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/* -*- 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 <tools/urlobj.hxx>
#include <vcl/weld.hxx>
#include <svl/fstathelper.hxx>
#include <unotools/pathoptions.hxx>
#include <unotools/transliterationwrapper.hxx>
#include <swtypes.hxx>
#include <swmodule.hxx>
#include <shellio.hxx>
#include <initui.hxx>
#include <glosdoc.hxx>
#include <gloslst.hxx>
#include <swunohelper.hxx>
#include <view.hxx>
#include <vector>
#define STRING_DELIM char(0x0A)
#define GLOS_TIMEOUT 30000 // update every 30 seconds
#define FIND_MAX_GLOS 20
struct TripleString
{
OUString sGroup;
OUString sBlock;
OUString sShort;
};
class SwGlossDecideDlg : public weld::GenericDialogController
{
std::unique_ptr<weld::Button> m_xOk;
std::unique_ptr<weld::TreeView> m_xListLB;
DECL_LINK(DoubleClickHdl, weld::TreeView&, bool);
DECL_LINK(SelectHdl, weld::TreeView&, void);
public:
explicit SwGlossDecideDlg(weld::Window* pParent);
weld::TreeView& GetTreeView() {return *m_xListLB;}
};
SwGlossDecideDlg::SwGlossDecideDlg(weld::Window* pParent)
: GenericDialogController(pParent, "modules/swriter/ui/selectautotextdialog.ui", "SelectAutoTextDialog")
, m_xOk(m_xBuilder->weld_button("ok"))
, m_xListLB(m_xBuilder->weld_tree_view("treeview"))
{
m_xListLB->set_size_request(m_xListLB->get_approximate_digit_width() * 32,
m_xListLB->get_height_rows(8));
m_xListLB->connect_row_activated(LINK(this, SwGlossDecideDlg, DoubleClickHdl));
m_xListLB->connect_changed(LINK(this, SwGlossDecideDlg, SelectHdl));
}
IMPL_LINK_NOARG(SwGlossDecideDlg, DoubleClickHdl, weld::TreeView&, bool)
{
m_xDialog->response(RET_OK);
return true;
}
IMPL_LINK_NOARG(SwGlossDecideDlg, SelectHdl, weld::TreeView&, void)
{
m_xOk->set_sensitive(m_xListLB->get_selected_index() != -1);
}
SwGlossaryList::SwGlossaryList() :
bFilled(false)
{
SvtPathOptions aPathOpt;
sPath = aPathOpt.GetAutoTextPath();
SetTimeout(GLOS_TIMEOUT);
}
SwGlossaryList::~SwGlossaryList()
{
ClearGroups();
}
// If the GroupName is already known, then only rShortName
// will be filled. Otherwise also rGroupName will be set and
// on demand asked for the right group.
bool SwGlossaryList::GetShortName(const OUString& rLongName,
OUString& rShortName, OUString& rGroupName )
{
if(!bFilled)
Update();
std::vector<TripleString> aTripleStrings;
size_t nCount = aGroupArr.size();
for(size_t i = 0; i < nCount; i++ )
{
AutoTextGroup* pGroup = aGroupArr[i].get();
if(!rGroupName.isEmpty() && rGroupName != pGroup->sName)
continue;
sal_Int32 nPosLong = 0;
for(sal_uInt16 j = 0; j < pGroup->nCount; j++)
{
const OUString sLong = pGroup->sLongNames.getToken(0, STRING_DELIM, nPosLong);
if(rLongName != sLong)
continue;
TripleString aTriple;
aTriple.sGroup = pGroup->sName;
aTriple.sBlock = sLong;
aTriple.sShort = pGroup->sShortNames.getToken(j, STRING_DELIM);
aTripleStrings.push_back(aTriple);
}
}
bool bRet = false;
nCount = aTripleStrings.size();
if(1 == nCount)
{
const TripleString& rTriple(aTripleStrings.front());
rShortName = rTriple.sShort;
rGroupName = rTriple.sGroup;
bRet = true;
}
else if(1 < nCount)
{
SwView *pView = ::GetActiveView();
SwGlossDecideDlg aDlg(pView ? pView->GetFrameWeld() : nullptr);
OUString sTitle = aDlg.get_title() + " " + aTripleStrings.front().sBlock;
aDlg.set_title(sTitle);
weld::TreeView& rLB = aDlg.GetTreeView();
for (const auto& rTriple : aTripleStrings)
rLB.append_text(rTriple.sGroup.getToken(0, GLOS_DELIM));
rLB.select(0);
if (aDlg.run() == RET_OK && rLB.get_selected_index() != -1)
{
const TripleString& rTriple(aTripleStrings[rLB.get_selected_index()]);
rShortName = rTriple.sShort;
rGroupName = rTriple.sGroup;
bRet = true;
}
else
bRet = false;
}
return bRet;
}
size_t SwGlossaryList::GetGroupCount()
{
if(!bFilled)
Update();
return aGroupArr.size();
}
OUString SwGlossaryList::GetGroupName(size_t nPos)
{
OSL_ENSURE(aGroupArr.size() > nPos, "group not available");
if(nPos < aGroupArr.size())
{
AutoTextGroup* pGroup = aGroupArr[nPos].get();
OUString sRet = pGroup->sName;
return sRet;
}
return OUString();
}
OUString SwGlossaryList::GetGroupTitle(size_t nPos)
{
OSL_ENSURE(aGroupArr.size() > nPos, "group not available");
if(nPos < aGroupArr.size())
{
AutoTextGroup* pGroup = aGroupArr[nPos].get();
return pGroup->sTitle;
}
return OUString();
}
sal_uInt16 SwGlossaryList::GetBlockCount(size_t nGroup)
{
OSL_ENSURE(aGroupArr.size() > nGroup, "group not available");
if(nGroup < aGroupArr.size())
{
AutoTextGroup* pGroup = aGroupArr[nGroup].get();
return pGroup->nCount;
}
return 0;
}
OUString SwGlossaryList::GetBlockLongName(size_t nGroup, sal_uInt16 nBlock)
{
OSL_ENSURE(aGroupArr.size() > nGroup, "group not available");
if(nGroup < aGroupArr.size())
{
AutoTextGroup* pGroup = aGroupArr[nGroup].get();
return pGroup->sLongNames.getToken(nBlock, STRING_DELIM);
}
return OUString();
}
OUString SwGlossaryList::GetBlockShortName(size_t nGroup, sal_uInt16 nBlock)
{
OSL_ENSURE(aGroupArr.size() > nGroup, "group not available");
if(nGroup < aGroupArr.size())
{
AutoTextGroup* pGroup = aGroupArr[nGroup].get();
return pGroup->sShortNames.getToken(nBlock, STRING_DELIM);
}
return OUString();
}
void SwGlossaryList::Update()
{
if(!IsActive())
Start();
SvtPathOptions aPathOpt;
const OUString& sTemp( aPathOpt.GetAutoTextPath() );
if(sTemp != sPath)
{
sPath = sTemp;
bFilled = false;
ClearGroups();
}
SwGlossaries* pGlossaries = ::GetGlossaries();
const std::vector<OUString> & rPathArr = pGlossaries->GetPathArray();
const OUString sExt( SwGlossaries::GetExtension() );
if(!bFilled)
{
const size_t nGroupCount = pGlossaries->GetGroupCnt();
for(size_t i = 0; i < nGroupCount; ++i)
{
OUString sGrpName = pGlossaries->GetGroupName(i);
const size_t nPath = static_cast<size_t>(
sGrpName.getToken(1, GLOS_DELIM).toInt32());
if( nPath < rPathArr.size() )
{
std::unique_ptr<AutoTextGroup> pGroup(new AutoTextGroup);
pGroup->sName = sGrpName;
FillGroup(pGroup.get(), pGlossaries);
OUString sName = rPathArr[nPath] + "/" +
pGroup->sName.getToken(0, GLOS_DELIM) + sExt;
FStatHelper::GetModifiedDateTimeOfFile( sName,
&pGroup->aDateModified,
&pGroup->aDateModified );
aGroupArr.insert( aGroupArr.begin(), std::move(pGroup) );
}
}
bFilled = true;
}
else
{
for( size_t nPath = 0; nPath < rPathArr.size(); nPath++ )
{
std::vector<OUString> aFoundGroupNames;
std::vector<OUString> aFiles;
std::vector<DateTime> aDateTimeArr;
SWUnoHelper::UCB_GetFileListOfFolder( rPathArr[nPath], aFiles,
&sExt, &aDateTimeArr );
for( size_t nFiles = 0; nFiles < aFiles.size(); ++nFiles )
{
const OUString aTitle = aFiles[ nFiles ];
::DateTime& rDT = aDateTimeArr[ nFiles ];
OUString sName( aTitle.copy( 0, aTitle.getLength() - sExt.getLength() ));
aFoundGroupNames.push_back(sName);
sName += OUStringChar(GLOS_DELIM) + OUString::number( static_cast<sal_uInt16>(nPath) );
AutoTextGroup* pFound = FindGroup( sName );
if( !pFound )
{
pFound = new AutoTextGroup;
pFound->sName = sName;
FillGroup( pFound, pGlossaries );
pFound->aDateModified = rDT;
aGroupArr.push_back(std::unique_ptr<AutoTextGroup>(pFound));
}
else if( pFound->aDateModified < rDT )
{
FillGroup(pFound, pGlossaries);
pFound->aDateModified = rDT;
}
}
for( size_t i = aGroupArr.size(); i>0; )
{
--i;
// maybe remove deleted groups
AutoTextGroup* pGroup = aGroupArr[i].get();
const size_t nGroupPath = static_cast<size_t>(
pGroup->sName.getToken( 1, GLOS_DELIM).toInt32());
// Only the groups will be checked which are registered
// for the current subpath.
if( nGroupPath == nPath )
{
OUString sCompareGroup = pGroup->sName.getToken(0, GLOS_DELIM);
bool bFound = std::any_of(aFoundGroupNames.begin(), aFoundGroupNames.end(),
[&sCompareGroup](const OUString& rGroupName) { return sCompareGroup == rGroupName; });
if(!bFound)
{
aGroupArr.erase(aGroupArr.begin() + i);
}
}
}
}
}
}
void SwGlossaryList::Invoke()
{
// Only update automatically if a SwView has the focus.
if(::GetActiveView())
Update();
}
AutoTextGroup* SwGlossaryList::FindGroup(const OUString& rGroupName)
{
for(const auto & pRet : aGroupArr)
{
if(pRet->sName == rGroupName)
return pRet.get();
}
return nullptr;
}
void SwGlossaryList::FillGroup(AutoTextGroup* pGroup, SwGlossaries* pGlossaries)
{
std::unique_ptr<SwTextBlocks> pBlock = pGlossaries->GetGroupDoc(pGroup->sName);
pGroup->nCount = pBlock ? pBlock->GetCount() : 0;
pGroup->sLongNames.clear();
pGroup->sShortNames.clear();
if(pBlock)
pGroup->sTitle = pBlock->GetName();
for(sal_uInt16 j = 0; j < pGroup->nCount; j++)
{
pGroup->sLongNames += pBlock->GetLongName(j)
+ OUStringChar(STRING_DELIM);
pGroup->sShortNames += pBlock->GetShortName(j)
+ OUStringChar(STRING_DELIM);
}
}
// Give back all (not exceeding FIND_MAX_GLOS) found modules
// with matching beginning.
void SwGlossaryList::HasLongName(const std::vector<OUString>& rBeginCandidates,
std::vector<std::pair<OUString, sal_uInt16>>& rLongNames)
{
if(!bFilled)
Update();
const ::utl::TransliterationWrapper& rSCmp = GetAppCmpStrIgnore();
// We store results for all candidate words in separate lists, so that later
// we can sort them according to the candidate position
std::vector<std::vector<OUString>> aResults(rBeginCandidates.size());
// We can't break after FIND_MAX_GLOS items found, since first items may have ended up in
// lower-priority lists, and those from higher-priority lists are yet to come. So process all.
for (const auto& pGroup : aGroupArr)
{
sal_Int32 nIdx{ 0 };
for(sal_uInt16 j = 0; j < pGroup->nCount; j++)
{
OUString sBlock = pGroup->sLongNames.getToken(0, STRING_DELIM, nIdx);
for (size_t i = 0; i < rBeginCandidates.size(); ++i)
{
const OUString& s = rBeginCandidates[i];
if (s.getLength() + 1 < sBlock.getLength()
&& rSCmp.isEqual(sBlock.copy(0, s.getLength()), s))
{
aResults[i].push_back(sBlock);
}
}
}
}
std::vector<std::pair<OUString, sal_uInt16>> aAllResults;
// Sort and concatenate all result lists. See QuickHelpData::SortAndFilter
for (size_t i = 0; i < rBeginCandidates.size(); ++i)
{
std::sort(aResults[i].begin(), aResults[i].end(),
[origWord = rBeginCandidates[i]](const OUString& s1, const OUString& s2) {
int nRet = s1.compareToIgnoreAsciiCase(s2);
if (nRet == 0)
{
// fdo#61251 sort stuff that starts with the exact rOrigWord before
// another ignore-case candidate
int n1StartsWithOrig = s1.startsWith(origWord) ? 0 : 1;
int n2StartsWithOrig = s2.startsWith(origWord) ? 0 : 1;
return n1StartsWithOrig < n2StartsWithOrig;
}
return nRet < 0;
});
// All suggestions must be accompanied with length of the text they would replace
std::transform(aResults[i].begin(), aResults[i].end(), std::back_inserter(aAllResults),
[nLen = sal_uInt16(rBeginCandidates[i].getLength())](const OUString& s) {
return std::make_pair(s, nLen);
});
}
const auto& it = std::unique(
aAllResults.begin(), aAllResults.end(),
[](const std::pair<OUString, sal_uInt16>& s1, const std::pair<OUString, sal_uInt16>& s2) {
return s1.first.equalsIgnoreAsciiCase(s2.first);
});
if (const auto nCount = std::min<size_t>(std::distance(aAllResults.begin(), it), FIND_MAX_GLOS))
{
rLongNames.insert(rLongNames.end(), aAllResults.begin(), aAllResults.begin() + nCount);
}
}
void SwGlossaryList::ClearGroups()
{
aGroupArr.clear();
bFilled = false;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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