/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_comphelper.hxx" // includes -------------------------------------------------------------- #include #include #include #include #include #include #include #include //.............................................................................. namespace comphelper { //.............................................................................. using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::accessibility; //============================================================================== // OCommonAccessibleText //============================================================================== OCommonAccessibleText::OCommonAccessibleText() { } // ----------------------------------------------------------------------------- OCommonAccessibleText::~OCommonAccessibleText() { } // ----------------------------------------------------------------------------- Reference < i18n::XBreakIterator > OCommonAccessibleText::implGetBreakIterator() { if ( !m_xBreakIter.is() ) { Reference< lang::XMultiServiceFactory > xMSF = ::comphelper::getProcessServiceFactory(); if ( xMSF.is() ) { m_xBreakIter = Reference< i18n::XBreakIterator > ( xMSF->createInstance( ::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.i18n.BreakIterator" ) ) ), UNO_QUERY ); } } return m_xBreakIter; } // ----------------------------------------------------------------------------- Reference < i18n::XCharacterClassification > OCommonAccessibleText::implGetCharacterClassification() { if ( !m_xCharClass.is() ) { Reference< lang::XMultiServiceFactory > xMSF = ::comphelper::getProcessServiceFactory(); if ( xMSF.is() ) { m_xCharClass = Reference< i18n::XCharacterClassification > ( xMSF->createInstance( ::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.i18n.CharacterClassification" ) ) ), UNO_QUERY ); } } return m_xCharClass; } // ----------------------------------------------------------------------------- sal_Bool OCommonAccessibleText::implIsValidBoundary( i18n::Boundary& rBoundary, sal_Int32 nLength ) { return ( rBoundary.startPos >= 0 ) && ( rBoundary.startPos < nLength ) && ( rBoundary.endPos >= 0 ) && ( rBoundary.endPos <= nLength ); } // ----------------------------------------------------------------------------- sal_Bool OCommonAccessibleText::implIsValidIndex( sal_Int32 nIndex, sal_Int32 nLength ) { return ( nIndex >= 0 ) && ( nIndex < nLength ); } // ----------------------------------------------------------------------------- sal_Bool OCommonAccessibleText::implIsValidRange( sal_Int32 nStartIndex, sal_Int32 nEndIndex, sal_Int32 nLength ) { return ( nStartIndex >= 0 ) && ( nStartIndex <= nLength ) && ( nEndIndex >= 0 ) && ( nEndIndex <= nLength ); } // ----------------------------------------------------------------------------- void OCommonAccessibleText::implGetGlyphBoundary( i18n::Boundary& rBoundary, sal_Int32 nIndex ) { ::rtl::OUString sText( implGetText() ); if ( implIsValidIndex( nIndex, sText.getLength() ) ) { Reference < i18n::XBreakIterator > xBreakIter = implGetBreakIterator(); if ( xBreakIter.is() ) { sal_Int32 nCount = 1; sal_Int32 nDone; sal_Int32 nStartIndex = xBreakIter->previousCharacters( sText, nIndex, implGetLocale(), i18n::CharacterIteratorMode::SKIPCELL, nCount, nDone ); if ( nDone != 0 ) nStartIndex = xBreakIter->nextCharacters( sText, nStartIndex, implGetLocale(), i18n::CharacterIteratorMode::SKIPCELL, nCount, nDone ); sal_Int32 nEndIndex = xBreakIter->nextCharacters( sText, nStartIndex, implGetLocale(), i18n::CharacterIteratorMode::SKIPCELL, nCount, nDone ); if ( nDone != 0 ) { rBoundary.startPos = nStartIndex; rBoundary.endPos = nEndIndex; } } } else { rBoundary.startPos = nIndex; rBoundary.endPos = nIndex; } } // ----------------------------------------------------------------------------- sal_Bool OCommonAccessibleText::implGetWordBoundary( i18n::Boundary& rBoundary, sal_Int32 nIndex ) { sal_Bool bWord = sal_False; ::rtl::OUString sText( implGetText() ); if ( implIsValidIndex( nIndex, sText.getLength() ) ) { Reference < i18n::XBreakIterator > xBreakIter = implGetBreakIterator(); if ( xBreakIter.is() ) { rBoundary = xBreakIter->getWordBoundary( sText, nIndex, implGetLocale(), i18n::WordType::ANY_WORD, sal_True ); // it's a word, if the first character is an alpha-numeric character Reference< i18n::XCharacterClassification > xCharClass = implGetCharacterClassification(); if ( xCharClass.is() ) { sal_Int32 nType = xCharClass->getCharacterType( sText, rBoundary.startPos, implGetLocale() ); if ( ( nType & ( i18n::KCharacterType::LETTER | i18n::KCharacterType::DIGIT ) ) != 0 ) bWord = sal_True; } } } else { rBoundary.startPos = nIndex; rBoundary.endPos = nIndex; } return bWord; } // ----------------------------------------------------------------------------- void OCommonAccessibleText::implGetSentenceBoundary( i18n::Boundary& rBoundary, sal_Int32 nIndex ) { ::rtl::OUString sText( implGetText() ); if ( implIsValidIndex( nIndex, sText.getLength() ) ) { Locale aLocale = implGetLocale(); Reference < i18n::XBreakIterator > xBreakIter = implGetBreakIterator(); if ( xBreakIter.is() ) { rBoundary.endPos = xBreakIter->endOfSentence( sText, nIndex, aLocale ); rBoundary.startPos = xBreakIter->beginOfSentence( sText, rBoundary.endPos, aLocale ); } } else { rBoundary.startPos = nIndex; rBoundary.endPos = nIndex; } } // ----------------------------------------------------------------------------- void OCommonAccessibleText::implGetParagraphBoundary( i18n::Boundary& rBoundary, sal_Int32 nIndex ) { ::rtl::OUString sText( implGetText() ); if ( implIsValidIndex( nIndex, sText.getLength() ) ) { rBoundary.startPos = 0; rBoundary.endPos = sText.getLength(); sal_Int32 nFound = sText.lastIndexOf( (sal_Unicode)'\n', nIndex ); if ( nFound != -1 ) rBoundary.startPos = nFound + 1; nFound = sText.indexOf( (sal_Unicode)'\n', nIndex ); if ( nFound != -1 ) rBoundary.endPos = nFound + 1; } else { rBoundary.startPos = nIndex; rBoundary.endPos = nIndex; } } // ----------------------------------------------------------------------------- void OCommonAccessibleText::implGetLineBoundary( i18n::Boundary& rBoundary, sal_Int32 nIndex ) { ::rtl::OUString sText( implGetText() ); sal_Int32 nLength = sText.getLength(); if ( implIsValidIndex( nIndex, nLength ) || nIndex == nLength ) { rBoundary.startPos = 0; rBoundary.endPos = nLength; } else { rBoundary.startPos = nIndex; rBoundary.endPos = nIndex; } } // ----------------------------------------------------------------------------- sal_Unicode OCommonAccessibleText::getCharacter( sal_Int32 nIndex ) throw (IndexOutOfBoundsException, RuntimeException) { ::rtl::OUString sText( implGetText() ); if ( !implIsValidIndex( nIndex, sText.getLength() ) ) throw IndexOutOfBoundsException(); return sText.getStr()[nIndex]; } // ----------------------------------------------------------------------------- sal_Int32 OCommonAccessibleText::getCharacterCount() throw (RuntimeException) { return implGetText().getLength(); } // ----------------------------------------------------------------------------- ::rtl::OUString OCommonAccessibleText::getSelectedText() throw (RuntimeException) { ::rtl::OUString sText; sal_Int32 nStartIndex; sal_Int32 nEndIndex; implGetSelection( nStartIndex, nEndIndex ); try { sText = getTextRange( nStartIndex, nEndIndex ); } catch ( IndexOutOfBoundsException& ) { } return sText; } // ----------------------------------------------------------------------------- sal_Int32 OCommonAccessibleText::getSelectionStart() throw (RuntimeException) { sal_Int32 nStartIndex; sal_Int32 nEndIndex; implGetSelection( nStartIndex, nEndIndex ); return nStartIndex; } // ----------------------------------------------------------------------------- sal_Int32 OCommonAccessibleText::getSelectionEnd() throw (RuntimeException) { sal_Int32 nStartIndex; sal_Int32 nEndIndex; implGetSelection( nStartIndex, nEndIndex ); return nEndIndex; } // ----------------------------------------------------------------------------- ::rtl::OUString OCommonAccessibleText::getText() throw (RuntimeException) { return implGetText(); } // ----------------------------------------------------------------------------- ::rtl::OUString OCommonAccessibleText::getTextRange( sal_Int32 nStartIndex, sal_Int32 nEndIndex ) throw (IndexOutOfBoundsException, RuntimeException) { ::rtl::OUString sText( implGetText() ); if ( !implIsValidRange( nStartIndex, nEndIndex, sText.getLength() ) ) throw IndexOutOfBoundsException(); sal_Int32 nMinIndex = ::std::min( nStartIndex, nEndIndex ); sal_Int32 nMaxIndex = ::std::max( nStartIndex, nEndIndex ); return sText.copy( nMinIndex, nMaxIndex - nMinIndex ); } // ----------------------------------------------------------------------------- TextSegment OCommonAccessibleText::getTextAtIndex( sal_Int32 nIndex, sal_Int16 aTextType ) throw (IndexOutOfBoundsException, IllegalArgumentException, RuntimeException) { ::rtl::OUString sText( implGetText() ); sal_Int32 nLength = sText.getLength(); if ( !implIsValidIndex( nIndex, nLength ) && nIndex != nLength ) throw IndexOutOfBoundsException(); i18n::Boundary aBoundary; TextSegment aResult; aResult.SegmentStart = -1; aResult.SegmentEnd = -1; switch ( aTextType ) { case AccessibleTextType::CHARACTER: { if ( implIsValidIndex( nIndex, nLength ) ) { aResult.SegmentText = sText.copy( nIndex, 1 ); aResult.SegmentStart = nIndex; aResult.SegmentEnd = nIndex+1; } } break; case AccessibleTextType::GLYPH: { // get glyph at index implGetGlyphBoundary( aBoundary, nIndex ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::WORD: { // get word at index sal_Bool bWord = implGetWordBoundary( aBoundary, nIndex ); if ( bWord && implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::SENTENCE: { // get sentence at index implGetSentenceBoundary( aBoundary, nIndex ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::PARAGRAPH: { // get paragraph at index implGetParagraphBoundary( aBoundary, nIndex ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::LINE: { // get line at index implGetLineBoundary( aBoundary, nIndex ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::ATTRIBUTE_RUN: { // TODO: implGetAttributeRunBoundary() (incompatible!) aResult.SegmentText = sText; aResult.SegmentStart = 0; aResult.SegmentEnd = nLength; } break; default: { // unknown text type } } return aResult; } // ----------------------------------------------------------------------------- TextSegment OCommonAccessibleText::getTextBeforeIndex( sal_Int32 nIndex, sal_Int16 aTextType ) throw (IndexOutOfBoundsException, IllegalArgumentException, RuntimeException) { ::rtl::OUString sText( implGetText() ); sal_Int32 nLength = sText.getLength(); if ( !implIsValidIndex( nIndex, nLength ) && nIndex != nLength ) throw IndexOutOfBoundsException(); i18n::Boundary aBoundary; TextSegment aResult; aResult.SegmentStart = -1; aResult.SegmentEnd = -1; switch ( aTextType ) { case AccessibleTextType::CHARACTER: { if ( implIsValidIndex( nIndex - 1, nLength ) ) { aResult.SegmentText = sText.copy( nIndex - 1, 1 ); aResult.SegmentStart = nIndex-1; aResult.SegmentEnd = nIndex; } } break; case AccessibleTextType::GLYPH: { // get glyph at index implGetGlyphBoundary( aBoundary, nIndex ); // get previous glyph if ( aBoundary.startPos > 0 ) { implGetGlyphBoundary( aBoundary, aBoundary.startPos - 1 ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } } break; case AccessibleTextType::WORD: { // get word at index implGetWordBoundary( aBoundary, nIndex ); // get previous word sal_Bool bWord = sal_False; while ( !bWord && aBoundary.startPos > 0 ) bWord = implGetWordBoundary( aBoundary, aBoundary.startPos - 1 ); if ( bWord && implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::SENTENCE: { // get sentence at index implGetSentenceBoundary( aBoundary, nIndex ); // get previous sentence if ( aBoundary.startPos > 0 ) { implGetSentenceBoundary( aBoundary, aBoundary.startPos - 1 ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } } break; case AccessibleTextType::PARAGRAPH: { // get paragraph at index implGetParagraphBoundary( aBoundary, nIndex ); // get previous paragraph if ( aBoundary.startPos > 0 ) { implGetParagraphBoundary( aBoundary, aBoundary.startPos - 1 ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } } break; case AccessibleTextType::LINE: { // get line at index implGetLineBoundary( aBoundary, nIndex ); // get previous line if ( aBoundary.startPos > 0 ) { implGetLineBoundary( aBoundary, aBoundary.startPos - 1 ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } } break; case AccessibleTextType::ATTRIBUTE_RUN: { // TODO: implGetAttributeRunBoundary() (incompatible!) } break; default: { // unknown text type } } return aResult; } // ----------------------------------------------------------------------------- TextSegment OCommonAccessibleText::getTextBehindIndex( sal_Int32 nIndex, sal_Int16 aTextType ) throw (IndexOutOfBoundsException, IllegalArgumentException, RuntimeException) { ::rtl::OUString sText( implGetText() ); sal_Int32 nLength = sText.getLength(); if ( !implIsValidIndex( nIndex, nLength ) && nIndex != nLength ) throw IndexOutOfBoundsException(); i18n::Boundary aBoundary; TextSegment aResult; aResult.SegmentStart = -1; aResult.SegmentEnd = -1; switch ( aTextType ) { case AccessibleTextType::CHARACTER: { if ( implIsValidIndex( nIndex + 1, nLength ) ) { aResult.SegmentText = sText.copy( nIndex + 1, 1 ); aResult.SegmentStart = nIndex+1; aResult.SegmentEnd = nIndex+2; } } break; case AccessibleTextType::GLYPH: { // get glyph at index implGetGlyphBoundary( aBoundary, nIndex ); // get next glyph if ( aBoundary.endPos < nLength ) { implGetGlyphBoundary( aBoundary, aBoundary.endPos ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } } break; case AccessibleTextType::WORD: { // get word at index implGetWordBoundary( aBoundary, nIndex ); // get next word sal_Bool bWord = sal_False; while ( !bWord && aBoundary.endPos < nLength ) bWord = implGetWordBoundary( aBoundary, aBoundary.endPos ); if ( bWord && implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::SENTENCE: { // get sentence at index implGetSentenceBoundary( aBoundary, nIndex ); // get next sentence sal_Int32 nEnd = aBoundary.endPos; sal_Int32 nI = aBoundary.endPos; sal_Bool bFound = sal_False; while ( !bFound && ++nI < nLength ) { implGetSentenceBoundary( aBoundary, nI ); bFound = ( aBoundary.endPos > nEnd ); } if ( bFound && implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } break; case AccessibleTextType::PARAGRAPH: { // get paragraph at index implGetParagraphBoundary( aBoundary, nIndex ); // get next paragraph if ( aBoundary.endPos < nLength ) { implGetParagraphBoundary( aBoundary, aBoundary.endPos ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } } break; case AccessibleTextType::LINE: { // get line at index implGetLineBoundary( aBoundary, nIndex ); // get next line if ( aBoundary.endPos < nLength ) { implGetLineBoundary( aBoundary, aBoundary.endPos ); if ( implIsValidBoundary( aBoundary, nLength ) ) { aResult.SegmentText = sText.copy( aBoundary.startPos, aBoundary.endPos - aBoundary.startPos ); aResult.SegmentStart = aBoundary.startPos; aResult.SegmentEnd = aBoundary.endPos; } } } break; case AccessibleTextType::ATTRIBUTE_RUN: { // TODO: implGetAttributeRunBoundary() (incompatible!) } break; default: { // unknown text type } } return aResult; } // ----------------------------------------------------------------------------- bool OCommonAccessibleText::implInitTextChangedEvent( const rtl::OUString& rOldString, const rtl::OUString& rNewString, ::com::sun::star::uno::Any& rDeleted, ::com::sun::star::uno::Any& rInserted) // throw() { sal_uInt32 nLenOld = rOldString.getLength(); sal_uInt32 nLenNew = rNewString.getLength(); // equal if ((0 == nLenOld) && (0 == nLenNew)) return false; TextSegment aDeletedText; TextSegment aInsertedText; aDeletedText.SegmentStart = -1; aDeletedText.SegmentEnd = -1; aInsertedText.SegmentStart = -1; aInsertedText.SegmentEnd = -1; // insert only if ((0 == nLenOld) && (nLenNew > 0)) { aInsertedText.SegmentStart = 0; aInsertedText.SegmentEnd = nLenNew; aInsertedText.SegmentText = rNewString.copy( aInsertedText.SegmentStart, aInsertedText.SegmentEnd - aInsertedText.SegmentStart ); rInserted <<= aInsertedText; return true; } // delete only if ((nLenOld > 0) && (0 == nLenNew)) { aDeletedText.SegmentStart = 0; aDeletedText.SegmentEnd = nLenOld; aDeletedText.SegmentText = rOldString.copy( aDeletedText.SegmentStart, aDeletedText.SegmentEnd - aDeletedText.SegmentStart ); rDeleted <<= aDeletedText; return true; } const sal_Unicode* pFirstDiffOld = rOldString.getStr(); const sal_Unicode* pLastDiffOld = rOldString.getStr() + nLenOld; const sal_Unicode* pFirstDiffNew = rNewString.getStr(); const sal_Unicode* pLastDiffNew = rNewString.getStr() + nLenNew; // find first difference while ((*pFirstDiffOld == *pFirstDiffNew) && (pFirstDiffOld < pLastDiffOld) && (pFirstDiffNew < pLastDiffNew)) { pFirstDiffOld++; pFirstDiffNew++; } // equality test if ((0 == *pFirstDiffOld) && (0 == *pFirstDiffNew)) return false; // find last difference while ( ( pLastDiffOld > pFirstDiffOld) && ( pLastDiffNew > pFirstDiffNew) && (pLastDiffOld[-1] == pLastDiffNew[-1])) { pLastDiffOld--; pLastDiffNew--; } if (pFirstDiffOld < pLastDiffOld) { aDeletedText.SegmentStart = pFirstDiffOld - rOldString.getStr(); aDeletedText.SegmentEnd = pLastDiffOld - rOldString.getStr(); aDeletedText.SegmentText = rOldString.copy( aDeletedText.SegmentStart, aDeletedText.SegmentEnd - aDeletedText.SegmentStart ); rDeleted <<= aDeletedText; } if (pFirstDiffNew < pLastDiffNew) { aInsertedText.SegmentStart = pFirstDiffNew - rNewString.getStr(); aInsertedText.SegmentEnd = pLastDiffNew - rNewString.getStr(); aInsertedText.SegmentText = rNewString.copy( aInsertedText.SegmentStart, aInsertedText.SegmentEnd - aInsertedText.SegmentStart ); rInserted <<= aInsertedText; } return true; } //============================================================================== // OAccessibleTextHelper //============================================================================== OAccessibleTextHelper::OAccessibleTextHelper() { } // ----------------------------------------------------------------------------- OAccessibleTextHelper::OAccessibleTextHelper( IMutex* _pExternalLock ) :OAccessibleExtendedComponentHelper( _pExternalLock ) { } // ----------------------------------------------------------------------------- // XInterface // ----------------------------------------------------------------------------- IMPLEMENT_FORWARD_XINTERFACE2( OAccessibleTextHelper, OAccessibleExtendedComponentHelper, OAccessibleTextHelper_Base ) // ----------------------------------------------------------------------------- // XTypeProvider // ----------------------------------------------------------------------------- IMPLEMENT_FORWARD_XTYPEPROVIDER2( OAccessibleTextHelper, OAccessibleExtendedComponentHelper, OAccessibleTextHelper_Base ) // ----------------------------------------------------------------------------- // XAccessibleText // ----------------------------------------------------------------------------- sal_Unicode OAccessibleTextHelper::getCharacter( sal_Int32 nIndex ) throw (IndexOutOfBoundsException, RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getCharacter( nIndex ); } // ----------------------------------------------------------------------------- sal_Int32 OAccessibleTextHelper::getCharacterCount() throw (RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getCharacterCount(); } // ----------------------------------------------------------------------------- ::rtl::OUString OAccessibleTextHelper::getSelectedText() throw (RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getSelectedText(); } // ----------------------------------------------------------------------------- sal_Int32 OAccessibleTextHelper::getSelectionStart() throw (RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getSelectionStart(); } // ----------------------------------------------------------------------------- sal_Int32 OAccessibleTextHelper::getSelectionEnd() throw (RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getSelectionEnd(); } // ----------------------------------------------------------------------------- ::rtl::OUString OAccessibleTextHelper::getText() throw (RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getText(); } // ----------------------------------------------------------------------------- ::rtl::OUString OAccessibleTextHelper::getTextRange( sal_Int32 nStartIndex, sal_Int32 nEndIndex ) throw (IndexOutOfBoundsException, RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getTextRange( nStartIndex, nEndIndex ); } // ----------------------------------------------------------------------------- TextSegment OAccessibleTextHelper::getTextAtIndex( sal_Int32 nIndex, sal_Int16 aTextType ) throw (IndexOutOfBoundsException, IllegalArgumentException, RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getTextAtIndex( nIndex, aTextType ); } // ----------------------------------------------------------------------------- TextSegment OAccessibleTextHelper::getTextBeforeIndex( sal_Int32 nIndex, sal_Int16 aTextType ) throw (IndexOutOfBoundsException, IllegalArgumentException, RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getTextBeforeIndex( nIndex, aTextType ); } // ----------------------------------------------------------------------------- TextSegment OAccessibleTextHelper::getTextBehindIndex( sal_Int32 nIndex, sal_Int16 aTextType ) throw (IndexOutOfBoundsException, IllegalArgumentException, RuntimeException) { OExternalLockGuard aGuard( this ); return OCommonAccessibleText::getTextBehindIndex( nIndex, aTextType ); } // ----------------------------------------------------------------------------- //.............................................................................. } // namespace comphelper //.............................................................................. /* vim:set shiftwidth=4 softtabstop=4 expandtab: */