/* -*- 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 using namespace ::com::sun::star; #define WID_SEARCH_BACKWARDS 0 #define WID_SEARCH_CASE 1 #define WID_SEARCH_WORDS 2 static std::span ImplGetSearchPropertyMap() { static const SfxItemPropertyMapEntry aSearchPropertyMap_Impl[] = { { u"" UNO_NAME_SEARCH_BACKWARDS ""_ustr, WID_SEARCH_BACKWARDS, cppu::UnoType::get(), 0, 0 }, { u"" UNO_NAME_SEARCH_CASE ""_ustr, WID_SEARCH_CASE, cppu::UnoType::get(), 0, 0 }, { u"" UNO_NAME_SEARCH_WORDS ""_ustr, WID_SEARCH_WORDS, cppu::UnoType::get(), 0, 0 }, }; return aSearchPropertyMap_Impl; } namespace { class SearchContext_impl { uno::Reference< drawing::XShapes > mxShapes; sal_Int32 mnIndex; public: SearchContext_impl(uno::Reference xShapes) : mxShapes(std::move( xShapes )), mnIndex( -1 ) {} uno::Reference< drawing::XShape > firstShape() { mnIndex = -1; return nextShape(); } uno::Reference< drawing::XShape > nextShape() { uno::Reference< drawing::XShape > xShape; mnIndex++; if( mxShapes.is() && mxShapes->getCount() > mnIndex ) { mxShapes->getByIndex( mnIndex ) >>= xShape; } return xShape; } }; } /* ================================================================= */ /** this class implements a search or replace operation on a given page or a given sdrobj */ SdUnoSearchReplaceShape::SdUnoSearchReplaceShape( drawing::XDrawPage* pPage ) noexcept : mpPage(pPage) { } SdUnoSearchReplaceShape::~SdUnoSearchReplaceShape() noexcept { } // util::XReplaceable uno::Reference< util::XReplaceDescriptor > SAL_CALL SdUnoSearchReplaceShape::createReplaceDescriptor() { return new SdUnoSearchReplaceDescriptor; } sal_Int32 SAL_CALL SdUnoSearchReplaceShape::replaceAll( const uno::Reference< util::XSearchDescriptor >& xDesc ) { SdUnoSearchReplaceDescriptor* pDescr = dynamic_cast( xDesc.get() ); if( pDescr == nullptr ) return 0; sal_Int32 nFound = 0; uno::Reference< drawing::XShapes > xShapes; uno::Reference< drawing::XShape > xShape; std::vector aContexts; if(mpPage) { xShapes = mpPage; if( xShapes->getCount() ) { aContexts.push_back(SearchContext_impl(xShapes)); xShape = aContexts.back().firstShape(); } else { xShapes = nullptr; } } while( xShape.is() ) { // replace in xShape uno::Reference< text::XText > xText(xShape, uno::UNO_QUERY); uno::Reference< text::XTextRange > xRange = xText; uno::Reference< text::XTextRange > xFound; while( xRange.is() ) { xFound = Search( xRange, pDescr ); if( !xFound.is() ) break; xFound->setString( pDescr->getReplaceString() ); xRange = xFound->getEnd(); nFound++; } // done with xShape -> get next shape // test if it's a group uno::Reference< drawing::XShapes > xGroupShape( xShape, uno::UNO_QUERY ); if( xGroupShape.is() && ( xGroupShape->getCount() > 0 ) ) { aContexts.push_back(SearchContext_impl(xGroupShape)); xShape = aContexts.back().firstShape(); } else { if (!aContexts.empty()) xShape = aContexts.back().nextShape(); else xShape = nullptr; } // test parent contexts for next shape if none // is found in the current context while (!aContexts.empty() && !xShape.is()) { aContexts.pop_back(); if (!aContexts.empty()) xShape = aContexts.back().nextShape(); } } return nFound; } // XSearchable uno::Reference< css::util::XSearchDescriptor > SAL_CALL SdUnoSearchReplaceShape::createSearchDescriptor( ) { return new SdUnoSearchReplaceDescriptor; } uno::Reference< css::container::XIndexAccess > SAL_CALL SdUnoSearchReplaceShape::findAll( const css::uno::Reference< css::util::XSearchDescriptor >& xDesc ) { SdUnoSearchReplaceDescriptor* pDescr = dynamic_cast( xDesc.get() ); if( pDescr == nullptr ) return uno::Reference< container::XIndexAccess > (); sal_Int32 nSequence = 32; sal_Int32 nFound = 0; uno::Sequence < uno::Reference< uno::XInterface > > aSeq( nSequence ); uno::Reference< uno::XInterface > * pArray = aSeq.getArray(); uno::Reference< drawing::XShapes > xShapes; uno::Reference< drawing::XShape > xShape; std::vector aContexts; if(mpPage) { xShapes = mpPage; if( xShapes->getCount() > 0 ) { aContexts.push_back(SearchContext_impl(xShapes)); xShape = aContexts.back().firstShape(); } else { xShapes = nullptr; } } while( xShape.is() ) { // find in xShape uno::Reference< text::XText > xText(xShape, uno::UNO_QUERY); uno::Reference< text::XTextRange > xRange = xText; uno::Reference< text::XTextRange > xFound; while( xRange.is() ) { xFound = Search( xRange, pDescr ); if( !xFound.is() ) break; if( nFound >= nSequence ) { nSequence += 32; aSeq.realloc( nSequence ); pArray = aSeq.getArray(); } pArray[nFound++] = xFound; xRange = xFound->getEnd(); } // done with shape -> get next shape // test if it's a group uno::Reference< drawing::XShapes > xGroupShape; xGroupShape.set( xShape, uno::UNO_QUERY ); if( xGroupShape.is() && xGroupShape->getCount() > 0 ) { aContexts.push_back(SearchContext_impl(xGroupShape)); xShape = aContexts.back().firstShape(); } else { if (!aContexts.empty()) xShape = aContexts.back().nextShape(); else xShape = nullptr; } // test parent contexts for next shape if none // is found in the current context while (!aContexts.empty() && !xShape.is()) { aContexts.pop_back(); if (!aContexts.empty()) xShape = aContexts.back().nextShape(); } } if( nFound != nSequence ) aSeq.realloc( nFound ); uno::Reference xRet(new SdUnoFindAllAccess(aSeq)); return xRet; } uno::Reference< css::uno::XInterface > SAL_CALL SdUnoSearchReplaceShape::findFirst( const css::uno::Reference< css::util::XSearchDescriptor >& xDesc ) { uno::Reference< text::XTextRange > xRange( GetCurrentShape(), uno::UNO_QUERY ); if( xRange.is() ) return findNext( xRange, xDesc ); return uno::Reference< uno::XInterface > (); } uno::Reference< drawing::XShape > SdUnoSearchReplaceShape::GetCurrentShape() const noexcept { uno::Reference< drawing::XShape > xShape; if( mpPage && mpPage->getCount() > 0) mpPage->getByIndex(0) >>= xShape; return xShape; } uno::Reference< css::uno::XInterface > SAL_CALL SdUnoSearchReplaceShape::findNext( const css::uno::Reference< css::uno::XInterface >& xStartAt, const css::uno::Reference< css::util::XSearchDescriptor >& xDesc ) { SdUnoSearchReplaceDescriptor* pDescr = dynamic_cast( xDesc.get() ); uno::Reference< uno::XInterface > xFound; uno::Reference< text::XTextRange > xRange( xStartAt, uno::UNO_QUERY ); if(pDescr && xRange.is() ) { uno::Reference< text::XTextRange > xCurrentRange( xStartAt, uno::UNO_QUERY ); uno::Reference< drawing::XShape > xCurrentShape( GetShape( xCurrentRange ) ); while(!xFound.is() && xRange.is()) { xFound = Search( xRange, pDescr ); if(!xFound.is()) { // we need a new starting range now xRange = nullptr; if(mpPage) { // we do a page wide search, so skip to the next shape here // get next shape on our page uno::Reference< drawing::XShape > xFound2( GetNextShape( mpPage, xCurrentShape ) ); if( xFound2.is() && (xFound2.get() != xCurrentShape.get()) ) xCurrentShape = std::move(xFound2); else xCurrentShape = nullptr; xRange.set( xCurrentShape, uno::UNO_QUERY ); if(!(xCurrentShape.is() && (xRange.is()))) xRange = nullptr; } else { // we search only in this shape, so end search if we have // not found anything } } } } return xFound; } /** this method returns the shape that follows xCurrentShape in the shape collection xShapes. It steps recursive into groupshapes and returns the xCurrentShape if it is the last shape in this collection */ uno::Reference< drawing::XShape > SdUnoSearchReplaceShape::GetNextShape( const uno::Reference< container::XIndexAccess >& xShapes, const uno::Reference< drawing::XShape >& xCurrentShape ) noexcept { uno::Reference< drawing::XShape > xFound; if(xShapes.is() && xCurrentShape.is()) { const sal_Int32 nCount = xShapes->getCount(); for( sal_Int32 i = 0; i < nCount; i++ ) { uno::Reference< drawing::XShape > xSearchShape; xShapes->getByIndex(i) >>= xSearchShape; if( xSearchShape.is() ) { uno::Reference< container::XIndexAccess > xGroup( xSearchShape, uno::UNO_QUERY ); if( xCurrentShape.get() == xSearchShape.get() ) { if( xGroup.is() && xGroup->getCount() > 0 ) { xGroup->getByIndex( 0 ) >>= xFound; } else { i++; if( i < nCount ) xShapes->getByIndex( i ) >>= xFound; else xFound = xCurrentShape; } break; } else if( xGroup.is() ) { xFound = GetNextShape( xGroup, xCurrentShape ); if( xFound.is() ) { if( xFound.get() == xCurrentShape.get() ) { // the current shape was found at the end of the group i++; if( i < nCount ) { xShapes->getByIndex(i) >>= xFound; } } break; } } } } } return xFound; } uno::Reference< text::XTextRange > SdUnoSearchReplaceShape::Search( const uno::Reference< text::XTextRange >& xText, SdUnoSearchReplaceDescriptor* pDescr ) { if(!xText.is()) return uno::Reference< text::XTextRange > (); uno::Reference< text::XText > xParent( xText->getText() ); if( !xParent.is() ) { xParent.set( xText, uno::UNO_QUERY ); } const OUString aText( xParent->getString() ); const sal_Int32 nTextLen = aText.getLength(); std::unique_ptr pConvertPos( new sal_Int32[nTextLen+2] ); std::unique_ptr pConvertPara( new sal_Int32[nTextLen+2] ); sal_Int32* pPos = pConvertPos.get(); sal_Int32* pPara = pConvertPara.get(); sal_Int32 nLastPos = 0, nLastPara = 0; uno::Reference< container::XEnumerationAccess > xEnumAccess( xParent, uno::UNO_QUERY ); // first we fill the arrays with the position and paragraph for every character // inside the text if( xEnumAccess.is() ) { uno::Reference< container::XEnumeration > xParaEnum( xEnumAccess->createEnumeration() ); while(xParaEnum->hasMoreElements()) { int ndbg = 0; uno::Reference< text::XTextContent > xParagraph( xParaEnum->nextElement(), uno::UNO_QUERY ); if( xParagraph.is() ) xEnumAccess.set(xParagraph, css::uno::UNO_QUERY); else xEnumAccess.clear(); if( xEnumAccess.is() ) { uno::Reference< container::XEnumeration > xPortionEnum( xEnumAccess->createEnumeration() ); if( xPortionEnum.is() ) { while(xPortionEnum->hasMoreElements()) { uno::Reference< text::XTextRange > xPortion( xPortionEnum->nextElement(), uno::UNO_QUERY ); if( xPortion.is() ) { const OUString aPortion( xPortion->getString() ); const sal_Int32 nLen = aPortion.getLength(); ESelection aStartSel( GetSelection( xPortion->getStart() ) ); ESelection aEndSel( GetSelection( xPortion->getEnd() ) ); // special case for empty portions with content or length one portions with content (fields) if( (aStartSel.start.nIndex == aEndSel.start.nIndex) || ( (aStartSel.start.nIndex == (aEndSel.start.nIndex - 1)) && (nLen > 1) ) ) { for( sal_Int32 i = 0; i < nLen; i++ ) { if( ndbg < (nTextLen+2) ) { *pPos++ = aStartSel.start.nIndex; *pPara++ = aStartSel.start.nPara; ndbg += 1; } else { OSL_FAIL( "array overflow while searching" ); } } nLastPos = aStartSel.start.nIndex; } // normal case else { for( sal_Int32 i = 0; i < nLen; i++ ) { if( ndbg < (nTextLen+2) ) { *pPos++ = aStartSel.start.nIndex++; *pPara++ = aStartSel.start.nPara; ndbg += 1; } else { OSL_FAIL( "array overflow while searching" ); } } nLastPos = aStartSel.start.nIndex - 1; DBG_ASSERT( aEndSel.start.nIndex == aStartSel.start.nIndex, "Search is not working" ); } nLastPara = aStartSel.start.nPara; } } } } if( ndbg < (nTextLen+2) ) { *pPos++ = nLastPos + 1; *pPara++ = nLastPara; } else { OSL_FAIL( "array overflow while searching" ); } } } uno::Reference< text::XTextRange > xFound; ESelection aSel; if( xText.is() ) aSel = GetSelection( xText ); sal_Int32 nStartPos; sal_Int32 nEndPos = 0; for( nStartPos = 0; nStartPos < nTextLen; nStartPos++ ) { if( pConvertPara[nStartPos] == aSel.start.nPara && pConvertPos[nStartPos] == aSel.start.nIndex ) break; } if( Search( aText, nStartPos, nEndPos, pDescr ) ) { if( nStartPos <= nTextLen && nEndPos <= nTextLen ) { ESelection aSelection( pConvertPara[nStartPos], pConvertPos[nStartPos], pConvertPara[nEndPos], pConvertPos[nEndPos] ); SvxUnoTextBase* pParent = comphelper::getFromUnoTunnel( xParent ); if(pParent) { rtl::Reference pRange = new SvxUnoTextRange( *pParent ); xFound = pRange; pRange->SetSelection(aSelection); } } else { OSL_FAIL("Array overflow while searching!"); } } return xFound; } bool SdUnoSearchReplaceShape::Search( const OUString& rText, sal_Int32& nStartPos, sal_Int32& nEndPos, SdUnoSearchReplaceDescriptor* pDescr ) noexcept { OUString aSearchStr( pDescr->getSearchString() ); OUString aText( rText ); if( !pDescr->IsCaseSensitive() ) { aText = aText.toAsciiLowerCase(); aSearchStr = aSearchStr.toAsciiLowerCase(); } sal_Int32 nFound = aText.indexOf( aSearchStr, nStartPos ); if( nFound != -1 ) { nStartPos = nFound; nEndPos = nFound + aSearchStr.getLength(); if(pDescr->IsWords()) { if( (nStartPos > 0 && aText[nStartPos-1] > ' ') || (nEndPos < aText.getLength() && aText[nEndPos] > ' ') ) { nStartPos++; return Search( aText, nStartPos, nEndPos, pDescr ); } } return true; } else return false; } ESelection SdUnoSearchReplaceShape::GetSelection( const uno::Reference< text::XTextRange >& xTextRange ) noexcept { ESelection aSel; SvxUnoTextRangeBase* pRange = comphelper::getFromUnoTunnel( xTextRange ); if(pRange) aSel = pRange->GetSelection(); return aSel; } uno::Reference< drawing::XShape > SdUnoSearchReplaceShape::GetShape( const uno::Reference< text::XTextRange >& xTextRange ) noexcept { uno::Reference< drawing::XShape > xShape; if(xTextRange.is()) { uno::Reference< text::XText > xText( xTextRange->getText() ); if(xText.is()) { do { xShape.set( xText, uno::UNO_QUERY ); if(!xShape.is()) { uno::Reference< text::XText > xParent( xText->getText() ); if(!xParent.is() || xText.get() == xParent.get()) return xShape; xText = std::move(xParent); } } while( !xShape.is() ); } } return xShape; } /* ================================================================= */ /** this class holds the parameters and status of a search or replace operation performed by class SdUnoSearchReplaceShape */ SdUnoSearchReplaceDescriptor::SdUnoSearchReplaceDescriptor() { mpPropSet.reset( new SvxItemPropertySet(ImplGetSearchPropertyMap(), SdrObject::GetGlobalDrawObjectItemPool()) ); mbBackwards = false; mbCaseSensitive = false; mbWords = false; } SdUnoSearchReplaceDescriptor::~SdUnoSearchReplaceDescriptor() noexcept { } // XSearchDescriptor OUString SAL_CALL SdUnoSearchReplaceDescriptor::getSearchString() { return maSearchStr; } void SAL_CALL SdUnoSearchReplaceDescriptor::setSearchString( const OUString& aString ) { maSearchStr = aString; } // XReplaceDescriptor OUString SAL_CALL SdUnoSearchReplaceDescriptor::getReplaceString() { return maReplaceStr; } void SAL_CALL SdUnoSearchReplaceDescriptor::setReplaceString( const OUString& aReplaceString ) { maReplaceStr = aReplaceString; } // XPropertySet uno::Reference< css::beans::XPropertySetInfo > SAL_CALL SdUnoSearchReplaceDescriptor::getPropertySetInfo() { SolarMutexGuard aGuard; return mpPropSet->getPropertySetInfo(); } void SAL_CALL SdUnoSearchReplaceDescriptor::setPropertyValue( const OUString& aPropertyName, const css::uno::Any& aValue ) { SolarMutexGuard aGuard; const SfxItemPropertyMapEntry* pEntry = mpPropSet->getPropertyMapEntry(aPropertyName); bool bOk = false; switch( pEntry ? pEntry->nWID : -1 ) { case WID_SEARCH_BACKWARDS: bOk = (aValue >>= mbBackwards); break; case WID_SEARCH_CASE: bOk = (aValue >>= mbCaseSensitive); break; case WID_SEARCH_WORDS: bOk = (aValue >>= mbWords); break; default: throw beans::UnknownPropertyException( aPropertyName, static_cast(this)); } if( !bOk ) throw lang::IllegalArgumentException(); } uno::Any SAL_CALL SdUnoSearchReplaceDescriptor::getPropertyValue( const OUString& PropertyName ) { SolarMutexGuard aGuard; uno::Any aAny; const SfxItemPropertyMapEntry* pEntry = mpPropSet->getPropertyMapEntry(PropertyName); switch( pEntry ? pEntry->nWID : -1 ) { case WID_SEARCH_BACKWARDS: aAny <<= mbBackwards; break; case WID_SEARCH_CASE: aAny <<= mbCaseSensitive; break; case WID_SEARCH_WORDS: aAny <<= mbWords; break; default: throw beans::UnknownPropertyException( PropertyName, static_cast(this)); } return aAny; } void SAL_CALL SdUnoSearchReplaceDescriptor::addPropertyChangeListener( const OUString& , const css::uno::Reference< css::beans::XPropertyChangeListener >& ) {} void SAL_CALL SdUnoSearchReplaceDescriptor::removePropertyChangeListener( const OUString& , const css::uno::Reference< css::beans::XPropertyChangeListener >& ) {} void SAL_CALL SdUnoSearchReplaceDescriptor::addVetoableChangeListener( const OUString& , const css::uno::Reference< css::beans::XVetoableChangeListener >& ) {} void SAL_CALL SdUnoSearchReplaceDescriptor::removeVetoableChangeListener( const OUString& , const css::uno::Reference< css::beans::XVetoableChangeListener >& ) {} /* ================================================================= */ SdUnoFindAllAccess::SdUnoFindAllAccess( uno::Sequence< uno::Reference< uno::XInterface > > const & rSequence ) noexcept :maSequence( rSequence ) { } SdUnoFindAllAccess::~SdUnoFindAllAccess() noexcept { } // XElementAccess uno::Type SAL_CALL SdUnoFindAllAccess::getElementType() { return cppu::UnoType::get(); } sal_Bool SAL_CALL SdUnoFindAllAccess::hasElements() { return maSequence.hasElements(); } // XIndexAccess sal_Int32 SAL_CALL SdUnoFindAllAccess::getCount() { return maSequence.getLength(); } uno::Any SAL_CALL SdUnoFindAllAccess::getByIndex( sal_Int32 Index ) { if( Index < 0 || Index >= getCount() ) throw lang::IndexOutOfBoundsException(); uno::Any aAny; aAny <<= maSequence[Index]; return aAny; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */