/* -*- 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 #define EQUAL_BOOKMARKS(a, b) a == b #define IFACECAST(c) static_cast&>(c) using namespace ::com::sun::star::uno; using namespace ::com::sun::star::util; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::i18n; using namespace ::com::sun::star::beans; using namespace ::svxform; // = FmRecordCountListener // SMART_UNO_IMPLEMENTATION(FmRecordCountListener, UsrObject); FmRecordCountListener::FmRecordCountListener(const Reference< css::sdbc::XResultSet > & dbcCursor) { m_xListening.set(dbcCursor, UNO_QUERY); if (!m_xListening.is()) return; if (::comphelper::getBOOL(m_xListening->getPropertyValue(FM_PROP_ROWCOUNTFINAL))) { m_xListening = nullptr; // there's nothing to do as the record count is already known return; } m_xListening->addPropertyChangeListener(FM_PROP_ROWCOUNT, static_cast(this)); } void FmRecordCountListener::SetPropChangeHandler(const Link& lnk) { m_lnkWhoWantsToKnow = lnk; if (m_xListening.is()) NotifyCurrentCount(); } FmRecordCountListener::~FmRecordCountListener() { } void FmRecordCountListener::DisConnect() { if(m_xListening.is()) m_xListening->removePropertyChangeListener(FM_PROP_ROWCOUNT, static_cast(this)); m_xListening = nullptr; } void SAL_CALL FmRecordCountListener::disposing(const css::lang::EventObject& /*Source*/) { DBG_ASSERT(m_xListening.is(), "FmRecordCountListener::disposing should never have been called without a propset !"); DisConnect(); } void FmRecordCountListener::NotifyCurrentCount() { if (m_lnkWhoWantsToKnow.IsSet()) { DBG_ASSERT(m_xListening.is(), "FmRecordCountListener::NotifyCurrentCount : I have no propset ... !?"); sal_Int32 theCount = ::comphelper::getINT32(m_xListening->getPropertyValue(FM_PROP_ROWCOUNT)); m_lnkWhoWantsToKnow.Call(theCount); } } void FmRecordCountListener::propertyChange(const css::beans::PropertyChangeEvent& /*evt*/) { NotifyCurrentCount(); } // FmSearchEngine - local classes SimpleTextWrapper::SimpleTextWrapper(const Reference< css::awt::XTextComponent > & _xText) :ControlTextWrapper(_xText.get()) ,m_xText(_xText) { DBG_ASSERT(m_xText.is(), "FmSearchEngine::SimpleTextWrapper::SimpleTextWrapper : invalid argument !"); } OUString SimpleTextWrapper::getCurrentText() const { return m_xText->getText(); } ListBoxWrapper::ListBoxWrapper(const Reference< css::awt::XListBox > & _xBox) :ControlTextWrapper(_xBox.get()) ,m_xBox(_xBox) { DBG_ASSERT(m_xBox.is(), "FmSearchEngine::ListBoxWrapper::ListBoxWrapper : invalid argument !"); } OUString ListBoxWrapper::getCurrentText() const { return m_xBox->getSelectedItem(); } CheckBoxWrapper::CheckBoxWrapper(const Reference< css::awt::XCheckBox > & _xBox) :ControlTextWrapper(_xBox.get()) ,m_xBox(_xBox) { DBG_ASSERT(m_xBox.is(), "FmSearchEngine::CheckBoxWrapper::CheckBoxWrapper : invalid argument !"); } OUString CheckBoxWrapper::getCurrentText() const { switch (static_cast(m_xBox->getState())) { case TRISTATE_FALSE: return "0"; case TRISTATE_TRUE: return "1"; default: break; } return OUString(); } // = FmSearchEngine bool FmSearchEngine::MoveCursor() { bool bSuccess = true; try { if (m_bForward) if (m_xSearchCursor.isLast()) m_xSearchCursor.first(); else m_xSearchCursor.next(); else if (m_xSearchCursor.isFirst()) { rtl::Reference prclListener = new FmRecordCountListener(m_xSearchCursor); prclListener->SetPropChangeHandler(LINK(this, FmSearchEngine, OnNewRecordCount)); m_xSearchCursor.last(); prclListener->DisConnect(); } else m_xSearchCursor.previous(); } catch(Exception const&) { TOOLS_WARN_EXCEPTION( "svx", "FmSearchEngine::MoveCursor"); bSuccess = false; } catch(...) { OSL_FAIL("FmSearchEngine::MoveCursor : caught an unknown Exception !"); bSuccess = false; } return bSuccess; } bool FmSearchEngine::MoveField(sal_Int32& nPos, FieldCollection::iterator& iter, const FieldCollection::iterator& iterBegin, const FieldCollection::iterator& iterEnd) { bool bSuccess(true); if (m_bForward) { ++iter; ++nPos; if (iter == iterEnd) { bSuccess = MoveCursor(); iter = iterBegin; nPos = 0; } } else { if (iter == iterBegin) { bSuccess = MoveCursor(); iter = iterEnd; nPos = iter-iterBegin; } --iter; --nPos; } return bSuccess; } void FmSearchEngine::BuildAndInsertFieldInfo(const Reference< css::container::XIndexAccess > & xAllFields, sal_Int32 nField) { DBG_ASSERT( xAllFields.is() && ( nField >= 0 ) && ( nField < xAllFields->getCount() ), "FmSearchEngine::BuildAndInsertFieldInfo: invalid field descriptor!" ); // the field itself Reference< XInterface > xCurrentField; xAllFields->getByIndex(nField) >>= xCurrentField; // From this I now know that it supports the DatabaseRecord service (I hope). // For the FormatKey and the type I need the PropertySet. Reference< css::beans::XPropertySet > xProperties(xCurrentField, UNO_QUERY); // build the FieldInfo for that FieldInfo fiCurrent; fiCurrent.xContents.set(xCurrentField, UNO_QUERY); // and memorize m_arrUsedFields.insert(m_arrUsedFields.end(), fiCurrent); } OUString FmSearchEngine::FormatField(sal_Int32 nWhich) { DBG_ASSERT(static_cast(nWhich) < m_aControlTexts.size(), "FmSearchEngine::FormatField(sal_Int32) : invalid position !"); DBG_ASSERT(m_aControlTexts[nWhich], "FmSearchEngine::FormatField(sal_Int32) : invalid object in array !"); DBG_ASSERT(m_aControlTexts[nWhich]->getControl().is(), "FmSearchEngine::FormatField : invalid control !"); if (m_nCurrentFieldIndex != -1) { DBG_ASSERT((nWhich == 0) || (nWhich == m_nCurrentFieldIndex), "FmSearchEngine::FormatField : parameter nWhich is invalid"); // analogous situation as below nWhich = m_nCurrentFieldIndex; } DBG_ASSERT((nWhich >= 0) && (static_cast(nWhich) < m_aControlTexts.size()), "FmSearchEngine::FormatField : invalid argument nWhich !"); return m_aControlTexts[m_nCurrentFieldIndex == -1 ? nWhich : m_nCurrentFieldIndex]->getCurrentText(); } FmSearchEngine::SearchResult FmSearchEngine::SearchSpecial(bool _bSearchForNull, sal_Int32& nFieldPos, FieldCollection::iterator& iterFieldLoop, const FieldCollection::iterator& iterBegin, const FieldCollection::iterator& iterEnd) { // memorize the start position Any aStartMark; try { aStartMark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return SearchResult::Error; } FieldCollection::const_iterator iterInitialField = iterFieldLoop; bool bFound(false); bool bMovedAround(false); do { Application::Reschedule( true ); // the content to be compared currently iterFieldLoop->xContents->getString(); // needed for wasNull bFound = _bSearchForNull == bool(iterFieldLoop->xContents->wasNull()); if (bFound) break; // next field (implicitly next record, if necessary) if (!MoveField(nFieldPos, iterFieldLoop, iterBegin, iterEnd)) { // When moving to the next field, something went wrong... // Continuing is not possible, since the next time exactly the same // will definitely go wrong again, thus abort. // Before, however, so that the search continues at the current position: try { m_aPreviousLocBookmark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); } m_iterPreviousLocField = iterFieldLoop; // and leave return SearchResult::Error; } Any aCurrentBookmark; try { aCurrentBookmark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return SearchResult::Error; } bMovedAround = EQUAL_BOOKMARKS(aStartMark, aCurrentBookmark) && (iterFieldLoop == iterInitialField); if (nFieldPos == 0) // that is, I've moved to a new record PropagateProgress(bMovedAround); // if we moved to the starting position we don't have to propagate an 'overflow' message // FS - 07.12.99 - 68530 // cancel requested? if (CancelRequested()) return SearchResult::Cancelled; } while (!bMovedAround); return bFound ? SearchResult::Found : SearchResult::NotFound; } FmSearchEngine::SearchResult FmSearchEngine::SearchWildcard(const OUString& strExpression, sal_Int32& nFieldPos, FieldCollection::iterator& iterFieldLoop, const FieldCollection::iterator& iterBegin, const FieldCollection::iterator& iterEnd) { // memorize the start position Any aStartMark; try { aStartMark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return SearchResult::Error; } FieldCollection::const_iterator iterInitialField = iterFieldLoop; WildCard aSearchExpression(strExpression); bool bFound(false); bool bMovedAround(false); do { Application::Reschedule( true ); // the content to be compared currently OUString sCurrentCheck; if (m_bFormatter) sCurrentCheck = FormatField(nFieldPos); else sCurrentCheck = iterFieldLoop->xContents->getString(); if (!GetCaseSensitive()) // norm the string sCurrentCheck = m_aCharacterClassficator.lowercase(sCurrentCheck); // now the test is easy... bFound = aSearchExpression.Matches(sCurrentCheck); if (bFound) break; // next field (implicitly next record, if necessary) if (!MoveField(nFieldPos, iterFieldLoop, iterBegin, iterEnd)) { // When moving to the next field, something went wrong... // Continuing is not possible, since the next time exactly the same // will definitely go wrong again, thus abort. // Before, however, so that the search continues at the current position: try { m_aPreviousLocBookmark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); } m_iterPreviousLocField = iterFieldLoop; // and leave return SearchResult::Error; } Any aCurrentBookmark; try { aCurrentBookmark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return SearchResult::Error; } bMovedAround = EQUAL_BOOKMARKS(aStartMark, aCurrentBookmark) && (iterFieldLoop == iterInitialField); if (nFieldPos == 0) // that is, I've moved to a new record PropagateProgress(bMovedAround); // if we moved to the starting position we don't have to propagate an 'overflow' message // FS - 07.12.99 - 68530 // cancel requested? if (CancelRequested()) return SearchResult::Cancelled; } while (!bMovedAround); return bFound ? SearchResult::Found : SearchResult::NotFound; } FmSearchEngine::SearchResult FmSearchEngine::SearchRegularApprox(const OUString& strExpression, sal_Int32& nFieldPos, FieldCollection::iterator& iterFieldLoop, const FieldCollection::iterator& iterBegin, const FieldCollection::iterator& iterEnd) { DBG_ASSERT(m_bLevenshtein || m_bRegular, "FmSearchEngine::SearchRegularApprox : invalid search mode!"); DBG_ASSERT(!m_bLevenshtein || !m_bRegular, "FmSearchEngine::SearchRegularApprox : cannot search for regular expressions and similarities at the same time!"); // memorize start position Any aStartMark; try { aStartMark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return SearchResult::Error; } FieldCollection::const_iterator iterInitialField = iterFieldLoop; // collect parameters i18nutil::SearchOptions2 aParam; aParam.AlgorithmType2 = m_bRegular ? SearchAlgorithms2::REGEXP : SearchAlgorithms2::APPROXIMATE; aParam.searchFlag = 0; aParam.transliterateFlags = GetTransliterationFlags(); if ( !GetTransliteration() ) { // if transliteration is not enabled, the only flags which matter are IGNORE_CASE and IGNORE_WIDTH aParam.transliterateFlags &= TransliterationFlags::IGNORE_CASE | TransliterationFlags::IGNORE_WIDTH; } if (m_bLevenshtein) { if (m_bLevRelaxed) aParam.searchFlag |= SearchFlags::LEV_RELAXED; aParam.changedChars = m_nLevOther; aParam.deletedChars = m_nLevShorter; aParam.insertedChars = m_nLevLonger; } aParam.searchString = strExpression; aParam.Locale = SvtSysLocale().GetLanguageTag().getLocale(); ::utl::TextSearch aLocalEngine( aParam); bool bFound = false; bool bMovedAround(false); do { Application::Reschedule( true ); // the content to be compared currently OUString sCurrentCheck; if (m_bFormatter) sCurrentCheck = FormatField(nFieldPos); else sCurrentCheck = iterFieldLoop->xContents->getString(); // (don't care about case here, this is done by the TextSearch object, 'cause we passed our case parameter to it) sal_Int32 nStart = 0, nEnd = sCurrentCheck.getLength(); bFound = aLocalEngine.SearchForward(sCurrentCheck, &nStart, &nEnd); // it says 'forward' here, but that only refers to the search within // sCurrentCheck, so it has nothing to do with the direction of my // record migration (MoveField takes care of that) // check if the position is correct if (bFound) { switch (m_nPosition) { case MATCHING_WHOLETEXT : if (nEnd != sCurrentCheck.getLength()) { bFound = false; break; } [[fallthrough]]; case MATCHING_BEGINNING : if (nStart != 0) bFound = false; break; case MATCHING_END : if (nEnd != sCurrentCheck.getLength()) bFound = false; break; } } if (bFound) // still? break; // next field (implicitly next record, if necessary) if (!MoveField(nFieldPos, iterFieldLoop, iterBegin, iterEnd)) { // When moving to the next field, something went wrong... // Continuing is not possible, since the next time exactly the same // will definitely go wrong again, thus abort (without error // notification, I expect it to be displayed in the Move). // Before, however, so that the search continues at the current position: try { m_aPreviousLocBookmark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); } m_iterPreviousLocField = iterFieldLoop; // and leave return SearchResult::Error; } Any aCurrentBookmark; try { aCurrentBookmark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return SearchResult::Error; } bMovedAround = EQUAL_BOOKMARKS(aStartMark, aCurrentBookmark) && (iterFieldLoop == iterInitialField); if (nFieldPos == 0) // that is, I've moved to a new record PropagateProgress(bMovedAround); // if we moved to the starting position we don't have to propagate an 'overflow' message // FS - 07.12.99 - 68530 // cancel requested? if (CancelRequested()) return SearchResult::Cancelled; } while (!bMovedAround); return bFound ? SearchResult::Found : SearchResult::NotFound; } FmSearchEngine::FmSearchEngine(const Reference< XComponentContext >& _rxContext, const Reference< XResultSet > & xCursor, const OUString& sVisibleFields, const InterfaceArray& arrFields) :m_xSearchCursor(xCursor) ,m_aCharacterClassficator( _rxContext, SvtSysLocale().GetLanguageTag() ) ,m_aStringCompare( _rxContext ) ,m_nCurrentFieldIndex(-2) // -1 already has a meaning, so I take -2 for 'invalid' ,m_xOriginalIterator(xCursor) ,m_xClonedIterator(m_xOriginalIterator, true) ,m_eSearchForType(SearchFor::String) ,m_srResult(SearchResult::Found) ,m_bSearchingCurrently(false) ,m_bCancelAsynchRequest(false) ,m_bFormatter(true) // this must be consistent with m_xSearchCursor, which is generally == m_xOriginalIterator ,m_bForward(false) ,m_bWildcard(false) ,m_bRegular(false) ,m_bLevenshtein(false) ,m_bTransliteration(false) ,m_bLevRelaxed(false) ,m_nLevOther(0) ,m_nLevShorter(0) ,m_nLevLonger(0) ,m_nPosition(MATCHING_ANYWHERE) ,m_nTransliterationFlags(TransliterationFlags::NONE) { fillControlTexts(arrFields); Init(sVisibleFields); } void FmSearchEngine::SetIgnoreWidthCJK(bool bSet) { if (bSet) m_nTransliterationFlags |= TransliterationFlags::IGNORE_WIDTH; else m_nTransliterationFlags &= ~TransliterationFlags::IGNORE_WIDTH; } bool FmSearchEngine::GetIgnoreWidthCJK() const { return bool(m_nTransliterationFlags & TransliterationFlags::IGNORE_WIDTH); } void FmSearchEngine::SetCaseSensitive(bool bSet) { if (bSet) m_nTransliterationFlags &= ~TransliterationFlags::IGNORE_CASE; else m_nTransliterationFlags |= TransliterationFlags::IGNORE_CASE; } bool FmSearchEngine::GetCaseSensitive() const { return !(m_nTransliterationFlags & TransliterationFlags::IGNORE_CASE); } void FmSearchEngine::clearControlTexts() { m_aControlTexts.clear(); } void FmSearchEngine::fillControlTexts(const InterfaceArray& arrFields) { clearControlTexts(); Reference< XInterface > xCurrent; for (const auto & rField : arrFields) { xCurrent = rField; DBG_ASSERT(xCurrent.is(), "FmSearchEngine::fillControlTexts : invalid field interface !"); // check which type of control this is Reference< css::awt::XTextComponent > xAsText(xCurrent, UNO_QUERY); if (xAsText.is()) { m_aControlTexts.emplace_back(new SimpleTextWrapper(xAsText)); continue; } Reference< css::awt::XListBox > xAsListBox(xCurrent, UNO_QUERY); if (xAsListBox.is()) { m_aControlTexts.emplace_back(new ListBoxWrapper(xAsListBox)); continue; } Reference< css::awt::XCheckBox > xAsCheckBox(xCurrent, UNO_QUERY); DBG_ASSERT(xAsCheckBox.is(), "FmSearchEngine::fillControlTexts : invalid field interface (no supported type) !"); // we don't have any more options ... m_aControlTexts.emplace_back(new CheckBoxWrapper(xAsCheckBox)); } } void FmSearchEngine::Init(const OUString& sVisibleFields) { // analyze the fields // additionally, create the mapping: because the list of used columns can be shorter than the list // of columns of the cursor, we need a mapping: "used column number n" -> "cursor column m" m_arrFieldMapping.clear(); // important: The case of the columns does not need to be exact - for instance: // - a user created a form which works on a table, for which the driver returns a column name "COLUMN" // - the driver itself works case-insensitive with column names // - a control in the form is bound to "column" - not the different case // In such a scenario, the form and the field would work okay, but we here need to case for the different case // explicitly // #i8755# // so first of all, check if the database handles identifiers case sensitive Reference< XConnection > xConn; Reference< XDatabaseMetaData > xMeta; Reference< XPropertySet > xCursorProps( IFACECAST( m_xSearchCursor ), UNO_QUERY ); if ( xCursorProps.is() ) { try { xCursorProps->getPropertyValue( FM_PROP_ACTIVE_CONNECTION ) >>= xConn; } catch( const Exception& ) { /* silent this - will be asserted below */ } } if ( xConn.is() ) xMeta = xConn->getMetaData(); OSL_ENSURE( xMeta.is(), "FmSearchEngine::Init: very strange cursor (could not derive connection meta data from it)!" ); bool bCaseSensitiveIdentifiers = true; // assume case sensitivity if ( xMeta.is() ) bCaseSensitiveIdentifiers = xMeta->supportsMixedCaseQuotedIdentifiers(); // now that we have this information, we need a collator which is able to case (in)sensitivity compare strings m_aStringCompare.loadDefaultCollator( SvtSysLocale().GetLanguageTag().getLocale(), bCaseSensitiveIdentifiers ? 0 : css::i18n::CollatorOptions::CollatorOptions_IGNORE_CASE ); try { // the cursor can give me a record (as PropertySet), which supports the DatabaseRecord service Reference< css::sdbcx::XColumnsSupplier > xSupplyCols(IFACECAST(m_xSearchCursor), UNO_QUERY); DBG_ASSERT(xSupplyCols.is(), "FmSearchEngine::Init : invalid cursor (no columns supplier) !"); Reference< css::container::XNameAccess > xAllFieldNames = xSupplyCols->getColumns(); Sequence< OUString > seqFieldNames = xAllFieldNames->getElementNames(); OUString sCurrentField; sal_Int32 nIndex = 0; do { sCurrentField = sVisibleFields.getToken(0, ';' , nIndex); // search in the field collection sal_Int32 nFoundIndex = -1; auto pFieldName = std::find_if(seqFieldNames.begin(), seqFieldNames.end(), [this, &sCurrentField](const OUString& rFieldName) { return 0 == m_aStringCompare.compareString( rFieldName, sCurrentField ); }); if (pFieldName != seqFieldNames.end()) nFoundIndex = static_cast(std::distance(seqFieldNames.begin(), pFieldName)); DBG_ASSERT(nFoundIndex != -1, "FmSearchEngine::Init : Invalid field name were given !"); m_arrFieldMapping.push_back(nFoundIndex); } while ( nIndex >= 0 ); } catch (const Exception&) { OSL_FAIL("Exception occurred!"); } } void FmSearchEngine::SetFormatterUsing(bool bSet) { if (m_bFormatter == bSet) return; m_bFormatter = bSet; // I did not use a formatter, but TextComponents -> the SearchIterator needs to be adjusted try { if (m_bFormatter) { DBG_ASSERT(m_xSearchCursor == m_xClonedIterator, "FmSearchEngine::SetFormatterUsing : inconsistent state !"); m_xSearchCursor = m_xOriginalIterator; m_xSearchCursor.moveToBookmark(m_xClonedIterator.getBookmark()); // so that I continue with the new iterator at the actual place where I previously stopped } else { DBG_ASSERT(m_xSearchCursor == m_xOriginalIterator, "FmSearchEngine::SetFormatterUsing : inconsistent state !"); m_xSearchCursor = m_xClonedIterator; m_xSearchCursor.moveToBookmark(m_xOriginalIterator.getBookmark()); } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); } // I have to re-bind the fields, because the text exchange might take // place over these fields and the underlying cursor has changed RebuildUsedFields(m_nCurrentFieldIndex, true); } void FmSearchEngine::PropagateProgress(bool _bDontPropagateOverflow) { if (m_aProgressHandler.IsSet()) { FmSearchProgress aProgress; try { aProgress.aSearchState = FmSearchProgress::State::Progress; aProgress.nCurrentRecord = m_xSearchCursor.getRow() - 1; if (m_bForward) aProgress.bOverflow = !_bDontPropagateOverflow && m_xSearchCursor.isFirst(); else aProgress.bOverflow = !_bDontPropagateOverflow && m_xSearchCursor.isLast(); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); } m_aProgressHandler.Call(&aProgress); } } void FmSearchEngine::SearchNextImpl() { DBG_ASSERT(!(m_bWildcard && m_bRegular) && !(m_bRegular && m_bLevenshtein) && !(m_bLevenshtein && m_bWildcard), "FmSearchEngine::SearchNextImpl : search parameters are mutually exclusive!"); DBG_ASSERT(m_xSearchCursor.is(), "FmSearchEngine::SearchNextImpl : have invalid iterator!"); // the parameters of the search OUString strSearchExpression(m_strSearchExpression); // I need non-const if (!GetCaseSensitive()) // norm the string strSearchExpression = m_aCharacterClassficator.lowercase(strSearchExpression); if (!m_bRegular && !m_bLevenshtein) { // 'normal' search I run through WildCards in any case, but must before adjust the OUString depending on the mode if (!m_bWildcard) { // since in all other cases * and ? in the search string are of course // also allowed, but should not count as WildCards, I need to normalize OUString aTmp(strSearchExpression); const OUString s_sStar("\\*"); const OUString s_sQuotation("\\?"); aTmp = aTmp.replaceAll("*", s_sStar); aTmp = aTmp.replaceAll("?", s_sQuotation); strSearchExpression = aTmp; switch (m_nPosition) { case MATCHING_ANYWHERE : strSearchExpression = "*" + strSearchExpression + "*"; break; case MATCHING_BEGINNING : strSearchExpression += "*"; break; case MATCHING_END : strSearchExpression = "*" + strSearchExpression; break; case MATCHING_WHOLETEXT : break; default : OSL_FAIL("FmSearchEngine::SearchNextImpl() : the methods listbox may contain only 4 entries ..."); } } } // for work on field list FieldCollection::iterator iterBegin = m_arrUsedFields.begin(); FieldCollection::iterator iterEnd = m_arrUsedFields.end(); FieldCollection::iterator iterFieldCheck; sal_Int32 nFieldPos; if (m_aPreviousLocBookmark.hasValue()) { DBG_ASSERT(EQUAL_BOOKMARKS(m_aPreviousLocBookmark, m_xSearchCursor.getBookmark()), "FmSearchEngine::SearchNextImpl : invalid position!"); iterFieldCheck = m_iterPreviousLocField; // continue in the field after (or before) the last discovery nFieldPos = iterFieldCheck - iterBegin; MoveField(nFieldPos, iterFieldCheck, iterBegin, iterEnd); } else { if (m_bForward) iterFieldCheck = iterBegin; else { iterFieldCheck = iterEnd; --iterFieldCheck; } nFieldPos = iterFieldCheck - iterBegin; } PropagateProgress(true); SearchResult srResult; if (m_eSearchForType != SearchFor::String) srResult = SearchSpecial(m_eSearchForType == SearchFor::Null, nFieldPos, iterFieldCheck, iterBegin, iterEnd); else if (!m_bRegular && !m_bLevenshtein) srResult = SearchWildcard(strSearchExpression, nFieldPos, iterFieldCheck, iterBegin, iterEnd); else srResult = SearchRegularApprox(strSearchExpression, nFieldPos, iterFieldCheck, iterBegin, iterEnd); m_srResult = srResult; if (SearchResult::Error == m_srResult) return; // found? if (SearchResult::Found == m_srResult) { // memorize the position try { m_aPreviousLocBookmark = m_xSearchCursor.getBookmark(); } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); } m_iterPreviousLocField = iterFieldCheck; } else // invalidate the "last discovery" InvalidatePreviousLoc(); } void FmSearchEngine::OnSearchTerminated() { if (!m_aProgressHandler.IsSet()) return; FmSearchProgress aProgress; try { switch (m_srResult) { case SearchResult::Error : aProgress.aSearchState = FmSearchProgress::State::Error; break; case SearchResult::Found : aProgress.aSearchState = FmSearchProgress::State::Successful; aProgress.aBookmark = m_aPreviousLocBookmark; aProgress.nFieldIndex = m_iterPreviousLocField - m_arrUsedFields.begin(); break; case SearchResult::NotFound : aProgress.aSearchState = FmSearchProgress::State::NothingFound; aProgress.aBookmark = m_xSearchCursor.getBookmark(); break; case SearchResult::Cancelled : aProgress.aSearchState = FmSearchProgress::State::Canceled; aProgress.aBookmark = m_xSearchCursor.getBookmark(); break; } aProgress.nCurrentRecord = m_xSearchCursor.getRow() - 1; } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); } // by definition, the link must be thread-safe (I just require that), // so that I do not have to worry about such things here m_aProgressHandler.Call(&aProgress); m_bSearchingCurrently = false; } IMPL_LINK(FmSearchEngine, OnNewRecordCount, sal_Int32, theCounter, void) { if (!m_aProgressHandler.IsSet()) return; FmSearchProgress aProgress; aProgress.nCurrentRecord = theCounter; aProgress.aSearchState = FmSearchProgress::State::ProgressCounting; m_aProgressHandler.Call(&aProgress); } bool FmSearchEngine::CancelRequested() { m_aCancelAsynchAccess.acquire(); bool bReturn = m_bCancelAsynchRequest; m_aCancelAsynchAccess.release(); return bReturn; } void FmSearchEngine::CancelSearch() { m_aCancelAsynchAccess.acquire(); m_bCancelAsynchRequest = true; m_aCancelAsynchAccess.release(); } void FmSearchEngine::SwitchToContext(const Reference< css::sdbc::XResultSet > & xCursor, const OUString& sVisibleFields, const InterfaceArray& arrFields, sal_Int32 nFieldIndex) { DBG_ASSERT(!m_bSearchingCurrently, "FmSearchEngine::SwitchToContext : please do not call while I'm searching !"); if (m_bSearchingCurrently) return; m_xSearchCursor = xCursor; m_xOriginalIterator = xCursor; m_xClonedIterator = CursorWrapper(m_xOriginalIterator, true); fillControlTexts(arrFields); Init(sVisibleFields); RebuildUsedFields(nFieldIndex, true); } void FmSearchEngine::ImplStartNextSearch() { m_bCancelAsynchRequest = false; m_bSearchingCurrently = true; SearchNextImpl(); OnSearchTerminated(); } void FmSearchEngine::SearchNext(const OUString& strExpression) { m_strSearchExpression = strExpression; m_eSearchForType = SearchFor::String; ImplStartNextSearch(); } void FmSearchEngine::SearchNextSpecial(bool _bSearchForNull) { m_eSearchForType = _bSearchForNull ? SearchFor::Null : SearchFor::NotNull; ImplStartNextSearch(); } void FmSearchEngine::StartOver(const OUString& strExpression) { try { if (m_bForward) m_xSearchCursor.first(); else m_xSearchCursor.last(); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return; } InvalidatePreviousLoc(); SearchNext(strExpression); } void FmSearchEngine::StartOverSpecial(bool _bSearchForNull) { try { if (m_bForward) m_xSearchCursor.first(); else m_xSearchCursor.last(); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("svx"); return; } InvalidatePreviousLoc(); SearchNextSpecial(_bSearchForNull); } void FmSearchEngine::InvalidatePreviousLoc() { m_aPreviousLocBookmark.clear(); m_iterPreviousLocField = m_arrUsedFields.end(); } void FmSearchEngine::RebuildUsedFields(sal_Int32 nFieldIndex, bool bForce) { if (!bForce && (nFieldIndex == m_nCurrentFieldIndex)) return; // (since I allow no change of the iterator from the outside, the same css::sdbcx::Index // also always means the same column, so I have nothing to do) DBG_ASSERT((nFieldIndex == -1) || ((nFieldIndex >= 0) && (static_cast(nFieldIndex) < m_arrFieldMapping.size())), "FmSearchEngine::RebuildUsedFields : nFieldIndex is invalid!"); // collect all fields I need to search through m_arrUsedFields.clear(); if (nFieldIndex == -1) { Reference< css::container::XIndexAccess > xFields; for (sal_Int32 i : m_arrFieldMapping) { Reference< css::sdbcx::XColumnsSupplier > xSupplyCols(IFACECAST(m_xSearchCursor), UNO_QUERY); DBG_ASSERT(xSupplyCols.is(), "FmSearchEngine::RebuildUsedFields : invalid cursor (no columns supplier) !"); xFields.set(xSupplyCols->getColumns(), UNO_QUERY); BuildAndInsertFieldInfo(xFields, i); } } else { Reference< css::container::XIndexAccess > xFields; Reference< css::sdbcx::XColumnsSupplier > xSupplyCols(IFACECAST(m_xSearchCursor), UNO_QUERY); DBG_ASSERT(xSupplyCols.is(), "FmSearchEngine::RebuildUsedFields : invalid cursor (no columns supplier) !"); xFields.set (xSupplyCols->getColumns(), UNO_QUERY); BuildAndInsertFieldInfo(xFields, m_arrFieldMapping[static_cast< size_t >(nFieldIndex)]); } m_nCurrentFieldIndex = nFieldIndex; // and of course I start the next search in a virgin state again InvalidatePreviousLoc(); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */