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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
commit | 940b4d1848e8c70ab7642901a68594e8016caffc (patch) | |
tree | eb72f344ee6c3d9b80a7ecc079ea79e9fba8676d /sax/source/tools/fastserializer.cxx | |
parent | Initial commit. (diff) | |
download | libreoffice-940b4d1848e8c70ab7642901a68594e8016caffc.tar.xz libreoffice-940b4d1848e8c70ab7642901a68594e8016caffc.zip |
Adding upstream version 1:7.0.4.upstream/1%7.0.4upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'sax/source/tools/fastserializer.cxx')
-rw-r--r-- | sax/source/tools/fastserializer.cxx | 813 |
1 files changed, 813 insertions, 0 deletions
diff --git a/sax/source/tools/fastserializer.cxx b/sax/source/tools/fastserializer.cxx new file mode 100644 index 000000000..202641999 --- /dev/null +++ b/sax/source/tools/fastserializer.cxx @@ -0,0 +1,813 @@ +/* -*- 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 "fastserializer.hxx" + +#include <com/sun/star/xml/sax/FastTokenHandler.hpp> +#include <rtl/math.h> +#include <sal/log.hxx> +#include <comphelper/processfactory.hxx> +#include <comphelper/sequence.hxx> + +#include <string.h> + +#if OSL_DEBUG_LEVEL > 0 +#include <iostream> +#include <set> +#endif + +using ::std::vector; +using ::com::sun::star::uno::Sequence; +using ::com::sun::star::io::XOutputStream; + +#define HAS_NAMESPACE(x) ((x & 0xffff0000) != 0) +#define NAMESPACE(x) (x >> 16) +#define TOKEN(x) (x & 0xffff) +// number of characters without terminating 0 +#define N_CHARS(string) (SAL_N_ELEMENTS(string) - 1) + +static const char sClosingBracket[] = ">"; +static const char sSlashAndClosingBracket[] = "/>"; +static const char sColon[] = ":"; +static const char sOpeningBracket[] = "<"; +static const char sOpeningBracketAndSlash[] = "</"; +static const char sQuote[] = "\""; +static const char sEqualSignAndQuote[] = "=\""; +static const char sSpace[] = " "; +static const char sXmlHeader[] = "<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"yes\"?>\n"; + +namespace sax_fastparser { + FastSaxSerializer::FastSaxSerializer( const css::uno::Reference< css::io::XOutputStream >& xOutputStream ) + : maCachedOutputStream() + , maMarkStack() + , mbMarkStackEmpty(true) + , mpDoubleStr(nullptr) + , mnDoubleStrCapacity(RTL_STR_MAX_VALUEOFDOUBLE) + , mbXescape(true) + { + rtl_string_new_WithLength(&mpDoubleStr, mnDoubleStrCapacity); + mxFastTokenHandler = css::xml::sax::FastTokenHandler::create( + ::comphelper::getProcessComponentContext()); + assert(xOutputStream.is()); // cannot do anything without that + maCachedOutputStream.setOutputStream( xOutputStream ); + } + + FastSaxSerializer::~FastSaxSerializer() + { + rtl_string_release(mpDoubleStr); + } + + void FastSaxSerializer::startDocument() + { + writeBytes(sXmlHeader, N_CHARS(sXmlHeader)); + } + + void FastSaxSerializer::write( double value ) + { + rtl_math_doubleToString( + &mpDoubleStr, &mnDoubleStrCapacity, 0, value, rtl_math_StringFormat_G, + RTL_STR_MAX_VALUEOFDOUBLE - RTL_CONSTASCII_LENGTH("-x.E-xxx"), '.', nullptr, + 0, true); + + write(mpDoubleStr->buffer, mpDoubleStr->length); + // and "clear" the string + mpDoubleStr->length = 0; + mnDoubleStrCapacity = RTL_STR_MAX_VALUEOFDOUBLE; + } + + void FastSaxSerializer::write( const OUString& sOutput, bool bEscape ) + { + write( OUStringToOString(sOutput, RTL_TEXTENCODING_UTF8), bEscape ); + + } + + void FastSaxSerializer::write( const OString& sOutput, bool bEscape ) + { + write( sOutput.getStr(), sOutput.getLength(), bEscape ); + } + + /** Characters not allowed in XML 1.0 + XML 1.1 would exclude only U+0000 + */ + static bool invalidChar( char c ) + { + if (static_cast<unsigned char>(c) >= 0x20) + return false; + + switch (c) + { + case 0x09: + case 0x0a: + case 0x0d: + return false; + } + return true; + } + + static bool isHexDigit( char c ) + { + return ('0' <= c && c <= '9') || ('A' <= c && c <= 'F') || ('a' <= c && c <= 'f'); + } + + void FastSaxSerializer::write( const char* pStr, sal_Int32 nLen, bool bEscape ) + { + if (nLen == -1) + nLen = pStr ? strlen(pStr) : 0; + + if (!bEscape) + { + writeBytes( pStr, nLen ); + return; + } + + bool bGood = true; + const sal_Int32 kXescapeLen = 7; + char bufXescape[kXescapeLen+1]; + sal_Int32 nNextXescape = 0; + for (sal_Int32 i = 0; i < nLen; ++i) + { + char c = pStr[ i ]; + switch( c ) + { + case '<': writeBytes( "<", 4 ); break; + case '>': writeBytes( ">", 4 ); break; + case '&': writeBytes( "&", 5 ); break; + case '\'': writeBytes( "'", 6 ); break; + case '"': writeBytes( """, 6 ); break; + case '\t': +#if 0 + // Seems OOXML prefers the _xHHHH_ escape over the + // entity in *some* cases, apparently in attribute + // values but not in element data. + // Would need to distinguish at a higher level. + if (mbXescape) + { + snprintf( bufXescape, kXescapeLen+1, "_x%04x_", + static_cast<unsigned int>(static_cast<unsigned char>(c))); + writeBytes( bufXescape, kXescapeLen); + } + else +#endif + { + writeBytes( "	", 4 ); + } + break; + case '\n': +#if 0 + if (mbXescape) + { + snprintf( bufXescape, kXescapeLen+1, "_x%04x_", + static_cast<unsigned int>(static_cast<unsigned char>(c))); + writeBytes( bufXescape, kXescapeLen); + } + else +#endif + { + writeBytes( " ", 5 ); + } + break; + case '\r': +#if 0 + if (mbXescape) + { + snprintf( bufXescape, kXescapeLen+1, "_x%04x_", + static_cast<unsigned int>(static_cast<unsigned char>(c))); + writeBytes( bufXescape, kXescapeLen); + } + else +#endif + { + writeBytes( " ", 5 ); + } + break; + default: + if (mbXescape) + { + char c1, c2, c3, c4; + // Escape characters not valid in XML 1.0 as + // _xHHHH_. A literal "_xHHHH_" has to be + // escaped as _x005F_xHHHH_ (effectively + // escaping the leading '_'). + // See ECMA-376-1:2016 page 3736, + // 22.4.2.4 bstr (Basic String) + // for reference. + if (c == '_' && i >= nNextXescape && i <= nLen - kXescapeLen && + pStr[i+6] == '_' && + ((pStr[i+1] | 0x20) == 'x') && + isHexDigit( c1 = pStr[i+2] ) && + isHexDigit( c2 = pStr[i+3] ) && + isHexDigit( c3 = pStr[i+4] ) && + isHexDigit( c4 = pStr[i+5] )) + { + // OOXML has the odd habit to write some + // names using this that when re-saving + // should *not* be escaped, specifically + // _x0020_ for blanks in w:xpath values. + if (!(c1 == '0' && c2 == '0' && c3 == '2' && c4 == '0')) + { + // When encountering "_x005F_xHHHH_" + // assume that is an already escaped + // sequence that was not unescaped and + // shall be written as is, to not end + // up with "_x005F_x005F_xHHHH_" and + // repeated... + if (c1 == '0' && c2 == '0' && c3 == '5' && (c4 | 0x20) == 'f' && + i + kXescapeLen <= nLen - 6 && + pStr[i+kXescapeLen+5] == '_' && + ((pStr[i+kXescapeLen+0] | 0x20) == 'x') && + isHexDigit( pStr[i+kXescapeLen+1] ) && + isHexDigit( pStr[i+kXescapeLen+2] ) && + isHexDigit( pStr[i+kXescapeLen+3] ) && + isHexDigit( pStr[i+kXescapeLen+4] )) + { + writeBytes( &c, 1 ); + // Remember this fake escapement. + nNextXescape = i + kXescapeLen + 6; + } + else + { + writeBytes( "_x005F_", kXescapeLen); + // Remember this escapement so in + // _xHHHH_xHHHH_ only the first '_' + // is escaped. + nNextXescape = i + kXescapeLen; + } + break; + } + } + if (invalidChar(c)) + { + snprintf( bufXescape, kXescapeLen+1, "_x%04x_", + static_cast<unsigned int>(static_cast<unsigned char>(c))); + writeBytes( bufXescape, kXescapeLen); + break; + } + /* TODO: also U+FFFE and U+FFFF are not allowed + * in XML 1.0, assuming we're writing UTF-8 + * those should be escaped as well to be + * conformant. Likely that would involve + * scanning for both encoded sequences and + * write as _xHHHH_? */ + } +#if OSL_DEBUG_LEVEL > 0 + else + { + if (bGood && invalidChar(pStr[i])) + { + bGood = false; + // The SAL_WARN() for the single character is + // issued in writeBytes(), just gather for the + // SAL_WARN_IF() below. + } + } +#endif + writeBytes( &c, 1 ); + break; + } + } + SAL_WARN_IF( !bGood && nLen > 1, "sax", "in '" << OString(pStr,std::min<sal_Int32>(nLen,42)) << "'"); + } + + void FastSaxSerializer::endDocument() + { + assert(mbMarkStackEmpty && maMarkStack.empty()); + maCachedOutputStream.flush(); + } + + void FastSaxSerializer::writeId( ::sal_Int32 nElement ) + { + if( HAS_NAMESPACE( nElement ) ) { + auto const Namespace(mxFastTokenHandler->getUTF8Identifier(NAMESPACE(nElement))); + assert(Namespace.hasElements()); + writeBytes(Namespace); + writeBytes(sColon, N_CHARS(sColon)); + auto const Element(mxFastTokenHandler->getUTF8Identifier(TOKEN(nElement))); + assert(Element.hasElements()); + writeBytes(Element); + } else { + auto const Element(mxFastTokenHandler->getUTF8Identifier(nElement)); + assert(Element.hasElements()); + writeBytes(Element); + } + } + +#ifdef DBG_UTIL + OString FastSaxSerializer::getId( ::sal_Int32 nElement ) + { + if (HAS_NAMESPACE(nElement)) { + Sequence<sal_Int8> const ns( + mxFastTokenHandler->getUTF8Identifier(NAMESPACE(nElement))); + Sequence<sal_Int8> const name( + mxFastTokenHandler->getUTF8Identifier(TOKEN(nElement))); + return OString(reinterpret_cast<char const*>(ns.getConstArray()), ns.getLength()) + + OString(sColon, N_CHARS(sColon)) + + OString(reinterpret_cast<char const*>(name.getConstArray()), name.getLength()); + } else { + Sequence<sal_Int8> const name( + mxFastTokenHandler->getUTF8Identifier(nElement)); + return OString(reinterpret_cast<char const*>(name.getConstArray()), name.getLength()); + } + } +#endif + + void FastSaxSerializer::startFastElement( ::sal_Int32 Element, FastAttributeList const * pAttrList ) + { + if ( !mbMarkStackEmpty ) + { + maCachedOutputStream.flush(); + maMarkStack.top()->setCurrentElement( Element ); + } + +#ifdef DBG_UTIL + if (mbMarkStackEmpty) + m_DebugStartedElements.push(Element); + else + maMarkStack.top()->m_DebugStartedElements.push_back(Element); +#endif + + writeBytes(sOpeningBracket, N_CHARS(sOpeningBracket)); + + writeId(Element); + if (pAttrList) + writeFastAttributeList(*pAttrList); + else + writeTokenValueList(); + + writeBytes(sClosingBracket, N_CHARS(sClosingBracket)); + } + + void FastSaxSerializer::endFastElement( ::sal_Int32 Element ) + { +#ifdef DBG_UTIL + // Well-formedness constraint: Element Type Match + if (mbMarkStackEmpty) + { + assert(!m_DebugStartedElements.empty()); + assert(Element == m_DebugStartedElements.top()); + m_DebugStartedElements.pop(); + } + else + { + if (dynamic_cast<ForSort*>(maMarkStack.top().get())) + { + // Sort is always well-formed fragment + assert(!maMarkStack.top()->m_DebugStartedElements.empty()); + } + if (maMarkStack.top()->m_DebugStartedElements.empty()) + { + maMarkStack.top()->m_DebugEndedElements.push_back(Element); + } + else + { + assert(Element == maMarkStack.top()->m_DebugStartedElements.back()); + maMarkStack.top()->m_DebugStartedElements.pop_back(); + } + } +#endif + + writeBytes(sOpeningBracketAndSlash, N_CHARS(sOpeningBracketAndSlash)); + + writeId(Element); + + writeBytes(sClosingBracket, N_CHARS(sClosingBracket)); + } + + void FastSaxSerializer::singleFastElement( ::sal_Int32 Element, FastAttributeList const * pAttrList ) + { + if ( !mbMarkStackEmpty ) + { + maCachedOutputStream.flush(); + maMarkStack.top()->setCurrentElement( Element ); + } + + writeBytes(sOpeningBracket, N_CHARS(sOpeningBracket)); + + writeId(Element); + if (pAttrList) + writeFastAttributeList(*pAttrList); + else + writeTokenValueList(); + + writeBytes(sSlashAndClosingBracket, N_CHARS(sSlashAndClosingBracket)); + } + + css::uno::Reference< css::io::XOutputStream > const & FastSaxSerializer::getOutputStream() const + { + return maCachedOutputStream.getOutputStream(); + } + + void FastSaxSerializer::writeTokenValueList() + { +#ifdef DBG_UTIL + ::std::set<OString> DebugAttributes; +#endif + for (const TokenValue & rTokenValue : maTokenValues) + { + writeBytes(sSpace, N_CHARS(sSpace)); + + sal_Int32 nToken = rTokenValue.nToken; + writeId(nToken); + +#ifdef DBG_UTIL + // Well-formedness constraint: Unique Att Spec + OString const nameId(getId(nToken)); + assert(DebugAttributes.find(nameId) == DebugAttributes.end()); + DebugAttributes.insert(nameId); +#endif + + writeBytes(sEqualSignAndQuote, N_CHARS(sEqualSignAndQuote)); + + write(rTokenValue.pValue, -1, true); + + writeBytes(sQuote, N_CHARS(sQuote)); + } + maTokenValues.clear(); + } + + void FastSaxSerializer::writeFastAttributeList(FastAttributeList const & rAttrList) + { +#ifdef DBG_UTIL + ::std::set<OString> DebugAttributes; +#endif + const std::vector< sal_Int32 >& Tokens = rAttrList.getFastAttributeTokens(); + for (size_t j = 0; j < Tokens.size(); j++) + { + writeBytes(sSpace, N_CHARS(sSpace)); + + sal_Int32 nToken = Tokens[j]; + writeId(nToken); + +#ifdef DBG_UTIL + // Well-formedness constraint: Unique Att Spec + OString const nameId(getId(nToken)); + SAL_WARN_IF(DebugAttributes.find(nameId) != DebugAttributes.end(), "sax", "Duplicate attribute: " << nameId ); + assert(DebugAttributes.find(nameId) == DebugAttributes.end()); + DebugAttributes.insert(nameId); +#endif + + writeBytes(sEqualSignAndQuote, N_CHARS(sEqualSignAndQuote)); + + const char* pAttributeValue = rAttrList.getFastAttributeValue(j); + + // tdf#127274 don't escape the special VML shape type id "#_x0000_t202" + bool bEscape = !(pAttributeValue && strcmp(pAttributeValue, "#_x0000_t202") == 0); + + write(pAttributeValue, rAttrList.AttributeValueLength(j), bEscape); + + writeBytes(sQuote, N_CHARS(sQuote)); + } + } + + void FastSaxSerializer::mark(sal_Int32 const nTag, const Int32Sequence& rOrder) + { + if (rOrder.hasElements()) + { + auto pSort = std::make_shared<ForSort>(nTag, rOrder); + maMarkStack.push( pSort ); + maCachedOutputStream.setOutput( pSort ); + } + else + { + auto pMerge = std::make_shared<ForMerge>(nTag); + maMarkStack.push( pMerge ); + maCachedOutputStream.setOutput( pMerge ); + } + mbMarkStackEmpty = false; + } + +#ifdef DBG_UTIL + static void lcl_DebugMergeAppend( + std::deque<sal_Int32> & rLeftEndedElements, + std::deque<sal_Int32> & rLeftStartedElements, + std::deque<sal_Int32> & rRightEndedElements, + std::deque<sal_Int32> & rRightStartedElements) + { + while (!rRightEndedElements.empty()) + { + if (rLeftStartedElements.empty()) + { + rLeftEndedElements.push_back(rRightEndedElements.front()); + } + else + { + assert(rLeftStartedElements.back() == rRightEndedElements.front()); + rLeftStartedElements.pop_back(); + } + rRightEndedElements.pop_front(); + } + while (!rRightStartedElements.empty()) + { + rLeftStartedElements.push_back(rRightStartedElements.front()); + rRightStartedElements.pop_front(); + } + } + + static void lcl_DebugMergePrepend( + std::deque<sal_Int32> & rLeftEndedElements, + std::deque<sal_Int32> & rLeftStartedElements, + std::deque<sal_Int32> & rRightEndedElements, + std::deque<sal_Int32> & rRightStartedElements) + { + while (!rLeftStartedElements.empty()) + { + if (rRightEndedElements.empty()) + { + rRightStartedElements.push_front(rLeftStartedElements.back()); + } + else + { + assert(rRightEndedElements.front() == rLeftStartedElements.back()); + rRightEndedElements.pop_front(); + } + rLeftStartedElements.pop_back(); + } + while (!rLeftEndedElements.empty()) + { + rRightEndedElements.push_front(rLeftEndedElements.back()); + rLeftEndedElements.pop_back(); + } + } +#endif + + void FastSaxSerializer::mergeTopMarks( + sal_Int32 const nTag, sax_fastparser::MergeMarks const eMergeType) + { + SAL_WARN_IF(mbMarkStackEmpty, "sax", "Empty mark stack - nothing to merge"); + assert(!mbMarkStackEmpty); // should never happen + if ( mbMarkStackEmpty ) + return; + + assert(maMarkStack.top()->m_Tag == nTag && "mark/merge tag mismatch!"); + (void) nTag; +#ifdef DBG_UTIL + if (dynamic_cast<ForSort*>(maMarkStack.top().get())) + { + // Sort is always well-formed fragment + assert(maMarkStack.top()->m_DebugStartedElements.empty()); + assert(maMarkStack.top()->m_DebugEndedElements.empty()); + } + lcl_DebugMergeAppend( + maMarkStack.top()->m_DebugEndedElements, + maMarkStack.top()->m_DebugStartedElements, + maMarkStack.top()->m_DebugPostponedEndedElements, + maMarkStack.top()->m_DebugPostponedStartedElements); +#endif + + // flush, so that we get everything in getData() + maCachedOutputStream.flush(); + + if (maMarkStack.size() == 1) + { +#ifdef DBG_UTIL + while (!maMarkStack.top()->m_DebugEndedElements.empty()) + { + assert(maMarkStack.top()->m_DebugEndedElements.front() == m_DebugStartedElements.top()); + maMarkStack.top()->m_DebugEndedElements.pop_front(); + m_DebugStartedElements.pop(); + } + while (!maMarkStack.top()->m_DebugStartedElements.empty()) + { + m_DebugStartedElements.push(maMarkStack.top()->m_DebugStartedElements.front()); + maMarkStack.top()->m_DebugStartedElements.pop_front(); + } +#endif + Sequence<sal_Int8> aSeq( maMarkStack.top()->getData() ); + maMarkStack.pop(); + mbMarkStackEmpty = true; + maCachedOutputStream.resetOutputToStream(); + maCachedOutputStream.writeBytes( aSeq.getConstArray(), aSeq.getLength() ); + return; + } + +#ifdef DBG_UTIL + ::std::deque<sal_Int32> topDebugStartedElements(maMarkStack.top()->m_DebugStartedElements); + ::std::deque<sal_Int32> topDebugEndedElements(maMarkStack.top()->m_DebugEndedElements); +#endif + const Int8Sequence aMerge( maMarkStack.top()->getData() ); + maMarkStack.pop(); +#ifdef DBG_UTIL + switch (eMergeType) + { + case MergeMarks::APPEND: + lcl_DebugMergeAppend( + maMarkStack.top()->m_DebugEndedElements, + maMarkStack.top()->m_DebugStartedElements, + topDebugEndedElements, + topDebugStartedElements); + break; + case MergeMarks::PREPEND: + if (dynamic_cast<ForSort*>(maMarkStack.top().get())) // argh... + { + lcl_DebugMergeAppend( + maMarkStack.top()->m_DebugEndedElements, + maMarkStack.top()->m_DebugStartedElements, + topDebugEndedElements, + topDebugStartedElements); + } + else + { + lcl_DebugMergePrepend( + topDebugEndedElements, + topDebugStartedElements, + maMarkStack.top()->m_DebugEndedElements, + maMarkStack.top()->m_DebugStartedElements); + } + break; + case MergeMarks::POSTPONE: + lcl_DebugMergeAppend( + maMarkStack.top()->m_DebugPostponedEndedElements, + maMarkStack.top()->m_DebugPostponedStartedElements, + topDebugEndedElements, + topDebugStartedElements); + break; + } +#endif + if (maMarkStack.empty()) + { + mbMarkStackEmpty = true; + maCachedOutputStream.resetOutputToStream(); + } + else + { + maCachedOutputStream.setOutput( maMarkStack.top() ); + } + + switch ( eMergeType ) + { + case MergeMarks::APPEND: maMarkStack.top()->append( aMerge ); break; + case MergeMarks::PREPEND: maMarkStack.top()->prepend( aMerge ); break; + case MergeMarks::POSTPONE: maMarkStack.top()->postpone( aMerge ); break; + } + } + + void FastSaxSerializer::writeBytes( const Sequence< sal_Int8 >& rData ) + { + maCachedOutputStream.writeBytes( rData.getConstArray(), rData.getLength() ); + } + + void FastSaxSerializer::writeBytes( const char* pStr, size_t nLen ) + { +#if OSL_DEBUG_LEVEL > 0 + { + bool bGood = true; + for (size_t i=0; i < nLen; ++i) + { + if (invalidChar(pStr[i])) + { + bGood = false; + SAL_WARN("sax", "FastSaxSerializer::writeBytes - illegal XML character 0x" << + std::hex << int(static_cast<unsigned char>(pStr[i]))); + } + } + SAL_WARN_IF( !bGood && nLen > 1, "sax", "in '" << OString(pStr,std::min<sal_Int32>(nLen,42)) << "'"); + } +#endif + maCachedOutputStream.writeBytes( reinterpret_cast<const sal_Int8*>(pStr), nLen ); + } + + FastSaxSerializer::Int8Sequence& FastSaxSerializer::ForMerge::getData() + { + merge( maData, maPostponed, true ); + maPostponed.realloc( 0 ); + + return maData; + } + +#if OSL_DEBUG_LEVEL > 0 + void FastSaxSerializer::ForMerge::print( ) + { + std::cerr << "Data: "; + for ( sal_Int32 i=0, len=maData.getLength(); i < len; i++ ) + { + std::cerr << maData[i]; + } + + std::cerr << "\nPostponed: "; + for ( sal_Int32 i=0, len=maPostponed.getLength(); i < len; i++ ) + { + std::cerr << maPostponed[i]; + } + + std::cerr << "\n"; + } +#endif + + void FastSaxSerializer::ForMerge::prepend( const Int8Sequence &rWhat ) + { + merge( maData, rWhat, false ); + } + + void FastSaxSerializer::ForMerge::append( const css::uno::Sequence<sal_Int8> &rWhat ) + { + merge( maData, rWhat, true ); + } + + void FastSaxSerializer::ForMerge::postpone( const Int8Sequence &rWhat ) + { + merge( maPostponed, rWhat, true ); + } + + void FastSaxSerializer::ForMerge::merge( Int8Sequence &rTop, const Int8Sequence &rMerge, bool bAppend ) + { + sal_Int32 nMergeLen = rMerge.getLength(); + if ( nMergeLen <= 0 ) + return; + + sal_Int32 nTopLen = rTop.getLength(); + + rTop.realloc( nTopLen + nMergeLen ); + if ( bAppend ) + { + // append the rMerge to the rTop + memcpy( rTop.getArray() + nTopLen, rMerge.getConstArray(), nMergeLen ); + } + else + { + // prepend the rMerge to the rTop + memmove( rTop.getArray() + nMergeLen, rTop.getConstArray(), nTopLen ); + memcpy( rTop.getArray(), rMerge.getConstArray(), nMergeLen ); + } + } + + void FastSaxSerializer::ForMerge::resetData( ) + { + maData = Int8Sequence(); + } + + void FastSaxSerializer::ForSort::setCurrentElement( sal_Int32 nElement ) + { + vector< sal_Int32 > aOrder( comphelper::sequenceToContainer<vector<sal_Int32> >(maOrder) ); + if( std::find( aOrder.begin(), aOrder.end(), nElement ) != aOrder.end() ) + { + mnCurrentElement = nElement; + if ( maData.find( nElement ) == maData.end() ) + maData[ nElement ] = Int8Sequence(); + } + } + + void FastSaxSerializer::ForSort::prepend( const Int8Sequence &rWhat ) + { + append( rWhat ); + } + + void FastSaxSerializer::ForSort::append( const css::uno::Sequence<sal_Int8> &rWhat ) + { + merge( maData[mnCurrentElement], rWhat, true ); + } + + void FastSaxSerializer::ForSort::sort() + { + // Clear the ForMerge data to avoid duplicate items + resetData(); + + // Sort it all + std::map< sal_Int32, Int8Sequence >::iterator iter; + for ( const auto nIndex : std::as_const(maOrder) ) + { + iter = maData.find( nIndex ); + if ( iter != maData.end() ) + ForMerge::append( iter->second ); + } + } + + FastSaxSerializer::Int8Sequence& FastSaxSerializer::ForSort::getData() + { + sort( ); + return ForMerge::getData(); + } + +#if OSL_DEBUG_LEVEL > 0 + void FastSaxSerializer::ForSort::print( ) + { + for ( const auto& [rElement, rData] : maData ) + { + std::cerr << "pair: " << rElement; + for ( sal_Int32 i=0, len=rData.getLength(); i < len; ++i ) + std::cerr << rData[i]; + std::cerr << "\n"; + } + + sort( ); + ForMerge::print(); + } +#endif + +} // namespace sax_fastparser + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |