectByContentTypeAndAddress(this, *m_xTreeView, ContentTypeId::FOOTNOTE, aContentAtPos.pFndTextAttr); } else if (mTrackContentType[ContentTypeId::ENDNOTE]) lcl_SelectByContentTypeAndAddress(this, *m_xTreeView, ContentTypeId::ENDNOTE, aContentAtPos.pFndTextAttr); return; } // references if (SwContentAtPos aContentAtPos(IsAttrAtPos::RefMark); m_pActiveShell->GetContentAtPos(m_pActiveShell->GetCursorDocPos(), aContentAtPos) && aContentAtPos.pFndTextAttr && !(m_bIsRoot && m_nRootType != ContentTypeId::REFERENCE)) { if (mTrackContentType[ContentTypeId::REFERENCE]) { const SwFormatRefMark& rRefMark = aContentAtPos.pFndTextAttr->GetRefMark(); lcl_SelectByContentTypeAndName(this, *m_xTreeView, SwResId(STR_CONTENT_TYPE_REFERENCE), rRefMark.GetRefName()); } return; } // hyperlinks // not in ToxContent tdf#148312 if (const SwSection* pSection = m_pActiveShell->GetCurrSection(); !pSection || (pSection && pSection->GetType() != SectionType::ToxContent)) { if (SwContentAtPos aContentAtPos(IsAttrAtPos::InetAttr); m_pActiveShell->GetContentAtPos(m_pActiveShell->GetCursorDocPos(), aContentAtPos) && (!m_bIsRoot || m_nRootType == ContentTypeId::URLFIELD)) { // Because hyperlink item names do not need to be unique, finding the corresponding // item in the tree by name may result in incorrect selection. Find the item in the // tree by comparing the SwTextINetFormat pointer at the document cursor position to // that stored in the item SwURLFieldContent. if (mTrackContentType[ContentTypeId::URLFIELD]) lcl_SelectByContentTypeAndAddress(this, *m_xTreeView, ContentTypeId::URLFIELD, aContentAtPos.pFndTextAttr); return; } } // fields, comments if (SwField* pField = m_pActiveShell->GetCurField(); pField && !(m_bIsRoot && m_nRootType != ContentTypeId::TEXTFIELD && m_nRootType != ContentTypeId::POSTIT)) { ContentTypeId eCntTypeId = pField->GetTypeId() == SwFieldTypesEnum::Postit ? ContentTypeId::POSTIT : ContentTypeId::TEXTFIELD; if (mTrackContentType[eCntTypeId]) lcl_SelectByContentTypeAndAddress(this, *m_xTreeView, eCntTypeId, pField); return; } if (SwPostItMgr* pPostItMgr = m_pActiveShell->GetPostItMgr(); pPostItMgr && pPostItMgr->HasActiveAnnotationWin() && !(m_bIsRoot && m_nRootType != ContentTypeId::POSTIT)) { if (mTrackContentType[ContentTypeId::POSTIT]) { if (const SwField* pField = pPostItMgr->GetActiveSidebarWin()->GetPostItField()) lcl_SelectByContentTypeAndAddress(this, *m_xTreeView, ContentTypeId::POSTIT, pField); } return; } // table if (m_pActiveShell->IsCursorInTable() && !(m_bIsRoot && m_nRootType != ContentTypeId::TABLE)) { if (mTrackContentType[ContentTypeId::TABLE] && m_pActiveShell->GetTableFormat()) { OUString aName = m_pActiveShell->GetTableFormat()->GetName(); lcl_SelectByContentTypeAndName(this, *m_xTreeView, SwResId(STR_CONTENT_TYPE_TABLE), aName); return; } } // indexes if (const SwTOXBase* pTOX = m_pActiveShell->GetCurTOX(); pTOX && !(m_bIsRoot && m_nRootType != ContentTypeId::INDEX)) { if (mTrackContentType[ContentTypeId::INDEX]) lcl_SelectByContentTypeAndName(this, *m_xTreeView, SwResId(STR_CONTENT_TYPE_INDEX), pTOX->GetTOXName()); return; } // section if (const SwSection* pSection = m_pActiveShell->GetCurrSection(); pSection && !(m_bIsRoot && m_nRootType != ContentTypeId::REGION)) { if (mTrackContentType[ContentTypeId::REGION]) { lcl_SelectByContentTypeAndName(this, *m_xTreeView, SwResId(STR_CONTENT_TYPE_REGION), pSection->GetSectionName()); return; } else { // prevent fall through to outline tracking when section tracking is off and the last // GotoContent is the current section if (m_nLastSelType == ContentTypeId::REGION && m_xTreeView->get_selected_text() == pSection->GetSectionName()) return; } // fall through to outline tracking when section tracking is off and the last GotoContent // is not the current section } } // find out where the cursor is const SwOutlineNodes::size_type nActPos = GetWrtShell()->GetOutlinePos(MAXLEVEL); if (m_nOutlineTracking != 3 && !((m_bIsRoot && m_nRootType != ContentTypeId::OUTLINE) || nActPos == SwOutlineNodes::npos)) { // assure outline content type is expanded // this assumes outline content type is first in treeview std::unique_ptr xFirstEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_iter_first(*xFirstEntry)) m_xTreeView->expand_row(*xFirstEntry); m_xTreeView->all_foreach([this, nActPos](weld::TreeIter& rEntry){ bool bRet = false; if (lcl_IsContent(rEntry, *m_xTreeView) && weld::fromId( m_xTreeView->get_id(rEntry))->GetParent()->GetType() == ContentTypeId::OUTLINE) { if (weld::fromId( m_xTreeView->get_id(rEntry))->GetOutlinePos() == nActPos) { std::unique_ptr xFirstSelected( m_xTreeView->make_iterator()); if (!m_xTreeView->get_selected(xFirstSelected.get())) xFirstSelected.reset(); // only select if not already selected or tree has multiple entries selected if (m_xTreeView->count_selected_rows() != 1 || !xFirstSelected || m_xTreeView->iter_compare(rEntry, *xFirstSelected) != 0) { if (m_nOutlineTracking == 2) // focused outline tracking { // collapse to children of root node std::unique_ptr xChildEntry( m_xTreeView->make_iterator()); if (m_xTreeView->get_iter_first(*xChildEntry) && m_xTreeView->iter_children(*xChildEntry)) { do { if (weld::fromId( m_xTreeView->get_id(*xChildEntry))-> GetParent()->GetType() == ContentTypeId::OUTLINE) m_xTreeView->collapse_row(*xChildEntry); else break; } while (m_xTreeView->iter_next(*xChildEntry)); } } // unselect all entries, make pEntry visible, and select m_xTreeView->set_cursor(rEntry); UpdateContentFunctionsToolbar(); // tdf#149279 show at least two outline entries before the set cursor entry std::unique_ptr xIter(m_xTreeView->make_iterator(&rEntry)); for (int i = 0; i < 2; i++) { if (m_xTreeView->get_iter_depth(*xIter) == 0) break; if (!m_xTreeView->iter_previous(*xIter)) break; while (!weld::IsEntryVisible(*m_xTreeView, *xIter)) m_xTreeView->iter_parent(*xIter); } // Assure the scroll to row is collapsed after scrolling if it was collapsed // before. This is required here to make gtkinst scroll_to_row behave like // salinst. const bool bRowExpanded = m_xTreeView->get_row_expanded(*xIter); m_xTreeView->scroll_to_row(*xIter); if (!bRowExpanded) m_xTreeView->collapse_row(*xIter); } bRet = true; } } else { // use of this break assumes outline content type is first in tree if (lcl_IsContentType(rEntry, *m_xTreeView) && weld::fromId( m_xTreeView->get_id(rEntry))->GetType() != ContentTypeId::OUTLINE) bRet = true; } return bRet; }); return; } // bookmarks - track first bookmark at cursor // tdf#159428 Only when no outline found. Showing the outline is more important than // showing a bookmark at the cursor position. if (mTrackContentType[ContentTypeId::BOOKMARK] && (m_pActiveShell->GetSelectionType() & SelectionType::Text)) { SwPaM* pCursor = m_pActiveShell->GetCursor(); IDocumentMarkAccess* const pMarkAccess = m_pActiveShell->getIDocumentMarkAccess(); auto ppBookmark = pMarkAccess->getBookmarksBegin(); if (pCursor && ppBookmark != pMarkAccess->getBookmarksEnd() && !(m_bIsRoot && m_nRootType != ContentTypeId::BOOKMARK)) { OUString sBookmarkName; SwPosition* pCursorPoint = pCursor->GetPoint(); while (ppBookmark != pMarkAccess->getBookmarksEnd()) { if (lcl_IsUiVisibleBookmark(*ppBookmark) && *pCursorPoint >= (*ppBookmark)->GetMarkStart() && *pCursorPoint <= (*ppBookmark)->GetMarkEnd()) { sBookmarkName = (*ppBookmark)->GetName(); // keep previously selected bookmark instead // of selecting a different bookmark inside of it if (sBookmarkName == m_sSelectedItem) break; } else if (!sBookmarkName.isEmpty() && *pCursorPoint < (*ppBookmark)->GetMarkStart()) { // don't search a different bookmark inside the // previous one, if the starting position of the next bookmarks // is after the cursor position (assuming that the // bookmark iterator jumps inside the same text by positions) break; } ++ppBookmark; } if (!sBookmarkName.isEmpty()) { // select the bookmark lcl_SelectByContentTypeAndName(this, *m_xTreeView, SwResId(STR_CONTENT_TYPE_BOOKMARK), sBookmarkName); return; } } } // clear treeview selections if (m_xTreeView->count_selected_rows() > 0) { m_xTreeView->unselect_all(); m_xTreeView->set_cursor(-1); UpdateContentFunctionsToolbar(); } } static bool lcl_IsSelectedCompareByContentTypeAndAddress(const weld::TreeIter& rEntry, weld::TreeView& rContentTree, ContentTypeId eContentType, const void* ptr) { if (!ptr) return false; std::unique_ptr xIter(rContentTree.make_iterator()); // find content type entry bool bFoundEntry = rContentTree.get_iter_first(*xIter); while (bFoundEntry) { assert(dynamic_cast(weld::fromId(rContentTree.get_id(*xIter)))); SwContentType* pContentType = weld::fromId(rContentTree.get_id(*xIter)); if (eContentType == pContentType->GetType()) break; bFoundEntry = rContentTree.iter_next_sibling(*xIter); } if (!bFoundEntry) return false; // find content type content entry and compare it to the passed entry const void* p = nullptr; while (rContentTree.iter_next(*xIter) && lcl_IsContent(*xIter, rContentTree)) { assert(dynamic_cast(weld::fromId(rContentTree.get_id(*xIter)))); SwContent* pContent = weld::fromId(rContentTree.get_id(*xIter)); switch (eContentType) { case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: { assert(dynamic_cast(static_cast(pContent))); SwTextFootnoteContent* pCnt = static_cast(pContent); p = pCnt->GetTextFootnote(); break; } case ContentTypeId::URLFIELD: { assert(dynamic_cast(static_cast(pContent))); SwURLFieldContent* pCnt = static_cast(pContent); p = static_cast(pCnt->GetINetAttr()); break; } case ContentTypeId::TEXTFIELD: { assert(dynamic_cast(static_cast(pContent))); SwTextFieldContent* pCnt = static_cast(pContent); p = pCnt->GetFormatField()->GetField(); break; } case ContentTypeId::POSTIT: { assert(dynamic_cast(static_cast(pContent))); SwPostItContent* pCnt = static_cast(pContent); p = pCnt->GetPostIt()->GetField(); break; } case ContentTypeId::INDEX: { assert(dynamic_cast(static_cast(pContent))); SwTOXBaseContent* pCnt = static_cast(pContent); p = pCnt->GetTOXBase(); break; } default: break; } if (ptr == p) return rContentTree.iter_compare(*xIter, rEntry) == 0; } return false; } static bool lcl_IsSelectedCompareByContentTypeAndName(const weld::TreeIter& rEntry, weld::TreeView& rContentTree, ContentTypeId eContentType, std::u16string_view rName) { std::unique_ptr xIter(rContentTree.make_iterator()); // find content type entry bool bFoundEntry = rContentTree.get_iter_first(*xIter); while (bFoundEntry) { assert(dynamic_cast(weld::fromId(rContentTree.get_id(*xIter)))); SwContentType* pContentType = weld::fromId(rContentTree.get_id(*xIter)); if (eContentType == pContentType->GetType()) break; bFoundEntry = rContentTree.iter_next_sibling(*xIter); } if (!bFoundEntry) return false; // find content type content entry and compare it to the passed entry while (rContentTree.iter_next(*xIter)) { if (rName == rContentTree.get_text(*xIter)) { if (rContentTree.iter_compare(*xIter, rEntry) == 0) return true; } } return false; } bool SwContentTree::IsSelectedEntryCurrentDocCursorPosition(const weld::TreeIter& rEntry) { if (State::HIDDEN == m_eState || !m_pActiveShell) return false; // table if (m_pActiveShell->IsCursorInTable()) { return lcl_IsSelectedCompareByContentTypeAndName( rEntry, *m_xTreeView, ContentTypeId::TABLE, m_pActiveShell->GetTableFormat()->GetName()); } // graphic, frame, and ole if (m_pActiveShell->GetSelectionType() & (SelectionType::Graphic | SelectionType::Frame | SelectionType::Ole)) { ContentTypeId eContentTypeId; if (m_pActiveShell->GetSelectionType() == SelectionType::Graphic) eContentTypeId = ContentTypeId::GRAPHIC; else if (m_pActiveShell->GetSelectionType() == SelectionType::Frame) eContentTypeId = ContentTypeId::FRAME; else if (m_pActiveShell->GetSelectionType() == SelectionType::Ole) eContentTypeId = ContentTypeId::OLE; else // to quiet compiler warning/error return false; return lcl_IsSelectedCompareByContentTypeAndName(rEntry, *m_xTreeView, eContentTypeId, m_pActiveShell->GetFlyName()); } // hyperlinks // not in ToxContent tdf#148312 <- does this apply here? if (const SwSection* pSection = m_pActiveShell->GetCurrSection(); !pSection || (pSection && pSection->GetType() != SectionType::ToxContent)) { if (SwContentAtPos aContentAtPos(IsAttrAtPos::InetAttr); m_pActiveShell->GetContentAtPos(m_pActiveShell->GetCursorDocPos(), aContentAtPos)) { // Because hyperlink item names do not need to be unique, finding the corresponding // item in the tree by name may result in incorrect selection. Find the item in the // tree by comparing the SwTextINetFormat pointer at the document cursor position to // that stored in the item SwURLFieldContent. return lcl_IsSelectedCompareByContentTypeAndAddress( rEntry, *m_xTreeView, ContentTypeId::URLFIELD, aContentAtPos.pFndTextAttr); } } // references if (SwContentAtPos aContentAtPos(IsAttrAtPos::RefMark); m_pActiveShell->GetContentAtPos(m_pActiveShell->GetCursorDocPos(), aContentAtPos) && aContentAtPos.pFndTextAttr) { const SwFormatRefMark& rRefMark = aContentAtPos.pFndTextAttr->GetRefMark(); return lcl_IsSelectedCompareByContentTypeAndName( rEntry, *m_xTreeView, ContentTypeId::REFERENCE, rRefMark.GetRefName()); } // indexes if (const SwTOXBase* pTOXBase = m_pActiveShell->GetCurTOX()) { return lcl_IsSelectedCompareByContentTypeAndAddress(rEntry, *m_xTreeView, ContentTypeId::INDEX, pTOXBase); // alternatively: // return lcl_IsSelectedCompareByContentTypeAndName(rEntry, *m_xTreeView, // ContentTypeId::INDEX, // pTOX->GetTOXName()); } // fields, comments if (SwField* pField = m_pActiveShell->GetCurField()) { ContentTypeId eContentTypeId = pField->GetTypeId() == SwFieldTypesEnum::Postit ? ContentTypeId::POSTIT : ContentTypeId::TEXTFIELD; return lcl_IsSelectedCompareByContentTypeAndAddress(rEntry, *m_xTreeView, eContentTypeId, pField); } // drawing if (m_pActiveShell->GetSelectionType() & (SelectionType::DrawObject | SelectionType::DrawObjectEditMode | SelectionType::DbForm)) { SdrView* pSdrView = m_pActiveShell->GetDrawView(); if (!pSdrView) return false; // ONLY CHECKS FIRST MARKED OBJECT for (size_t nIdx = 0; nIdx < pSdrView->GetMarkedObjectList().GetMarkCount(); nIdx++) { SdrObject* pObject = pSdrView->GetMarkedObjectList().GetMark(nIdx)->GetMarkedSdrObj(); if (lcl_IsSelectedCompareByContentTypeAndName( rEntry, *m_xTreeView, ContentTypeId::DRAWOBJECT, pObject->GetName())) return true; } return false; } // footnotes and endnotes if (SwContentAtPos aContentAtPos(IsAttrAtPos::Ftn); m_pActiveShell->GetContentAtPos(m_pActiveShell->GetCursorDocPos(), aContentAtPos) && aContentAtPos.pFndTextAttr) { ContentTypeId eContentTypeId = aContentAtPos.pFndTextAttr->GetFootnote().IsEndNote() ? ContentTypeId::ENDNOTE : ContentTypeId::FOOTNOTE; return lcl_IsSelectedCompareByContentTypeAndAddress(rEntry, *m_xTreeView, eContentTypeId, aContentAtPos.pFndTextAttr); } // section if (const SwSection* pSection = m_pActiveShell->GetCurrSection()) { return lcl_IsSelectedCompareByContentTypeAndName( rEntry, *m_xTreeView, ContentTypeId::REGION, pSection->GetSectionName()); } // bookmark (unsure about this) if (m_pActiveShell->GetSelectionType() & SelectionType::Text) { SwPaM* pCursor = m_pActiveShell->GetCursor(); IDocumentMarkAccess* const pMarkAccess = m_pActiveShell->getIDocumentMarkAccess(); auto ppBookmark = pMarkAccess->getBookmarksBegin(); if (pCursor && ppBookmark != pMarkAccess->getBookmarksEnd()) { OUString sBookmarkName; SwPosition* pCursorPoint = pCursor->GetPoint(); while (ppBookmark != pMarkAccess->getBookmarksEnd()) { if (lcl_IsUiVisibleBookmark(*ppBookmark) && *pCursorPoint >= (*ppBookmark)->GetMarkStart() && *pCursorPoint <= (*ppBookmark)->GetMarkEnd()) { sBookmarkName = (*ppBookmark)->GetName(); // keep previously selected bookmark instead // of selecting a different bookmark inside of it if (sBookmarkName == m_sSelectedItem) return lcl_IsSelectedCompareByContentTypeAndName( rEntry, *m_xTreeView, ContentTypeId::BOOKMARK, sBookmarkName); } else if (!sBookmarkName.isEmpty() && *pCursorPoint < (*ppBookmark)->GetMarkStart()) { // don't search a different bookmark inside the // previous one, if the starting position of the next bookmarks // is after the cursor position (assuming that the // bookmark iterator jumps inside the same text by positions) return lcl_IsSelectedCompareByContentTypeAndName( rEntry, *m_xTreeView, ContentTypeId::BOOKMARK, sBookmarkName); } ++ppBookmark; } } } return false; } void SwContentTree::SelectOutlinesWithSelection() { SwCursor* pFirstCursor = m_pActiveShell->GetCursor(); SwCursor* pCursor = pFirstCursor; std::vector aOutlinePositions; do { if (pCursor) { if (pCursor->HasMark()) { aOutlinePositions.push_back(m_pActiveShell->GetOutlinePos(UCHAR_MAX, pCursor)); } pCursor = pCursor->GetNext(); } } while (pCursor && pCursor != pFirstCursor); if (aOutlinePositions.empty()) return; // remove duplicates before selecting aOutlinePositions.erase(std::unique(aOutlinePositions.begin(), aOutlinePositions.end()), aOutlinePositions.end()); m_xTreeView->unselect_all(); for (auto nOutlinePosition : aOutlinePositions) { m_xTreeView->all_foreach([this, nOutlinePosition](const weld::TreeIter& rEntry){ if (lcl_IsContent(rEntry, *m_xTreeView) && weld::fromId( m_xTreeView->get_id(rEntry))->GetParent()->GetType() == ContentTypeId::OUTLINE) { if (weld::fromId( m_xTreeView->get_id(rEntry))->GetOutlinePos() == nOutlinePosition) { std::unique_ptr xParent = m_xTreeView->make_iterator(&rEntry); if (m_xTreeView->iter_parent(*xParent) && !m_xTreeView->get_row_expanded(*xParent)) m_xTreeView->expand_row(*xParent); m_xTreeView->select(rEntry); return true; } } return false; }); } UpdateContentFunctionsToolbar(); } void SwContentTree::MoveOutline(SwOutlineNodes::size_type nTargetPos) { MakeAllOutlineContentTemporarilyVisible a(GetWrtShell()->GetDoc()); SwWrtShell *const pShell = GetWrtShell(); pShell->StartAllAction(); pShell->StartUndo(SwUndoId::OUTLINE_UD); SwOutlineNodes::size_type nPrevSourcePos = SwOutlineNodes::npos; SwOutlineNodes::size_type nPrevTargetPosOrOffset = SwOutlineNodes::npos; bool bFirstMove = true; for (const SwOutlineNodes::size_type& nPos : m_aDndOutlinesSelected) { SwOutlineNodes::size_type nSourcePos = nPos; // Done on the first selection move if (bFirstMove) // only do once { if (nTargetPos == SwOutlineNodes::npos || nSourcePos > nTargetPos) { // Up moves // The first up move sets the up move amount for the remaining selected outlines to be moved if (nTargetPos != SwOutlineNodes::npos) nPrevTargetPosOrOffset = nSourcePos - nTargetPos; else nPrevTargetPosOrOffset = nSourcePos + 1; } else if (nSourcePos < nTargetPos) { // Down moves // The first down move sets the source and target positions for the remaining selected outlines to be moved nPrevSourcePos = nSourcePos; nPrevTargetPosOrOffset = nTargetPos; } bFirstMove = false; } else { if (nTargetPos == SwOutlineNodes::npos || nSourcePos > nTargetPos) { // Move up nTargetPos = nSourcePos - nPrevTargetPosOrOffset; } else if (nSourcePos < nTargetPos) { // Move down nSourcePos = nPrevSourcePos; nTargetPos = nPrevTargetPosOrOffset; } } GetParentWindow()->MoveOutline(nSourcePos, nTargetPos); } pShell->EndUndo(); pShell->EndAllAction(); m_aActiveContentArr[ContentTypeId::OUTLINE]->Invalidate(); Display(true); m_aDndOutlinesSelected.clear(); } // Update immediately IMPL_LINK_NOARG(SwContentTree, FocusInHdl, weld::Widget&, void) { SwView* pActView = GetParentWindow()->GetCreateView(); if(pActView) { SwWrtShell* pActShell = pActView->GetWrtShellPtr(); if (State::CONSTANT == m_eState && !lcl_FindShell(m_pActiveShell)) { SetActiveShell(pActShell); } if (State::ACTIVE == m_eState && pActShell != GetWrtShell()) SetActiveShell(pActShell); // Only call HasContentChanged() if the document has changed since last called else if ((State::ACTIVE == m_eState || (State::CONSTANT == m_eState && pActShell == GetWrtShell())) && m_bDocHasChanged) { if (HasContentChanged()) Display(true); m_bDocHasChanged = false; } } else if (State::ACTIVE == m_eState) clear(); } IMPL_LINK(SwContentTree, KeyInputHdl, const KeyEvent&, rEvent, bool) { bool bConsumed = true; const vcl::KeyCode aCode = rEvent.GetKeyCode(); if (aCode.GetCode() == KEY_MULTIPLY && aCode.IsMod1()) { std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_selected(xEntry.get())) ExpandOrCollapseAll(*m_xTreeView, *xEntry); } else if (aCode.GetCode() == KEY_RETURN) { std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_selected(xEntry.get())) { switch(aCode.GetModifier()) { case KEY_MOD2: // Switch boxes GetParentWindow()->ToggleTree(); break; case KEY_MOD1: // Switch RootMode ToggleToRoot(); break; case 0: if (lcl_IsContentType(*xEntry, *m_xTreeView)) { m_xTreeView->get_row_expanded(*xEntry) ? m_xTreeView->collapse_row(*xEntry) : m_xTreeView->expand_row(*xEntry); } else ContentDoubleClickHdl(*m_xTreeView); break; case KEY_SHIFT: m_bSelectTo = true; ContentDoubleClickHdl(*m_xTreeView); break; } } } else if(aCode.GetCode() == KEY_DELETE && 0 == aCode.GetModifier()) { std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (!m_pActiveShell->GetView().GetDocShell()->IsReadOnly() && m_xTreeView->get_selected(xEntry.get())) { if (lcl_IsContent(*xEntry, *m_xTreeView)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry)))); if (weld::fromId(m_xTreeView->get_id(*xEntry))->GetParent()->IsDeletable()) { EditEntry(*xEntry, EditEntryMode::DELETE); } } else { SwContentType* pContentType = weld::fromId(m_xTreeView->get_id(*xEntry)); if (pContentType->GetMemberCount() && (pContentType->GetType() == ContentTypeId::FOOTNOTE || pContentType->GetType() == ContentTypeId::ENDNOTE)) { DeleteAllContentOfEntryContentType(*xEntry); } } } } //Make KEY_SPACE has same function as DoubleClick, and realize //multi-selection. else if (aCode.GetCode() == KEY_SPACE && 0 == aCode.GetModifier()) { std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_cursor(xEntry.get())) { if (State::HIDDEN != m_eState) { if (State::CONSTANT == m_eState) { m_pActiveShell->GetView().GetViewFrame().GetWindow().ToTop(); } SwContent* pCnt = dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry))); if (pCnt && pCnt->GetParent()->GetType() == ContentTypeId::DRAWOBJECT) { SdrView* pDrawView = m_pActiveShell->GetDrawView(); if (pDrawView) { pDrawView->SdrEndTextEdit(); SwDrawModel* pDrawModel = m_pActiveShell->GetDoc()->getIDocumentDrawModelAccess().GetDrawModel(); SdrPage* pPage = pDrawModel->GetPage(0); bool hasObjectMarked = false; if (SdrObject* pObject = GetDrawingObjectsByContent(pCnt)) { SdrPageView* pPV = pDrawView->GetSdrPageView/*GetPageViewPvNum*/(/*0*/); if( pPV ) { bool bUnMark = pDrawView->IsObjMarked(pObject); pDrawView->MarkObj( pObject, pPV, bUnMark); } } for (const rtl::Reference& pTemp : *pPage) { bool bMark = pDrawView->IsObjMarked(pTemp.get()); switch( pTemp->GetObjIdentifier() ) { case SdrObjKind::Group: case SdrObjKind::Text: case SdrObjKind::Line: case SdrObjKind::Rectangle: case SdrObjKind::CircleOrEllipse: case SdrObjKind::CircleSection: case SdrObjKind::CircleArc: case SdrObjKind::CircleCut: case SdrObjKind::Polygon: case SdrObjKind::PolyLine: case SdrObjKind::PathLine: case SdrObjKind::PathFill: case SdrObjKind::FreehandLine: case SdrObjKind::FreehandFill: case SdrObjKind::PathPoly: case SdrObjKind::PathPolyLine: case SdrObjKind::Caption: case SdrObjKind::CustomShape: if( bMark ) hasObjectMarked = true; break; default: if ( bMark ) { SdrPageView* pPV = pDrawView->GetSdrPageView/*GetPageViewPvNum*/(/*0*/); if (pPV) { pDrawView->MarkObj(pTemp.get(), pPV, true); } } } //mod end } if ( !hasObjectMarked ) { SwEditWin& rEditWindow = m_pActiveShell->GetView().GetEditWin(); vcl::KeyCode tempKeycode( KEY_ESCAPE ); KeyEvent rKEvt( 0 , tempKeycode ); static_cast(&rEditWindow)->KeyInput( rKEvt ); } } } m_bViewHasChanged = true; } } } else { std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (m_xTreeView->get_cursor(xEntry.get())) { SwContent* pCnt = dynamic_cast(weld::fromId(m_xTreeView->get_id(*xEntry))); if (pCnt && pCnt->GetParent()->GetType() == ContentTypeId::OUTLINE) { if (m_bIsRoot && aCode.GetCode() == KEY_LEFT && aCode.GetModifier() == 0) { m_xTreeView->unselect_all(); bConsumed = false; } else if (aCode.IsMod1()) { if (aCode.GetCode() == KEY_LEFT) ExecCommand(u"promote", !aCode.IsShift()); else if (aCode.GetCode() == KEY_RIGHT) ExecCommand(u"demote", !aCode.IsShift()); else if (aCode.GetCode() == KEY_UP) ExecCommand(u"chapterup", !aCode.IsShift()); else if (aCode.GetCode() == KEY_DOWN) ExecCommand(u"chapterdown", !aCode.IsShift()); else if (aCode.GetCode() == KEY_C) CopyOutlineSelections(); else bConsumed = false; } else bConsumed = false; } else bConsumed = false; } else bConsumed = false; } return bConsumed; } IMPL_LINK(SwContentTree, QueryTooltipHdl, const weld::TreeIter&, rEntry, OUString) { // Prevent tool tip handling when handling document change. The entry that was present when // the tooltip signal was fired might no longer be valid by the time it gets here. For example, // when the mouse pointer is on an entry in the tree that is deleted in the document by an // undo/redo. Please see similar note in MouseMoveHdl. if (m_bDocHasChanged) return OUString(); ContentTypeId nType; bool bContent = false; void* pUserData = weld::fromId(m_xTreeView->get_id(rEntry)); if (lcl_IsContentType(rEntry, *m_xTreeView)) { assert(dynamic_cast(static_cast(pUserData))); nType = static_cast(pUserData)->GetType(); } else { assert(dynamic_cast(static_cast(pUserData))); nType = static_cast(pUserData)->GetParent()->GetType(); bContent = true; } OUString sEntry; if(bContent) { switch( nType ) { case ContentTypeId::URLFIELD: assert(dynamic_cast(static_cast(pUserData))); sEntry = static_cast(pUserData)->GetURL(); break; case ContentTypeId::POSTIT: assert(dynamic_cast(static_cast(pUserData))); sEntry = static_cast(pUserData)->GetName(); break; case ContentTypeId::OUTLINE: { assert(dynamic_cast(static_cast(pUserData))); SwOutlineContent* pOutlineContent = static_cast(pUserData); SwOutlineNodes::size_type nOutlinePos = pOutlineContent->GetOutlinePos(); const SwNodes& rNodes = m_pActiveShell->GetDoc()->GetNodes(); const SwOutlineNodes& rOutlineNodes = rNodes.GetOutLineNds(); SwNode* pStartNode = rOutlineNodes[nOutlinePos]; SwNode* pEndNode = &rNodes.GetEndOfContent(); if (nOutlinePos + 1 < rOutlineNodes.size()) pEndNode = rOutlineNodes[nOutlinePos + 1]; SwPaM aPaM(*pStartNode, *pEndNode); SwDocStat aDocStat; SwDoc::CountWords(aPaM, aDocStat); sEntry = pOutlineContent->GetName() + "\n" + SwResId(FLD_STAT_WORD) + ": " + OUString::number(aDocStat.nWord) + "\n" + SwResId(FLD_STAT_CHAR) + ": " + OUString::number(aDocStat.nChar); } break; case ContentTypeId::GRAPHIC: assert(dynamic_cast(static_cast(pUserData))); sEntry = static_cast(pUserData)->GetLink(); break; case ContentTypeId::REGION: { assert(dynamic_cast(static_cast(pUserData))); sEntry = static_cast(pUserData)->GetName(); const SwSectionFormats& rFormats = GetWrtShell()->GetDoc()->GetSections(); for (SwSectionFormats::size_type n = rFormats.size(); n;) { const SwNodeIndex* pIdx = nullptr; const SwSectionFormat* pFormat = rFormats[--n]; const SwSection* pSect; if (nullptr != (pSect = pFormat->GetSection()) && pSect->GetSectionName() == sEntry && nullptr != (pIdx = pFormat->GetContent().GetContentIdx()) && pIdx->GetNode().GetNodes().IsDocNodes()) { SwDocStat aDocStat; SwPaM aPaM(pIdx->GetNode(), *pIdx->GetNode().EndOfSectionNode()); SwDoc::CountWords(aPaM, aDocStat); sEntry = SwResId(STR_REGION_DEFNAME) + ": " + sEntry + "\n" + SwResId(FLD_STAT_WORD) + ": " + OUString::number(aDocStat.nWord) + "\n" + SwResId(FLD_STAT_CHAR) + ": " + OUString::number(aDocStat.nChar); break; } } } break; case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: { assert(dynamic_cast(static_cast(pUserData))); const SwTextFootnote* pFootnote = static_cast(pUserData)->GetTextFootnote(); sEntry = pFootnote->GetFootnote().IsEndNote() ? SwResId(STR_CONTENT_ENDNOTE) : SwResId(STR_CONTENT_FOOTNOTE); } break; default: break; } if(static_cast(pUserData)->IsInvisible()) { if(!sEntry.isEmpty()) sEntry += ", "; sEntry += m_sInvisible; } } else { size_t nMemberCount = static_cast(pUserData)->GetMemberCount(); sEntry = OUString::number(nMemberCount) + " " + (nMemberCount == 1 ? static_cast(pUserData)->GetSingleName() : static_cast(pUserData)->GetName()); } return sEntry; } void SwContentTree::ExecuteContextMenuAction(const OUString& rSelectedPopupEntry) { if (rSelectedPopupEntry == "makeallfootnotesendnotes" || rSelectedPopupEntry == "makeallendnotesfootnotes") { std::unique_ptr xEntryIter(m_xTreeView->make_iterator()); if (!m_xTreeView->get_selected(xEntryIter.get())) return; // this shouldn't happen SwContentType* pContentType = weld::fromId(m_xTreeView->get_id(*xEntryIter)); m_pActiveShell->StartUndo(rSelectedPopupEntry == "makeallfootnotesendnotes" ? SwUndoId::MAKE_FOOTNOTES_ENDNOTES : SwUndoId::MAKE_ENDNOTES_FOOTNOTES); lcl_SelectAllFootnotesOrEndnotes(*m_pActiveShell, pContentType); SwFormatFootnote aNote(rSelectedPopupEntry == "makeallfootnotesendnotes"); m_pActiveShell->SetCurFootnote(aNote); m_pActiveShell->EndUndo(); return; } if (rSelectedPopupEntry == "copy") { CopyOutlineSelections(); return; } if (rSelectedPopupEntry == "collapseallcategories") { std::unique_ptr xEntry = m_xTreeView->make_iterator(); bool bEntry = m_xTreeView->get_iter_first(*xEntry); while (bEntry) { m_xTreeView->collapse_row(*xEntry); bEntry = m_xTreeView->iter_next_sibling(*xEntry); } return; } { std::map mPopupEntryToContentTypeId { {"tabletracking", ContentTypeId::TABLE}, {"frametracking", ContentTypeId::FRAME}, {"imagetracking", ContentTypeId::GRAPHIC}, {"oleobjecttracking", ContentTypeId::OLE}, {"bookmarktracking", ContentTypeId::BOOKMARK}, {"sectiontracking", ContentTypeId::REGION}, {"hyperlinktracking", ContentTypeId::URLFIELD}, {"referencetracking", ContentTypeId::REFERENCE}, {"indextracking", ContentTypeId::INDEX}, {"commenttracking", ContentTypeId::POSTIT}, {"drawingobjecttracking", ContentTypeId::DRAWOBJECT}, {"fieldtracking", ContentTypeId::TEXTFIELD}, {"footnotetracking", ContentTypeId::FOOTNOTE}, {"endnotetracking", ContentTypeId::ENDNOTE} }; if (mPopupEntryToContentTypeId.count(rSelectedPopupEntry)) { ContentTypeId eCntTypeId = mPopupEntryToContentTypeId[rSelectedPopupEntry]; SetContentTypeTracking(eCntTypeId, !mTrackContentType[eCntTypeId]); return; } } std::unique_ptr xFirst(m_xTreeView->make_iterator()); if (!m_xTreeView->get_selected(xFirst.get())) return; // this shouldn't happen, but better to be safe than ... if (rSelectedPopupEntry == "deletealltables" || rSelectedPopupEntry == "deleteallframes" || rSelectedPopupEntry == "deleteallimages" || rSelectedPopupEntry == "deletealloleobjects" || rSelectedPopupEntry == "deleteallbookmarks" || rSelectedPopupEntry == "deleteallregions" || rSelectedPopupEntry == "deleteallhyperlinks" || rSelectedPopupEntry == "deleteallreferences" || rSelectedPopupEntry == "deleteallindexes" || rSelectedPopupEntry == "deleteallcomments" || rSelectedPopupEntry == "deletealldrawingobjects" || rSelectedPopupEntry == "deleteallfields" || rSelectedPopupEntry == "deleteallfootnotes" || rSelectedPopupEntry == "deleteallendnotes") { DeleteAllContentOfEntryContentType(*xFirst); return; } if (rSelectedPopupEntry == "protectsection" || rSelectedPopupEntry == "hidesection") { SwRegionContent* pCnt = weld::fromId(m_xTreeView->get_id(*xFirst)); assert(dynamic_cast(static_cast(pCnt))); const SwSectionFormat* pSectionFormat = pCnt->GetSectionFormat(); SwSection* pSection = pSectionFormat->GetSection(); SwSectionData aSectionData(*pSection); if (rSelectedPopupEntry == "protectsection") aSectionData.SetProtectFlag(!pSection->IsProtect()); else aSectionData.SetHidden(!pSection->IsHidden()); m_pActiveShell->UpdateSection(m_pActiveShell->GetSectionFormatPos(*pSectionFormat), aSectionData); } else if (rSelectedPopupEntry == "sort") { SwContentType* pCntType; const OUString aId(m_xTreeView->get_id(*xFirst)); if (lcl_IsContentType(*xFirst, *m_xTreeView)) pCntType = weld::fromId(aId); else pCntType = const_cast(weld::fromId(aId)->GetParent()); // toggle and persist alphabetical sort setting // 1. Get the position of the bit in the block where the value of the alphabetical sort // setting is persistently stored for the content type. const int nShift = static_cast(pCntType->GetType()); assert(nShift > -1); // 2. Create a bit mask to use to filter the sort value from the persistent block. const sal_Int32 nMask = 1 << nShift; // 3. Toggle the persistent sort value only when it is different than the instance sort // value. These may already be the same if both the floating and sidebar version of the // Navigator are open. const sal_Int32 nBlock = m_pConfig->GetSortAlphabeticallyBlock(); bool bConfigSortValue = ~nBlock & nMask; bool bInstanceSortValue = pCntType->IsAlphabeticSort(); if (bConfigSortValue != bInstanceSortValue) m_pConfig->SetSortAlphabeticallyBlock(nBlock ^ nMask); // 4. Always toggle the instance value. pCntType->SetAlphabeticSort(!bInstanceSortValue); pCntType->FillMemberList(); Display(true); return; } else if (rSelectedPopupEntry == "deletechapter" || rSelectedPopupEntry == "deletetable" || rSelectedPopupEntry == "deleteframe" || rSelectedPopupEntry == "deleteimage" || rSelectedPopupEntry == "deleteoleobject" || rSelectedPopupEntry == "deletebookmark" || rSelectedPopupEntry == "deleteregion" || rSelectedPopupEntry == "deletehyperlink" || rSelectedPopupEntry == "deletereference" || rSelectedPopupEntry == "deleteindex" || rSelectedPopupEntry == "deletecomment" || rSelectedPopupEntry == "deletedrawingobject" || rSelectedPopupEntry == "deletefield" || rSelectedPopupEntry == "deletefootnote" || rSelectedPopupEntry == "deleteendnote") { EditEntry(*xFirst, EditEntryMode::DELETE); return; } auto nSelectedPopupEntry = rSelectedPopupEntry.toUInt32(); switch (nSelectedPopupEntry) { case TOGGLE_OUTLINE_CONTENT_VISIBILITY: case HIDE_OUTLINE_CONTENT_VISIBILITY: case SHOW_OUTLINE_CONTENT_VISIBILITY: { m_pActiveShell->EnterStdMode(); m_bIgnoreDocChange = true; SwOutlineContent* pCntFirst = weld::fromId(m_xTreeView->get_id(*xFirst)); // toggle the outline node outline content visible attribute if (nSelectedPopupEntry == TOGGLE_OUTLINE_CONTENT_VISIBILITY) { SwNode* pNode = m_pActiveShell->GetDoc()->GetNodes().GetOutLineNds()[pCntFirst->GetOutlinePos()]; pNode->GetTextNode()->SetAttrOutlineContentVisible( !m_pActiveShell->GetAttrOutlineContentVisible(pCntFirst->GetOutlinePos())); } else { // with subs SwOutlineNodes::size_type nPos = pCntFirst->GetOutlinePos(); if (lcl_IsContentType(*xFirst, *m_xTreeView)) // Headings root entry nPos = SwOutlineNodes::npos; SwOutlineNodes::size_type nOutlineNodesCount = m_pActiveShell->getIDocumentOutlineNodesAccess()->getOutlineNodesCount(); int nLevel = -1; if (nPos != SwOutlineNodes::npos) // not root nLevel = m_pActiveShell->getIDocumentOutlineNodesAccess()->getOutlineLevel(nPos); else nPos = 0; bool bShow(nSelectedPopupEntry == SHOW_OUTLINE_CONTENT_VISIBILITY); do { if (m_pActiveShell->IsOutlineContentVisible(nPos) != bShow) m_pActiveShell->GetDoc()->GetNodes().GetOutLineNds()[nPos]->GetTextNode()->SetAttrOutlineContentVisible(bShow); } while (++nPos < nOutlineNodesCount && (nLevel == -1 || m_pActiveShell->getIDocumentOutlineNodesAccess()->getOutlineLevel(nPos) > nLevel)); } m_pActiveShell->InvalidateOutlineContentVisibility(); // show in the document what was toggled if (lcl_IsContentType(*xFirst, *m_xTreeView)) // Headings root entry m_pActiveShell->GotoPage(1, true); else m_pActiveShell->GotoOutline(pCntFirst->GetOutlinePos()); grab_focus(); m_bIgnoreDocChange = false; m_pActiveShell->SetModified(); m_pActiveShell->GetDoc()->GetDocShell()->Broadcast(SfxHint(SfxHintId::DocChanged)); } break; case 11: case 12: case 13: nSelectedPopupEntry -= 10; if(m_nOutlineTracking != nSelectedPopupEntry) SetOutlineTracking(static_cast(nSelectedPopupEntry)); break; //Outlinelevel case 101: case 102: case 103: case 104: case 105: case 106: case 107: case 108: case 109: case 110: nSelectedPopupEntry -= 100; if(m_nOutlineLevel != nSelectedPopupEntry ) SetOutlineLevel(static_cast(nSelectedPopupEntry)); break; case 402: EditEntry(*xFirst, EditEntryMode::UPD_IDX); break; // Edit entry case 403: EditEntry(*xFirst, EditEntryMode::EDIT); break; case 404: EditEntry(*xFirst, EditEntryMode::UNPROTECT_TABLE); break; case 405 : { const SwTOXBase* pBase = weld::fromId(m_xTreeView->get_id(*xFirst)) ->GetTOXBase(); m_pActiveShell->SetTOXBaseReadonly(*pBase, !SwEditShell::IsTOXBaseReadonly(*pBase)); } break; case 502 : EditEntry(*xFirst, EditEntryMode::RENAME); break; case 700: { m_pActiveShell->GetView().GetViewFrame().GetDispatcher()->Execute(FN_OUTLINE_TO_CLIPBOARD); break; } case 800: ExpandOrCollapseAll(*m_xTreeView, *xFirst); break; case 801: ExecCommand(u"chapterup", true); break; case 802: ExecCommand(u"chapterdown", true); break; case 803: ExecCommand(u"promote", true); break; case 804: ExecCommand(u"demote", true); break; case 805: // select document content { m_pActiveShell->KillPams(); m_pActiveShell->ClearMark(); m_pActiveShell->EnterAddMode(); SwContent* pCnt = weld::fromId(m_xTreeView->get_id(*xFirst)); const ContentTypeId eTypeId = pCnt->GetParent()->GetType(); if (eTypeId == ContentTypeId::OUTLINE) { SwOutlineNodes::size_type nActPos = weld::fromId( m_xTreeView->get_id(*xFirst))->GetOutlinePos(); m_pActiveShell->GotoOutline(nActPos); m_xTreeView->selected_foreach([this](weld::TreeIter& rEntry){ SwOutlineNodes::size_type nPos = weld::fromId( m_xTreeView->get_id(rEntry))->GetOutlinePos(); m_pActiveShell->SttSelect(); // select children if not expanded and don't kill PaMs m_pActiveShell->MakeOutlineSel(nPos, nPos, !m_xTreeView->get_row_expanded(rEntry), false); m_pActiveShell->EndSelect(); return false; }); } else if (eTypeId == ContentTypeId::TABLE) { m_pActiveShell->GotoTable(pCnt->GetName()); m_pActiveShell->GetView().GetViewFrame().GetDispatcher()->Execute(FN_TABLE_SELECT_ALL); } else if (eTypeId == ContentTypeId::REGION) { m_pActiveShell->EnterStdMode(); m_pActiveShell->GotoRegion(pCnt->GetName()); GotoCurrRegionAndSkip(m_pActiveShell->GetCurrentShellCursor(), fnRegionEnd, m_pActiveShell->IsReadOnlyAvailable()); m_pActiveShell->SttSelect(); GotoCurrRegionAndSkip(m_pActiveShell->GetCurrentShellCursor(), fnRegionStart, m_pActiveShell->IsReadOnlyAvailable()); m_pActiveShell->EndSelect(); m_pActiveShell->UpdateCursor(); } m_pActiveShell->LeaveAddMode(); } break; case 900: { SwContent* pCnt = weld::fromId(m_xTreeView->get_id(*xFirst)); GotoContent(pCnt); } break; //Display default: if(nSelectedPopupEntry > 300 && nSelectedPopupEntry < 400) { nSelectedPopupEntry -= 300; SwView *pView = SwModule::GetFirstView(); while (pView) { nSelectedPopupEntry --; if(nSelectedPopupEntry == 0) { SetConstantShell(&pView->GetWrtShell()); break; } pView = SwModule::GetNextView(pView); } if(nSelectedPopupEntry) { m_bViewHasChanged = nSelectedPopupEntry == 1; m_eState = (nSelectedPopupEntry == 1) ? State::ACTIVE : State::HIDDEN; Display(nSelectedPopupEntry == 1); } GetParentWindow()->UpdateListBox(); } } } void SwContentTree::DeleteOutlineSelections() { const SwOutlineNodes& rOutlineNodes = m_pActiveShell->GetNodes().GetOutLineNds(); auto nChapters(0); m_pActiveShell->StartAction(); m_pActiveShell->EnterAddMode(); m_xTreeView->selected_foreach([this, &rOutlineNodes, &nChapters](weld::TreeIter& rEntry){ ++nChapters; if (m_xTreeView->iter_has_child(rEntry) && !m_xTreeView->get_row_expanded(rEntry)) // only count children if not expanded { nChapters += m_xTreeView->iter_n_children(rEntry); } SwOutlineNodes::size_type nActPos = weld::fromId(m_xTreeView->get_id(rEntry))->GetOutlinePos(); if (m_pActiveShell->GetViewOptions()->IsShowOutlineContentVisibilityButton()) { // make folded content visible so it can be selected if (!m_pActiveShell->IsOutlineContentVisible(nActPos)) m_pActiveShell->MakeOutlineContentVisible(nActPos); if (!m_xTreeView->get_row_expanded(rEntry)) { // include children SwNode* pNode = rOutlineNodes[nActPos]; const int nLevel = pNode->GetTextNode()->GetAttrOutlineLevel() - 1; for (auto nPos = nActPos + 1; nPos < rOutlineNodes.size(); ++nPos) { pNode = rOutlineNodes[nPos]; const int nNextLevel = pNode->GetTextNode()->GetAttrOutlineLevel() - 1; if (nNextLevel <= nLevel) break; if (!m_pActiveShell->IsOutlineContentVisible(nNextLevel)) m_pActiveShell->MakeOutlineContentVisible(nNextLevel); } } } m_pActiveShell->SttSelect(); m_pActiveShell->MakeOutlineSel(nActPos, nActPos, !m_xTreeView->get_row_expanded(rEntry), false); // select children if not expanded // The outline selection may already be to the start of the following outline paragraph // as happens when a table is the last content of the to be deleted outline. In this case // do not extend the to be deleted selection right or the first character of the following // outline paragraph will be removed. Also check if no selection was made which indicates // an empty paragraph and selection right is needed. if (!m_pActiveShell->IsSttPara() || !m_pActiveShell->HasSelection()) m_pActiveShell->Right(SwCursorSkipMode::Chars, true, 1, false); m_pActiveShell->EndSelect(); return false; }); m_pActiveShell->LeaveAddMode(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, SwResId(STR_CHAPTERS, nChapters)); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); m_pActiveShell->Delete(false); m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } void SwContentTree::SetOutlineLevel(sal_uInt8 nSet) { if (nSet == m_nOutlineLevel) return; m_nOutlineLevel = nSet; m_pConfig->SetOutlineLevel( m_nOutlineLevel ); std::unique_ptr& rpContentT = (State::ACTIVE == m_eState) ? m_aActiveContentArr[ContentTypeId::OUTLINE] : m_aHiddenContentArr[ContentTypeId::OUTLINE]; if(rpContentT) { rpContentT->SetOutlineLevel(m_nOutlineLevel); rpContentT->FillMemberList(); } Display(State::ACTIVE == m_eState); } void SwContentTree::SetOutlineTracking(sal_uInt8 nSet) { m_nOutlineTracking = nSet; m_pConfig->SetOutlineTracking(m_nOutlineTracking); } void SwContentTree::SetContentTypeTracking(ContentTypeId eCntTypeId, bool bSet) { mTrackContentType[eCntTypeId] = bSet; m_pConfig->SetContentTypeTrack(eCntTypeId, bSet); } // Mode Change: Show dropped Doc void SwContentTree::ShowHiddenShell() { if(m_pHiddenShell) { m_eState = State::HIDDEN; Display(false); } } // Mode Change: Show active view // only called from IMPL_LINK(SwNavigationPI, DocListBoxSelectHdl, weld::ComboBox&, rBox, void) void SwContentTree::ShowActualView() { if (SwView* pView = m_pDialog->GetCreateView()) { SetConstantShell(pView->GetWrtShellPtr()); m_pDialog->UpdateListBox(); } } IMPL_LINK_NOARG(SwContentTree, SelectHdl, weld::TreeView&, void) { if (m_pConfig->IsNavigateOnSelect()) { ContentDoubleClickHdl(*m_xTreeView); grab_focus(); } UpdateContentFunctionsToolbar(); if (m_bIsRoot) return; // Select the content type in the Navigate By control std::unique_ptr xEntry(m_xTreeView->make_iterator()); if (!m_xTreeView->get_selected(xEntry.get())) return; while (m_xTreeView->get_iter_depth(*xEntry)) m_xTreeView->iter_parent(*xEntry); m_pDialog->SelectNavigateByContentType(m_xTreeView->get_text(*xEntry)); } void SwContentTree::UpdateContentFunctionsToolbar() { SwNavigationPI* pNavi = GetParentWindow(); if (pNavi) pNavi->UpdateContentFunctionsToolbar(); } void SwContentTree::SetRootType(ContentTypeId nType) { m_nRootType = nType; m_bIsRoot = true; m_pConfig->SetRootType( m_nRootType ); } OUString SwContentType::RemoveNewline(const OUString& rEntry) { if (rEntry.isEmpty()) return rEntry; OUStringBuffer aEntry(rEntry); for (sal_Int32 i = 0; i < rEntry.getLength(); ++i) if(aEntry[i] == 10 || aEntry[i] == 13) aEntry[i] = 0x20; return aEntry.makeStringAndClear(); } void SwContentTree::EditEntry(const weld::TreeIter& rEntry, EditEntryMode nMode) { SwContent* pCnt = weld::fromId(m_xTreeView->get_id(rEntry)); GotoContent(pCnt); const ContentTypeId nType = pCnt->GetParent()->GetType(); sal_uInt16 nSlot = 0; if(EditEntryMode::DELETE == nMode) m_bIgnoreDocChange = true; uno::Reference< container::XNameAccess > xNameAccess, xSecond, xThird; switch(nType) { case ContentTypeId::OUTLINE : if(nMode == EditEntryMode::DELETE) { DeleteOutlineSelections(); } break; case ContentTypeId::TABLE : if(nMode == EditEntryMode::UNPROTECT_TABLE) { m_pActiveShell->GetView().GetDocShell()-> GetDoc()->UnProtectCells( pCnt->GetName()); } else if(nMode == EditEntryMode::DELETE) { nSlot = FN_TABLE_DELETE_TABLE; } else if(nMode == EditEntryMode::RENAME) { rtl::Reference< SwXTextDocument > xModel = m_pActiveShell->GetView().GetDocShell()->GetBaseModel(); xNameAccess = xModel->getTextTables(); } else nSlot = FN_FORMAT_TABLE_DLG; break; case ContentTypeId::GRAPHIC : if(nMode == EditEntryMode::DELETE) { m_pActiveShell->DelRight(); } else if(nMode == EditEntryMode::RENAME) { rtl::Reference< SwXTextDocument > xModel = m_pActiveShell->GetView().GetDocShell()->GetBaseModel(); xNameAccess = xModel->getGraphicObjects(); xSecond = xModel->getTextFrames(); xThird = xModel->getEmbeddedObjects(); } else nSlot = FN_FORMAT_GRAFIC_DLG; break; case ContentTypeId::FRAME : case ContentTypeId::OLE : if(nMode == EditEntryMode::DELETE) { m_pActiveShell->DelRight(); } else if(nMode == EditEntryMode::RENAME) { rtl::Reference< SwXTextDocument > xModel = m_pActiveShell->GetView().GetDocShell()->GetBaseModel(); if(ContentTypeId::FRAME == nType) { xNameAccess = xModel->getTextFrames(); xSecond = xModel->getEmbeddedObjects(); } else { xNameAccess = xModel->getEmbeddedObjects(); xSecond = xModel->getTextFrames(); } xThird = xModel->getGraphicObjects(); } else nSlot = FN_FORMAT_FRAME_DLG; break; case ContentTypeId::BOOKMARK : if(nMode == EditEntryMode::DELETE) { assert(!m_pActiveShell->getIDocumentSettingAccess().get(DocumentSettingId::PROTECT_BOOKMARKS)); IDocumentMarkAccess* const pMarkAccess = m_pActiveShell->getIDocumentMarkAccess(); pMarkAccess->deleteMark(pMarkAccess->findMark(pCnt->GetName()), false); } else if(nMode == EditEntryMode::RENAME) { assert(!m_pActiveShell->getIDocumentSettingAccess().get(DocumentSettingId::PROTECT_BOOKMARKS)); rtl::Reference< SwXTextDocument > xModel = m_pActiveShell->GetView().GetDocShell()->GetBaseModel(); xNameAccess = xModel->getBookmarks(); } else { // allowed despite PROTECT_BOOKMARKS: the dialog itself enforces it SfxStringItem const name(FN_EDIT_BOOKMARK, pCnt->GetName()); SfxPoolItem const* args[2] = { &name, nullptr }; m_pActiveShell->GetView().GetViewFrame(). GetDispatcher()->Execute(FN_EDIT_BOOKMARK, SfxCallMode::SYNCHRON, args); } break; case ContentTypeId::REGION : if (nMode == EditEntryMode::DELETE) { assert(dynamic_cast(static_cast(pCnt))); const SwSectionFormat* pSectionFormat = static_cast(pCnt)->GetSectionFormat(); m_pActiveShell->GetDoc()->DelSectionFormat( const_cast(pSectionFormat), false); } else if (nMode == EditEntryMode::RENAME) { rtl::Reference< SwXTextDocument > xModel = m_pActiveShell->GetView().GetDocShell()->GetBaseModel(); xNameAccess = xModel->getTextSections(); } else nSlot = FN_EDIT_REGION; break; case ContentTypeId::URLFIELD: if (nMode == EditEntryMode::DELETE) nSlot = SID_REMOVE_HYPERLINK; else nSlot = SID_EDIT_HYPERLINK; break; case ContentTypeId::REFERENCE: { if(nMode == EditEntryMode::DELETE) { const OUString& rName = pCnt->GetName(); m_pActiveShell->GetDoc()->ForEachRefMark( [&rName, this] (const SwFormatRefMark& rFormatRefMark) -> bool { const SwTextRefMark* pTextRef = rFormatRefMark.GetTextRefMark(); if (pTextRef && rName == rFormatRefMark.GetRefName()) { m_pActiveShell->GetDoc()->DeleteFormatRefMark(&rFormatRefMark); m_pActiveShell->SwViewShell::UpdateFields(); return false; } return true; }); } } break; case ContentTypeId::TEXTFIELD: { if (nMode == EditEntryMode::DELETE) { const SwTextFieldContent* pTextFieldCnt = static_cast(pCnt); const SwTextField* pTextField = pTextFieldCnt->GetFormatField()->GetTextField(); SwTextField::DeleteTextField(*pTextField); } else nSlot = FN_EDIT_FIELD; } break; case ContentTypeId::POSTIT: { auto& rView = m_pActiveShell->GetView(); auto pPostItMgr = rView.GetPostItMgr(); pPostItMgr->AssureStdModeAtShell(); pPostItMgr->SetActiveSidebarWin(nullptr); rView.GetEditWin().GrabFocus(); if(nMode == EditEntryMode::DELETE) m_pActiveShell->DelRight(); else nSlot = FN_POSTIT; } break; case ContentTypeId::INDEX: { const SwTOXBase* pBase = static_cast(pCnt)->GetTOXBase(); switch(nMode) { case EditEntryMode::EDIT: if(pBase) { SwPtrItem aPtrItem( FN_INSERT_MULTI_TOX, const_cast(pBase)); m_pActiveShell->GetView().GetViewFrame(). GetDispatcher()->ExecuteList(FN_INSERT_MULTI_TOX, SfxCallMode::ASYNCHRON, { &aPtrItem }); } break; case EditEntryMode::DELETE: { if( pBase ) m_pActiveShell->DeleteTOX(*pBase, EditEntryMode::DELETE == nMode); } break; case EditEntryMode::UPD_IDX: case EditEntryMode::RENAME: { rtl::Reference< SwXTextDocument > xModel = m_pActiveShell->GetView().GetDocShell()->GetBaseModel(); rtl::Reference< SwXDocumentIndexes> xIdxAcc = xModel->getSwDocumentIndexes(); if(EditEntryMode::RENAME == nMode) xNameAccess = xIdxAcc; else if(xIdxAcc.is() && xIdxAcc->hasByName(pBase->GetTOXName())) { Any aIdx = xIdxAcc->getByName(pBase->GetTOXName()); Reference< XDocumentIndex> xIdx; if(aIdx >>= xIdx) xIdx->update(); } } break; default: break; } } break; case ContentTypeId::DRAWOBJECT : if(EditEntryMode::DELETE == nMode) nSlot = SID_DELETE; else if(nMode == EditEntryMode::RENAME) nSlot = FN_NAME_SHAPE; else if (nMode == EditEntryMode::EDIT) { vcl::KeyCode aKeyCode(KEY_RETURN, false, false, false, false); KeyEvent aKeyEvent(0, aKeyCode); m_pActiveShell->GetWin()->KeyInput(aKeyEvent); } break; case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: { if (nMode == EditEntryMode::DELETE) m_pActiveShell->DelRight(); else if (EditEntryMode::EDIT == nMode) nSlot = FN_FORMAT_FOOTNOTE_DLG; } break; default: break; } if(nSlot) m_pActiveShell->GetView().GetViewFrame(). GetDispatcher()->Execute(nSlot, SfxCallMode::SYNCHRON); else if(xNameAccess.is()) { uno::Any aObj = xNameAccess->getByName(pCnt->GetName()); uno::Reference< uno::XInterface > xTmp; aObj >>= xTmp; uno::Reference< container::XNamed > xNamed(xTmp, uno::UNO_QUERY); SwAbstractDialogFactory* pFact = SwAbstractDialogFactory::Create(); ScopedVclPtr pDlg(pFact->CreateSwRenameXNamedDlg(m_xTreeView.get(), xNamed, xNameAccess)); if(xSecond.is()) pDlg->SetAlternativeAccess( xSecond, xThird); OUString sForbiddenChars; if(ContentTypeId::BOOKMARK == nType) { sForbiddenChars = "/\\@:*?\";,.#"; } else if(ContentTypeId::TABLE == nType) { sForbiddenChars = " .<>"; } pDlg->SetForbiddenChars(sForbiddenChars); pDlg->Execute(); } if(EditEntryMode::DELETE == nMode) { auto nPos = m_xTreeView->vadjustment_get_value(); m_bViewHasChanged = true; TimerUpdate(&m_aUpdTimer); grab_focus(); m_xTreeView->vadjustment_set_value(nPos); } } bool SwContentTree::IsDeletable(const weld::TreeIter& rEntry) { if (lcl_IsContentType(rEntry, *m_xTreeView)) { if (State::HIDDEN == m_eState || !m_pActiveShell) return false; if (m_pActiveShell->GetView().GetDocShell()->IsReadOnly()) return false; SwContentType* pContentType = weld::fromId(m_xTreeView->get_id(rEntry)); auto nCount = pContentType->GetMemberCount(); if (nCount == 0) return false; for (size_t i = 0; i < nCount; i++) { const SwContent* pContent = pContentType->GetMember(i); if (IsDeletable(pContent)) return true; } return false; } return IsDeletable(weld::fromId(m_xTreeView->get_id(rEntry))); } bool SwContentTree::IsDeletable(const SwContent* pContent) { if (State::HIDDEN == m_eState || !m_pActiveShell) return false; if (m_pActiveShell->GetView().GetDocShell()->IsReadOnly()) return false; if (pContent->IsInvisible() || pContent->IsProtect()) return false; ContentTypeId eContentTypeId = pContent->GetParent()->GetType(); // table if (eContentTypeId == ContentTypeId::TABLE) { bool bFull = false; m_pActiveShell->HasTableAnyProtection(&pContent->GetName(), &bFull); return !bFull; } // bookmark if (eContentTypeId == ContentTypeId::BOOKMARK) return !m_pActiveShell->getIDocumentSettingAccess().get( DocumentSettingId::PROTECT_BOOKMARKS); // index if (eContentTypeId == ContentTypeId::INDEX) { const SwTOXBase* pBase = static_cast(pContent)->GetTOXBase(); return !SwEditShell::IsTOXBaseReadonly(*pBase); } return true; } void SwContentTree::DeleteAllContentOfEntryContentType(const weld::TreeIter& rEntry) { weld::WaitObject aWait(m_xTreeView.get()); SwContentType* pContentType; if (lcl_IsContentType(rEntry, *m_xTreeView)) { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(rEntry)))); pContentType = weld::fromId(m_xTreeView->get_id(rEntry)); } else { assert(dynamic_cast(weld::fromId(m_xTreeView->get_id(rEntry)))); pContentType = const_cast( weld::fromId(m_xTreeView->get_id(rEntry))->GetParent()); } const ContentTypeId eContentTypeId = pContentType->GetType(); if (eContentTypeId == ContentTypeId::TABLE) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const SwContent* pContent = pContentType->GetMember(i); m_pActiveShell->GotoTable(pContent->GetName()); m_pActiveShell->SelTable(); m_pActiveShell->DeleteTable(); } m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::FRAME || eContentTypeId == ContentTypeId::GRAPHIC || eContentTypeId == ContentTypeId::OLE) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->LockView(true); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const OUString& rName(pContentType->GetMember(i)->GetName()); m_pActiveShell->GotoFly(rName); m_pActiveShell->DelRight(); } m_pActiveShell->EndUndo(); m_pActiveShell->LockView(false); } else if (eContentTypeId == ContentTypeId::BOOKMARK) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); IDocumentMarkAccess* const pMarkAccess = m_pActiveShell->getIDocumentMarkAccess(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const OUString& rName(pContentType->GetMember(i)->GetName()); pMarkAccess->deleteMark(pMarkAccess->findMark(rName), false); } m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::REGION) { const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const SwRegionContent* pRegionContent = static_cast(pContentType->GetMember(i)); SwSectionFormat* pSectionFormat = const_cast(pRegionContent->GetSectionFormat()); m_pActiveShell->GetDoc()->DelSectionFormat(pSectionFormat, false); } m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::URLFIELD) // hyperlinks { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->LockView(true); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { if (m_pActiveShell->GotoINetAttr(*static_cast( pContentType->GetMember(i))->GetINetAttr())) { m_pActiveShell->Right(SwCursorSkipMode::Chars, false, 1, false); m_pActiveShell->SwCursorShell::SelectTextAttr(RES_TXTATR_INETFMT, true); m_pActiveShell->DelRight(); } } m_pActiveShell->EndUndo(); m_pActiveShell->LockView(false); } else if (eContentTypeId == ContentTypeId::REFERENCE ) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const OUString& rName = pContentType->GetMember(i)->GetName(); m_pActiveShell->GetDoc()->ForEachRefMark( [&rName, this] (const SwFormatRefMark& rFormatRefMark) -> bool { const SwTextRefMark* pTextRef = rFormatRefMark.GetTextRefMark(); if (pTextRef && rName == rFormatRefMark.GetRefName()) { m_pActiveShell->GetDoc()->DeleteFormatRefMark(&rFormatRefMark); return false; } return true; }); } m_pActiveShell->SwViewShell::UpdateFields(); m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::INDEX) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { SwContent* pContent = const_cast(pContentType->GetMember(i)); const SwTOXBase* pBase = static_cast(pContent)->GetTOXBase(); if (pBase) m_pActiveShell->DeleteTOX(*pBase, true); } m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::POSTIT) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const SwPostItContent* pPostItContent = static_cast(pContentType->GetMember(i)); m_pActiveShell->GotoFormatField(*pPostItContent->GetPostIt()); m_pActiveShell->DelRight(); } m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::DRAWOBJECT) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const OUString& rName(pContentType->GetMember(i)->GetName()); m_pActiveShell->GotoDrawingObject(rName); m_pActiveShell->DelRight(); //m_pActiveShell->DelSelectedObj(); } m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::TEXTFIELD) { m_pActiveShell->AssureStdMode(); const auto nCount = pContentType->GetMemberCount(); m_pActiveShell->StartAction(); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); for (size_t i = 0; i < nCount; i++) { const SwTextFieldContent* pTextFieldContent = static_cast(pContentType->GetMember(i)); const SwTextField* pTextField = pTextFieldContent->GetFormatField()->GetTextField(); SwTextField::DeleteTextField(*pTextField); } m_pActiveShell->EndUndo(); m_pActiveShell->EndAction(); } else if (eContentTypeId == ContentTypeId::FOOTNOTE || eContentTypeId == ContentTypeId::ENDNOTE) { //MakeAllOutlineContentTemporarilyVisible a(m_pActiveShell->GetDoc()); lcl_SelectAllFootnotesOrEndnotes(*m_pActiveShell, pContentType); SwRewriter aRewriter; aRewriter.AddRule(UndoArg1, pContentType->GetName()); m_pActiveShell->StartUndo(SwUndoId::DELETE, &aRewriter); m_pActiveShell->DelRight(); m_pActiveShell->EndUndo(); } } void SwContentTree::CopyOutlineSelections() { m_pActiveShell->LockView(true); { MakeAllOutlineContentTemporarilyVisible a(m_pActiveShell->GetDoc()); m_pActiveShell->AssureStdMode(); m_pActiveShell->EnterAddMode(); size_t nCount = m_xTreeView->get_selected_rows().size(); m_xTreeView->selected_foreach([this, &nCount](weld::TreeIter& rEntry){ SwOutlineNodes::size_type nOutlinePos = reinterpret_cast( m_xTreeView->get_id(rEntry).toInt64())->GetOutlinePos(); m_pActiveShell->SttSelect(); m_pActiveShell->MakeOutlineSel(nOutlinePos, nOutlinePos, !m_xTreeView->get_row_expanded(rEntry), false); // don't move if this is the last selected outline or the cursor is at start of para if (--nCount && !m_pActiveShell->IsSttPara()) m_pActiveShell->Right(SwCursorSkipMode::Chars, true, 1, false); m_pActiveShell->EndSelect(); return false; }); m_pActiveShell->LeaveAddMode(); m_pActiveShell->GetView().GetViewFrame().GetBindings().Execute(SID_COPY); } m_pActiveShell->LockView(false); } void SwContentTree::GotoContent(const SwContent* pCnt) { if (pCnt->GetParent()->GetType() == ContentTypeId::OUTLINE) { // Maybe the outline node doesn't have a layout frame to go to. const SwOutlineNodes::size_type nPos = static_cast(pCnt)->GetOutlinePos(); const SwNodes& rNds = m_pActiveShell->GetDoc()->GetNodes(); SwTextNode* pTextNd = rNds.GetOutLineNds()[nPos]->GetTextNode(); if (!pTextNd->getLayoutFrame(m_pActiveShell->GetLayout())) return; } if (m_bSelectTo) { if (m_pActiveShell->IsCursorInTable() || (m_pActiveShell->GetCursor()->GetPoint()->nNode.GetIndex() <= m_pActiveShell->GetDoc()->GetNodes().GetEndOfExtras().GetIndex())) { m_bSelectTo = false; m_pActiveShell->GetView().GetEditWin().GrabFocus(); return; } } m_nLastGotoContentWasOutlinePos = SwOutlineNodes::npos; m_sSelectedItem = ""; m_pActiveShell->AssureStdMode(); std::optional oPosition; if (m_bSelectTo) oPosition.emplace(m_pActiveShell->GetCursor()->GetPoint()->nNode, m_pActiveShell->GetCursor()->GetPoint()->nContent); switch(m_nLastSelType = pCnt->GetParent()->GetType()) { case ContentTypeId::TEXTFIELD: { m_pActiveShell->GotoFormatField( *static_cast(pCnt)->GetFormatField()); } break; case ContentTypeId::OUTLINE : { const SwOutlineNodes::size_type nPos = static_cast(pCnt)->GetOutlinePos(); m_pActiveShell->GotoOutline(nPos); m_nLastGotoContentWasOutlinePos = nPos; } break; case ContentTypeId::TABLE : { m_pActiveShell->GotoTable(pCnt->GetName()); } break; case ContentTypeId::FRAME : case ContentTypeId::GRAPHIC : case ContentTypeId::OLE : { m_pActiveShell->GotoFly(pCnt->GetName()); } break; case ContentTypeId::BOOKMARK: { m_pActiveShell->StartAction(); m_pActiveShell->GotoMark(pCnt->GetName()); m_pActiveShell->EndAction(); m_sSelectedItem = pCnt->GetName(); // If the hidden title of SwNavigatorPanel was emptied via UNO XPanel interface, // store the name of the selected bookmark there. This allows to query the // selected bookmark using UNO e.g. in add-ons, i.e. to disambiguate when // multiple bookmarks are there on the selected text range. // Note: this is a workaround because getDialog() of XPanel is not implemented // for SwNavigatorPanel. rtl::Reference< SwXTextDocument > xModel = m_pActiveShell->GetView().GetDocShell()->GetBaseModel(); Reference xController( xModel->getCurrentController(), uno::UNO_QUERY); if ( !xController.is() ) break; Reference xSidebarProvider = xController->getSidebar(); if ( !xSidebarProvider.is() ) break; Reference xDecks = xSidebarProvider->getDecks(); if ( !xDecks.is() ) break; if (!xDecks->hasByName(u"NavigatorDeck"_ustr)) break; Reference xDeck ( xDecks->getByName(u"NavigatorDeck"_ustr), uno::UNO_QUERY); if ( !xDeck.is() ) break; Reference xPanels = xDeck->getPanels(); if ( !xPanels.is() ) break; if (xPanels->hasByName(u"SwNavigatorPanel"_ustr)) { Reference xPanel ( xPanels->getByName(u"SwNavigatorPanel"_ustr), uno::UNO_QUERY); if ( !xPanel.is() || !xPanel->getTitle().isEmpty() ) break; xPanel->setTitle( pCnt->GetName() ); } } break; case ContentTypeId::REGION : { m_pActiveShell->GotoRegion(pCnt->GetName()); } break; case ContentTypeId::URLFIELD: { if(m_pActiveShell->GotoINetAttr( *static_cast(pCnt)->GetINetAttr() )) { m_pActiveShell->Right(SwCursorSkipMode::Chars, false, 1, false); } } break; case ContentTypeId::REFERENCE: { m_pActiveShell->GotoRefMark(pCnt->GetName()); } break; case ContentTypeId::INDEX: { const OUString& sName(pCnt->GetName()); if (!m_pActiveShell->GotoNextTOXBase(&sName)) m_pActiveShell->GotoPrevTOXBase(&sName); } break; case ContentTypeId::POSTIT: m_pActiveShell->GotoFormatField(*static_cast(pCnt)->GetPostIt()); break; case ContentTypeId::DRAWOBJECT: { m_pActiveShell->GotoDrawingObject(pCnt->GetName()); } break; case ContentTypeId::FOOTNOTE: case ContentTypeId::ENDNOTE: { const SwTextFootnote* pFootnote = static_cast(pCnt)->GetTextFootnote(); if (!pFootnote) return; m_pActiveShell->GotoFootnoteAnchor(*pFootnote); } break; default: break; } if (m_bSelectTo) { m_pActiveShell->SttCursorMove(); while (m_pActiveShell->IsCursorInTable()) { m_pActiveShell->MoveTable(GotoCurrTable, fnTableStart); if (!m_pActiveShell->Left(SwCursorSkipMode::Chars, false, 1, false)) break; // Table is at the beginning of the document. It can't be selected this way. } m_pActiveShell->EndCursorMove(); m_pActiveShell->AssureStdMode(); m_pActiveShell->SetMark(); m_pActiveShell->GetCursor()->GetMark()->nNode = oPosition->nNode; m_pActiveShell->GetCursor()->GetMark()->nContent = oPosition->nContent; m_pActiveShell->UpdateCursor(); m_pActiveShell->GetView().GetEditWin().GrabFocus(); m_bSelectTo = false; } else { if (m_pActiveShell->IsFrameSelected() || m_pActiveShell->IsObjSelected()) { m_pActiveShell->HideCursor(); m_pActiveShell->EnterSelFrameMode(); } SwView& rView = m_pActiveShell->GetView(); rView.StopShellTimer(); rView.GetPostItMgr()->SetActiveSidebarWin(nullptr); rView.GetEditWin().GrabFocus(); // Assure cursor is in visible view area. // (tdf#147041) Always show the navigated outline at the top of the visible view area. if (pCnt->GetParent()->GetType() == ContentTypeId::OUTLINE || (!m_pActiveShell->IsCursorVisible() && !m_pActiveShell->IsFrameSelected() && !m_pActiveShell->IsObjSelected())) { Point aPoint(rView.GetVisArea().getX(), m_pActiveShell->GetCursorDocPos().getY()); rView.SetVisArea(aPoint); } } UpdateContentFunctionsToolbar(); } NaviContentBookmark::NaviContentBookmark() : m_nDocSh(0) { } NaviContentBookmark::NaviContentBookmark(OUString sURL, OUString sCrossRef, OUString aDesc, const SwDocShell* pDocSh) : m_sURL(std::move(sURL)), m_sCrossRef(std::move(sCrossRef)), m_aDescription(std::move(aDesc)), m_nDocSh(reinterpret_cast(pDocSh)) { } void NaviContentBookmark::Copy( TransferDataContainer& rData ) const { rtl_TextEncoding eSysCSet = osl_getThreadTextEncoding(); OString sStrBuf(OUStringToOString(m_sURL, eSysCSet) + OStringChar(NAVI_BOOKMARK_DELIM) + OUStringToOString(m_sCrossRef, eSysCSet) + OStringChar(NAVI_BOOKMARK_DELIM) + OUStringToOString(m_aDescription, eSysCSet) + OStringChar(NAVI_BOOKMARK_DELIM) + OString::number(m_nDocSh)); rData.CopyByteString(SotClipboardFormatId::SONLK, sStrBuf); } bool NaviContentBookmark::Paste( const TransferableDataHelper& rData, const OUString& rsDesc ) { OUString sStr; bool bRet = rData.GetString( SotClipboardFormatId::SONLK, sStr ); if( bRet ) { sal_Int32 nPos = 0; m_sURL = sStr.getToken(0, NAVI_BOOKMARK_DELIM, nPos ); m_sCrossRef = sStr.getToken(0, NAVI_BOOKMARK_DELIM, nPos); m_aDescription = sStr.getToken(0, NAVI_BOOKMARK_DELIM, nPos ); m_nDocSh = o3tl::toInt32(o3tl::getToken(sStr, 0, NAVI_BOOKMARK_DELIM, nPos )); if (!rsDesc.isEmpty()) m_aDescription = rsDesc; } return bRet; } SwNavigationPI* SwContentTree::GetParentWindow() { return m_pDialog; } void SwContentTree::SelectContentType(std::u16string_view rContentTypeName) { std::unique_ptr xIter(m_xTreeView->make_iterator()); if (!m_xTreeView->get_iter_first(*xIter)) return; do { if (m_xTreeView->get_text(*xIter) == rContentTypeName) { m_xTreeView->set_cursor(*xIter); UpdateContentFunctionsToolbar(); break; } } while (m_xTreeView->iter_next_sibling(*xIter)); } IMPL_LINK_NOARG(SwContentTree, OverlayObjectDelayTimerHdl, Timer *, void) { m_aOverlayObjectDelayTimer.Stop(); if (m_xOverlayObject) { if (SdrView* pView = m_pActiveShell->GetDrawView()) { if (SdrPaintWindow* pPaintWindow = pView->GetPaintWindow(0)) { const rtl::Reference& xOverlayManager = pPaintWindow->GetOverlayManager(); xOverlayManager->add(*m_xOverlayObject); } } } } void SwContentTree::OverlayObject(std::vector&& aRanges) { m_aOverlayObjectDelayTimer.Stop(); if (m_xOverlayObject && m_xOverlayObject->getOverlayManager()) m_xOverlayObject->getOverlayManager()->remove(*m_xOverlayObject); if (aRanges.empty()) m_xOverlayObject.reset(); else { m_xOverlayObject.reset(new sdr::overlay::OverlaySelection( sdr::overlay::OverlayType::Invert, Color(), std::move(aRanges), true/*unused for Invert type*/)); m_aOverlayObjectDelayTimer.Start(); } } void SwContentTree::BringEntryToAttention(const weld::TreeIter& rEntry) { if (lcl_IsContent(rEntry, *m_xTreeView)) // content entry { SwContent* pCnt = weld::fromId(m_xTreeView->get_id(rEntry)); if (pCnt->IsInvisible()) OverlayObject(); else { const ContentTypeId nType = pCnt->GetParent()->GetType(); if (nType == ContentTypeId::OUTLINE) { BringTypesWithFlowFramesToAttention({m_pActiveShell->GetNodes(). GetOutLineNds()[static_cast(pCnt)->GetOutlinePos()]}, /*bIncludeTopMargin*/ false); } else if (nType == ContentTypeId::TABLE) { if (const sw::TableFrameFormats* pFrameFormats = m_pActiveShell->GetDoc()->GetTableFrameFormats()) if (const SwTableFormat* pFrameFormat = pFrameFormats->FindFrameFormatByName(pCnt->GetName())) { SwTable* pTable = SwTable::FindTable(pFrameFormat); if (pTable) BringTypesWithFlowFramesToAttention({pTable->GetTableNode()}, false); } } else if (nType == ContentTypeId::FRAME || nType == ContentTypeId::GRAPHIC || nType == ContentTypeId::OLE) { SwNodeType eNodeType = SwNodeType::Text; if(nType == ContentTypeId::GRAPHIC) eNodeType = SwNodeType::Grf; else if(nType == ContentTypeId::OLE) eNodeType = SwNodeType::Ole; if (const SwFrameFormat* pFrameFormat = m_pActiveShell->GetDoc()->FindFlyByName(pCnt->GetName(), eNodeType)) BringFramesToAttention(std::vector {pFrameFormat}); } else if (nType == ContentTypeId::BOOKMARK) { BringBookmarksToAttention(std::vector {pCnt->GetName()}); } else if (nType == ContentTypeId::REGION || nType == ContentTypeId::INDEX) { size_t nSectionFormatCount = m_pActiveShell->GetSectionFormatCount(); for (size_t i = 0; i < nSectionFormatCount; ++i) { const SwSectionFormat& rSectionFormat = m_pActiveShell->GetSectionFormat(i); if (!rSectionFormat.IsInNodesArr()) continue; const SwSection* pSection = rSectionFormat.GetSection(); if (!pSection) continue; if (pCnt->GetName() == pSection->GetSectionName()) { BringTypesWithFlowFramesToAttention({rSectionFormat.GetSectionNode()}); break; } } } else if (nType == ContentTypeId::URLFIELD) { // tdf#159147 - Assure the SwURLFieldContent::SwTextINetFormat pointer is valid // before bringing to attention. const SwTextINetFormat* pTextINetFormat = static_cast(pCnt)->GetINetAttr(); const SwCharFormats* pFormats = m_pActiveShell->GetDoc()->GetCharFormats(); for (auto n = pFormats->size(); 1 < n;) { SwIterator aIter(*(*pFormats)[--n]); for (SwTextINetFormat* pFnd = aIter.First(); pFnd; pFnd = aIter.Next()) { if (pTextINetFormat == pFnd) { BringURLFieldsToAttention(SwGetINetAttrs {SwGetINetAttr(pCnt->GetName(), *pTextINetFormat)}); return; } } } } else if (nType == ContentTypeId::REFERENCE) { if (const SwTextAttr* pTextAttr = m_pActiveShell->GetDoc()->GetRefMark(pCnt->GetName())->GetTextRefMark()) { std::vector aTextAttrArr {pTextAttr}; BringReferencesToAttention(aTextAttrArr); } } else if (nType == ContentTypeId::POSTIT) { if (const SwTextAttr* pTextAttr = static_cast(pCnt)->GetPostIt()->GetTextField()) { std::vector aTextAttrArr {pTextAttr}; BringPostItFieldsToAttention(aTextAttrArr); } } else if (nType == ContentTypeId::DRAWOBJECT) { std::vector aSdrObjectArr {GetDrawingObjectsByContent(pCnt)}; BringDrawingObjectsToAttention(aSdrObjectArr); } else if (nType == ContentTypeId::TEXTFIELD) { if (const SwTextAttr* pTextAttr = static_cast(pCnt)->GetFormatField()->GetTextField()) { std::vector aTextAttrArr {pTextAttr}; BringTextFieldsToAttention(aTextAttrArr); } } else if (nType == ContentTypeId::FOOTNOTE || nType == ContentTypeId::ENDNOTE) { if (const SwTextAttr* pTextAttr = static_cast (pCnt)->GetTextFootnote()) { std::vector aTextAttrArr {pTextAttr}; BringFootnotesToAttention(aTextAttrArr); } } } } else // content type entry { SwContentType* pCntType = weld::fromId(m_xTreeView->get_id(rEntry)); if (pCntType->GetMemberCount() == 0) OverlayObject(); else { const ContentTypeId nType = pCntType->GetType(); if (nType == ContentTypeId::OUTLINE) { std::vector aNodesArr( m_pActiveShell->GetNodes().GetOutLineNds().begin(), m_pActiveShell->GetNodes().GetOutLineNds().end()); BringTypesWithFlowFramesToAttention(aNodesArr, /*bIncludeTopMargin*/ false); } else if (nType == ContentTypeId::TABLE) { std::vector aNodesArr; const size_t nCount = m_pActiveShell->GetTableFrameFormatCount(false); const sw::TableFrameFormats& rTableFormats = *m_pActiveShell->GetDoc()->GetTableFrameFormats(); for(size_t i = 0; i < nCount; ++i) { if (const SwTableFormat* pTableFormat = rTableFormats[i]) if(pTableFormat->IsUsed()) // skip deleted tables { SwTable* pTable = SwTable::FindTable(pTableFormat); if (pTable) aNodesArr.push_back(pTable->GetTableNode()); } } BringTypesWithFlowFramesToAttention(aNodesArr, false); } else if (nType == ContentTypeId::FRAME || nType == ContentTypeId::GRAPHIC || nType == ContentTypeId::OLE) { FlyCntType eType = FLYCNTTYPE_FRM; if(nType == ContentTypeId::GRAPHIC) eType = FLYCNTTYPE_GRF; else if(nType == ContentTypeId::OLE) eType = FLYCNTTYPE_OLE; BringFramesToAttention(m_pActiveShell->GetFlyFrameFormats(eType, true)); } else if (nType == ContentTypeId::BOOKMARK) { std::vector aNames; const auto nCount = pCntType->GetMemberCount(); for (size_t i = 0; i < nCount; i++) { const SwContent* pMember = pCntType->GetMember(i); if (pMember && !pMember->IsInvisible()) aNames.push_back(pMember->GetName()); } BringBookmarksToAttention(aNames); } else if (nType == ContentTypeId::REGION || nType == ContentTypeId::INDEX) { std::vector aNodesArr; const SwSectionFormats& rFormats = m_pActiveShell->GetDoc()->GetSections(); const size_t nSize = rFormats.size(); for (SwSectionFormats::size_type n = nSize; n;) { const SwSectionFormat* pSectionFormat = rFormats[--n]; if (pSectionFormat && pSectionFormat->IsInNodesArr()) { const SwSection* pSection = pSectionFormat->GetSection(); if (pSection && !pSection->IsHiddenFlag()) { const SectionType eSectionType = pSection->GetType(); if (nType == ContentTypeId::REGION && (eSectionType == SectionType::ToxContent || eSectionType == SectionType::ToxHeader)) continue; if (nType == ContentTypeId::INDEX && eSectionType != SectionType::ToxContent) continue; if (const SwNode* pNode = pSectionFormat->GetSectionNode()) aNodesArr.push_back(pNode); } } } BringTypesWithFlowFramesToAttention(aNodesArr); } else if (nType == ContentTypeId::URLFIELD) { SwGetINetAttrs aINetAttrsArr; m_pActiveShell->GetINetAttrs(aINetAttrsArr, false); BringURLFieldsToAttention(aINetAttrsArr); } else if (nType == ContentTypeId::REFERENCE) { std::vector aTextAttrArr; m_pActiveShell->GetDoc()->ForEachRefMark( [&aTextAttrArr] (const SwFormatRefMark& rRefMark) -> bool { const SwTextRefMark* pTextRef = rRefMark.GetTextRefMark(); if (pTextRef) aTextAttrArr.push_back(pTextRef); return true; }); BringReferencesToAttention(aTextAttrArr); } else if (nType == ContentTypeId::POSTIT) { std::vector aTextAttrArr; const auto nCount = pCntType->GetMemberCount(); for (size_t i = 0; i < nCount; i++) { const SwPostItContent* pPostItContent = static_cast( pCntType->GetMember(i)); if (pPostItContent && !pPostItContent->IsInvisible()) if (const SwFormatField* pFormatField = pPostItContent->GetPostIt()) if (const SwTextAttr* pTextAttr = pFormatField->GetTextField()) aTextAttrArr.push_back(pTextAttr); } BringPostItFieldsToAttention(aTextAttrArr); } else if (nType == ContentTypeId::DRAWOBJECT) { IDocumentDrawModelAccess& rIDDMA = m_pActiveShell->getIDocumentDrawModelAccess(); if (const SwDrawModel* pModel = rIDDMA.GetDrawModel()) { if (const SdrPage* pPage = pModel->GetPage(0)) { if (pPage->GetObjCount()) { std::vector aSdrObjectArr; for (const rtl::Reference& pObject : *pPage) { if (pObject && !pObject->GetName().isEmpty() && rIDDMA.IsVisibleLayerId(pObject->GetLayer())) aSdrObjectArr.push_back(pObject.get()); } BringDrawingObjectsToAttention(aSdrObjectArr); } } } } else if (nType == ContentTypeId::TEXTFIELD) { std::vector aTextAttrArr; const auto nCount = pCntType->GetMemberCount(); for (size_t i = 0; i < nCount; i++) { const SwTextFieldContent* pTextFieldCnt = static_cast(pCntType->GetMember(i)); if (pTextFieldCnt && !pTextFieldCnt->IsInvisible()) if (const SwFormatField* pFormatField = pTextFieldCnt->GetFormatField()) if (const SwTextAttr* pTextAttr = pFormatField->GetTextField()) aTextAttrArr.push_back(pTextAttr); } BringTextFieldsToAttention(aTextAttrArr); } else if (nType == ContentTypeId::FOOTNOTE || nType == ContentTypeId::ENDNOTE) { std::vector aTextAttrArr; const auto nCount = pCntType->GetMemberCount(); for (size_t i = 0; i < nCount; i++) { const SwTextFootnoteContent* pTextFootnoteCnt = static_cast(pCntType->GetMember(i)); if (pTextFootnoteCnt && !pTextFootnoteCnt->IsInvisible()) if (const SwTextAttr* pTextAttr = pTextFootnoteCnt->GetTextFootnote()) aTextAttrArr.push_back(pTextAttr); } BringFootnotesToAttention(aTextAttrArr); } } } } static void lcl_CalcOverlayRanges(const SwTextFrame* pStartFrame, const SwTextFrame* pEndFrame, const SwPosition& aStartPos, const SwPosition& aEndPos, std::vector& aRanges) { if (pStartFrame && pEndFrame) { SwRect aStartCharRect; pStartFrame->GetCharRect(aStartCharRect, aStartPos); SwRect aEndCharRect; pEndFrame->GetCharRect(aEndCharRect, aEndPos); if (aStartCharRect.Top() == aEndCharRect.Top()) { // single line range aRanges.emplace_back(aStartCharRect.Left(), aStartCharRect.Top(), aEndCharRect.Right() + 1, aEndCharRect.Bottom() + 1); } else { // multi line range SwRect aFrameRect = pStartFrame->getFrameArea(); aRanges.emplace_back(aStartCharRect.Left(), aStartCharRect.Top(), aFrameRect.Right(), aStartCharRect.Bottom() + 1); if (aStartCharRect.Bottom() + 1 != aEndCharRect.Top()) aRanges.emplace_back(aFrameRect.Left(), aStartCharRect.Bottom() + 1, aFrameRect.Right(), aEndCharRect.Top() + 1); aRanges.emplace_back(aFrameRect.Left(), aEndCharRect.Top() + 1, aEndCharRect.Right() + 1, aEndCharRect.Bottom() + 1); } } } void SwContentTree::BringFramesToAttention(const std::vector& rFrameFormats) { std::vector aRanges; for (const SwFrameFormat* pFrameFormat : rFrameFormats) { if (!pFrameFormat) continue; SwRect aFrameRect = pFrameFormat->FindLayoutRect(); if (!aFrameRect.IsEmpty()) aRanges.emplace_back(aFrameRect.Left(), aFrameRect.Top(), aFrameRect.Right(), aFrameRect.Bottom()); } OverlayObject(std::move(aRanges)); } void SwContentTree::BringBookmarksToAttention(const std::vector& rNames) { std::vector aRanges; IDocumentMarkAccess* const pMarkAccess = m_pActiveShell->getIDocumentMarkAccess(); for (const auto& rName : rNames) { auto ppBkmk = pMarkAccess->findBookmark(rName); if (ppBkmk == pMarkAccess->getBookmarksEnd()) continue; SwPosition aMarkStart = (*ppBkmk)->GetMarkStart(); const SwTextNode* pMarkStartTextNode = aMarkStart.GetNode().GetTextNode(); if (!pMarkStartTextNode) continue; const SwTextFrame* pMarkStartFrame = static_cast( pMarkStartTextNode->getLayoutFrame(m_pActiveShell->GetLayout())); if (!pMarkStartFrame) continue; SwPosition aMarkEnd = (*ppBkmk)->GetMarkEnd(); const SwTextNode* pMarkEndTextNode = aMarkEnd.GetNode().GetTextNode(); if (!pMarkEndTextNode) continue; const SwTextFrame* pMarkEndFrame = static_cast( pMarkEndTextNode->getLayoutFrame(m_pActiveShell->GetLayout())); if (!pMarkEndFrame) continue; // adjust span when mark start equals mark end if (aMarkStart == aMarkEnd) { if (aMarkEnd.GetContentIndex() < pMarkEndTextNode->Len() - 1) aMarkEnd.AdjustContent(+1); else if (aMarkStart.GetContentIndex() > 0) aMarkStart.AdjustContent(-1); } lcl_CalcOverlayRanges(pMarkStartFrame, pMarkEndFrame, aMarkStart, aMarkEnd, aRanges); } OverlayObject(std::move(aRanges)); } void SwContentTree::BringTypesWithFlowFramesToAttention(const std::vector& rNodes, const bool bIncludeTopMargin) { std::vector aRanges; for (const auto* pNode : rNodes) { if (!pNode) continue; const SwFrame* pFrame; if (pNode->IsContentNode() || pNode->IsTableNode()) { if (pNode->IsContentNode()) pFrame = pNode->GetContentNode()->getLayoutFrame(m_pActiveShell->GetLayout()); else // table node { SwNode2Layout aTmp(*pNode, pNode->GetIndex() - 1); pFrame = aTmp.NextFrame(); } while (pFrame) { const SwRect& rFrameRect = pFrame->getFrameArea(); if (!rFrameRect.IsEmpty()) aRanges.emplace_back(rFrameRect.Left(), bIncludeTopMargin ? rFrameRect.Top() : rFrameRect.Top() + pFrame->GetTopMargin(), rFrameRect.Right(), rFrameRect.Bottom()); if (!pFrame->IsFlowFrame()) break; const SwFlowFrame *pFollow = SwFlowFrame::CastFlowFrame(pFrame)->GetFollow(); if (!pFollow) break; pFrame = &pFollow->GetFrame(); } } else if (pNode->IsSectionNode()) { const SwNode* pEndOfSectionNode = pNode->EndOfSectionNode(); SwNodeIndex aIdx(*pNode); while (&aIdx.GetNode() != pEndOfSectionNode) { if (aIdx.GetNode().IsContentNode()) { if ((pFrame = aIdx.GetNode().GetContentNode()-> getLayoutFrame(m_pActiveShell->GetLayout()))) { if (pFrame->IsInSct()) pFrame = pFrame->FindSctFrame(); if (pFrame) { const SwRect& rFrameRect = pFrame->getFrameArea(); if (!rFrameRect.IsEmpty()) aRanges.emplace_back(rFrameRect.Left(), rFrameRect.Top(), rFrameRect.Right(), rFrameRect.Bottom()); } } ++aIdx; while (!aIdx.GetNode().IsEndNode() && !aIdx.GetNode().IsSectionNode()) ++aIdx; continue; } if (!aIdx.GetNode().IsSectionNode()) { ++aIdx; continue; } SwNode2Layout aTmp(aIdx.GetNode(), aIdx.GetNode().GetIndex() - 1); pFrame = aTmp.NextFrame(); if (pFrame) { if (!pFrame->getFrameArea().IsEmpty()) { const SwRect& rFrameRect = pFrame->getFrameArea(); aRanges.emplace_back(rFrameRect.Left(), rFrameRect.Top(), rFrameRect.Right(), rFrameRect.Bottom()); } if (pFrame->IsSctFrame()) { const SwSectionFrame* pSectionFrame = static_cast(pFrame); if (pSectionFrame->HasFollow()) { const SwFlowFrame *pFollow = SwFlowFrame::CastFlowFrame(pSectionFrame)->GetFollow(); while (pFollow) { pFrame = &pFollow->GetFrame(); if (!pFrame->getFrameArea().IsEmpty()) { const SwRect& rFrameRect = pFrame->getFrameArea(); aRanges.emplace_back(rFrameRect.Left(), rFrameRect.Top(), rFrameRect.Right(), rFrameRect.Bottom()); } pFollow = SwFlowFrame::CastFlowFrame(pFrame)->GetFollow(); } } } } ++aIdx; while (!aIdx.GetNode().IsEndNode() && !aIdx.GetNode().IsSectionNode()) ++aIdx; } // Remove nested sections. This wouldn't be needed if the overlay wasn't invert type. auto end = aRanges.end(); for (auto it = aRanges.begin(); it != end; ++it) end = std::remove_if(it + 1, end, [&it](auto itt){ return it->isInside(itt); }); aRanges.erase(end, aRanges.end()); } } OverlayObject(std::move(aRanges)); } void SwContentTree::BringURLFieldsToAttention(const SwGetINetAttrs& rINetAttrsArr) { std::vector aRanges; for (const auto& r : rINetAttrsArr) { const SwTextNode& rTextNode = r.rINetAttr.GetTextNode(); if (SwTextFrame* pFrame = static_cast( rTextNode.getLayoutFrame(m_pActiveShell->GetLayout()))) { auto nStart = r.rINetAttr.GetStart(); auto nEnd = r.rINetAttr.GetAnyEnd(); SwPosition aStartPos(rTextNode, nStart), aEndPos(rTextNode, nEnd); lcl_CalcOverlayRanges(pFrame, pFrame, aStartPos, aEndPos, aRanges); } } OverlayObject(std::move(aRanges)); } void SwContentTree::BringReferencesToAttention(std::vector& rTextAttrsArr) { std::vector aRanges; for (const SwTextAttr* p : rTextAttrsArr) { if (!p) continue; const SwTextRefMark* pTextRefMark = p->GetRefMark().GetTextRefMark(); if (!pTextRefMark) continue; const SwTextNode& rTextNode = pTextRefMark->GetTextNode(); if (SwTextFrame* pFrame = static_cast( rTextNode.getLayoutFrame(m_pActiveShell->GetLayout()))) { auto nStart = p->GetStart(); auto nEnd = p->GetAnyEnd(); SwPosition aStartPos(rTextNode, nStart), aEndPos(rTextNode, nEnd); lcl_CalcOverlayRanges(pFrame, pFrame, aStartPos, aEndPos, aRanges); } } OverlayObject(std::move(aRanges)); } void SwContentTree::BringPostItFieldsToAttention(std::vector& rTextAttrsArr) { std::vector aRanges; for (const SwTextAttr* p : rTextAttrsArr) { if (!p) continue; const SwTextField* pTextField = p->GetFormatField().GetTextField(); if (!pTextField) continue; // use as a fallback when there is no mark SwTextNode& rTextNode = pTextField->GetTextNode(); if (!rTextNode.getLayoutFrame(m_pActiveShell->GetLayout())) continue; assert(dynamic_cast(pTextField)); const SwTextAnnotationField* pTextAnnotationField = static_cast(pTextField); const ::sw::mark::MarkBase* pAnnotationMark = pTextAnnotationField->GetAnnotationMark(); const SwPosition aMarkStart = pAnnotationMark ? pAnnotationMark->GetMarkStart() : SwPosition(rTextNode, p->GetStart()); const SwPosition aMarkEnd = pAnnotationMark ? pAnnotationMark->GetMarkEnd() : SwPosition(rTextNode, p->GetAnyEnd()); const SwTextFrame* pMarkStartFrame = static_cast( aMarkStart.GetNode().GetTextNode()->getLayoutFrame(m_pActiveShell->GetLayout())); const SwTextFrame* pMarkEndFrame = static_cast( aMarkEnd.GetNode().GetTextNode()->getLayoutFrame(m_pActiveShell->GetLayout())); if (!pMarkStartFrame || !pMarkEndFrame) continue; lcl_CalcOverlayRanges(pMarkStartFrame, pMarkEndFrame, aMarkStart, aMarkEnd, aRanges); } OverlayObject(std::move(aRanges)); } void SwContentTree::BringFootnotesToAttention(std::vector& rTextAttrsArr) { std::vector aRanges; for (const SwTextAttr* p : rTextAttrsArr) { if (!p) continue; const SwTextFootnote* pTextFootnote = p->GetFootnote().GetTextFootnote(); if (!pTextFootnote) continue; const SwTextNode& rTextNode = pTextFootnote->GetTextNode(); if (SwTextFrame* pFrame = static_cast( rTextNode.getLayoutFrame(m_pActiveShell->GetLayout()))) { auto nStart = p->GetStart(); auto nEnd = nStart + 1; SwPosition aStartPos(rTextNode, nStart), aEndPos(rTextNode, nEnd); lcl_CalcOverlayRanges(pFrame, pFrame, aStartPos, aEndPos, aRanges); } } OverlayObject(std::move(aRanges)); } void SwContentTree::BringDrawingObjectsToAttention(std::vector& rDrawingObjectsArr) { std::vector aRanges; for (const SdrObject* pObject : rDrawingObjectsArr) { if (pObject) { tools::Rectangle aRect(pObject->GetLogicRect()); if (!aRect.IsEmpty()) aRanges.emplace_back(aRect.Left(), aRect.Top(), aRect.Right(), aRect.Bottom()); } } OverlayObject(std::move(aRanges)); } void SwContentTree::BringTextFieldsToAttention(std::vector& rTextAttrsArr) { std::vector aRanges; std::shared_ptr pPamForTextField; for (const SwTextAttr* p : rTextAttrsArr) { if (!p) continue; const SwTextField* pTextField = p->GetFormatField().GetTextField(); if (!pTextField) continue; if (SwTextFrame* pFrame = static_cast( pTextField->GetTextNode().getLayoutFrame(m_pActiveShell->GetLayout()))) { SwTextField::GetPamForTextField(*pTextField, pPamForTextField); if (!pPamForTextField) continue; SwPosition aStartPos(*pPamForTextField->GetMark()); SwPosition aEndPos(*pPamForTextField->GetPoint()); lcl_CalcOverlayRanges(pFrame, pFrame, aStartPos, aEndPos, aRanges); } } OverlayObject(std::move(aRanges)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */