/**************************************************************************** ** ** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** This file is part of the QtXmlPatterns module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qxsdschemaresolver_p.h" #include "qderivedinteger_p.h" #include "qderivedstring_p.h" #include "qqnamevalue_p.h" #include "qxsdattributereference_p.h" #include "qxsdparticlechecker_p.h" #include "qxsdreference_p.h" #include "qxsdschemacontext_p.h" #include "qxsdschemahelper_p.h" #include "qxsdschemaparsercontext_p.h" #include "qxsdschematypesfactory_p.h" QT_BEGIN_NAMESPACE using namespace QPatternist; XsdSchemaResolver::XsdSchemaResolver(const QExplicitlySharedDataPointer &context, const XsdSchemaParserContext *parserContext) : m_context(context) , m_checker(parserContext->checker()) , m_namePool(parserContext->namePool()) , m_schema(parserContext->schema()) { m_keyReferences.reserve(20); m_simpleRestrictionBases.reserve(20); m_simpleListTypes.reserve(20); m_simpleUnionTypes.reserve(20); m_elementTypes.reserve(20); m_complexBaseTypes.reserve(20); m_attributeTypes.reserve(20); m_alternativeTypes.reserve(20); m_alternativeTypeElements.reserve(20); m_substitutionGroupAffiliations.reserve(20); m_predefinedSchemaTypes = m_context->schemaTypeFactory()->types().values(); } XsdSchemaResolver::~XsdSchemaResolver() { } void XsdSchemaResolver::resolve() { m_checker->addComponentLocationHash(m_componentLocationHash); // resolve the base types for all types resolveSimpleRestrictionBaseTypes(); resolveComplexBaseTypes(); // do the basic checks which depend on having a base type available m_checker->basicCheck(); // resolve further types that only map a type name to a type object resolveSimpleListType(); resolveSimpleUnionTypes(); resolveElementTypes(); resolveAttributeTypes(); resolveAlternativeTypes(); // resolve objects that do not need information about inheritance resolveKeyReferences(); resolveSubstitutionGroupAffiliations(); // resolve objects that do need information about inheritance resolveSimpleRestrictions(); resolveSimpleContentComplexTypes(); // resolve objects which replace place holders resolveTermReferences(); resolveAttributeTermReferences(); // resolve additional objects that do need information about inheritance resolveAttributeInheritance(); resolveComplexContentComplexTypes(); resolveSubstitutionGroups(); resolveEnumerationFacetValues(); checkRedefinedGroups(); checkRedefinedAttributeGroups(); // check the constraining facets before we resolve them m_checker->checkConstrainingFacets(); // add it again, as we may have added new components in the meantime m_checker->addComponentLocationHash(m_componentLocationHash); m_checker->check(); } void XsdSchemaResolver::addKeyReference(const XsdElement::Ptr &element, const XsdIdentityConstraint::Ptr &keyRef, const QXmlName &reference, const QSourceLocation &location) { KeyReference item; item.element = element; item.keyRef = keyRef; item.reference = reference; item.location = location; m_keyReferences.append(item); } void XsdSchemaResolver::addSimpleRestrictionBase(const XsdSimpleType::Ptr &simpleType, const QXmlName &baseName, const QSourceLocation &location) { SimpleRestrictionBase item; item.simpleType = simpleType; item.baseName = baseName; item.location = location; m_simpleRestrictionBases.append(item); } void XsdSchemaResolver::removeSimpleRestrictionBase(const XsdSimpleType::Ptr &type) { for (int i = 0; i < m_simpleRestrictionBases.count(); ++i) { if (m_simpleRestrictionBases.at(i).simpleType == type) { m_simpleRestrictionBases.remove(i); break; } } } void XsdSchemaResolver::addSimpleListType(const XsdSimpleType::Ptr &simpleType, const QXmlName &typeName, const QSourceLocation &location) { SimpleListType item; item.simpleType = simpleType; item.typeName = typeName; item.location = location; m_simpleListTypes.append(item); } void XsdSchemaResolver::addSimpleUnionTypes(const XsdSimpleType::Ptr &simpleType, const QList &typeNames, const QSourceLocation &location) { SimpleUnionType item; item.simpleType = simpleType; item.typeNames = typeNames; item.location = location; m_simpleUnionTypes.append(item); } void XsdSchemaResolver::addElementType(const XsdElement::Ptr &element, const QXmlName &typeName, const QSourceLocation &location) { ElementType item; item.element = element; item.typeName = typeName; item.location = location; m_elementTypes.append(item); } void XsdSchemaResolver::addComplexBaseType(const XsdComplexType::Ptr &complexType, const QXmlName &baseName, const QSourceLocation &location, const XsdFacet::Hash &facets) { ComplexBaseType item; item.complexType = complexType; item.baseName = baseName; item.location = location; item.facets = facets; m_complexBaseTypes.append(item); } void XsdSchemaResolver::removeComplexBaseType(const XsdComplexType::Ptr &type) { for (int i = 0; i < m_complexBaseTypes.count(); ++i) { if (m_complexBaseTypes.at(i).complexType == type) { m_complexBaseTypes.remove(i); break; } } } void XsdSchemaResolver::addComplexContentType(const XsdComplexType::Ptr &complexType, const XsdParticle::Ptr &content, bool mixed) { ComplexContentType item; item.complexType = complexType; item.explicitContent = content; item.effectiveMixed = mixed; m_complexContentTypes.append(item); } void XsdSchemaResolver::addAttributeType(const XsdAttribute::Ptr &attribute, const QXmlName &typeName, const QSourceLocation &location) { AttributeType item; item.attribute = attribute; item.typeName = typeName; item.location = location; m_attributeTypes.append(item); } void XsdSchemaResolver::addAlternativeType(const XsdAlternative::Ptr &alternative, const QXmlName &typeName, const QSourceLocation &location) { AlternativeType item; item.alternative = alternative; item.typeName = typeName; item.location = location; m_alternativeTypes.append(item); } void XsdSchemaResolver::addAlternativeType(const XsdAlternative::Ptr &alternative, const XsdElement::Ptr &element) { AlternativeTypeElement item; item.alternative = alternative; item.element = element; m_alternativeTypeElements.append(item); } void XsdSchemaResolver::addSubstitutionGroupAffiliation(const XsdElement::Ptr &element, const QList &elementNames, const QSourceLocation &location) { SubstitutionGroupAffiliation item; item.element = element; item.elementNames = elementNames; item.location = location; m_substitutionGroupAffiliations.append(item); } void XsdSchemaResolver::addSubstitutionGroupType(const XsdElement::Ptr &element) { m_substitutionGroupTypes.append(element); } void XsdSchemaResolver::addComponentLocationHash(const ComponentLocationHash &hash) { m_componentLocationHash.unite(hash); } void XsdSchemaResolver::addEnumerationFacetValue(const AtomicValue::Ptr &facetValue, const NamespaceSupport &namespaceSupport) { m_enumerationFacetValues.insert(facetValue, namespaceSupport); } void XsdSchemaResolver::addRedefinedGroups(const XsdModelGroup::Ptr &redefinedGroup, const XsdModelGroup::Ptr &group) { RedefinedGroups item; item.redefinedGroup = redefinedGroup; item.group = group; m_redefinedGroups.append(item); } void XsdSchemaResolver::addRedefinedAttributeGroups(const XsdAttributeGroup::Ptr &redefinedGroup, const XsdAttributeGroup::Ptr &group) { RedefinedAttributeGroups item; item.redefinedGroup = redefinedGroup; item.group = group; m_redefinedAttributeGroups.append(item); } void XsdSchemaResolver::addAllGroupCheck(const XsdReference::Ptr &reference) { m_allGroups.insert(reference); } void XsdSchemaResolver::copyDataTo(const XsdSchemaResolver::Ptr &other) const { other->m_keyReferences << m_keyReferences; other->m_simpleRestrictionBases << m_simpleRestrictionBases; other->m_simpleListTypes << m_simpleListTypes; other->m_simpleUnionTypes << m_simpleUnionTypes; other->m_elementTypes << m_elementTypes; other->m_complexBaseTypes << m_complexBaseTypes; other->m_complexContentTypes << m_complexContentTypes; other->m_attributeTypes << m_attributeTypes; other->m_alternativeTypes << m_alternativeTypes; other->m_alternativeTypeElements << m_alternativeTypeElements; other->m_substitutionGroupAffiliations << m_substitutionGroupAffiliations; other->m_substitutionGroupTypes << m_substitutionGroupTypes; } QXmlName XsdSchemaResolver::baseTypeNameOfType(const SchemaType::Ptr &type) const { for (int i = 0; i < m_simpleRestrictionBases.count(); ++i) { if (m_simpleRestrictionBases.at(i).simpleType == type) return m_simpleRestrictionBases.at(i).baseName; } for (int i = 0; i < m_complexBaseTypes.count(); ++i) { if (m_complexBaseTypes.at(i).complexType == type) return m_complexBaseTypes.at(i).baseName; } return QXmlName(); } QXmlName XsdSchemaResolver::typeNameOfAttribute(const XsdAttribute::Ptr &attribute) const { for (int i = 0; i < m_attributeTypes.count(); ++i) { if (m_attributeTypes.at(i).attribute == attribute) return m_attributeTypes.at(i).typeName; } return QXmlName(); } void XsdSchemaResolver::setDefaultOpenContent(const XsdComplexType::OpenContent::Ptr &openContent, bool appliesToEmpty) { m_defaultOpenContent = openContent; m_defaultOpenContentAppliesToEmpty = appliesToEmpty; } void XsdSchemaResolver::resolveKeyReferences() { for (int i = 0; i < m_keyReferences.count(); ++i) { const KeyReference ref = m_keyReferences.at(i); const XsdIdentityConstraint::Ptr constraint = m_schema->identityConstraint(ref.reference); if (!constraint) { m_context->error(QtXmlPatterns::tr("%1 references unknown %2 or %3 element %4.") .arg(formatKeyword(ref.keyRef->displayName(m_namePool))) .arg(formatElement("key")) .arg(formatElement("unique")) .arg(formatKeyword(m_namePool, ref.reference)), XsdSchemaContext::XSDError, ref.location); return; } if (constraint->category() != XsdIdentityConstraint::Key && constraint->category() != XsdIdentityConstraint::Unique) { // only key and unique can be referenced m_context->error(QtXmlPatterns::tr("%1 references identity constraint %2 that is no %3 or %4 element.") .arg(formatKeyword(ref.keyRef->displayName(m_namePool))) .arg(formatKeyword(m_namePool, ref.reference)) .arg(formatElement("key")) .arg(formatElement("unique")), XsdSchemaContext::XSDError, ref.location); return; } if (constraint->fields().count() != ref.keyRef->fields().count()) { m_context->error(QtXmlPatterns::tr("%1 has a different number of fields from the identity constraint %2 that it references.") .arg(formatKeyword(ref.keyRef->displayName(m_namePool))) .arg(formatKeyword(m_namePool, ref.reference)), XsdSchemaContext::XSDError, ref.location); return; } ref.keyRef->setReferencedKey(constraint); } } void XsdSchemaResolver::resolveSimpleRestrictionBaseTypes() { // iterate over all simple types that are derived by restriction for (int i = 0; i < m_simpleRestrictionBases.count(); ++i) { const SimpleRestrictionBase item = m_simpleRestrictionBases.at(i); // find the base type SchemaType::Ptr type = m_schema->type(item.baseName); if (!type) { // maybe it's a basic type... type = m_context->schemaTypeFactory()->createSchemaType(item.baseName); if (!type) { m_context->error(QtXmlPatterns::tr("Base type %1 of %2 element cannot be resolved.") .arg(formatType(m_namePool, item.baseName)) .arg(formatElement("restriction")), XsdSchemaContext::XSDError, item.location); return; } } item.simpleType->setWxsSuperType(type); } } void XsdSchemaResolver::resolveSimpleRestrictions() { XsdSimpleType::List simpleTypes; // first collect the global simple types const SchemaType::List types = m_schema->types(); for (int i = 0; i < types.count(); ++i) { if (types.at(i)->isSimpleType() && (types.at(i)->derivationMethod() == SchemaType::DerivationRestriction)) simpleTypes.append(types.at(i)); } // then collect all anonymous simple types const SchemaType::List anonymousTypes = m_schema->anonymousTypes(); for (int i = 0; i < anonymousTypes.count(); ++i) { if (anonymousTypes.at(i)->isSimpleType() && (anonymousTypes.at(i)->derivationMethod() == SchemaType::DerivationRestriction)) simpleTypes.append(anonymousTypes.at(i)); } QSet visitedTypes; for (int i = 0; i < simpleTypes.count(); ++i) { resolveSimpleRestrictions(simpleTypes.at(i), visitedTypes); } } void XsdSchemaResolver::resolveSimpleRestrictions(const XsdSimpleType::Ptr &simpleType, QSet &visitedTypes) { if (visitedTypes.contains(simpleType)) return; else visitedTypes.insert(simpleType); if (simpleType->derivationMethod() != XsdSimpleType::DerivationRestriction) return; // as xs:NMTOKENS, xs:ENTITIES and xs:IDREFS are provided by our XsdSchemaTypesFactory, they are // setup correctly already and shouldn't be handled here if (m_predefinedSchemaTypes.contains(simpleType)) return; const SchemaType::Ptr baseType = simpleType->wxsSuperType(); Q_ASSERT(baseType); if (baseType->isDefinedBySchema()) resolveSimpleRestrictions(XsdSimpleType::Ptr(baseType), visitedTypes); simpleType->setCategory(baseType->category()); if (simpleType->category() == XsdSimpleType::SimpleTypeAtomic) { QSet visitedPrimitiveTypes; const AnySimpleType::Ptr primitiveType = findPrimitiveType(baseType, visitedPrimitiveTypes); simpleType->setPrimitiveType(primitiveType); } else if (simpleType->category() == XsdSimpleType::SimpleTypeList) { const XsdSimpleType::Ptr simpleBaseType = baseType; simpleType->setItemType(simpleBaseType->itemType()); } else if (simpleType->category() == XsdSimpleType::SimpleTypeUnion) { const XsdSimpleType::Ptr simpleBaseType = baseType; simpleType->setMemberTypes(simpleBaseType->memberTypes()); } } void XsdSchemaResolver::resolveSimpleListType() { // iterate over all simple types where the item type shall be resolved for (int i = 0; i < m_simpleListTypes.count(); ++i) { const SimpleListType item = m_simpleListTypes.at(i); // try to resolve the name SchemaType::Ptr type = m_schema->type(item.typeName); if (!type) { // maybe it's a basic type... type = m_context->schemaTypeFactory()->createSchemaType(item.typeName); if (!type) { m_context->error(QtXmlPatterns::tr("Item type %1 of %2 element cannot be resolved.") .arg(formatType(m_namePool, item.typeName)) .arg(formatElement("list")), XsdSchemaContext::XSDError, item.location); return; } } item.simpleType->setItemType(type); } } void XsdSchemaResolver::resolveSimpleUnionTypes() { // iterate over all simple types where the union member types shall be resolved for (int i = 0; i < m_simpleUnionTypes.count(); ++i) { const SimpleUnionType item = m_simpleUnionTypes.at(i); AnySimpleType::List memberTypes; // iterate over all union member type names const QList typeNames = item.typeNames; for (int j = 0; j < typeNames.count(); ++j) { const QXmlName typeName = typeNames.at(j); // try to resolve the name SchemaType::Ptr type = m_schema->type(typeName); if (!type) { // maybe it's a basic type... type = m_context->schemaTypeFactory()->createSchemaType(typeName); if (!type) { m_context->error(QtXmlPatterns::tr("Member type %1 of %2 element cannot be resolved.") .arg(formatType(m_namePool, typeName)) .arg(formatElement("union")), XsdSchemaContext::XSDError, item.location); return; } } memberTypes.append(type); } // append the types that have been defined as children memberTypes << item.simpleType->memberTypes(); item.simpleType->setMemberTypes(memberTypes); } } void XsdSchemaResolver::resolveElementTypes() { for (int i = 0; i < m_elementTypes.count(); ++i) { const ElementType item = m_elementTypes.at(i); SchemaType::Ptr type = m_schema->type(item.typeName); if (!type) { // maybe it's a basic type... type = m_context->schemaTypeFactory()->createSchemaType(item.typeName); if (!type) { m_context->error(QtXmlPatterns::tr("Type %1 of %2 element cannot be resolved.") .arg(formatType(m_namePool, item.typeName)) .arg(formatElement("element")), XsdSchemaContext::XSDError, item.location); return; } } item.element->setType(type); } } void XsdSchemaResolver::resolveComplexBaseTypes() { for (int i = 0; i < m_complexBaseTypes.count(); ++i) { const ComplexBaseType item = m_complexBaseTypes.at(i); SchemaType::Ptr type = m_schema->type(item.baseName); if (!type) { // maybe it's a basic type... type = m_context->schemaTypeFactory()->createSchemaType(item.baseName); if (!type) { m_context->error(QtXmlPatterns::tr("Base type %1 of complex type cannot be resolved.").arg(formatType(m_namePool, item.baseName)), XsdSchemaContext::XSDError, item.location); return; } } if (item.complexType->contentType()->variety() == XsdComplexType::ContentType::Simple) { if (type->isComplexType() && type->isDefinedBySchema()) { const XsdComplexType::Ptr baseType = type; if (baseType->contentType()->variety() != XsdComplexType::ContentType::Simple) { m_context->error(QtXmlPatterns::tr("%1 cannot have complex base type that has a %2.") .arg(formatElement("simpleContent")) .arg(formatElement("complexContent")), XsdSchemaContext::XSDError, item.location); return; } } } item.complexType->setWxsSuperType(type); } } void XsdSchemaResolver::resolveSimpleContentComplexTypes() { XsdComplexType::List complexTypes; // first collect the global complex types const SchemaType::List types = m_schema->types(); for (int i = 0; i < types.count(); ++i) { if (types.at(i)->isComplexType() && types.at(i)->isDefinedBySchema()) complexTypes.append(types.at(i)); } // then collect all anonymous simple types const SchemaType::List anonymousTypes = m_schema->anonymousTypes(); for (int i = 0; i < anonymousTypes.count(); ++i) { if (anonymousTypes.at(i)->isComplexType() && anonymousTypes.at(i)->isDefinedBySchema()) complexTypes.append(anonymousTypes.at(i)); } QSet visitedTypes; for (int i = 0; i < complexTypes.count(); ++i) { if (XsdComplexType::Ptr(complexTypes.at(i))->contentType()->variety() == XsdComplexType::ContentType::Simple) resolveSimpleContentComplexTypes(complexTypes.at(i), visitedTypes); } } void XsdSchemaResolver::resolveSimpleContentComplexTypes(const XsdComplexType::Ptr &complexType, QSet &visitedTypes) { if (visitedTypes.contains(complexType)) return; else visitedTypes.insert(complexType); const SchemaType::Ptr baseType = complexType->wxsSuperType(); // at this point simple types have been resolved already, so we care about // complex types here only // http://www.w3.org/TR/xmlschema11-1/#dcl.ctd.ctsc // 1 if (baseType->isComplexType() && baseType->isDefinedBySchema()) { const XsdComplexType::Ptr complexBaseType = baseType; resolveSimpleContentComplexTypes(complexBaseType, visitedTypes); if (complexBaseType->contentType()->variety() == XsdComplexType::ContentType::Simple) { if (complexType->derivationMethod() == XsdComplexType::DerivationRestriction) { if (complexType->contentType()->simpleType()) { // 1.1 contains the content of the already } else { // 1.2 const XsdSimpleType::Ptr anonType(new XsdSimpleType()); XsdSimpleType::TypeCategory baseCategory = complexBaseType->contentType()->simpleType()->category(); anonType->setCategory(baseCategory); if (baseCategory == XsdSimpleType::SimpleTypeList) { const XsdSimpleType::Ptr baseSimpleType = complexBaseType->contentType()->simpleType(); anonType->setItemType(baseSimpleType->itemType()); } anonType->setDerivationMethod(XsdSimpleType::DerivationRestriction); anonType->setWxsSuperType(complexBaseType->contentType()->simpleType()); anonType->setFacets(complexTypeFacets(complexType)); QSet visitedPrimitiveTypes; const AnySimpleType::Ptr primitiveType = findPrimitiveType(anonType->wxsSuperType(), visitedPrimitiveTypes); anonType->setPrimitiveType(primitiveType); complexType->contentType()->setSimpleType(anonType); m_schema->addAnonymousType(anonType); m_componentLocationHash.insert(anonType, m_componentLocationHash.value(complexType)); } } else if (complexBaseType->derivationMethod() == XsdComplexType::DerivationExtension) { // 3 complexType->contentType()->setSimpleType(complexBaseType->contentType()->simpleType()); } } else if (complexBaseType->contentType()->variety() == XsdComplexType::ContentType::Mixed && complexType->derivationMethod() == XsdComplexType::DerivationRestriction && XsdSchemaHelper::isParticleEmptiable(complexBaseType->contentType()->particle())) { // 2 // simple type was already set in parser const XsdSimpleType::Ptr anonType(new XsdSimpleType()); anonType->setCategory(complexType->contentType()->simpleType()->category()); anonType->setDerivationMethod(XsdSimpleType::DerivationRestriction); anonType->setWxsSuperType(complexType->contentType()->simpleType()); anonType->setFacets(complexTypeFacets(complexType)); QSet visitedPrimitiveTypes; const AnySimpleType::Ptr primitiveType = findPrimitiveType(anonType->wxsSuperType(), visitedPrimitiveTypes); anonType->setPrimitiveType(primitiveType); complexType->contentType()->setSimpleType(anonType); m_schema->addAnonymousType(anonType); m_componentLocationHash.insert(anonType, m_componentLocationHash.value(complexType)); } else { complexType->contentType()->setSimpleType(BuiltinTypes::xsAnySimpleType); } } else if (baseType->isSimpleType()) { // 4 complexType->contentType()->setSimpleType(baseType); } else { // 5 complexType->contentType()->setSimpleType(BuiltinTypes::xsAnySimpleType); } } void XsdSchemaResolver::resolveComplexContentComplexTypes() { XsdComplexType::List complexTypes; // first collect the global complex types const SchemaType::List types = m_schema->types(); for (int i = 0; i < types.count(); ++i) { if (types.at(i)->isComplexType() && types.at(i)->isDefinedBySchema()) complexTypes.append(types.at(i)); } // then collect all anonymous simple types const SchemaType::List anonymousTypes = m_schema->anonymousTypes(); for (int i = 0; i < anonymousTypes.count(); ++i) { if (anonymousTypes.at(i)->isComplexType() && anonymousTypes.at(i)->isDefinedBySchema()) complexTypes.append(anonymousTypes.at(i)); } QSet visitedTypes; for (int i = 0; i < complexTypes.count(); ++i) { if (XsdComplexType::Ptr(complexTypes.at(i))->contentType()->variety() != XsdComplexType::ContentType::Simple) resolveComplexContentComplexTypes(complexTypes.at(i), visitedTypes); } } void XsdSchemaResolver::resolveComplexContentComplexTypes(const XsdComplexType::Ptr &complexType, QSet &visitedTypes) { if (visitedTypes.contains(complexType)) return; else visitedTypes.insert(complexType); ComplexContentType item; bool foundCorrespondingItem = false; for (int i = 0; i < m_complexContentTypes.count(); ++i) { if (m_complexContentTypes.at(i).complexType == complexType) { item = m_complexContentTypes.at(i); foundCorrespondingItem = true; break; } } if (!foundCorrespondingItem) return; const SchemaType::Ptr baseType = complexType->wxsSuperType(); // at this point simple types have been resolved already, so we care about // complex types here only if (baseType->isComplexType() && baseType->isDefinedBySchema()) resolveComplexContentComplexTypes(XsdComplexType::Ptr(baseType), visitedTypes); // @see http://www.w3.org/TR/xmlschema11-1/#dcl.ctd.ctcc.common // 3 XsdParticle::Ptr effectiveContent; if (!item.explicitContent) { // 3.1 if (item.effectiveMixed == true) { // 3.1.1 const XsdParticle::Ptr particle(new XsdParticle()); particle->setMinimumOccurs(1); particle->setMaximumOccurs(1); particle->setMaximumOccursUnbounded(false); const XsdModelGroup::Ptr sequence(new XsdModelGroup()); sequence->setCompositor(XsdModelGroup::SequenceCompositor); particle->setTerm(sequence); effectiveContent = particle; } else { // 3.1.2 effectiveContent = XsdParticle::Ptr(); } } else { // 3.2 effectiveContent = item.explicitContent; } // 4 XsdComplexType::ContentType::Ptr explicitContentType(new XsdComplexType::ContentType()); if (item.complexType->derivationMethod() == XsdComplexType::DerivationRestriction) { // 4.1 if (!effectiveContent) { // 4.1.1 explicitContentType->setVariety(XsdComplexType::ContentType::Empty); } else { // 4.1.2 if (item.effectiveMixed == true) explicitContentType->setVariety(XsdComplexType::ContentType::Mixed); else explicitContentType->setVariety(XsdComplexType::ContentType::ElementOnly); explicitContentType->setParticle(effectiveContent); } } else if (item.complexType->derivationMethod() == XsdComplexType::DerivationExtension) { // 4.2 const SchemaType::Ptr baseType = item.complexType->wxsSuperType(); if (baseType->isSimpleType() || (baseType->isComplexType() && baseType->isDefinedBySchema() && (XsdComplexType::Ptr(baseType)->contentType()->variety() == XsdComplexType::ContentType::Empty || XsdComplexType::Ptr(baseType)->contentType()->variety() == XsdComplexType::ContentType::Simple))) { // 4.2.1 if (!effectiveContent) { explicitContentType->setVariety(XsdComplexType::ContentType::Empty); } else { if (item.effectiveMixed == true) explicitContentType->setVariety(XsdComplexType::ContentType::Mixed); else explicitContentType->setVariety(XsdComplexType::ContentType::ElementOnly); explicitContentType->setParticle(effectiveContent); } } else if (baseType->isComplexType() && baseType->isDefinedBySchema() && (XsdComplexType::Ptr(baseType)->contentType()->variety() == XsdComplexType::ContentType::ElementOnly || XsdComplexType::Ptr(baseType)->contentType()->variety() == XsdComplexType::ContentType::Mixed) && !effectiveContent) { // 4.2.2 const XsdComplexType::Ptr complexBaseType(baseType); explicitContentType = complexBaseType->contentType(); } else { // 4.2.3 explicitContentType->setVariety(item.effectiveMixed ? XsdComplexType::ContentType::Mixed : XsdComplexType::ContentType::ElementOnly); XsdParticle::Ptr baseParticle; if (baseType == BuiltinTypes::xsAnyType) { // we need a workaround here, since the xsAnyType is no real (aka XsdComplexType) complex type... baseParticle = XsdParticle::Ptr(new XsdParticle()); baseParticle->setMinimumOccurs(1); baseParticle->setMaximumOccurs(1); baseParticle->setMaximumOccursUnbounded(false); const XsdModelGroup::Ptr group(new XsdModelGroup()); group->setCompositor(XsdModelGroup::SequenceCompositor); const XsdParticle::Ptr particle(new XsdParticle()); particle->setMinimumOccurs(0); particle->setMaximumOccursUnbounded(true); const XsdWildcard::Ptr wildcard(new XsdWildcard()); wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Any); wildcard->setProcessContents(XsdWildcard::Lax); particle->setTerm(wildcard); XsdParticle::List particles; particles.append(particle); group->setParticles(particles); baseParticle->setTerm(group); } else { const XsdComplexType::Ptr complexBaseType(baseType); baseParticle = complexBaseType->contentType()->particle(); } if (baseParticle && baseParticle->term()->isModelGroup() && (XsdModelGroup::Ptr(baseParticle->term())->compositor() == XsdModelGroup::AllCompositor) && (!item.explicitContent)) { // 4.2.3.1 explicitContentType->setParticle(baseParticle); } else if (baseParticle && baseParticle->term()->isModelGroup() && (XsdModelGroup::Ptr(baseParticle->term())->compositor() == XsdModelGroup::AllCompositor) && (effectiveContent->term()->isModelGroup() && (XsdModelGroup::Ptr(effectiveContent->term())->compositor() == XsdModelGroup::AllCompositor))) { // 4.2.3.2 const XsdParticle::Ptr particle(new XsdParticle()); particle->setMinimumOccurs(effectiveContent->minimumOccurs()); particle->setMaximumOccurs(1); particle->setMaximumOccursUnbounded(false); const XsdModelGroup::Ptr group(new XsdModelGroup()); group->setCompositor(XsdModelGroup::AllCompositor); XsdParticle::List particles = XsdModelGroup::Ptr(baseParticle->term())->particles(); particles << XsdModelGroup::Ptr(effectiveContent->term())->particles(); group->setParticles(particles); particle->setTerm(group); explicitContentType->setParticle(particle); } else { // 4.2.3.3 const XsdParticle::Ptr particle(new XsdParticle()); particle->setMinimumOccurs(1); particle->setMaximumOccurs(1); particle->setMaximumOccursUnbounded(false); const XsdModelGroup::Ptr group(new XsdModelGroup()); group->setCompositor(XsdModelGroup::SequenceCompositor); if (effectiveContent && effectiveContent->term()->isModelGroup() && XsdModelGroup::Ptr(effectiveContent->term())->compositor() == XsdModelGroup::AllCompositor) { m_context->error(QtXmlPatterns::tr("Content model of complex type %1 contains %2 element, so it cannot be derived by extension from a non-empty type.") .arg(formatType(m_namePool, complexType)).arg(formatKeyword("all")), XsdSchemaContext::XSDError, sourceLocation(complexType)); return; } if (baseParticle && baseParticle->term()->isModelGroup() && XsdModelGroup::Ptr(baseParticle->term())->compositor() == XsdModelGroup::AllCompositor) { m_context->error(QtXmlPatterns::tr("Complex type %1 cannot be derived by extension from %2 as the latter contains %3 element in its content model.") .arg(formatType(m_namePool, complexType)) .arg(formatType(m_namePool, baseType)) .arg(formatKeyword("all")), XsdSchemaContext::XSDError, sourceLocation(complexType)); return; } XsdParticle::List particles; if (baseParticle) particles << baseParticle; if (effectiveContent) particles << effectiveContent; group->setParticles(particles); particle->setTerm(group); explicitContentType->setParticle(particle); } if (baseType->isDefinedBySchema()) { // xs:anyType has no open content const XsdComplexType::Ptr complexBaseType(baseType); explicitContentType->setOpenContent(complexBaseType->contentType()->openContent()); } } } // 5 XsdComplexType::OpenContent::Ptr wildcardElement; if (item.complexType->contentType()->openContent()) { // 5.1 wildcardElement = item.complexType->contentType()->openContent(); } else { if (m_defaultOpenContent) { // 5.2 if ((explicitContentType->variety() != XsdComplexType::ContentType::Empty) || // 5.2.1 (explicitContentType->variety() == XsdComplexType::ContentType::Empty && m_defaultOpenContentAppliesToEmpty)) { // 5.2.2 wildcardElement = m_defaultOpenContent; } } } // 6 if (!wildcardElement) { // 6.1 item.complexType->setContentType(explicitContentType); } else { if (wildcardElement->mode() == XsdComplexType::OpenContent::None) { // 6.2 const XsdComplexType::ContentType::Ptr contentType(new XsdComplexType::ContentType()); contentType->setVariety(explicitContentType->variety()); contentType->setParticle(explicitContentType->particle()); item.complexType->setContentType(contentType); } else { // 6.3 const XsdComplexType::ContentType::Ptr contentType(new XsdComplexType::ContentType()); if (explicitContentType->variety() == XsdComplexType::ContentType::Empty) contentType->setVariety(XsdComplexType::ContentType::ElementOnly); else contentType->setVariety(explicitContentType->variety()); if (explicitContentType->variety() == XsdComplexType::ContentType::Empty) { const XsdParticle::Ptr particle(new XsdParticle()); particle->setMinimumOccurs(1); particle->setMaximumOccurs(1); const XsdModelGroup::Ptr sequence(new XsdModelGroup()); sequence->setCompositor(XsdModelGroup::SequenceCompositor); particle->setTerm(sequence); contentType->setParticle(particle); } else { contentType->setParticle(explicitContentType->particle()); } const XsdComplexType::OpenContent::Ptr openContent(new XsdComplexType::OpenContent()); if (wildcardElement) openContent->setMode(wildcardElement->mode()); else openContent->setMode(XsdComplexType::OpenContent::Interleave); if (wildcardElement) openContent->setWildcard(wildcardElement->wildcard()); item.complexType->setContentType(contentType); } } } void XsdSchemaResolver::resolveAttributeTypes() { for (int i = 0; i < m_attributeTypes.count(); ++i) { const AttributeType item = m_attributeTypes.at(i); SchemaType::Ptr type = m_schema->type(item.typeName); if (!type) { // maybe it's a basic type... type = m_context->schemaTypeFactory()->createSchemaType(item.typeName); if (!type) { m_context->error(QtXmlPatterns::tr("Type %1 of %2 element cannot be resolved.") .arg(formatType(m_namePool, item.typeName)) .arg(formatElement("attribute")), XsdSchemaContext::XSDError, item.location); return; } } if (!type->isSimpleType() && type->category() != SchemaType::None) { m_context->error(QtXmlPatterns::tr("Type of %1 element must be a simple type, %2 is not.") .arg(formatElement("attribute")) .arg(formatType(m_namePool, item.typeName)), XsdSchemaContext::XSDError, item.location); return; } item.attribute->setType(type); } } void XsdSchemaResolver::resolveAlternativeTypes() { for (int i = 0; i < m_alternativeTypes.count(); ++i) { const AlternativeType item = m_alternativeTypes.at(i); SchemaType::Ptr type = m_schema->type(item.typeName); if (!type) { // maybe it's a basic type... type = m_context->schemaTypeFactory()->createSchemaType(item.typeName); if (!type) { m_context->error(QtXmlPatterns::tr("Type %1 of %2 element cannot be resolved.") .arg(formatType(m_namePool, item.typeName)) .arg(formatElement("alternative")), XsdSchemaContext::XSDError, item.location); return; } } item.alternative->setType(type); } for (int i = 0; i < m_alternativeTypeElements.count(); ++i) { const AlternativeTypeElement item = m_alternativeTypeElements.at(i); item.alternative->setType(item.element->type()); } } bool hasCircularSubstitutionGroup(const XsdElement::Ptr ¤t, const XsdElement::Ptr &head, const NamePool::Ptr &namePool) { if (current == head) return true; else { const XsdElement::List elements = current->substitutionGroupAffiliations(); for (int i = 0; i < elements.count(); ++i) { if (hasCircularSubstitutionGroup(elements.at(i), head, namePool)) return true; } } return false; } void XsdSchemaResolver::resolveSubstitutionGroupAffiliations() { for (int i = 0; i < m_substitutionGroupAffiliations.count(); ++i) { const SubstitutionGroupAffiliation item = m_substitutionGroupAffiliations.at(i); XsdElement::List affiliations; for (int j = 0; j < item.elementNames.count(); ++j) { const XsdElement::Ptr element = m_schema->element(item.elementNames.at(j)); if (!element) { m_context->error(QtXmlPatterns::tr("Substitution group %1 of %2 element cannot be resolved.") .arg(formatKeyword(m_namePool, item.elementNames.at(j))) .arg(formatElement("element")), XsdSchemaContext::XSDError, item.location); return; } // @see http://www.w3.org/TR/xmlschema11-1/#e-props-correct 5) if (hasCircularSubstitutionGroup(element, item.element, m_namePool)) { m_context->error(QtXmlPatterns::tr("Substitution group %1 has circular definition.").arg(formatKeyword(m_namePool, item.elementNames.at(j))), XsdSchemaContext::XSDError, item.location); return; } affiliations.append(element); } item.element->setSubstitutionGroupAffiliations(affiliations); } for (int i = 0; i < m_substitutionGroupTypes.count(); ++i) { const XsdElement::Ptr element = m_substitutionGroupTypes.at(i); element->setType(element->substitutionGroupAffiliations().first()->type()); } } bool isSubstGroupHeadOf(const XsdElement::Ptr &head, const XsdElement::Ptr &element, const NamePool::Ptr &namePool) { if (head->name(namePool) == element->name(namePool)) return true; const XsdElement::List affiliations = element->substitutionGroupAffiliations(); for (int i = 0; i < affiliations.count(); ++i) { if (isSubstGroupHeadOf(head, affiliations.at(i), namePool)) return true; } return false; } void XsdSchemaResolver::resolveSubstitutionGroups() { const XsdElement::List elements = m_schema->elements(); for (int i = 0; i < elements.count(); ++i) { const XsdElement::Ptr element = elements.at(i); // the element is always itself in the substitution group element->addSubstitutionGroup(element); for (int j = 0; j < elements.count(); ++j) { if (i == j) continue; if (isSubstGroupHeadOf(element, elements.at(j), m_namePool)) element->addSubstitutionGroup(elements.at(j)); } } } void XsdSchemaResolver::resolveTermReferences() { // first the global complex types const SchemaType::List types = m_schema->types(); for (int i = 0; i < types.count(); ++i) { if (!(types.at(i)->isComplexType()) || !types.at(i)->isDefinedBySchema()) continue; const XsdComplexType::Ptr complexType = types.at(i); if (complexType->contentType()->variety() != XsdComplexType::ContentType::ElementOnly && complexType->contentType()->variety() != XsdComplexType::ContentType::Mixed) continue; resolveTermReference(complexType->contentType()->particle(), QSet()); } // then all anonymous complex types const SchemaType::List anonymousTypes = m_schema->anonymousTypes(); for (int i = 0; i < anonymousTypes.count(); ++i) { if (!(anonymousTypes.at(i)->isComplexType()) || !anonymousTypes.at(i)->isDefinedBySchema()) continue; const XsdComplexType::Ptr complexType = anonymousTypes.at(i); if (complexType->contentType()->variety() != XsdComplexType::ContentType::ElementOnly && complexType->contentType()->variety() != XsdComplexType::ContentType::Mixed) continue; resolveTermReference(complexType->contentType()->particle(), QSet()); } const XsdModelGroup::List groups = m_schema->elementGroups(); for (int i = 0; i < groups.count(); ++i) { const XsdParticle::Ptr particle(new XsdParticle()); particle->setTerm(groups.at(i)); resolveTermReference(particle, QSet()); } } void XsdSchemaResolver::resolveTermReference(const XsdParticle::Ptr &particle, QSet visitedGroups) { if (!particle) return; const XsdTerm::Ptr term = particle->term(); // if it is a model group, we iterate over it recursive... if (term->isModelGroup()) { const XsdModelGroup::Ptr modelGroup = term; const XsdParticle::List particles = modelGroup->particles(); for (int i = 0; i < particles.count(); ++i) { resolveTermReference(particles.at(i), visitedGroups); } // check for unique names of elements inside all compositor if (modelGroup->compositor() != XsdModelGroup::ChoiceCompositor) { for (int i = 0; i < particles.count(); ++i) { const XsdParticle::Ptr particle = particles.at(i); const XsdTerm::Ptr term = particle->term(); if (!(term->isElement())) continue; for (int j = 0; j < particles.count(); ++j) { const XsdParticle::Ptr otherParticle = particles.at(j); const XsdTerm::Ptr otherTerm = otherParticle->term(); if (otherTerm->isElement() && i != j) { const XsdElement::Ptr element = term; const XsdElement::Ptr otherElement = otherTerm; if (element->name(m_namePool) == otherElement->name(m_namePool)) { if (modelGroup->compositor() == XsdModelGroup::AllCompositor) { m_context->error(QtXmlPatterns::tr("Duplicated element names %1 in %2 element.") .arg(formatKeyword(element->displayName(m_namePool))) .arg(formatElement("all")), XsdSchemaContext::XSDError, sourceLocation(modelGroup)); return; } else if (modelGroup->compositor() == XsdModelGroup::SequenceCompositor) { if (element->type() != otherElement->type()) { // not same variety m_context->error(QtXmlPatterns::tr("Duplicated element names %1 in %2 element.") .arg(formatKeyword(element->displayName(m_namePool))) .arg(formatElement("sequence")), XsdSchemaContext::XSDError, sourceLocation(modelGroup)); return; } } } } } } } return; } // ...otherwise we have reached the end of recursion... if (!term->isReference()) return; // ...or we have reached a reference term that must be resolved const XsdReference::Ptr reference = term; switch (reference->type()) { case XsdReference::Element: { const XsdElement::Ptr element = m_schema->element(reference->referenceName()); if (element) { particle->setTerm(element); } else { m_context->error(QtXmlPatterns::tr("Reference %1 of %2 element cannot be resolved.") .arg(formatKeyword(m_namePool, reference->referenceName())) .arg(formatElement("element")), XsdSchemaContext::XSDError, reference->sourceLocation()); return; } } break; case XsdReference::ModelGroup: { const XsdModelGroup::Ptr modelGroup = m_schema->elementGroup(reference->referenceName()); if (modelGroup) { if (visitedGroups.contains(modelGroup->name(m_namePool))) { m_context->error(QtXmlPatterns::tr("Circular group reference for %1.").arg(formatKeyword(modelGroup->displayName(m_namePool))), XsdSchemaContext::XSDError, reference->sourceLocation()); } else { visitedGroups.insert(modelGroup->name(m_namePool)); } particle->setTerm(modelGroup); // start recursive iteration here as well to get all references resolved const XsdParticle::List particles = modelGroup->particles(); for (int i = 0; i < particles.count(); ++i) { resolveTermReference(particles.at(i), visitedGroups); } if (modelGroup->compositor() == XsdModelGroup::AllCompositor) { if (m_allGroups.contains(reference)) { m_context->error(QtXmlPatterns::tr("%1 element is not allowed in this scope").arg(formatElement("all.")), XsdSchemaContext::XSDError, reference->sourceLocation()); return; } if (particle->maximumOccursUnbounded() || particle->maximumOccurs() != 1) { m_context->error(QtXmlPatterns::tr("%1 element cannot have %2 attribute with value other than %3.") .arg(formatElement("all")) .arg(formatAttribute("maxOccurs")) .arg(formatData("1")), XsdSchemaContext::XSDError, reference->sourceLocation()); return; } if (particle->minimumOccurs() != 0 && particle->minimumOccurs() != 1) { m_context->error(QtXmlPatterns::tr("%1 element cannot have %2 attribute with value other than %3 or %4.") .arg(formatElement("all")) .arg(formatAttribute("minOccurs")) .arg(formatData("0")) .arg(formatData("1")), XsdSchemaContext::XSDError, reference->sourceLocation()); return; } } } else { m_context->error(QtXmlPatterns::tr("Reference %1 of %2 element cannot be resolved.") .arg(formatKeyword(m_namePool, reference->referenceName())) .arg(formatElement("group")), XsdSchemaContext::XSDError, reference->sourceLocation()); return; } } break; } } void XsdSchemaResolver::resolveAttributeTermReferences() { // first all global attribute groups const XsdAttributeGroup::List attributeGroups = m_schema->attributeGroups(); for (int i = 0; i < attributeGroups.count(); ++i) { XsdWildcard::Ptr wildcard = attributeGroups.at(i)->wildcard(); const XsdAttributeUse::List uses = resolveAttributeTermReferences(attributeGroups.at(i)->attributeUses(), wildcard, QSet()); attributeGroups.at(i)->setAttributeUses(uses); attributeGroups.at(i)->setWildcard(wildcard); } // then the global complex types const SchemaType::List types = m_schema->types(); for (int i = 0; i < types.count(); ++i) { if (!(types.at(i)->isComplexType()) || !types.at(i)->isDefinedBySchema()) continue; const XsdComplexType::Ptr complexType = types.at(i); const XsdAttributeUse::List attributeUses = complexType->attributeUses(); XsdWildcard::Ptr wildcard = complexType->attributeWildcard(); const XsdAttributeUse::List uses = resolveAttributeTermReferences(attributeUses, wildcard, QSet()); complexType->setAttributeUses(uses); complexType->setAttributeWildcard(wildcard); } // and afterwards all anonymous complex types const SchemaType::List anonymousTypes = m_schema->anonymousTypes(); for (int i = 0; i < anonymousTypes.count(); ++i) { if (!(anonymousTypes.at(i)->isComplexType()) || !anonymousTypes.at(i)->isDefinedBySchema()) continue; const XsdComplexType::Ptr complexType = anonymousTypes.at(i); const XsdAttributeUse::List attributeUses = complexType->attributeUses(); XsdWildcard::Ptr wildcard = complexType->attributeWildcard(); const XsdAttributeUse::List uses = resolveAttributeTermReferences(attributeUses, wildcard, QSet()); complexType->setAttributeUses(uses); complexType->setAttributeWildcard(wildcard); } } XsdAttributeUse::List XsdSchemaResolver::resolveAttributeTermReferences(const XsdAttributeUse::List &attributeUses, XsdWildcard::Ptr &wildcard, QSet visitedAttributeGroups) { XsdAttributeUse::List resolvedAttributeUses; for (int i = 0; i < attributeUses.count(); ++i) { const XsdAttributeUse::Ptr attributeUse = attributeUses.at(i); if (attributeUse->isAttributeUse()) { // it is a real attribute use, so no need to resolve it resolvedAttributeUses.append(attributeUse); } else if (attributeUse->isReference()) { // it is just a reference, so resolve it to the real attribute use const XsdAttributeReference::Ptr reference = attributeUse; if (reference->type() == XsdAttributeReference::AttributeUse) { // lookup the real attribute const XsdAttribute::Ptr attribute = m_schema->attribute(reference->referenceName()); if (!attribute) { m_context->error(QtXmlPatterns::tr("Reference %1 of %2 element cannot be resolved.") .arg(formatKeyword(m_namePool, reference->referenceName())) .arg(formatElement("attribute")), XsdSchemaContext::XSDError, reference->sourceLocation()); return XsdAttributeUse::List(); } // if both, reference and definition have a fixed or default value set, then they must be equal if (attribute->valueConstraint() && attributeUse->valueConstraint()) { if (attribute->valueConstraint()->value() != attributeUse->valueConstraint()->value()) { m_context->error(QtXmlPatterns::tr("%1 or %2 attribute of reference %3 does not match with the attribute declaration %4.") .arg(formatAttribute("fixed")) .arg(formatAttribute("default")) .arg(formatKeyword(m_namePool, reference->referenceName())) .arg(formatKeyword(attribute->displayName(m_namePool))), XsdSchemaContext::XSDError, reference->sourceLocation()); return XsdAttributeUse::List(); } } attributeUse->setAttribute(attribute); if (!attributeUse->valueConstraint() && attribute->valueConstraint()) attributeUse->setValueConstraint(XsdAttributeUse::ValueConstraint::fromAttributeValueConstraint(attribute->valueConstraint())); resolvedAttributeUses.append(attributeUse); } else if (reference->type() == XsdAttributeReference::AttributeGroup) { const XsdAttributeGroup::Ptr attributeGroup = m_schema->attributeGroup(reference->referenceName()); if (!attributeGroup) { m_context->error(QtXmlPatterns::tr("Reference %1 of %2 element cannot be resolved.") .arg(formatKeyword(m_namePool, reference->referenceName())) .arg(formatElement("attributeGroup")), XsdSchemaContext::XSDError, reference->sourceLocation()); return XsdAttributeUse::List(); } if (visitedAttributeGroups.contains(attributeGroup->name(m_namePool))) { m_context->error(QtXmlPatterns::tr("Attribute group %1 has circular reference.").arg(formatKeyword(m_namePool, reference->referenceName())), XsdSchemaContext::XSDError, reference->sourceLocation()); return XsdAttributeUse::List(); } else { visitedAttributeGroups.insert(attributeGroup->name(m_namePool)); } // resolve attribute wildcards as defined in http://www.w3.org/TR/xmlschema11-1/#declare-attributeGroup-wildcard XsdWildcard::Ptr childWildcard; resolvedAttributeUses << resolveAttributeTermReferences(attributeGroup->attributeUses(), childWildcard, visitedAttributeGroups); if (!childWildcard) { if (attributeGroup->wildcard()) { if (wildcard) { const XsdWildcard::ProcessContents contents = wildcard->processContents(); wildcard = XsdSchemaHelper::wildcardIntersection(wildcard, attributeGroup->wildcard()); wildcard->setProcessContents(contents); } else { wildcard = attributeGroup->wildcard(); } } } else { XsdWildcard::Ptr newWildcard; if (attributeGroup->wildcard()) { const XsdWildcard::ProcessContents contents = attributeGroup->wildcard()->processContents(); newWildcard = XsdSchemaHelper::wildcardIntersection(attributeGroup->wildcard(), childWildcard); newWildcard->setProcessContents(contents); } else { newWildcard = childWildcard; } if (wildcard) { const XsdWildcard::ProcessContents contents = wildcard->processContents(); wildcard = XsdSchemaHelper::wildcardIntersection(wildcard, newWildcard); wildcard->setProcessContents(contents); } else { wildcard = newWildcard; } } } } } return resolvedAttributeUses; } void XsdSchemaResolver::resolveAttributeInheritance() { // collect the global and anonymous complex types SchemaType::List types = m_schema->types(); types << m_schema->anonymousTypes(); QSet visitedTypes; for (int i = 0; i < types.count(); ++i) { if (!(types.at(i)->isComplexType()) || !types.at(i)->isDefinedBySchema()) continue; const XsdComplexType::Ptr complexType = types.at(i); resolveAttributeInheritance(complexType, visitedTypes); } } bool isValidWildcardRestriction(const XsdWildcard::Ptr &wildcard, const XsdWildcard::Ptr &baseWildcard) { if (wildcard->namespaceConstraint()->variety() == baseWildcard->namespaceConstraint()->variety()) { if (!XsdSchemaHelper::checkWildcardProcessContents(baseWildcard, wildcard)) return false; } if (wildcard->namespaceConstraint()->variety() == XsdWildcard::NamespaceConstraint::Any && baseWildcard->namespaceConstraint()->variety() != XsdWildcard::NamespaceConstraint::Any ) { return false; } if (baseWildcard->namespaceConstraint()->variety() == XsdWildcard::NamespaceConstraint::Not && wildcard->namespaceConstraint()->variety() == XsdWildcard::NamespaceConstraint::Enumeration) { if (!baseWildcard->namespaceConstraint()->namespaces().intersect(wildcard->namespaceConstraint()->namespaces()).isEmpty()) return false; } if (baseWildcard->namespaceConstraint()->variety() == XsdWildcard::NamespaceConstraint::Enumeration && wildcard->namespaceConstraint()->variety() == XsdWildcard::NamespaceConstraint::Enumeration) { if (!wildcard->namespaceConstraint()->namespaces().subtract(baseWildcard->namespaceConstraint()->namespaces()).isEmpty()) return false; } return true; } /* * Since we inherit the attributes from our base class we have to walk up in the * inheritance hierarchy first and resolve the attribute inheritance top-down. */ void XsdSchemaResolver::resolveAttributeInheritance(const XsdComplexType::Ptr &complexType, QSet &visitedTypes) { if (visitedTypes.contains(complexType)) return; else visitedTypes.insert(complexType); const SchemaType::Ptr baseType = complexType->wxsSuperType(); Q_ASSERT(baseType); if (!(baseType->isComplexType()) || !baseType->isDefinedBySchema()) return; const XsdComplexType::Ptr complexBaseType = baseType; resolveAttributeInheritance(complexBaseType, visitedTypes); // @see http://www.w3.org/TR/xmlschema11-1/#dcl.ctd.attuses // 1 and 2 (the attribute groups have been resolved here already) const XsdAttributeUse::List uses = complexBaseType->attributeUses(); if (complexType->derivationMethod() == XsdComplexType::DerivationRestriction) { // 3.2 const XsdAttributeUse::List currentUses = complexType->attributeUses(); // 3.2.1 and 3.2.2 As we also keep the prohibited attributes as objects, the algorithm below // handles both the same way // add only these attribute uses of the base type that match one of the following criteria: // 1: there is no attribute use with the same name in type // 2: there is no attribute with the same name marked as prohibited in type for (int j = 0; j < uses.count(); ++j) { const XsdAttributeUse::Ptr use = uses.at(j); bool found = false; for (int k = 0; k < currentUses.count(); ++k) { if (use->attribute()->name(m_namePool) == currentUses.at(k)->attribute()->name(m_namePool)) { found = true; // check if prohibited usage is violated if ((use->useType() == XsdAttributeUse::ProhibitedUse) && (currentUses.at(k)->useType() != XsdAttributeUse::ProhibitedUse)) { m_context->error(QtXmlPatterns::tr("%1 attribute in %2 must have %3 use like in base type %4.") .arg(formatAttribute(use->attribute()->displayName(m_namePool))) .arg(formatType(m_namePool, complexType)) .arg(formatData("prohibited")) .arg(formatType(m_namePool, complexBaseType)), XsdSchemaContext::XSDError, sourceLocation(complexType)); return; } break; } } if (!found && uses.at(j)->useType() != XsdAttributeUse::ProhibitedUse) { complexType->addAttributeUse(uses.at(j)); } } } else if (complexType->derivationMethod() == XsdComplexType::DerivationExtension) { // 3.1 QHash availableUses; // fill hash with attribute uses of current type for faster lookup { const XsdAttributeUse::List attributeUses = complexType->attributeUses(); for (int i = 0; i < attributeUses.count(); ++i) { availableUses.insert(attributeUses.at(i)->attribute()->name(m_namePool), attributeUses.at(i)); } } // just add the attribute uses of the base type for (int i = 0; i < uses.count(); ++i) { const XsdAttributeUse::Ptr currentAttributeUse = uses.at(i); // if the base type defines the attribute as prohibited but we override it in current type, then don't copy the prohibited attribute use if ((currentAttributeUse->useType() == XsdAttributeUse::ProhibitedUse) && availableUses.contains(currentAttributeUse->attribute()->name(m_namePool))) continue; complexType->addAttributeUse(uses.at(i)); } } // handle attribute wildcards: @see http://www.w3.org/TR/xmlschema11-1/#dcl.ctd.anyatt // 1 const XsdWildcard::Ptr completeWildcard(complexType->attributeWildcard()); if (complexType->derivationMethod() == XsdComplexType::DerivationRestriction) { if (complexType->wxsSuperType()->isComplexType() && complexType->wxsSuperType()->isDefinedBySchema()) { const XsdComplexType::Ptr complexBaseType(complexType->wxsSuperType()); if (complexType->attributeWildcard()) { if (complexBaseType->attributeWildcard()) { if (!isValidWildcardRestriction(complexType->attributeWildcard(), complexBaseType->attributeWildcard())) { m_context->error(QtXmlPatterns::tr("Attribute wildcard of %1 is not a valid restriction of attribute wildcard of base type %2.") .arg(formatType(m_namePool, complexType)) .arg(formatType(m_namePool, complexBaseType)), XsdSchemaContext::XSDError, sourceLocation(complexType)); return; } } else { m_context->error(QtXmlPatterns::tr("%1 has attribute wildcard but its base type %2 has not.") .arg(formatType(m_namePool, complexType)) .arg(formatType(m_namePool, complexBaseType)), XsdSchemaContext::XSDError, sourceLocation(complexType)); return; } } } complexType->setAttributeWildcard(completeWildcard); // 2.1 } else if (complexType->derivationMethod() == XsdComplexType::DerivationExtension) { XsdWildcard::Ptr baseWildcard; // 2.2.1 if (complexType->wxsSuperType()->isComplexType() && complexType->wxsSuperType()->isDefinedBySchema()) baseWildcard = XsdComplexType::Ptr(complexType->wxsSuperType())->attributeWildcard(); // 2.2.1.1 else baseWildcard = XsdWildcard::Ptr(); // 2.2.1.2 if (!baseWildcard) { complexType->setAttributeWildcard(completeWildcard); // 2.2.2.1 } else if (!completeWildcard) { complexType->setAttributeWildcard(baseWildcard); // 2.2.2.2 } else { XsdWildcard::Ptr unionWildcard = XsdSchemaHelper::wildcardUnion(completeWildcard, baseWildcard); if (unionWildcard) { unionWildcard->setProcessContents(completeWildcard->processContents()); complexType->setAttributeWildcard(unionWildcard); // 2.2.2.3 } else { m_context->error(QtXmlPatterns::tr("Union of attribute wildcard of type %1 and attribute wildcard of its base type %2 is not expressible.") .arg(formatType(m_namePool, complexType)) .arg(formatType(m_namePool, complexBaseType)), XsdSchemaContext::XSDError, sourceLocation(complexType)); return; } } } } void XsdSchemaResolver::resolveEnumerationFacetValues() { XsdSimpleType::List simpleTypes; // first collect the global simple types const SchemaType::List types = m_schema->types(); for (int i = 0; i < types.count(); ++i) { if (types.at(i)->isSimpleType()) simpleTypes.append(types.at(i)); } // then collect all anonymous simple types const SchemaType::List anonymousTypes = m_schema->anonymousTypes(); for (int i = 0; i < anonymousTypes.count(); ++i) { if (anonymousTypes.at(i)->isSimpleType()) simpleTypes.append(anonymousTypes.at(i)); } // process all simple types for (int i = 0; i < simpleTypes.count(); ++i) { const XsdSimpleType::Ptr simpleType = simpleTypes.at(i); // we resolve the enumeration values only for xs:QName and xs:NOTATION based types if (BuiltinTypes::xsQName->wxsTypeMatches(simpleType) || BuiltinTypes::xsNOTATION->wxsTypeMatches(simpleType)) { const XsdFacet::Hash facets = simpleType->facets(); if (facets.contains(XsdFacet::Enumeration)) { AtomicValue::List newValues; const XsdFacet::Ptr facet = facets.value(XsdFacet::Enumeration); const AtomicValue::List values = facet->multiValue(); for (int j = 0; j < values.count(); ++j) { const AtomicValue::Ptr value = values.at(j); Q_ASSERT(m_enumerationFacetValues.contains(value)); const NamespaceSupport support( m_enumerationFacetValues.value(value) ); const QString qualifiedName = value->as >()->stringValue(); if (!XPathHelper::isQName(qualifiedName)) { m_context->error(QtXmlPatterns::tr("Enumeration facet contains invalid content: {%1} is not a value of type %2.") .arg(formatData(qualifiedName)) .arg(formatType(m_namePool, BuiltinTypes::xsQName)), XsdSchemaContext::XSDError, sourceLocation(simpleType)); return; } QXmlName qNameValue; bool result = support.processName(qualifiedName, NamespaceSupport::ElementName, qNameValue); if (!result) { m_context->error(QtXmlPatterns::tr("Namespace prefix of qualified name %1 is not defined.").arg(formatData(qualifiedName)), XsdSchemaContext::XSDError, sourceLocation(simpleType)); return; } newValues.append(QNameValue::fromValue(m_namePool, qNameValue)); } facet->setMultiValue(newValues); } } } } QSourceLocation XsdSchemaResolver::sourceLocation(const NamedSchemaComponent::Ptr component) const { if (m_componentLocationHash.contains(component)) { return m_componentLocationHash.value(component); } else { QSourceLocation location; location.setLine(1); location.setColumn(1); location.setUri(QString::fromLatin1("dummyUri")); return location; } } XsdFacet::Hash XsdSchemaResolver::complexTypeFacets(const XsdComplexType::Ptr &complexType) const { for (int i = 0; i < m_complexBaseTypes.count(); ++i) { if (m_complexBaseTypes.at(i).complexType == complexType) return m_complexBaseTypes.at(i).facets; } return XsdFacet::Hash(); } void XsdSchemaResolver::checkRedefinedGroups() { for (int i = 0; i < m_redefinedGroups.count(); ++i) { const RedefinedGroups item = m_redefinedGroups.at(i); // create dummy particles... const XsdParticle::Ptr redefinedParticle(new XsdParticle()); redefinedParticle->setTerm(item.redefinedGroup); const XsdParticle::Ptr particle(new XsdParticle()); particle->setTerm(item.group); // so that we can pass them to XsdParticleChecker::subsumes() QString errorMsg; if (!XsdParticleChecker::subsumes(particle, redefinedParticle, m_context, errorMsg)) { m_context->error(QtXmlPatterns::tr("%1 element %2 is not a valid restriction of the %3 element it redefines: %4.") .arg(formatElement("group")) .arg(formatData(item.redefinedGroup->displayName(m_namePool))) .arg(formatElement("group")) .arg(errorMsg), XsdSchemaContext::XSDError, sourceLocation(item.redefinedGroup)); return; } } } void XsdSchemaResolver::checkRedefinedAttributeGroups() { for (int i = 0; i < m_redefinedAttributeGroups.count(); ++i) { const RedefinedAttributeGroups item = m_redefinedAttributeGroups.at(i); QString errorMsg; if (!XsdSchemaHelper::isValidAttributeGroupRestriction(item.redefinedGroup, item.group, m_context, errorMsg)) { m_context->error(QtXmlPatterns::tr("%1 element %2 is not a valid restriction of the %3 element it redefines: %4.") .arg(formatElement("attributeGroup")) .arg(formatData(item.redefinedGroup->displayName(m_namePool))) .arg(formatElement("attributeGroup")) .arg(errorMsg), XsdSchemaContext::XSDError, sourceLocation(item.redefinedGroup)); return; } } } AnySimpleType::Ptr XsdSchemaResolver::findPrimitiveType(const AnySimpleType::Ptr &type, QSet &visitedTypes) { if (visitedTypes.contains(type)) { // found invalid circular reference... return AnySimpleType::Ptr(); } else { visitedTypes.insert(type); } const QXmlName typeName = type->name(m_namePool); if (typeName == BuiltinTypes::xsString->name(m_namePool) || typeName == BuiltinTypes::xsBoolean->name(m_namePool) || typeName == BuiltinTypes::xsFloat->name(m_namePool) || typeName == BuiltinTypes::xsDouble->name(m_namePool) || typeName == BuiltinTypes::xsDecimal->name(m_namePool) || typeName == BuiltinTypes::xsDuration->name(m_namePool) || typeName == BuiltinTypes::xsDateTime->name(m_namePool) || typeName == BuiltinTypes::xsTime->name(m_namePool) || typeName == BuiltinTypes::xsDate->name(m_namePool) || typeName == BuiltinTypes::xsGYearMonth->name(m_namePool) || typeName == BuiltinTypes::xsGYear->name(m_namePool) || typeName == BuiltinTypes::xsGMonthDay->name(m_namePool) || typeName == BuiltinTypes::xsGDay->name(m_namePool) || typeName == BuiltinTypes::xsGMonth->name(m_namePool) || typeName == BuiltinTypes::xsHexBinary->name(m_namePool) || typeName == BuiltinTypes::xsBase64Binary->name(m_namePool) || typeName == BuiltinTypes::xsAnyURI->name(m_namePool) || typeName == BuiltinTypes::xsQName->name(m_namePool) || typeName == BuiltinTypes::xsNOTATION->name(m_namePool) || typeName == BuiltinTypes::xsAnySimpleType->name(m_namePool)) return type; else { if (type->wxsSuperType()) return findPrimitiveType(type->wxsSuperType(), visitedTypes); else { return AnySimpleType::Ptr(); } } } QT_END_NAMESPACE