/* -*- 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 "impastpl.hxx" using namespace ::std; using namespace ::com::sun::star; using namespace ::xmloff::token; // Class XMLAutoStyleFamily // ctor/dtor class XMLAutoStyleFamily XMLAutoStyleFamily::XMLAutoStyleFamily( sal_Int32 nFamily, const OUString& rStrName, const rtl::Reference < SvXMLExportPropertyMapper > &rMapper, const OUString& rStrPrefix, bool bAsFamily ) : mnFamily( nFamily ), maStrFamilyName( rStrName), mxMapper( rMapper ), mnCount( 0 ), mnName( 0 ), maStrPrefix( rStrPrefix ), mbAsFamily( bAsFamily ) {} XMLAutoStyleFamily::XMLAutoStyleFamily( sal_Int32 nFamily ) : mnFamily(nFamily), mnCount(0), mnName(0), mbAsFamily(false) {} XMLAutoStyleFamily::~XMLAutoStyleFamily() {} void XMLAutoStyleFamily::ClearEntries() { maParentSet.clear(); } static OUString data2string(void *data, const typelib_TypeDescriptionReference *type); static OUString struct2string(void *data, const typelib_TypeDescription *type) { assert(type->eTypeClass == typelib_TypeClass_STRUCT); OUStringBuffer result; result.append("{"); const typelib_CompoundTypeDescription *compoundType = &reinterpret_cast(type)->aBase; for (int i = 0; i < compoundType->nMembers; i++) { if (i > 0) result.append(":"); result.append(compoundType->ppMemberNames[i]); result.append("="); result.append(data2string(static_cast(data)+compoundType->pMemberOffsets[i], compoundType->ppTypeRefs[i])); } result.append("}"); return result.makeStringAndClear(); } static OUString data2string(void *data, const typelib_TypeDescriptionReference *type) { OUStringBuffer result; switch (type->eTypeClass) { case typelib_TypeClass_VOID: break; case typelib_TypeClass_BOOLEAN: result.append((*static_cast(data) == sal_False ) ? OUString("false") : OUString("true")); break; case typelib_TypeClass_BYTE: result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_SHORT: result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_LONG: result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_HYPER: result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_UNSIGNED_SHORT: result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_UNSIGNED_LONG: result.append(OUString::number((*static_cast(data)), 16)); break; case typelib_TypeClass_UNSIGNED_HYPER: result.append(OUString::number((*static_cast(data)), 16)); break; case typelib_TypeClass_FLOAT: result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_DOUBLE: result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_CHAR: result.append("U+"); result.append(OUString::number((*static_cast(data)))); break; case typelib_TypeClass_STRING: result.append(*static_cast(data)); break; case typelib_TypeClass_TYPE: case typelib_TypeClass_SEQUENCE: case typelib_TypeClass_EXCEPTION: case typelib_TypeClass_INTERFACE: result.append("wtf"); break; case typelib_TypeClass_STRUCT: result.append(struct2string(data, type->pType)); break; case typelib_TypeClass_ENUM: result.append(OUString::number((*static_cast(data)))); break; default: assert(false); // this cannot happen I hope break; } return result.makeStringAndClear(); } static OUString any2string(uno::Any any) { return data2string(const_cast(any.getValue()), any.pType); } // Class SvXMLAutoStylePoolProperties_Impl // ctor class SvXMLAutoStylePoolProperties_Impl XMLAutoStylePoolProperties::XMLAutoStylePoolProperties( XMLAutoStyleFamily& rFamilyData, const vector< XMLPropertyState >& rProperties, OUString& rParentName ) : maProperties( rProperties ), mnPos ( rFamilyData.mnCount ) { static bool bHack = (getenv("LIBO_ONEWAY_STABLE_ODF_EXPORT") != NULL); if (bHack) { OUStringBuffer aStemBuffer(32); aStemBuffer.append( rFamilyData.maStrPrefix ); if (!rParentName.isEmpty()) { aStemBuffer.append("-"); aStemBuffer.append(rParentName); } // Create a name based on the properties used for( size_t i = 0, n = maProperties.size(); i < n; ++i ) { XMLPropertyState& rState = maProperties[i]; if (rState.mnIndex == -1) continue; OUString sXMLName(rFamilyData.mxMapper->getPropertySetMapper()->GetEntryXMLName(rState.mnIndex)); if (sXMLName.isEmpty()) continue; aStemBuffer.append("-"); aStemBuffer.append(OUString::number(rFamilyData.mxMapper->getPropertySetMapper()->GetEntryNameSpace(rState.mnIndex))); aStemBuffer.append(":"); aStemBuffer.append(sXMLName); aStemBuffer.append("="); aStemBuffer.append(any2string(rState.maValue)); } #if 0 // Finally append an incremental counter in an attempt to make identical // styles always come out in the same order. Will see if this works. aStemBuffer.append("-z"); static sal_Int32 nCounter = 0; aStemBuffer.append(OUString::number(nCounter++)); #endif // create a name that hasn't been used before. The created name has not // to be added to the array, because it will never tried again OUStringBuffer aTry( aStemBuffer ); msName = aTry.makeStringAndClear(); bool bWarned = false; while (rFamilyData.maNameSet.find(msName) != rFamilyData.maNameSet.end()) { if (!bWarned) SAL_WARN("xmloff", "Overlapping style name for " << msName); bWarned = true; rFamilyData.mnName++; aTry.append( aStemBuffer ); aTry.append( "-" ); aTry.append( OUString::number( rFamilyData.mnName ) ); msName = aTry.makeStringAndClear(); } rFamilyData.maNameSet.insert(msName); } else { // create a name that hasn't been used before. The created name has not // to be added to the array, because it will never tried again OUStringBuffer sBuffer( 7 ); do { rFamilyData.mnName++; sBuffer.append( rFamilyData.maStrPrefix ); sBuffer.append( OUString::number( rFamilyData.mnName ) ); msName = sBuffer.makeStringAndClear(); } while (rFamilyData.maNameSet.find(msName) != rFamilyData.maNameSet.end()); } #if OSL_DEBUG_LEVEL > 0 std::set DebugProperties; for (size_t i = 0; i < maProperties.size(); ++i) { sal_Int32 const property(maProperties[i].mnIndex); // serious bug: will cause duplicate attributes to be exported assert(DebugProperties.find(property) == DebugProperties.end()); if (-1 != property) { DebugProperties.insert(property); } } #endif } bool operator<( const XMLAutoStyleFamily& r1, const XMLAutoStyleFamily& r2) { return r1.mnFamily < r2.mnFamily; } XMLAutoStylePoolParent::~XMLAutoStylePoolParent() { } // Adds a array of XMLPropertyState ( vector< XMLPropertyState > ) to list // if not added, yet. bool XMLAutoStylePoolParent::Add( XMLAutoStyleFamily& rFamilyData, const vector< XMLPropertyState >& rProperties, OUString& rName, bool bDontSeek ) { bool bAdded = false; XMLAutoStylePoolProperties *pProperties = 0; sal_Int32 nProperties = rProperties.size(); size_t i = 0; for (size_t n = maPropertiesList.size(); i < n; ++i) { XMLAutoStylePoolProperties* pIS = &maPropertiesList[i]; if( nProperties > (sal_Int32)pIS->GetProperties().size() ) { continue; } else if( nProperties < (sal_Int32)pIS->GetProperties().size() ) { break; } else if( !bDontSeek && rFamilyData.mxMapper->Equals( pIS->GetProperties(), rProperties ) ) { pProperties = pIS; break; } } if( !pProperties ) { pProperties = new XMLAutoStylePoolProperties( rFamilyData, rProperties, msParent ); PropertiesListType::iterator it = maPropertiesList.begin(); ::std::advance( it, i ); maPropertiesList.insert( it, pProperties ); bAdded = true; } rName = pProperties->GetName(); return bAdded; } // Adds a array of XMLPropertyState ( vector< XMLPropertyState > ) with a given name. // If the name exists already, nothing is done. If a style with a different name and // the same properties exists, a new one is added (like with bDontSeek). bool XMLAutoStylePoolParent::AddNamed( XMLAutoStyleFamily& rFamilyData, const vector< XMLPropertyState >& rProperties, const OUString& rName ) { bool bAdded = false; sal_Int32 nProperties = rProperties.size(); size_t i = 0; for (size_t n = maPropertiesList.size(); i < n; ++i) { XMLAutoStylePoolProperties* pIS = &maPropertiesList[i]; if( nProperties > (sal_Int32)pIS->GetProperties().size() ) { continue; } else if( nProperties < (sal_Int32)pIS->GetProperties().size() ) { break; } } if (rFamilyData.maNameSet.find(rName) == rFamilyData.maNameSet.end()) { XMLAutoStylePoolProperties* pProperties = new XMLAutoStylePoolProperties( rFamilyData, rProperties, msParent ); // ignore the generated name pProperties->SetName( rName ); PropertiesListType::iterator it = maPropertiesList.begin(); ::std::advance( it, i ); maPropertiesList.insert( it, pProperties ); bAdded = true; } return bAdded; } // Search for a array of XMLPropertyState ( vector< XMLPropertyState > ) in list OUString XMLAutoStylePoolParent::Find( const XMLAutoStyleFamily& rFamilyData, const vector< XMLPropertyState >& rProperties ) const { OUString sName; vector< XMLPropertyState>::size_type nItems = rProperties.size(); for (size_t i = 0, n = maPropertiesList.size(); i < n; ++i) { const XMLAutoStylePoolProperties* pIS = &maPropertiesList[i]; if( nItems > pIS->GetProperties().size() ) { continue; } else if( nItems < pIS->GetProperties().size() ) { break; } else if( rFamilyData.mxMapper->Equals( pIS->GetProperties(), rProperties ) ) { sName = pIS->GetName(); break; } } return sName; } bool XMLAutoStylePoolParent::operator< (const XMLAutoStylePoolParent& rOther) const { return msParent < rOther.msParent; } // Class SvXMLAutoStylePool_Impl // ctor/dtor class SvXMLAutoStylePool_Impl SvXMLAutoStylePoolP_Impl::SvXMLAutoStylePoolP_Impl( SvXMLExport& rExp) : rExport( rExp ) { } SvXMLAutoStylePoolP_Impl::~SvXMLAutoStylePoolP_Impl() { } // Adds stylefamily-information to sorted list void SvXMLAutoStylePoolP_Impl::AddFamily( sal_Int32 nFamily, const OUString& rStrName, const rtl::Reference < SvXMLExportPropertyMapper > & rMapper, const OUString& rStrPrefix, bool bAsFamily ) { // store family in a list if not already stored SvXMLExportFlags nExportFlags = GetExport().getExportFlags(); bool bStylesOnly = (nExportFlags & SvXMLExportFlags::STYLES) && !(nExportFlags & SvXMLExportFlags::CONTENT); OUString aPrefix( rStrPrefix ); if( bStylesOnly ) { aPrefix = "M" + rStrPrefix; } #if OSL_DEBUG_LEVEL > 0 XMLAutoStyleFamily aTemporary( nFamily ); FamilySetType::iterator aFind = maFamilySet.find(aTemporary); if( aFind != maFamilySet.end() ) { // FIXME: do we really intend to replace the previous nFamily // entry in this case ? SAL_WARN_IF( aFind->mxMapper != rMapper, "xmloff", "Adding duplicate family " << rStrName << " with mismatching mapper ! " << typeid(*aFind->mxMapper.get()).name() << " " << typeid(*rMapper.get()).name() ); } #endif XMLAutoStyleFamily *pFamily = new XMLAutoStyleFamily( nFamily, rStrName, rMapper, aPrefix, bAsFamily ); maFamilySet.insert(pFamily); } void SvXMLAutoStylePoolP_Impl::SetFamilyPropSetMapper( sal_Int32 nFamily, const rtl::Reference < SvXMLExportPropertyMapper > & rMapper ) { XMLAutoStyleFamily aTemporary( nFamily ); FamilySetType::iterator aFind = maFamilySet.find(aTemporary); if (aFind != maFamilySet.end()) aFind->mxMapper = rMapper; } // Adds a name to list void SvXMLAutoStylePoolP_Impl::RegisterName( sal_Int32 nFamily, const OUString& rName ) { XMLAutoStyleFamily aTmp( nFamily ); FamilySetType::iterator aFind = maFamilySet.find(aTmp); assert(aFind != maFamilySet.end()); // family must be known // SAL_DEBUG("SvXMLAutoStylePoolP_Impl::RegisterName: " << nFamily << ", '" << rName << "'"); aFind->maNameSet.insert(rName); } // Retrieve the list of registered names void SvXMLAutoStylePoolP_Impl::GetRegisteredNames( uno::Sequence& rFamilies, uno::Sequence& rNames ) { // collect registered names + families vector aFamilies; vector aNames; // iterate over families for (FamilySetType::iterator aJ = maFamilySet.begin(); aJ != maFamilySet.end(); ++aJ) { XMLAutoStyleFamily &rFamily = *aJ; // iterate over names for (XMLAutoStyleFamily::NameSetType::const_iterator aI = rFamily.maNameSet.begin(); aI != rFamily.maNameSet.end(); ++aI) { aFamilies.push_back( rFamily.mnFamily ); aNames.push_back( *aI ); } } // copy the families + names into the sequence types assert(aFamilies.size() == aNames.size()); rFamilies.realloc( aFamilies.size() ); std::copy( aFamilies.begin(), aFamilies.end(), rFamilies.getArray() ); rNames.realloc( aNames.size() ); std::copy( aNames.begin(), aNames.end(), rNames.getArray() ); } // Adds a array of XMLPropertyState ( vector< XMLPropertyState > ) to list // if not added, yet. bool SvXMLAutoStylePoolP_Impl::Add( OUString& rName, sal_Int32 nFamily, const OUString& rParentName, const ::std::vector< XMLPropertyState >& rProperties, bool bDontSeek ) { XMLAutoStyleFamily aTemporary( nFamily ); FamilySetType::iterator aFind = maFamilySet.find(aTemporary); assert(aFind != maFamilySet.end()); // family must be known XMLAutoStyleFamily &rFamily = *aFind; XMLAutoStylePoolParent aTmp(rParentName); XMLAutoStyleFamily::ParentSetType::iterator it2 = rFamily.maParentSet.find(aTmp); if (it2 == rFamily.maParentSet.end()) { std::pair r = rFamily.maParentSet.insert(new XMLAutoStylePoolParent(rParentName)); it2 = r.first; } XMLAutoStylePoolParent& rParent = *it2; bool bRet = false; if (rParent.Add(rFamily, rProperties, rName, bDontSeek)) { rFamily.mnCount++; bRet = true; } return bRet; } bool SvXMLAutoStylePoolP_Impl::AddNamed( const OUString& rName, sal_Int32 nFamily, const OUString& rParentName, const ::std::vector< XMLPropertyState >& rProperties ) { // get family and parent the same way as in Add() XMLAutoStyleFamily aTemporary( nFamily ); FamilySetType::iterator aFind = maFamilySet.find(aTemporary); assert(aFind != maFamilySet.end()); // family must be known XMLAutoStyleFamily &rFamily = *aFind; XMLAutoStylePoolParent aTmp(rParentName); XMLAutoStyleFamily::ParentSetType::iterator it2 = rFamily.maParentSet.find(aTmp); if (it2 == rFamily.maParentSet.end()) { std::pair r = rFamily.maParentSet.insert(new XMLAutoStylePoolParent(rParentName)); it2 = r.first; } XMLAutoStylePoolParent& rParent = *it2; bool bRet = false; if (rParent.AddNamed(rFamily, rProperties, rName)) { rFamily.mnCount++; bRet = true; } return bRet; } // Search for a array of XMLPropertyState ( vector< XMLPropertyState > ) in list OUString SvXMLAutoStylePoolP_Impl::Find( sal_Int32 nFamily, const OUString& rParent, const vector< XMLPropertyState >& rProperties ) const { OUString sName; XMLAutoStyleFamily aTemporary( nFamily ); FamilySetType::const_iterator const iter = maFamilySet.find(aTemporary); assert(iter != maFamilySet.end()); // family must be known XMLAutoStyleFamily const& rFamily = *iter; XMLAutoStylePoolParent aTmp( rParent ); XMLAutoStyleFamily::ParentSetType::const_iterator it2 = rFamily.maParentSet.find(aTmp); if (it2 != rFamily.maParentSet.end()) { sName = it2->Find(rFamily, rProperties); } return sName; } namespace { struct AutoStylePoolExport { const OUString* mpParent; XMLAutoStylePoolProperties* mpProperties; AutoStylePoolExport() : mpParent(NULL), mpProperties(NULL) {} }; struct StyleComparator { bool operator() (const AutoStylePoolExport& a, const AutoStylePoolExport& b) { return (a.mpProperties->GetName() < b.mpProperties->GetName() || (a.mpProperties->GetName() == b.mpProperties->GetName() && *a.mpParent < *b.mpParent)); } }; } void SvXMLAutoStylePoolP_Impl::exportXML( sal_Int32 nFamily, const uno::Reference< ::com::sun::star::xml::sax::XDocumentHandler > &, const SvXMLUnitConverter&, const SvXMLNamespaceMap&, const SvXMLAutoStylePoolP *pAntiImpl) const { // Get list of parents for current family (nFamily) XMLAutoStyleFamily aTmp( nFamily ); FamilySetType::const_iterator aFind = maFamilySet.find(aTmp); assert(aFind != maFamilySet.end()); // family must be known const XMLAutoStyleFamily &rFamily = *aFind; sal_uInt32 nCount = rFamily.mnCount; if (!nCount) return; // create, initialize and fill helper-structure (SvXMLAutoStylePoolProperties_Impl) // which contains a parent-name and a SvXMLAutoStylePoolProperties_Impl std::vector aExpStyles(nCount); XMLAutoStyleFamily::ParentSetType::iterator it = rFamily.maParentSet.begin(), itEnd = rFamily.maParentSet.end(); for (; it != itEnd; ++it) { XMLAutoStylePoolParent& rParent = *it; size_t nProperties = rParent.GetPropertiesList().size(); for( size_t j = 0; j < nProperties; j++ ) { XMLAutoStylePoolProperties* pProperties = &rParent.GetPropertiesList()[j]; sal_uLong nPos = pProperties->GetPos(); assert(nPos < nCount); assert(!aExpStyles[nPos].mpProperties); aExpStyles[nPos].mpProperties = pProperties; aExpStyles[nPos].mpParent = &rParent.GetParent(); } } static bool bHack = (getenv("LIBO_ONEWAY_STABLE_ODF_EXPORT") != NULL); if (bHack) { std::sort(aExpStyles.begin(), aExpStyles.end(), StyleComparator()); for (size_t i = 0; i < nCount; i++) { OUString oldName = aExpStyles[i].mpProperties->GetName(); sal_Int32 dashIx = oldName.indexOf('-'); OUString newName = (dashIx > 0 ? oldName.copy(0, dashIx) : oldName) + OUString::number(i); // SAL_DEBUG("renaming '" << oldName << "' -> '" << newName << "'"); aExpStyles[i].mpProperties->SetName(newName); } } // create string to export for each XML-style. That means for each property-list OUString aStrFamilyName = rFamily.maStrFamilyName; for( size_t i = 0; i < nCount; i++ ) { assert(aExpStyles[i].mpProperties); if( aExpStyles[i].mpProperties ) { GetExport().AddAttribute( XML_NAMESPACE_STYLE, XML_NAME, aExpStyles[i].mpProperties->GetName() ); bool bExtensionNamespace = false; if( rFamily.mbAsFamily ) { GetExport().AddAttribute( XML_NAMESPACE_STYLE, XML_FAMILY, aStrFamilyName ); if(aStrFamilyName != "graphic" && aStrFamilyName != "presentation" && aStrFamilyName != "chart" ) bExtensionNamespace = true; } if( !aExpStyles[i].mpParent->isEmpty() ) { GetExport().AddAttribute( XML_NAMESPACE_STYLE, XML_PARENT_STYLE_NAME, GetExport().EncodeStyleName( *aExpStyles[i].mpParent ) ); } OUString sName; if( rFamily.mbAsFamily ) sName = GetXMLToken(XML_STYLE); else sName = rFamily.maStrFamilyName; pAntiImpl->exportStyleAttributes( GetExport().GetAttrList(), nFamily, aExpStyles[i].mpProperties->GetProperties(), *rFamily.mxMapper.get() , GetExport().GetMM100UnitConverter(), GetExport().GetNamespaceMap() ); SvXMLElementExport aElem( GetExport(), XML_NAMESPACE_STYLE, sName, true, true ); sal_Int32 nStart(-1); sal_Int32 nEnd(-1); if (nFamily == XML_STYLE_FAMILY_PAGE_MASTER) { nStart = 0; sal_Int32 nIndex = 0; rtl::Reference< XMLPropertySetMapper > aPropMapper = rFamily.mxMapper->getPropertySetMapper(); sal_Int16 nContextID; while(nIndex < aPropMapper->GetEntryCount() && nEnd == -1) { nContextID = aPropMapper->GetEntryContextId( nIndex ); if (nContextID && ((nContextID & CTF_PM_FLAGMASK) != XML_PM_CTF_START)) nEnd = nIndex; nIndex++; } if (nEnd == -1) nEnd = nIndex; } rFamily.mxMapper->exportXML( GetExport(), aExpStyles[i].mpProperties->GetProperties(), nStart, nEnd, SvXmlExportFlags::IGN_WS, bExtensionNamespace ); pAntiImpl->exportStyleContent( GetExport().GetDocHandler(), nFamily, aExpStyles[i].mpProperties->GetProperties(), *rFamily.mxMapper.get(), GetExport().GetMM100UnitConverter(), GetExport().GetNamespaceMap() ); } } } void SvXMLAutoStylePoolP_Impl::ClearEntries() { for (FamilySetType::iterator aI = maFamilySet.begin(); aI != maFamilySet.end(); ++aI) aI->ClearEntries(); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */