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**
** Copyright (C) 2016 The Qt Company Ltd.
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**
** This file is part of the QtXmlPatterns module of the Qt Toolkit.
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#include "qxsdschemaparser_p.h"
#include "private/qxmlutils_p.h"
#include "qacceltreeresourceloader_p.h"
#include "qautoptr_p.h"
#include "qboolean_p.h"
#include "qcommonnamespaces_p.h"
#include "qderivedinteger_p.h"
#include "qderivedstring_p.h"
#include "qqnamevalue_p.h"
#include "qxmlquery_p.h"
#include "qxpathhelper_p.h"
#include "qxsdattributereference_p.h"
#include "qxsdreference_p.h"
#include "qxsdschematoken_p.h"
#include <QtCore/QFile>
#include <QtXmlPatterns/QXmlQuery>
QT_BEGIN_NAMESPACE
/**
* @page schema_overview Overview
* @section structure_and_components Structure and Components
*
* The schema validator code consists of 4 major components
*
* <dl>
* <dt>The schema parser (QPatternist::XsdSchemaParser)</dt>
* <dd>This component parses a XML document that is supplied via a QIODevice. It creates
* a so called (incomplete) 'compiled schema', which is a representation of the XML Schema
* structure as C++ objects.
* As the parser is a streaming parser, it can't resolve references to types or elements/attributes
* in place, therefore it creates resolver tasks which are passed to the schema resolver component
* for resolving at a later point in time.
* The parser does furthermore the basic XML structure constraint checking, e.g. if all required
* attributes are available or the order of the elements is correct.</dd>
*
* <dt>The schema resolver (QPatternist::XsdSchemaResolver)</dt>
* <dd>This component is activated after the schema parser component has been finished the parsing
* of all schemas. The resolver has been supplied with resolve tasks by the schema parser that
* it will resolve in this step now. Between working on the single resolver tasks, the resolver
* calls check methods from the schema checker component to make sure that some assertions are
* valid (e.g. no circular inheritance of types), so that the resolver can work without hassle.
* During resoving references to attribute or element groups it also checks for circular references
* of these groups.
* At the end of that phase we have a compiled schema that is fully resolved (not necessarily valid though).</dd>
*
* <dt>The schema checker (QPatternist::XsdSchemaChecker)</dt>
* <dd>This component does all the schema constraint checking as given by the Schema specification.
* At the end of that phase we have fully resolved and valid compiled schema that can be used for validation
* of instance documents.</dd>
*
* <dt>The validator (QPatternist::XsdValidatingInstanceReader)</dt>
* <dd>This component is responsible for validating a XML instance document, provided via a QIODevice, against
* a valid compiled schema.</dd>
* </dl>
*
* @ingroup Patternist_schema
*/
using namespace QPatternist;
namespace QPatternist
{
/**
* @short A helper class for automatically handling namespace scopes of elements.
*
* This class should be instantiated at the beginning of each parse XYZ method.
*/
class ElementNamespaceHandler
{
public:
/**
* Creates a new element namespace handler object.
*
* It checks whether the @p parser is on the right @p tag and it creates a new namespace
* context that contains the inherited and local namespace declarations.
*/
ElementNamespaceHandler(const XsdSchemaToken::NodeName &tag, XsdSchemaParser *parser)
: m_parser(parser)
{
Q_ASSERT(m_parser->isStartElement() && (XsdSchemaToken::toToken(m_parser->name()) == tag) && (XsdSchemaToken::toToken(m_parser->namespaceUri()) == XsdSchemaToken::XML_NS_SCHEMA_URI));
Q_UNUSED(tag)
m_parser->m_namespaceSupport.pushContext();
m_parser->m_namespaceSupport.setPrefixes(m_parser->namespaceDeclarations());
}
/**
* Destroys the element namespace handler object.
*
* It destroys the local namespace context.
*/
~ElementNamespaceHandler()
{
m_parser->m_namespaceSupport.popContext();
}
private:
XsdSchemaParser *m_parser;
};
/**
* A helper class that checks for the right occurrence of
* xml tags with the help of a DFA.
*/
class TagValidationHandler
{
public:
TagValidationHandler(XsdTagScope::Type tag, XsdSchemaParser *parser, const NamePool::Ptr &namePool)
: m_parser(parser), m_machine(namePool)
{
Q_ASSERT(m_parser->m_stateMachines.contains(tag));
m_machine = m_parser->m_stateMachines.value(tag);
m_machine.reset();
}
void validate(XsdSchemaToken::NodeName token)
{
if (token == XsdSchemaToken::NoKeyword) {
const QList<XsdSchemaToken::NodeName> tokens = m_machine.possibleTransitions();
QStringList elementNames;
for (int i = 0; i < tokens.count(); ++i)
elementNames.append(formatElement(XsdSchemaToken::toString(tokens.at(i))));
m_parser->error(QtXmlPatterns::tr("Can not process unknown element %1, expected elements are: %2.")
.arg(formatElement(m_parser->name().toString()))
.arg(elementNames.join(QLatin1String(", "))));
return;
}
if (!m_machine.proceed(token)) {
const QList<XsdSchemaToken::NodeName> tokens = m_machine.possibleTransitions();
QStringList elementNames;
for (int i = 0; i < tokens.count(); ++i)
elementNames.append(formatElement(XsdSchemaToken::toString(tokens.at(i))));
m_parser->error(QtXmlPatterns::tr("Element %1 is not allowed in this scope, possible elements are: %2.")
.arg(formatElement(XsdSchemaToken::toString(token)))
.arg(elementNames.join(QLatin1String(", "))));
return;
}
}
void finalize() const
{
if (!m_machine.inEndState()) {
const QList<XsdSchemaToken::NodeName> tokens = m_machine.possibleTransitions();
QStringList elementNames;
for (int i = 0; i < tokens.count(); ++i)
elementNames.append(formatElement(XsdSchemaToken::toString(tokens.at(i))));
m_parser->error(QtXmlPatterns::tr("Child element is missing in that scope, possible child elements are: %1.")
.arg(elementNames.join(QLatin1String(", "))));
}
}
private:
XsdSchemaParser *m_parser;
XsdStateMachine<XsdSchemaToken::NodeName> m_machine;
};
}
/**
* Returns a list of all particles with group references that appear at any level of
* the given unresolved @p group.
*/
static XsdParticle::List collectGroupRef(const XsdModelGroup::Ptr &group)
{
XsdParticle::List refParticles;
XsdParticle::List particles = group->particles();
for (int i = 0; i < particles.count(); ++i) {
if (particles.at(i)->term()->isReference()) {
const XsdReference::Ptr reference(particles.at(i)->term());
if (reference->type() == XsdReference::ModelGroup)
refParticles.append(particles.at(i));
}
if (particles.at(i)->term()->isModelGroup()) {
refParticles << collectGroupRef(XsdModelGroup::Ptr(particles.at(i)->term()));
}
}
return refParticles;
}
/**
* Helper function that works around the limited facilities of
* QUrl/AnyURI::fromLexical to detect invalid URIs
*/
inline static bool isValidUri(const QString &string)
{
// an empty URI points to the current document as defined in RFC 2396 (4.2)
if (string.isEmpty())
return true;
// explicit check as that is not checked by the code below
if (string.startsWith(QLatin1String("##")))
return false;
const AnyURI::Ptr uri = AnyURI::fromLexical(string);
return (!(uri->hasError()));
}
XsdSchemaParser::XsdSchemaParser(const XsdSchemaContext::Ptr &context, const XsdSchemaParserContext::Ptr &parserContext, QIODevice *device)
: MaintainingReader<XsdSchemaToken, XsdTagScope::Type>(parserContext->elementDescriptions(), QSet<XsdSchemaToken::NodeName>(), context, device)
, m_context(context)
, m_parserContext(parserContext)
, m_namePool(m_parserContext->namePool())
, m_namespaceSupport(m_namePool)
, m_defaultOpenContentAppliesToEmpty(false)
{
m_schema = m_parserContext->schema();
m_schemaResolver = m_parserContext->resolver();
m_idCache = XsdIdCache::Ptr(new XsdIdCache());
setupStateMachines();
setupBuiltinTypeNames();
}
void XsdSchemaParser::addIncludedSchemas(const NamespaceSet &schemas)
{
m_includedSchemas += schemas;
}
void XsdSchemaParser::setIncludedSchemas(const NamespaceSet &schemas)
{
m_includedSchemas = schemas;
}
void XsdSchemaParser::addImportedSchemas(const NamespaceSet &schemas)
{
m_importedSchemas += schemas;
}
void XsdSchemaParser::setImportedSchemas(const NamespaceSet &schemas)
{
m_importedSchemas = schemas;
}
void XsdSchemaParser::addRedefinedSchemas(const NamespaceSet &schemas)
{
m_redefinedSchemas += schemas;
}
void XsdSchemaParser::setRedefinedSchemas(const NamespaceSet &schemas)
{
m_redefinedSchemas = schemas;
}
void XsdSchemaParser::setTargetNamespace(const QString &targetNamespace)
{
m_targetNamespace = targetNamespace;
}
void XsdSchemaParser::setTargetNamespaceExtended(const QString &targetNamespace)
{
m_targetNamespace = targetNamespace;
m_namespaceSupport.setTargetNamespace(m_namePool->allocateNamespace(m_targetNamespace));
}
void XsdSchemaParser::setDocumentURI(const QUrl &uri)
{
m_documentURI = uri;
// prevent to get included/imported/redefined twice
m_includedSchemas.insert(uri);
m_importedSchemas.insert(uri);
m_redefinedSchemas.insert(uri);
}
QUrl XsdSchemaParser::documentURI() const
{
return m_documentURI;
}
bool XsdSchemaParser::isAnyAttributeAllowed() const
{
return false;
}
bool XsdSchemaParser::parse(ParserType parserType)
{
m_componentLocationHash.clear();
while (!atEnd()) {
readNext();
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
if (isSchemaTag(XsdSchemaToken::Schema, token, namespaceToken)) {
parseSchema(parserType);
} else {
error(QtXmlPatterns::tr("Document is not a XML schema."));
}
}
}
m_schemaResolver->addComponentLocationHash(m_componentLocationHash);
m_schemaResolver->setDefaultOpenContent(m_defaultOpenContent, m_defaultOpenContentAppliesToEmpty);
if (QXmlStreamReader::error() != QXmlStreamReader::NoError)
error(errorString());
return true;
}
void XsdSchemaParser::error(const QString &msg)
{
MaintainingReader<XsdSchemaToken, XsdTagScope::Type>::error(msg, XsdSchemaContext::XSDError);
}
void XsdSchemaParser::attributeContentError(const char *attributeName, const char *elementName, const QString &value, const SchemaType::Ptr &type)
{
if (type) {
error(QtXmlPatterns::tr("%1 attribute of %2 element contains invalid content: {%3} is not a value of type %4.")
.arg(formatAttribute(attributeName))
.arg(formatElement(elementName))
.arg(formatData(value))
.arg(formatType(m_namePool, type)));
} else {
error(QtXmlPatterns::tr("%1 attribute of %2 element contains invalid content: {%3}.")
.arg(formatAttribute(attributeName))
.arg(formatElement(elementName))
.arg(formatData(value)));
}
}
void XsdSchemaParser::parseSchema(ParserType parserType)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Schema, this);
validateElement(XsdTagScope::Schema);
// parse attributes
if (parserType == TopLevelParser) {
if (hasAttribute(QString::fromLatin1("targetNamespace"))) {
m_targetNamespace = readNamespaceAttribute(QString::fromLatin1("targetNamespace"), "schema");
}
} else if (parserType == IncludeParser) {
// m_targetNamespace is set to the target namespace of the including schema at this point
if (hasAttribute(QString::fromLatin1("targetNamespace"))) {
const QString targetNamespace = readNamespaceAttribute(QString::fromLatin1("targetNamespace"), "schema");
if (m_targetNamespace != targetNamespace) {
error(QtXmlPatterns::tr("Target namespace %1 of included schema is different from the target namespace %2 as defined by the including schema.")
.arg(formatURI(targetNamespace)).arg(formatURI(m_targetNamespace)));
return;
}
}
} else if (parserType == ImportParser) {
// m_targetNamespace is set to the target namespace from the namespace attribute of the <import> tag at this point
QString targetNamespace;
if (hasAttribute(QString::fromLatin1("targetNamespace"))) {
targetNamespace = readNamespaceAttribute(QString::fromLatin1("targetNamespace"), "schema");
}
if (m_targetNamespace != targetNamespace) {
error(QtXmlPatterns::tr("Target namespace %1 of imported schema is different from the target namespace %2 as defined by the importing schema.")
.arg(formatURI(targetNamespace)).arg(formatURI(m_targetNamespace)));
return;
}
} else if (parserType == RedefineParser) {
// m_targetNamespace is set to the target namespace of the redefining schema at this point
if (hasAttribute(QString::fromLatin1("targetNamespace"))) {
const QString targetNamespace = readNamespaceAttribute(QString::fromLatin1("targetNamespace"), "schema");
if (m_targetNamespace != targetNamespace) {
error(QtXmlPatterns::tr("Target namespace %1 of imported schema is different from the target namespace %2 as defined by the importing schema.")
.arg(formatURI(targetNamespace)).arg(formatURI(m_targetNamespace)));
return;
}
}
}
if (hasAttribute(QString::fromLatin1("attributeFormDefault"))) {
const QString value = readAttribute(QString::fromLatin1("attributeFormDefault"));
if (value != QString::fromLatin1("qualified") && value != QString::fromLatin1("unqualified")) {
attributeContentError("attributeFormDefault", "schema", value);
return;
}
m_attributeFormDefault = value;
} else {
m_attributeFormDefault = QString::fromLatin1("unqualified");
}
if (hasAttribute(QString::fromLatin1("elementFormDefault"))) {
const QString value = readAttribute(QString::fromLatin1("elementFormDefault"));
if (value != QString::fromLatin1("qualified") && value != QString::fromLatin1("unqualified")) {
attributeContentError("elementFormDefault", "schema", value);
return;
}
m_elementFormDefault = value;
} else {
m_elementFormDefault = QString::fromLatin1("unqualified");
}
if (hasAttribute(QString::fromLatin1("blockDefault"))) {
const QString blockDefault = readAttribute(QString::fromLatin1("blockDefault"));
const QStringList blockDefaultList = blockDefault.split(QLatin1Char(' '), Qt::SkipEmptyParts);
for (int i = 0; i < blockDefaultList.count(); ++i) {
const QString value = blockDefaultList.at(i);
if (value != QString::fromLatin1("#all") &&
value != QString::fromLatin1("extension") &&
value != QString::fromLatin1("restriction") &&
value != QString::fromLatin1("substitution")) {
attributeContentError("blockDefault", "schema", value);
return;
}
}
m_blockDefault = blockDefault;
}
if (hasAttribute(QString::fromLatin1("finalDefault"))) {
const QString finalDefault = readAttribute(QString::fromLatin1("finalDefault"));
const QStringList finalDefaultList = finalDefault.split(QLatin1Char(' '), Qt::SkipEmptyParts);
for (int i = 0; i < finalDefaultList.count(); ++i) {
const QString value = finalDefaultList.at(i);
if (value != QString::fromLatin1("#all") &&
value != QString::fromLatin1("extension") &&
value != QString::fromLatin1("restriction") &&
value != QString::fromLatin1("list") &&
value != QString::fromLatin1("union")) {
attributeContentError("finalDefault", "schema", value);
return;
}
}
m_finalDefault = finalDefault;
}
if (hasAttribute(QString::fromLatin1("xpathDefaultNamespace"))) {
const QString xpathDefaultNamespace = readAttribute(QString::fromLatin1("xpathDefaultNamespace"));
if (xpathDefaultNamespace != QString::fromLatin1("##defaultNamespace") &&
xpathDefaultNamespace != QString::fromLatin1("##targetNamespace") &&
xpathDefaultNamespace != QString::fromLatin1("##local")) {
if (!isValidUri(xpathDefaultNamespace)) {
attributeContentError("xpathDefaultNamespace", "schema", xpathDefaultNamespace);
return;
}
}
m_xpathDefaultNamespace = xpathDefaultNamespace;
} else {
m_xpathDefaultNamespace = QString::fromLatin1("##local");
}
if (hasAttribute(QString::fromLatin1("defaultAttributes"))) {
const QString attrGroupName = readQNameAttribute(QString::fromLatin1("defaultAttributes"), "schema");
convertName(attrGroupName, NamespaceSupport::ElementName, m_defaultAttributes); // translate qualified name into QXmlName
}
if (hasAttribute(QString::fromLatin1("version"))) {
const QString version = readAttribute(QString::fromLatin1("version"));
}
if (hasAttribute(CommonNamespaces::XML, QString::fromLatin1("lang"))) {
const QString value = readAttribute(QString::fromLatin1("lang"), CommonNamespaces::XML);
QRegExp exp(QString::fromLatin1("[a-zA-Z]{1,8}(-[a-zA-Z0-9]{1,8})*"));
if (!exp.exactMatch(value)) {
attributeContentError("xml:lang", "schema", value);
return;
}
}
validateIdAttribute("schema");
TagValidationHandler tagValidator(XsdTagScope::Schema, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Include, token, namespaceToken)) {
parseInclude();
} else if (isSchemaTag(XsdSchemaToken::Import, token, namespaceToken)) {
parseImport();
} else if (isSchemaTag(XsdSchemaToken::Redefine, token, namespaceToken)) {
parseRedefine();
} else if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
m_schema->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::DefaultOpenContent, token, namespaceToken)) {
parseDefaultOpenContent();
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
const XsdSimpleType::Ptr type = parseGlobalSimpleType();
addType(type);
} else if (isSchemaTag(XsdSchemaToken::ComplexType, token, namespaceToken)) {
const XsdComplexType::Ptr type = parseGlobalComplexType();
addType(type);
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdModelGroup::Ptr group = parseNamedGroup();
addElementGroup(group);
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
XsdAttributeGroup::Ptr attributeGroup = parseNamedAttributeGroup();
addAttributeGroup(attributeGroup);
} else if (isSchemaTag(XsdSchemaToken::Element, token, namespaceToken)) {
const XsdElement::Ptr element = parseGlobalElement();
addElement(element);
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttribute::Ptr attribute = parseGlobalAttribute();
addAttribute(attribute);
} else if (isSchemaTag(XsdSchemaToken::Notation, token, namespaceToken)) {
const XsdNotation::Ptr notation = parseNotation();
addNotation(notation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
m_schema->setTargetNamespace(m_targetNamespace);
}
void XsdSchemaParser::parseInclude()
{
Q_ASSERT(isStartElement() && XsdSchemaToken::toToken(name()) == XsdSchemaToken::Include &&
XsdSchemaToken::toToken(namespaceUri()) == XsdSchemaToken::XML_NS_SCHEMA_URI);
validateElement(XsdTagScope::Include);
// parse attributes
const QString schemaLocation = readAttribute(QString::fromLatin1("schemaLocation"));
QUrl url(schemaLocation);
if (url.isRelative()) {
Q_ASSERT(m_documentURI.isValid());
url = m_documentURI.resolved(url);
}
if (m_includedSchemas.contains(url)) {
// we have included that file already, according to the schema spec we are
// allowed to silently skip it.
} else {
m_includedSchemas.insert(url);
const AutoPtr<QNetworkReply> reply(AccelTreeResourceLoader::load(url, m_context->networkAccessManager(),
m_context, AccelTreeResourceLoader::ContinueOnError));
if (reply) {
// parse the included schema by a different parser but with the same context
XsdSchemaParser parser(m_context, m_parserContext, reply.data());
parser.setDocumentURI(url);
parser.setTargetNamespaceExtended(m_targetNamespace);
parser.setIncludedSchemas(m_includedSchemas);
parser.setImportedSchemas(m_importedSchemas);
parser.setRedefinedSchemas(m_redefinedSchemas);
if (!parser.parse(XsdSchemaParser::IncludeParser)) {
return;
} else {
// add indirectly loaded schemas to the list of already loaded ones
addIncludedSchemas(parser.m_includedSchemas);
addImportedSchemas(parser.m_importedSchemas);
addRedefinedSchemas(parser.m_redefinedSchemas);
}
}
}
validateIdAttribute("include");
TagValidationHandler tagValidator(XsdTagScope::Include, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
m_schema->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
void XsdSchemaParser::parseImport()
{
Q_ASSERT(isStartElement() && XsdSchemaToken::toToken(name()) == XsdSchemaToken::Import &&
XsdSchemaToken::toToken(namespaceUri()) == XsdSchemaToken::XML_NS_SCHEMA_URI);
validateElement(XsdTagScope::Import);
// parse attributes
QString importNamespace;
if (hasAttribute(QString::fromLatin1("namespace"))) {
importNamespace = readAttribute(QString::fromLatin1("namespace"));
if (importNamespace == m_targetNamespace) {
error(QtXmlPatterns::tr("%1 element is not allowed to have the same %2 attribute value as the target namespace %3.")
.arg(formatElement("import"))
.arg(formatAttribute("namespace"))
.arg(formatURI(m_targetNamespace)));
return;
}
} else {
if (m_targetNamespace.isEmpty()) {
error(QtXmlPatterns::tr("%1 element without %2 attribute is not allowed inside schema without target namespace.")
.arg(formatElement("import"))
.arg(formatAttribute("namespace")));
return;
}
}
if (hasAttribute(QString::fromLatin1("schemaLocation"))) {
const QString schemaLocation = readAttribute(QString::fromLatin1("schemaLocation"));
QUrl url(schemaLocation);
if (url.isRelative()) {
Q_ASSERT(m_documentURI.isValid());
url = m_documentURI.resolved(url);
}
if (m_importedSchemas.contains(url)) {
// we have imported that file already, according to the schema spec we are
// allowed to silently skip it.
} else {
m_importedSchemas.insert(url);
// as it is possible that well known schemas (e.g. XSD for XML) are only referenced by
// namespace we should add it as well
m_importedSchemas.insert(importNamespace);
AutoPtr<QNetworkReply> reply(AccelTreeResourceLoader::load(url, m_context->networkAccessManager(),
m_context, AccelTreeResourceLoader::ContinueOnError));
if (reply) {
// parse the included schema by a different parser but with the same context
XsdSchemaParser parser(m_context, m_parserContext, reply.data());
parser.setDocumentURI(url);
parser.setTargetNamespace(importNamespace);
parser.setIncludedSchemas(m_includedSchemas);
parser.setImportedSchemas(m_importedSchemas);
parser.setRedefinedSchemas(m_redefinedSchemas);
if (!parser.parse(XsdSchemaParser::ImportParser)) {
return;
} else {
// add indirectly loaded schemas to the list of already loaded ones
addIncludedSchemas(parser.m_includedSchemas);
addImportedSchemas(parser.m_importedSchemas);
addRedefinedSchemas(parser.m_redefinedSchemas);
}
}
}
} else {
// check whether it is a known namespace we have a builtin schema for
if (!importNamespace.isEmpty()) {
if (!m_importedSchemas.contains(importNamespace)) {
m_importedSchemas.insert(importNamespace);
QFile file(QString::fromLatin1(":") + importNamespace);
if (file.open(QIODevice::ReadOnly)) {
XsdSchemaParser parser(m_context, m_parserContext, &file);
parser.setDocumentURI(importNamespace);
parser.setTargetNamespace(importNamespace);
parser.setIncludedSchemas(m_includedSchemas);
parser.setImportedSchemas(m_importedSchemas);
parser.setRedefinedSchemas(m_redefinedSchemas);
if (!parser.parse(XsdSchemaParser::ImportParser)) {
return;
} else {
// add indirectly loaded schemas to the list of already loaded ones
addIncludedSchemas(parser.m_includedSchemas);
addImportedSchemas(parser.m_importedSchemas);
addRedefinedSchemas(parser.m_redefinedSchemas);
}
}
}
} else {
// we don't import anything... that is valid according to the schema
}
}
validateIdAttribute("import");
TagValidationHandler tagValidator(XsdTagScope::Import, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
m_schema->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
void XsdSchemaParser::parseRedefine()
{
Q_ASSERT(isStartElement() && XsdSchemaToken::toToken(name()) == XsdSchemaToken::Redefine &&
XsdSchemaToken::toToken(namespaceUri()) == XsdSchemaToken::XML_NS_SCHEMA_URI);
validateElement(XsdTagScope::Redefine);
// parse attributes
validateIdAttribute("redefine");
const QString schemaLocation = readAttribute(QString::fromLatin1("schemaLocation"));
TagValidationHandler tagValidator(XsdTagScope::Redefine, this, m_namePool);
XsdSimpleType::List redefinedSimpleTypes;
XsdComplexType::List redefinedComplexTypes;
XsdModelGroup::List redefinedGroups;
XsdAttributeGroup::List redefinedAttributeGroups;
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
m_schema->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
const XsdSimpleType::Ptr type = parseGlobalSimpleType();
redefinedSimpleTypes.append(type);
const QXmlName baseTypeName = m_parserContext->resolver()->baseTypeNameOfType(type);
if (baseTypeName != type->name(m_namePool)) {
error(QString::fromLatin1("redefined simple type %1 must have itself as base type").arg(formatType(m_namePool, type)));
return;
}
} else if (isSchemaTag(XsdSchemaToken::ComplexType, token, namespaceToken)) {
const XsdComplexType::Ptr type = parseGlobalComplexType();
redefinedComplexTypes.append(type);
// @see http://www.w3.org/TR/xmlschema11-1/#src-redefine
// 5
const QXmlName baseTypeName = m_parserContext->resolver()->baseTypeNameOfType(type);
if (baseTypeName != type->name(m_namePool)) {
error(QString::fromLatin1("redefined complex type %1 must have itself as base type").arg(formatType(m_namePool, type)));
return;
}
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdModelGroup::Ptr group = parseNamedGroup();
redefinedGroups.append(group);
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeGroup::Ptr group = parseNamedAttributeGroup();
redefinedAttributeGroups.append(group);
} else {
parseUnknown();
}
}
}
bool locationMustResolve = false;
if (!redefinedSimpleTypes.isEmpty() || !redefinedComplexTypes.isEmpty() ||
!redefinedGroups.isEmpty() || !redefinedAttributeGroups.isEmpty()) {
locationMustResolve = true;
}
QUrl url(schemaLocation);
if (url.isRelative()) {
Q_ASSERT(m_documentURI.isValid());
url = m_documentURI.resolved(url);
}
// we parse the schema given in the redefine tag into its own context
const XsdSchemaParserContext::Ptr redefinedContext(new XsdSchemaParserContext(m_namePool, m_context));
if (m_redefinedSchemas.contains(url)) {
// we have redefined that file already, according to the schema spec we are
// allowed to silently skip it.
} else {
m_redefinedSchemas.insert(url);
QNetworkReply *reply = AccelTreeResourceLoader::load(url, m_context->networkAccessManager(),
m_context,
(locationMustResolve ? AccelTreeResourceLoader::FailOnError : AccelTreeResourceLoader::ContinueOnError));
if (reply) {
// parse the included schema by a different parser but with the same context
XsdSchemaParser parser(m_context, redefinedContext, reply);
parser.setDocumentURI(url);
parser.setTargetNamespaceExtended(m_targetNamespace);
parser.setIncludedSchemas(m_includedSchemas);
parser.setImportedSchemas(m_importedSchemas);
parser.setRedefinedSchemas(m_redefinedSchemas);
if (!parser.parse(XsdSchemaParser::RedefineParser)) {
return;
} else {
// add indirectly loaded schemas to the list of already loaded ones
addIncludedSchemas(parser.m_includedSchemas);
addImportedSchemas(parser.m_importedSchemas);
addRedefinedSchemas(parser.m_redefinedSchemas);
}
delete reply;
}
}
XsdSimpleType::List contextSimpleTypes = redefinedContext->schema()->simpleTypes();
XsdComplexType::List contextComplexTypes = redefinedContext->schema()->complexTypes();
XsdModelGroup::List contextGroups = redefinedContext->schema()->elementGroups();
XsdAttributeGroup::List contextAttributeGroups = redefinedContext->schema()->attributeGroups();
// now we do the actual redefinition:
// iterate over all redefined simple types
for (int i = 0; i < redefinedSimpleTypes.count(); ++i) {
XsdSimpleType::Ptr redefinedType = redefinedSimpleTypes.at(i);
//TODONEXT: validation
// search the definition they override in the context types
bool found = false;
for (int j = 0; j < contextSimpleTypes.count(); ++j) {
XsdSimpleType::Ptr contextType = contextSimpleTypes.at(j);
if (redefinedType->name(m_namePool) == contextType->name(m_namePool)) { // we found the right type
found = true;
// 1) set name of context type to empty name
contextType->setName(m_parserContext->createAnonymousName(QString()));
// 2) set the context type as base type for the redefined type
redefinedType->setWxsSuperType(contextType);
// 3) remove the base type resolving job from the resolver as
// we have set the base type here explicitly
m_parserContext->resolver()->removeSimpleRestrictionBase(redefinedType);
// 4) add the redefined type to the schema
addType(redefinedType);
// 5) add the context type as anonymous type, so the resolver
// can resolve it further.
addAnonymousType(contextType);
// 6) remove the context type from the list
contextSimpleTypes.removeAt(j);
break;
}
}
if (!found) {
error(QString::fromLatin1("no matching type found to redefine simple type %1").arg(formatType(m_namePool, redefinedType)));
return;
}
}
// add all remaining context simple types to the schema
for (int i = 0; i < contextSimpleTypes.count(); ++i) {
addType(contextSimpleTypes.at(i));
}
// iterate over all redefined complex types
for (int i = 0; i < redefinedComplexTypes.count(); ++i) {
XsdComplexType::Ptr redefinedType = redefinedComplexTypes.at(i);
//TODONEXT: validation
// search the definition they override in the context types
bool found = false;
for (int j = 0; j < contextComplexTypes.count(); ++j) {
XsdComplexType::Ptr contextType = contextComplexTypes.at(j);
if (redefinedType->name(m_namePool) == contextType->name(m_namePool)) { // we found the right type
found = true;
// 1) set name of context type to empty name
contextType->setName(m_parserContext->createAnonymousName(QString()));
// 2) set the context type as base type for the redefined type
redefinedType->setWxsSuperType(contextType);
// 3) remove the base type resolving job from the resolver as
// we have set the base type here explicitly
m_parserContext->resolver()->removeComplexBaseType(redefinedType);
// 4) add the redefined type to the schema
addType(redefinedType);
// 5) add the context type as anonymous type, so the resolver
// can resolve its attribute uses etc.
addAnonymousType(contextType);
// 6) remove the context type from the list
contextComplexTypes.removeAt(j);
break;
}
}
if (!found) {
error(QString::fromLatin1("no matching type found to redefine complex type %1").arg(formatType(m_namePool, redefinedType)));
return;
}
}
// iterate over all redefined element groups
for (int i = 0; i < redefinedGroups.count(); ++i) {
const XsdModelGroup::Ptr group(redefinedGroups.at(i));
// @see http://www.w3.org/TR/xmlschema11-1/#src-redefine
// 6
const XsdParticle::List particles = collectGroupRef(group);
XsdParticle::Ptr referencedParticle;
int sameNameCounter = 0;
for (int i = 0; i < particles.count(); ++i) {
const XsdReference::Ptr ref(particles.at(i)->term());
if (ref->referenceName() == group->name(m_namePool)) {
referencedParticle = particles.at(i);
if (referencedParticle->minimumOccurs() != 1 || referencedParticle->maximumOccurs() != 1 || referencedParticle->maximumOccursUnbounded()) { // 6.1.2
error(QString::fromLatin1("redefined group %1 can not contain reference to itself with minOccurs or maxOccurs != 1").arg(formatKeyword(group->displayName(m_namePool))));
return;
}
sameNameCounter++;
}
}
// 6.1.1
if (sameNameCounter > 1) {
error(QString::fromLatin1("redefined group %1 can not contain multiple references to itself").arg(formatKeyword(group->displayName(m_namePool))));
return;
}
// search the group definition in the included schema (S2)
XsdModelGroup::Ptr contextGroup;
for (int j = 0; j < contextGroups.count(); ++j) {
if (group->name(m_namePool) == contextGroups.at(j)->name(m_namePool)) {
contextGroup = contextGroups.at(j);
break;
}
}
if (!contextGroup) { // 6.2.1
error(QString::fromLatin1("redefined group %1 has no occurrence in included schema").arg(formatKeyword(group->displayName(m_namePool))));
return;
}
if (sameNameCounter == 1) {
// there was a self reference in the redefined group, so use the
// group from the included schema
// set a anonymous name to the group of the included schema
contextGroup->setName(m_parserContext->createAnonymousName(m_namePool->stringForNamespace(contextGroup->name(m_namePool).namespaceURI())));
// replace the self-reference with the group from the included schema
referencedParticle->setTerm(contextGroup);
addElementGroup(group);
addElementGroup(contextGroup);
contextGroups.removeAll(contextGroup);
} else {
// there was no self reference in the redefined group
// just add the redefined group...
addElementGroup(group);
// we have to add them, otherwise it is not resolved and we can't validate it later
contextGroup->setName(m_parserContext->createAnonymousName(m_namePool->stringForNamespace(contextGroup->name(m_namePool).namespaceURI())));
addElementGroup(contextGroup);
m_schemaResolver->addRedefinedGroups(group, contextGroup);
// ...and forget about the group from the included schema
contextGroups.removeAll(contextGroup);
}
}
// iterate over all redefined attribute groups
for (int i = 0; i < redefinedAttributeGroups.count(); ++i) {
const XsdAttributeGroup::Ptr group(redefinedAttributeGroups.at(i));
// @see http://www.w3.org/TR/xmlschema11-1/#src-redefine
// 7
// 7.1
int sameNameCounter = 0;
for (int j = 0; j < group->attributeUses().count(); ++j) {
const XsdAttributeUse::Ptr attributeUse(group->attributeUses().at(j));
if (attributeUse->isReference()) {
const XsdAttributeReference::Ptr reference(attributeUse);
if (reference->type() == XsdAttributeReference::AttributeGroup) {
if (group->name(m_namePool) == reference->referenceName())
sameNameCounter++;
}
}
}
if (sameNameCounter > 1) {
error(QString::fromLatin1("redefined attribute group %1 can not contain multiple references to itself").arg(formatKeyword(group->displayName(m_namePool))));
return;
}
// search the attribute group definition in the included schema (S2)
XsdAttributeGroup::Ptr baseGroup;
for (int j = 0; j < contextAttributeGroups.count(); ++j) {
const XsdAttributeGroup::Ptr contextGroup(contextAttributeGroups.at(j));
if (group->name(m_namePool) == contextGroup->name(m_namePool)) {
baseGroup = contextGroup;
break;
}
}
if (!baseGroup) { // 7.2.1
error(QString::fromLatin1("redefined attribute group %1 has no occurrence in included schema").arg(formatKeyword(group->displayName(m_namePool))));
return;
}
if (sameNameCounter == 1) {
// first set an anonymous name to the attribute group from the included
// schema
baseGroup->setName(m_parserContext->createAnonymousName(m_namePool->stringForNamespace(baseGroup->name(m_namePool).namespaceURI())));
// iterate over the attribute uses of the redefined attribute group
// and replace the self-reference with the attribute group from the
// included schema
for (int j = 0; j < group->attributeUses().count(); ++j) {
const XsdAttributeUse::Ptr attributeUse(group->attributeUses().at(j));
if (attributeUse->isReference()) {
const XsdAttributeReference::Ptr reference(attributeUse);
if (reference->type() == XsdAttributeReference::AttributeGroup) {
if (group->name(m_namePool) == reference->referenceName()) {
reference->setReferenceName(baseGroup->name(m_namePool));
break;
}
}
}
}
// add both groups to the target schema
addAttributeGroup(baseGroup);
addAttributeGroup(group);
contextAttributeGroups.removeAll(baseGroup);
}
if (sameNameCounter == 0) { // 7.2
// we have to add them, otherwise it is not resolved and we can't validate it later
baseGroup->setName(m_parserContext->createAnonymousName(m_namePool->stringForNamespace(baseGroup->name(m_namePool).namespaceURI())));
addAttributeGroup(baseGroup);
m_schemaResolver->addRedefinedAttributeGroups(group, baseGroup);
// just add the redefined attribute group to the target schema...
addAttributeGroup(group);
// ... and forget about the one from the included schema
contextAttributeGroups.removeAll(baseGroup);
}
}
// add all remaining context complex types to the schema
for (int i = 0; i < contextComplexTypes.count(); ++i) {
addType(contextComplexTypes.at(i));
}
// add all remaining context element groups to the schema
for (int i = 0; i < contextGroups.count(); ++i) {
addElementGroup(contextGroups.at(i));
}
// add all remaining context attribute groups to the schema
for (int i = 0; i < contextAttributeGroups.count(); ++i) {
addAttributeGroup(contextAttributeGroups.at(i));
}
// copy all elements, attributes and notations
const XsdElement::List contextElements = redefinedContext->schema()->elements();
for (int i = 0; i < contextElements.count(); ++i) {
addElement(contextElements.at(i));
}
const XsdAttribute::List contextAttributes = redefinedContext->schema()->attributes();
for (int i = 0; i < contextAttributes.count(); ++i) {
addAttribute(contextAttributes.at(i));
}
const XsdNotation::List contextNotations = redefinedContext->schema()->notations();
for (int i = 0; i < contextNotations.count(); ++i) {
addNotation(contextNotations.at(i));
}
// push all data to resolve from the context resolver to our resolver
redefinedContext->resolver()->copyDataTo(m_parserContext->resolver());
tagValidator.finalize();
}
XsdAnnotation::Ptr XsdSchemaParser::parseAnnotation()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Annotation, this);
validateElement(XsdTagScope::Annotation);
// parse attributes
validateIdAttribute("annotation");
TagValidationHandler tagValidator(XsdTagScope::Annotation, this, m_namePool);
const XsdAnnotation::Ptr annotation(new XsdAnnotation());
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Appinfo, token, namespaceToken)) {
const XsdApplicationInformation::Ptr info = parseAppInfo();
annotation->addApplicationInformation(info);
} else if (isSchemaTag(XsdSchemaToken::Documentation, token, namespaceToken)) {
const XsdDocumentation::Ptr documentation = parseDocumentation();
annotation->addDocumentation(documentation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return annotation;
}
XsdApplicationInformation::Ptr XsdSchemaParser::parseAppInfo()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Appinfo, this);
validateElement(XsdTagScope::AppInfo);
const XsdApplicationInformation::Ptr info(new XsdApplicationInformation());
// parse attributes
if (hasAttribute(QString::fromLatin1("source"))) {
const QString value = readAttribute(QString::fromLatin1("source"));
if (!isValidUri(value)) {
attributeContentError("source", "appinfo", value, BuiltinTypes::xsAnyURI);
return info;
}
if (!value.isEmpty()) {
const AnyURI::Ptr source = AnyURI::fromLexical(value);
info->setSource(source);
}
}
while (!atEnd()) { //EVAL: can be anything... what to do?
readNext();
if (isEndElement())
break;
if (isStartElement())
parseUnknownDocumentation();
}
return info;
}
XsdDocumentation::Ptr XsdSchemaParser::parseDocumentation()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Documentation, this);
validateElement(XsdTagScope::Documentation);
const XsdDocumentation::Ptr documentation(new XsdDocumentation());
// parse attributes
if (hasAttribute(QString::fromLatin1("source"))) {
const QString value = readAttribute(QString::fromLatin1("source"));
if (!isValidUri(value)) {
attributeContentError("source", "documentation", value, BuiltinTypes::xsAnyURI);
return documentation;
}
if (!value.isEmpty()) {
const AnyURI::Ptr source = AnyURI::fromLexical(value);
documentation->setSource(source);
}
}
if (hasAttribute(CommonNamespaces::XML, QString::fromLatin1("lang"))) {
const QString value = readAttribute(QString::fromLatin1("lang"), CommonNamespaces::XML);
QRegExp exp(QString::fromLatin1("[a-zA-Z]{1,8}(-[a-zA-Z0-9]{1,8})*"));
if (!exp.exactMatch(value)) {
attributeContentError("xml:lang", "documentation", value);
return documentation;
}
}
while (!atEnd()) { //EVAL: can by any... what to do?
readNext();
if (isEndElement())
break;
if (isStartElement())
parseUnknownDocumentation();
}
return documentation;
}
void XsdSchemaParser::parseDefaultOpenContent()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::DefaultOpenContent, this);
validateElement(XsdTagScope::DefaultOpenContent);
m_defaultOpenContent = XsdComplexType::OpenContent::Ptr(new XsdComplexType::OpenContent());
if (hasAttribute(QString::fromLatin1("appliesToEmpty"))) {
const QString value = readAttribute(QString::fromLatin1("appliesToEmpty"));
const Boolean::Ptr appliesToEmpty = Boolean::fromLexical(value);
if (appliesToEmpty->hasError()) {
attributeContentError("appliesToEmpty", "defaultOpenContent", value, BuiltinTypes::xsBoolean);
return;
}
m_defaultOpenContentAppliesToEmpty = appliesToEmpty->as<Boolean>()->value();
} else {
m_defaultOpenContentAppliesToEmpty = false;
}
if (hasAttribute(QString::fromLatin1("mode"))) {
const QString mode = readAttribute(QString::fromLatin1("mode"));
if (mode == QString::fromLatin1("interleave")) {
m_defaultOpenContent->setMode(XsdComplexType::OpenContent::Interleave);
} else if (mode == QString::fromLatin1("suffix")) {
m_defaultOpenContent->setMode(XsdComplexType::OpenContent::Suffix);
} else {
attributeContentError("mode", "defaultOpenContent", mode);
return;
}
} else {
m_defaultOpenContent->setMode(XsdComplexType::OpenContent::Interleave);
}
validateIdAttribute("defaultOpenContent");
TagValidationHandler tagValidator(XsdTagScope::DefaultOpenContent, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
m_defaultOpenContent->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Any, token, namespaceToken)) {
const XsdParticle::Ptr particle;
const XsdWildcard::Ptr wildcard = parseAny(particle);
m_defaultOpenContent->setWildcard(wildcard);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
XsdSimpleType::Ptr XsdSchemaParser::parseGlobalSimpleType()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::SimpleType, this);
validateElement(XsdTagScope::GlobalSimpleType);
const XsdSimpleType::Ptr simpleType(new XsdSimpleType());
simpleType->setCategory(XsdSimpleType::SimpleTypeAtomic); // just to make sure it's not invalid
// parse attributes
const SchemaType::DerivationConstraints allowedConstraints(SchemaType::ExtensionConstraint | SchemaType::RestrictionConstraint | SchemaType::ListConstraint | SchemaType::UnionConstraint);
simpleType->setDerivationConstraints(readDerivationConstraintAttribute(allowedConstraints, "simpleType"));
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("simpleType"));
simpleType->setName(objectName);
validateIdAttribute("simpleType");
TagValidationHandler tagValidator(XsdTagScope::GlobalSimpleType, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
simpleType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Restriction, token, namespaceToken)) {
parseSimpleRestriction(simpleType);
} else if (isSchemaTag(XsdSchemaToken::List, token, namespaceToken)) {
parseList(simpleType);
} else if (isSchemaTag(XsdSchemaToken::Union, token, namespaceToken)) {
parseUnion(simpleType);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return simpleType;
}
XsdSimpleType::Ptr XsdSchemaParser::parseLocalSimpleType()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::SimpleType, this);
validateElement(XsdTagScope::LocalSimpleType);
const XsdSimpleType::Ptr simpleType(new XsdSimpleType());
simpleType->setCategory(XsdSimpleType::SimpleTypeAtomic); // just to make sure it's not invalid
simpleType->setName(m_parserContext->createAnonymousName(m_targetNamespace));
validateIdAttribute("simpleType");
TagValidationHandler tagValidator(XsdTagScope::LocalSimpleType, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
simpleType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Restriction, token, namespaceToken)) {
parseSimpleRestriction(simpleType);
} else if (isSchemaTag(XsdSchemaToken::List, token, namespaceToken)) {
parseList(simpleType);
} else if (isSchemaTag(XsdSchemaToken::Union, token, namespaceToken)) {
parseUnion(simpleType);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return simpleType;
}
void XsdSchemaParser::parseSimpleRestriction(const XsdSimpleType::Ptr &ptr)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Restriction, this);
validateElement(XsdTagScope::SimpleRestriction);
ptr->setDerivationMethod(XsdSimpleType::DerivationRestriction);
// The base attribute and simpleType member are mutually exclusive,
// so we keep track of that
bool hasBaseAttribute = false;
bool hasBaseTypeSpecified = false;
QXmlName baseName;
if (hasAttribute(QString::fromLatin1("base"))) {
const QString base = readQNameAttribute(QString::fromLatin1("base"), "restriction");
convertName(base, NamespaceSupport::ElementName, baseName); // translate qualified name into QXmlName
m_schemaResolver->addSimpleRestrictionBase(ptr, baseName, currentSourceLocation()); // add to resolver
hasBaseAttribute = true;
hasBaseTypeSpecified = true;
}
validateIdAttribute("restriction");
XsdFacet::Hash facets;
QList<XsdFacet::Ptr> patternFacets;
QList<XsdFacet::Ptr> enumerationFacets;
QList<XsdFacet::Ptr> assertionFacets;
TagValidationHandler tagValidator(XsdTagScope::SimpleRestriction, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
ptr->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
if (hasBaseAttribute) {
error(QtXmlPatterns::tr("%1 element is not allowed inside %2 element if %3 attribute is present.")
.arg(formatElement("simpleType"))
.arg(formatElement("restriction"))
.arg(formatAttribute("base")));
return;
}
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(ptr);
ptr->setWxsSuperType(type);
ptr->setCategory(type->category());
hasBaseTypeSpecified = true;
// add it to list of anonymous types as well
addAnonymousType(type);
} else if (isSchemaTag(XsdSchemaToken::MinExclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMinExclusiveFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::MinInclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMinInclusiveFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::MaxExclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMaxExclusiveFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::MaxInclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMaxInclusiveFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::TotalDigits, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseTotalDigitsFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::FractionDigits, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseFractionDigitsFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::Length, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseLengthFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::MinLength, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMinLengthFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::MaxLength, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMaxLengthFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::Enumeration, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseEnumerationFacet();
enumerationFacets.append(facet);
} else if (isSchemaTag(XsdSchemaToken::WhiteSpace, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseWhiteSpaceFacet();
addFacet(facet, facets, ptr);
} else if (isSchemaTag(XsdSchemaToken::Pattern, token, namespaceToken)) {
const XsdFacet::Ptr facet = parsePatternFacet();
patternFacets.append(facet);
} else if (isSchemaTag(XsdSchemaToken::Assertion, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseAssertionFacet();
assertionFacets.append(facet);
} else {
parseUnknown();
}
}
}
if (!hasBaseTypeSpecified) {
error(QtXmlPatterns::tr("%1 element has neither %2 attribute nor %3 child element.")
.arg(formatElement("restriction"))
.arg(formatAttribute("base"))
.arg(formatElement("simpleType")));
return;
}
// merge all pattern facets into one multi value facet
if (!patternFacets.isEmpty()) {
const XsdFacet::Ptr patternFacet(new XsdFacet());
patternFacet->setType(XsdFacet::Pattern);
AtomicValue::List multiValue;
for (int i = 0; i < patternFacets.count(); ++i)
multiValue << patternFacets.at(i)->multiValue();
patternFacet->setMultiValue(multiValue);
addFacet(patternFacet, facets, ptr);
}
// merge all enumeration facets into one multi value facet
if (!enumerationFacets.isEmpty()) {
const XsdFacet::Ptr enumerationFacet(new XsdFacet());
enumerationFacet->setType(XsdFacet::Enumeration);
AtomicValue::List multiValue;
for (int i = 0; i < enumerationFacets.count(); ++i)
multiValue << enumerationFacets.at(i)->multiValue();
enumerationFacet->setMultiValue(multiValue);
addFacet(enumerationFacet, facets, ptr);
}
// merge all assertion facets into one facet
if (!assertionFacets.isEmpty()) {
const XsdFacet::Ptr assertionFacet(new XsdFacet());
assertionFacet->setType(XsdFacet::Assertion);
XsdAssertion::List assertions;
for (int i = 0; i < assertionFacets.count(); ++i)
assertions << assertionFacets.at(i)->assertions();
assertionFacet->setAssertions(assertions);
addFacet(assertionFacet, facets, ptr);
}
ptr->setFacets(facets);
tagValidator.finalize();
}
void XsdSchemaParser::parseList(const XsdSimpleType::Ptr &ptr)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::List, this);
validateElement(XsdTagScope::List);
ptr->setCategory(XsdSimpleType::SimpleTypeList);
ptr->setDerivationMethod(XsdSimpleType::DerivationList);
ptr->setWxsSuperType(BuiltinTypes::xsAnySimpleType);
// The itemType attribute and simpleType member are mutually exclusive,
// so we keep track of that
bool hasItemTypeAttribute = false;
bool hasItemTypeSpecified = false;
if (hasAttribute(QString::fromLatin1("itemType"))) {
const QString itemType = readQNameAttribute(QString::fromLatin1("itemType"), "list");
QXmlName typeName;
convertName(itemType, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addSimpleListType(ptr, typeName, currentSourceLocation()); // add to resolver
hasItemTypeAttribute = true;
hasItemTypeSpecified = true;
}
validateIdAttribute("list");
TagValidationHandler tagValidator(XsdTagScope::List, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
ptr->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
if (hasItemTypeAttribute) {
error(QtXmlPatterns::tr("%1 element is not allowed inside %2 element if %3 attribute is present.")
.arg(formatElement("simpleType"))
.arg(formatElement("list"))
.arg(formatAttribute("itemType")));
return;
}
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(ptr);
ptr->setItemType(type);
hasItemTypeSpecified = true;
// add it to list of anonymous types as well
addAnonymousType(type);
} else {
parseUnknown();
}
}
}
if (!hasItemTypeSpecified) {
error(QtXmlPatterns::tr("%1 element has neither %2 attribute nor %3 child element.")
.arg(formatElement("list"))
.arg(formatAttribute("itemType"))
.arg(formatElement("simpleType")));
return;
}
tagValidator.finalize();
// add the default white space facet that every simple type with list derivation has
const XsdFacet::Ptr defaultFacet(new XsdFacet());
defaultFacet->setType(XsdFacet::WhiteSpace);
defaultFacet->setFixed(true);
defaultFacet->setValue(DerivedString<TypeString>::fromLexical(m_namePool, XsdSchemaToken::toString(XsdSchemaToken::Collapse)));
XsdFacet::Hash facets;
facets.insert(defaultFacet->type(), defaultFacet);
ptr->setFacets(facets);
}
void XsdSchemaParser::parseUnion(const XsdSimpleType::Ptr &ptr)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Union, this);
validateElement(XsdTagScope::Union);
ptr->setCategory(XsdSimpleType::SimpleTypeUnion);
ptr->setDerivationMethod(XsdSimpleType::DerivationUnion);
ptr->setWxsSuperType(BuiltinTypes::xsAnySimpleType);
// The memberTypes attribute is not allowed to be empty,
// so we keep track of that
bool hasMemberTypesSpecified = false;
if (hasAttribute(QString::fromLatin1("memberTypes"))) {
const QStringList memberTypes = readAttribute(QString::fromLatin1("memberTypes")).split(QLatin1Char(' '), Qt::SkipEmptyParts);
QList<QXmlName> typeNames;
for (int i = 0; i < memberTypes.count(); ++i) {
QXmlName typeName;
convertName(memberTypes.at(i), NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
typeNames.append(typeName);
}
if (!typeNames.isEmpty()) {
m_schemaResolver->addSimpleUnionTypes(ptr, typeNames, currentSourceLocation()); // add to resolver
hasMemberTypesSpecified = true;
}
}
validateIdAttribute("union");
AnySimpleType::List memberTypes;
TagValidationHandler tagValidator(XsdTagScope::Union, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
ptr->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(ptr);
memberTypes.append(type);
// add it to list of anonymous types as well
addAnonymousType(type);
} else {
parseUnknown();
}
}
}
if (!memberTypes.isEmpty()) {
ptr->setMemberTypes(memberTypes);
hasMemberTypesSpecified = true;
}
if (!hasMemberTypesSpecified) {
error(QtXmlPatterns::tr("%1 element has neither %2 attribute nor %3 child element.")
.arg(formatElement("union"))
.arg(formatAttribute("memberTypes"))
.arg(formatElement("simpleType")));
return;
}
tagValidator.finalize();
}
XsdFacet::Ptr XsdSchemaParser::parseMinExclusiveFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::MinExclusive, this);
validateElement(XsdTagScope::MinExclusiveFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::MinimumExclusive);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "minExclusive", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
// as minExclusive can have a value of type anySimpleType, we just read
// the string here and store it for later intepretation
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedString<TypeString>::Ptr string = DerivedString<TypeString>::fromLexical(m_namePool, value);
if (string->hasError()) {
attributeContentError("value", "minExclusive", value, BuiltinTypes::xsAnySimpleType);
return facet;
} else {
facet->setValue(string);
}
validateIdAttribute("minExclusive");
TagValidationHandler tagValidator(XsdTagScope::MinExclusiveFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseMinInclusiveFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::MinInclusive, this);
validateElement(XsdTagScope::MinInclusiveFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::MinimumInclusive);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "minInclusive", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
// as minInclusive can have a value of type anySimpleType, we just read
// the string here and store it for later intepretation
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedString<TypeString>::Ptr string = DerivedString<TypeString>::fromLexical(m_namePool, value);
if (string->hasError()) {
attributeContentError("value", "minInclusive", value, BuiltinTypes::xsAnySimpleType);
return facet;
} else {
facet->setValue(string);
}
validateIdAttribute("minInclusive");
TagValidationHandler tagValidator(XsdTagScope::MinInclusiveFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseMaxExclusiveFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::MaxExclusive, this);
validateElement(XsdTagScope::MaxExclusiveFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::MaximumExclusive);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "maxExclusive", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
// as maxExclusive can have a value of type anySimpleType, we just read
// the string here and store it for later intepretation
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedString<TypeString>::Ptr string = DerivedString<TypeString>::fromLexical(m_namePool, value);
if (string->hasError()) {
attributeContentError("value", "maxExclusive", value, BuiltinTypes::xsAnySimpleType);
return facet;
} else {
facet->setValue(string);
}
validateIdAttribute("maxExclusive");
TagValidationHandler tagValidator(XsdTagScope::MaxExclusiveFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseMaxInclusiveFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::MaxInclusive, this);
validateElement(XsdTagScope::MaxInclusiveFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::MaximumInclusive);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "maxInclusive", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
// as maxInclusive can have a value of type anySimpleType, we just read
// the string here and store it for later intepretation
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedString<TypeString>::Ptr string = DerivedString<TypeString>::fromLexical(m_namePool, value);
if (string->hasError()) {
attributeContentError("value", "maxInclusive", value, BuiltinTypes::xsAnySimpleType);
return facet;
} else {
facet->setValue(string);
}
validateIdAttribute("maxInclusive");
TagValidationHandler tagValidator(XsdTagScope::MaxInclusiveFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseTotalDigitsFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::TotalDigits, this);
validateElement(XsdTagScope::TotalDigitsFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::TotalDigits);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "totalDigits", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedInteger<TypePositiveInteger>::Ptr integer = DerivedInteger<TypePositiveInteger>::fromLexical(m_namePool, value);
if (integer->hasError()) {
attributeContentError("value", "totalDigits", value, BuiltinTypes::xsPositiveInteger);
return facet;
} else {
facet->setValue(integer);
}
validateIdAttribute("totalDigits");
TagValidationHandler tagValidator(XsdTagScope::TotalDigitsFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseFractionDigitsFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::FractionDigits, this);
validateElement(XsdTagScope::FractionDigitsFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::FractionDigits);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "fractionDigits", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedInteger<TypeNonNegativeInteger>::Ptr integer = DerivedInteger<TypeNonNegativeInteger>::fromLexical(m_namePool, value);
if (integer->hasError()) {
attributeContentError("value", "fractionDigits", value, BuiltinTypes::xsNonNegativeInteger);
return facet;
} else {
facet->setValue(integer);
}
validateIdAttribute("fractionDigits");
TagValidationHandler tagValidator(XsdTagScope::FractionDigitsFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseLengthFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Length, this);
validateElement(XsdTagScope::LengthFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::Length);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "length", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedInteger<TypeNonNegativeInteger>::Ptr integer = DerivedInteger<TypeNonNegativeInteger>::fromLexical(m_namePool, value);
if (integer->hasError()) {
attributeContentError("value", "length", value, BuiltinTypes::xsNonNegativeInteger);
return facet;
} else {
facet->setValue(integer);
}
validateIdAttribute("length");
TagValidationHandler tagValidator(XsdTagScope::LengthFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseMinLengthFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::MinLength, this);
validateElement(XsdTagScope::MinLengthFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::MinimumLength);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "minLength", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedInteger<TypeNonNegativeInteger>::Ptr integer = DerivedInteger<TypeNonNegativeInteger>::fromLexical(m_namePool, value);
if (integer->hasError()) {
attributeContentError("value", "minLength", value, BuiltinTypes::xsNonNegativeInteger);
return facet;
} else {
facet->setValue(integer);
}
validateIdAttribute("minLength");
TagValidationHandler tagValidator(XsdTagScope::MinLengthFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseMaxLengthFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::MaxLength, this);
validateElement(XsdTagScope::MaxLengthFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::MaximumLength);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "maxLength", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedInteger<TypeNonNegativeInteger>::Ptr integer = DerivedInteger<TypeNonNegativeInteger>::fromLexical(m_namePool, value);
if (integer->hasError()) {
attributeContentError("value", "maxLength", value, BuiltinTypes::xsNonNegativeInteger);
return facet;
} else {
facet->setValue(integer);
}
validateIdAttribute("maxLength");
TagValidationHandler tagValidator(XsdTagScope::MaxLengthFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseEnumerationFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Enumeration, this);
validateElement(XsdTagScope::EnumerationFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::Enumeration);
// parse attributes
facet->setFixed(false); // not defined in schema, but can't hurt
const QString value = readAttribute(QString::fromLatin1("value"));
// as enumeration can have a value of type anySimpleType, we just read
// the string here and store it for later intepretation
DerivedString<TypeString>::Ptr string = DerivedString<TypeString>::fromLexical(m_namePool, value);
if (string->hasError()) {
attributeContentError("value", "enumeration", value);
return facet;
} else {
AtomicValue::List multiValue;
multiValue << string;
facet->setMultiValue(multiValue);
}
m_schemaResolver->addEnumerationFacetValue(string, m_namespaceSupport);
validateIdAttribute("enumeration");
TagValidationHandler tagValidator(XsdTagScope::EnumerationFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseWhiteSpaceFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::WhiteSpace, this);
validateElement(XsdTagScope::WhiteSpaceFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::WhiteSpace);
// parse attributes
if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
const Boolean::Ptr fixed = Boolean::fromLexical(value);
if (fixed->hasError()) {
attributeContentError("fixed", "whiteSpace", value, BuiltinTypes::xsBoolean);
return facet;
}
facet->setFixed(fixed->as<Boolean>()->value());
} else {
facet->setFixed(false); // the default value
}
const QString value = readAttribute(QString::fromLatin1("value"));
if (value != XsdSchemaToken::toString(XsdSchemaToken::Collapse) &&
value != XsdSchemaToken::toString(XsdSchemaToken::Preserve) &&
value != XsdSchemaToken::toString(XsdSchemaToken::Replace)) {
attributeContentError("value", "whiteSpace", value);
return facet;
} else {
DerivedString<TypeString>::Ptr string = DerivedString<TypeString>::fromLexical(m_namePool, value);
if (string->hasError()) {
attributeContentError("value", "whiteSpace", value);
return facet;
} else {
facet->setValue(string);
}
}
validateIdAttribute("whiteSpace");
TagValidationHandler tagValidator(XsdTagScope::WhiteSpaceFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parsePatternFacet()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Pattern, this);
validateElement(XsdTagScope::PatternFacet);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::Pattern);
// parse attributes
// as pattern can have a value of type anySimpleType, we just read
// the string here and store it for later intepretation
const QString value = readAttribute(QString::fromLatin1("value"));
DerivedString<TypeString>::Ptr string = DerivedString<TypeString>::fromLexical(m_namePool, value);
if (string->hasError()) {
attributeContentError("value", "pattern", value);
return facet;
} else {
AtomicValue::List multiValue;
multiValue << string;
facet->setMultiValue(multiValue);
}
validateIdAttribute("pattern");
TagValidationHandler tagValidator(XsdTagScope::PatternFacet, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
facet->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return facet;
}
XsdFacet::Ptr XsdSchemaParser::parseAssertionFacet()
{
// this is just a wrapper function around the parseAssertion() method
const XsdAssertion::Ptr assertion = parseAssertion(XsdSchemaToken::Assertion, XsdTagScope::Assertion);
const XsdFacet::Ptr facet = XsdFacet::Ptr(new XsdFacet());
facet->setType(XsdFacet::Assertion);
facet->setAssertions(XsdAssertion::List() << assertion);
return facet;
}
XsdComplexType::Ptr XsdSchemaParser::parseGlobalComplexType()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::ComplexType, this);
validateElement(XsdTagScope::GlobalComplexType);
bool hasTypeSpecified = false;
bool hasComplexContent = false;
const XsdComplexType::Ptr complexType(new XsdComplexType());
// parse attributes
if (hasAttribute(QString::fromLatin1("abstract"))) {
const QString abstract = readAttribute(QString::fromLatin1("abstract"));
const Boolean::Ptr value = Boolean::fromLexical(abstract);
if (value->hasError()) {
attributeContentError("abstract", "complexType", abstract, BuiltinTypes::xsBoolean);
return complexType;
}
complexType->setIsAbstract(value->as<Boolean>()->value());
} else {
complexType->setIsAbstract(false); // default value
}
complexType->setProhibitedSubstitutions(readBlockingConstraintAttribute(NamedSchemaComponent::ExtensionConstraint | NamedSchemaComponent::RestrictionConstraint, "complexType"));
complexType->setDerivationConstraints(readDerivationConstraintAttribute(SchemaType::ExtensionConstraint | SchemaType::RestrictionConstraint, "complexType"));
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("complexType"));
complexType->setName(objectName);
bool effectiveMixed = false;
if (hasAttribute(QString::fromLatin1("mixed"))) {
const QString mixed = readAttribute(QString::fromLatin1("mixed"));
const Boolean::Ptr value = Boolean::fromLexical(mixed);
if (value->hasError()) {
attributeContentError("mixed", "complexType", mixed, BuiltinTypes::xsBoolean);
return complexType;
}
effectiveMixed = value->as<Boolean>()->value();
}
validateIdAttribute("complexType");
TagValidationHandler tagValidator(XsdTagScope::GlobalComplexType, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleContent, token, namespaceToken)) {
if (effectiveMixed) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("complexType"))
.arg(formatElement("simpleContent"))
.arg(formatAttribute("mixed")));
return complexType;
}
parseSimpleContent(complexType);
hasTypeSpecified = true;
} else if (isSchemaTag(XsdSchemaToken::ComplexContent, token, namespaceToken)) {
bool mixed;
parseComplexContent(complexType, &mixed);
hasTypeSpecified = true;
effectiveMixed = (effectiveMixed || mixed);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::OpenContent, token, namespaceToken)) {
const XsdComplexType::OpenContent::Ptr openContent = parseOpenContent();
complexType->contentType()->setOpenContent(openContent);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::All, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalAll(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseLocalAttribute(complexType);
complexType->addAttributeUse(attributeUse);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseReferredAttributeGroup();
complexType->addAttributeUse(attributeUse);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::AnyAttribute, token, namespaceToken)) {
const XsdWildcard::Ptr wildcard = parseAnyAttribute();
complexType->setAttributeWildcard(wildcard);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Assert, token, namespaceToken)) {
const XsdAssertion::Ptr assertion = parseAssertion(XsdSchemaToken::Assert, XsdTagScope::Assert);
complexType->addAssertion(assertion);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
if (!hasTypeSpecified) {
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
}
if (hasComplexContent == true) {
resolveComplexContentType(complexType, effectiveMixed);
}
return complexType;
}
XsdComplexType::Ptr XsdSchemaParser::parseLocalComplexType()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::ComplexType, this);
validateElement(XsdTagScope::LocalComplexType);
bool hasTypeSpecified = false;
bool hasComplexContent = true;
const XsdComplexType::Ptr complexType(new XsdComplexType());
complexType->setName(m_parserContext->createAnonymousName(m_targetNamespace));
// parse attributes
bool effectiveMixed = false;
if (hasAttribute(QString::fromLatin1("mixed"))) {
const QString mixed = readAttribute(QString::fromLatin1("mixed"));
const Boolean::Ptr value = Boolean::fromLexical(mixed);
if (value->hasError()) {
attributeContentError("mixed", "complexType", mixed, BuiltinTypes::xsBoolean);
return complexType;
}
effectiveMixed = value->as<Boolean>()->value();
}
validateIdAttribute("complexType");
TagValidationHandler tagValidator(XsdTagScope::LocalComplexType, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleContent, token, namespaceToken)) {
parseSimpleContent(complexType);
hasTypeSpecified = true;
} else if (isSchemaTag(XsdSchemaToken::ComplexContent, token, namespaceToken)) {
bool mixed;
parseComplexContent(complexType, &mixed);
hasTypeSpecified = true;
effectiveMixed = (effectiveMixed || mixed);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::OpenContent, token, namespaceToken)) {
const XsdComplexType::OpenContent::Ptr openContent = parseOpenContent();
complexType->contentType()->setOpenContent(openContent);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::All, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalAll(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseLocalAttribute(complexType);
complexType->addAttributeUse(attributeUse);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseReferredAttributeGroup();
complexType->addAttributeUse(attributeUse);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::AnyAttribute, token, namespaceToken)) {
const XsdWildcard::Ptr wildcard = parseAnyAttribute();
complexType->setAttributeWildcard(wildcard);
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
} else if (isSchemaTag(XsdSchemaToken::Assert, token, namespaceToken)) {
const XsdAssertion::Ptr assertion = parseAssertion(XsdSchemaToken::Assert, XsdTagScope::Assert);
complexType->addAssertion(assertion);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
if (!hasTypeSpecified) {
complexType->setWxsSuperType(BuiltinTypes::xsAnyType);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
hasComplexContent = true;
}
if (hasComplexContent == true) {
resolveComplexContentType(complexType, effectiveMixed);
}
return complexType;
}
void XsdSchemaParser::resolveComplexContentType(const XsdComplexType::Ptr &complexType, bool effectiveMixed)
{
// @see http://www.w3.org/TR/xmlschema11-1/#dcl.ctd.ctcc.common
// 1
// the effectiveMixed contains the effective mixed value
// 2
bool hasEmptyContent = false;
if (!complexType->contentType()->particle()) {
hasEmptyContent = true; // 2.1.1
} else {
if (complexType->contentType()->particle()->term()->isModelGroup()) {
const XsdModelGroup::Ptr group = complexType->contentType()->particle()->term();
if (group->compositor() == XsdModelGroup::SequenceCompositor || group->compositor() == XsdModelGroup::AllCompositor) {
if (group->particles().isEmpty())
hasEmptyContent = true; // 2.1.2
} else if (group->compositor() == XsdModelGroup::ChoiceCompositor) {
if ((complexType->contentType()->particle()->minimumOccurs() == 0) && group->particles().isEmpty())
hasEmptyContent = true; // 2.1.3
}
if ((complexType->contentType()->particle()->maximumOccursUnbounded() == false) && (complexType->contentType()->particle()->maximumOccurs() == 0))
hasEmptyContent = true; // 2.1.4
}
}
const XsdParticle::Ptr explicitContent = (hasEmptyContent ? XsdParticle::Ptr() : complexType->contentType()->particle());
// do all the other work (3, 4, 5 and 6) in the resolver, as they need access to the base type object
m_schemaResolver->addComplexContentType(complexType, explicitContent, effectiveMixed);
}
void XsdSchemaParser::parseSimpleContent(const XsdComplexType::Ptr &complexType)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::SimpleContent, this);
validateElement(XsdTagScope::SimpleContent);
complexType->contentType()->setVariety(XsdComplexType::ContentType::Simple);
// parse attributes
validateIdAttribute("simpleContent");
TagValidationHandler tagValidator(XsdTagScope::SimpleContent, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Restriction, token, namespaceToken)) {
parseSimpleContentRestriction(complexType);
} else if (isSchemaTag(XsdSchemaToken::Extension, token, namespaceToken)) {
parseSimpleContentExtension(complexType);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
void XsdSchemaParser::parseSimpleContentRestriction(const XsdComplexType::Ptr &complexType)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Restriction, this);
validateElement(XsdTagScope::SimpleContentRestriction);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
// parse attributes
const QString baseType = readQNameAttribute(QString::fromLatin1("base"), "restriction");
QXmlName typeName;
convertName(baseType, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
validateIdAttribute("restriction");
XsdFacet::Hash facets;
QList<XsdFacet::Ptr> patternFacets;
QList<XsdFacet::Ptr> enumerationFacets;
QList<XsdFacet::Ptr> assertionFacets;
TagValidationHandler tagValidator(XsdTagScope::SimpleContentRestriction, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(complexType); //TODO: investigate what the schema spec really wants here?!?
complexType->contentType()->setSimpleType(type);
// add it to list of anonymous types as well
addAnonymousType(type);
} else if (isSchemaTag(XsdSchemaToken::MinExclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMinExclusiveFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::MinInclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMinInclusiveFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::MaxExclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMaxExclusiveFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::MaxInclusive, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMaxInclusiveFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::TotalDigits, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseTotalDigitsFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::FractionDigits, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseFractionDigitsFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::Length, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseLengthFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::MinLength, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMinLengthFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::MaxLength, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseMaxLengthFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::Enumeration, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseEnumerationFacet();
enumerationFacets.append(facet);
} else if (isSchemaTag(XsdSchemaToken::WhiteSpace, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseWhiteSpaceFacet();
addFacet(facet, facets, complexType);
} else if (isSchemaTag(XsdSchemaToken::Pattern, token, namespaceToken)) {
const XsdFacet::Ptr facet = parsePatternFacet();
patternFacets.append(facet);
} else if (isSchemaTag(XsdSchemaToken::Assertion, token, namespaceToken)) {
const XsdFacet::Ptr facet = parseAssertionFacet();
assertionFacets.append(facet);
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseLocalAttribute(complexType);
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseReferredAttributeGroup();
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AnyAttribute, token, namespaceToken)) {
const XsdWildcard::Ptr wildcard = parseAnyAttribute();
complexType->setAttributeWildcard(wildcard);
} else if (isSchemaTag(XsdSchemaToken::Assert, token, namespaceToken)) {
const XsdAssertion::Ptr assertion = parseAssertion(XsdSchemaToken::Assert, XsdTagScope::Assert);
complexType->addAssertion(assertion);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
// merge all pattern facets into one multi value facet
if (!patternFacets.isEmpty()) {
const XsdFacet::Ptr patternFacet(new XsdFacet());
patternFacet->setType(XsdFacet::Pattern);
AtomicValue::List multiValue;
for (int i = 0; i < patternFacets.count(); ++i)
multiValue << patternFacets.at(i)->multiValue();
patternFacet->setMultiValue(multiValue);
addFacet(patternFacet, facets, complexType);
}
// merge all enumeration facets into one multi value facet
if (!enumerationFacets.isEmpty()) {
const XsdFacet::Ptr enumerationFacet(new XsdFacet());
enumerationFacet->setType(XsdFacet::Enumeration);
AtomicValue::List multiValue;
for (int i = 0; i < enumerationFacets.count(); ++i)
multiValue << enumerationFacets.at(i)->multiValue();
enumerationFacet->setMultiValue(multiValue);
addFacet(enumerationFacet, facets, complexType);
}
// merge all assertion facets into one facet
if (!assertionFacets.isEmpty()) {
const XsdFacet::Ptr assertionFacet(new XsdFacet());
assertionFacet->setType(XsdFacet::Assertion);
XsdAssertion::List assertions;
for (int i = 0; i < assertionFacets.count(); ++i)
assertions << assertionFacets.at(i)->assertions();
assertionFacet->setAssertions(assertions);
addFacet(assertionFacet, facets, complexType);
}
m_schemaResolver->addComplexBaseType(complexType, typeName, currentSourceLocation(), facets); // add to resolver
}
void XsdSchemaParser::parseSimpleContentExtension(const XsdComplexType::Ptr &complexType)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Extension, this);
validateElement(XsdTagScope::SimpleContentExtension);
complexType->setDerivationMethod(XsdComplexType::DerivationExtension);
// parse attributes
const QString baseType = readQNameAttribute(QString::fromLatin1("base"), "extension");
QXmlName typeName;
convertName(baseType, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addComplexBaseType(complexType, typeName, currentSourceLocation()); // add to resolver
validateIdAttribute("extension");
TagValidationHandler tagValidator(XsdTagScope::SimpleContentExtension, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseLocalAttribute(complexType);
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseReferredAttributeGroup();
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AnyAttribute, token, namespaceToken)) {
const XsdWildcard::Ptr wildcard = parseAnyAttribute();
complexType->setAttributeWildcard(wildcard);
} else if (isSchemaTag(XsdSchemaToken::Assert, token, namespaceToken)) {
const XsdAssertion::Ptr assertion = parseAssertion(XsdSchemaToken::Assert, XsdTagScope::Assert);
complexType->addAssertion(assertion);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
void XsdSchemaParser::parseComplexContent(const XsdComplexType::Ptr &complexType, bool *mixed)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::ComplexContent, this);
validateElement(XsdTagScope::ComplexContent);
complexType->contentType()->setVariety(XsdComplexType::ContentType::ElementOnly);
// parse attributes
if (hasAttribute(QString::fromLatin1("mixed"))) {
const QString mixedStr = readAttribute(QString::fromLatin1("mixed"));
const Boolean::Ptr value = Boolean::fromLexical(mixedStr);
if (value->hasError()) {
attributeContentError("mixed", "complexType", mixedStr, BuiltinTypes::xsBoolean);
return;
}
*mixed = value->as<Boolean>()->value();
} else {
*mixed = false;
}
validateIdAttribute("complexContent");
TagValidationHandler tagValidator(XsdTagScope::ComplexContent, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Restriction, token, namespaceToken)) {
parseComplexContentRestriction(complexType);
} else if (isSchemaTag(XsdSchemaToken::Extension, token, namespaceToken)) {
parseComplexContentExtension(complexType);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
void XsdSchemaParser::parseComplexContentRestriction(const XsdComplexType::Ptr &complexType)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Restriction, this);
validateElement(XsdTagScope::ComplexContentRestriction);
complexType->setDerivationMethod(XsdComplexType::DerivationRestriction);
// parse attributes
const QString baseType = readQNameAttribute(QString::fromLatin1("base"), "restriction");
QXmlName typeName;
convertName(baseType, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addComplexBaseType(complexType, typeName, currentSourceLocation()); // add to resolver
validateIdAttribute("restriction");
TagValidationHandler tagValidator(XsdTagScope::ComplexContentRestriction, this, m_namePool);
bool hasContent = false;
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::OpenContent, token, namespaceToken)) {
const XsdComplexType::OpenContent::Ptr openContent = parseOpenContent();
complexType->contentType()->setOpenContent(openContent);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::All, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalAll(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseLocalAttribute(complexType);
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseReferredAttributeGroup();
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AnyAttribute, token, namespaceToken)) {
const XsdWildcard::Ptr wildcard = parseAnyAttribute();
complexType->setAttributeWildcard(wildcard);
} else if (isSchemaTag(XsdSchemaToken::Assert, token, namespaceToken)) {
const XsdAssertion::Ptr assertion = parseAssertion(XsdSchemaToken::Assert, XsdTagScope::Assert);
complexType->addAssertion(assertion);
} else {
parseUnknown();
}
}
}
if (!hasContent)
complexType->contentType()->setVariety(XsdComplexType::ContentType::Empty);
tagValidator.finalize();
}
void XsdSchemaParser::parseComplexContentExtension(const XsdComplexType::Ptr &complexType)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Extension, this);
validateElement(XsdTagScope::ComplexContentExtension);
complexType->setDerivationMethod(XsdComplexType::DerivationExtension);
// parse attributes
const QString baseType = readQNameAttribute(QString::fromLatin1("base"), "extension");
QXmlName typeName;
convertName(baseType, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addComplexBaseType(complexType, typeName, currentSourceLocation()); // add to resolver
validateIdAttribute("extension");
TagValidationHandler tagValidator(XsdTagScope::ComplexContentExtension, this, m_namePool);
bool hasContent = false;
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
complexType->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::OpenContent, token, namespaceToken)) {
const XsdComplexType::OpenContent::Ptr openContent = parseOpenContent();
complexType->contentType()->setOpenContent(openContent);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::All, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalAll(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, complexType);
particle->setTerm(term);
complexType->contentType()->setParticle(particle);
hasContent = true;
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseLocalAttribute(complexType);
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseReferredAttributeGroup();
complexType->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AnyAttribute, token, namespaceToken)) {
const XsdWildcard::Ptr wildcard = parseAnyAttribute();
complexType->setAttributeWildcard(wildcard);
} else if (isSchemaTag(XsdSchemaToken::Assert, token, namespaceToken)) {
const XsdAssertion::Ptr assertion = parseAssertion(XsdSchemaToken::Assert, XsdTagScope::Assert);
complexType->addAssertion(assertion);
} else {
parseUnknown();
}
}
}
if (!hasContent)
complexType->contentType()->setVariety(XsdComplexType::ContentType::Empty);
tagValidator.finalize();
}
XsdAssertion::Ptr XsdSchemaParser::parseAssertion(const XsdSchemaToken::NodeName &nodeName, const XsdTagScope::Type &tag)
{
const ElementNamespaceHandler namespaceHandler(nodeName, this);
validateElement(tag);
const XsdAssertion::Ptr assertion(new XsdAssertion());
// parse attributes
const XsdXPathExpression::Ptr expression = readXPathExpression("assertion");
assertion->setTest(expression);
const QString test = readXPathAttribute(QString::fromLatin1("test"), XPath20, "assertion");
expression->setExpression(test);
validateIdAttribute("assertion");
TagValidationHandler tagValidator(tag, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
assertion->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return assertion;
}
XsdComplexType::OpenContent::Ptr XsdSchemaParser::parseOpenContent()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::OpenContent, this);
validateElement(XsdTagScope::OpenContent);
const XsdComplexType::OpenContent::Ptr openContent(new XsdComplexType::OpenContent());
if (hasAttribute(QString::fromLatin1("mode"))) {
const QString mode = readAttribute(QString::fromLatin1("mode"));
if (mode == QString::fromLatin1("none")) {
m_defaultOpenContent->setMode(XsdComplexType::OpenContent::None);
} else if (mode == QString::fromLatin1("interleave")) {
m_defaultOpenContent->setMode(XsdComplexType::OpenContent::Interleave);
} else if (mode == QString::fromLatin1("suffix")) {
m_defaultOpenContent->setMode(XsdComplexType::OpenContent::Suffix);
} else {
attributeContentError("mode", "openContent", mode);
return openContent;
}
} else {
openContent->setMode(XsdComplexType::OpenContent::Interleave);
}
validateIdAttribute("openContent");
TagValidationHandler tagValidator(XsdTagScope::OpenContent, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
openContent->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Any, token, namespaceToken)) {
const XsdParticle::Ptr particle;
const XsdWildcard::Ptr wildcard = parseAny(particle);
openContent->setWildcard(wildcard);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return openContent;
}
XsdModelGroup::Ptr XsdSchemaParser::parseNamedGroup()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Group, this);
validateElement(XsdTagScope::NamedGroup);
const XsdModelGroup::Ptr modelGroup(new XsdModelGroup());
XsdModelGroup::Ptr group;
QXmlName objectName;
if (hasAttribute(QString::fromLatin1("name"))) {
objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("group"));
}
validateIdAttribute("group");
TagValidationHandler tagValidator(XsdTagScope::NamedGroup, this, m_namePool);
XsdAnnotation::Ptr annotation;
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
annotation = parseAnnotation();
} else if (isSchemaTag(XsdSchemaToken::All, token, namespaceToken)) {
group = parseAll(modelGroup);
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
group = parseChoice(modelGroup);
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
group = parseSequence(modelGroup);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
group->setName(objectName);
if (annotation)
group->addAnnotation(annotation);
return group;
}
XsdTerm::Ptr XsdSchemaParser::parseReferredGroup(const XsdParticle::Ptr &particle)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Group, this);
validateElement(XsdTagScope::ReferredGroup);
const XsdReference::Ptr reference(new XsdReference());
reference->setType(XsdReference::ModelGroup);
reference->setSourceLocation(currentSourceLocation());
// parse attributes
if (!parseMinMaxConstraint(particle, "group")) {
return reference;
}
const QString value = readQNameAttribute(QString::fromLatin1("ref"), "group");
QXmlName referenceName;
convertName(value, NamespaceSupport::ElementName, referenceName); // translate qualified name into QXmlName
reference->setReferenceName(referenceName);
validateIdAttribute("group");
TagValidationHandler tagValidator(XsdTagScope::ReferredGroup, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
reference->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return reference;
}
XsdModelGroup::Ptr XsdSchemaParser::parseAll(const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::All, this);
validateElement(XsdTagScope::All);
const XsdModelGroup::Ptr modelGroup(new XsdModelGroup());
modelGroup->setCompositor(XsdModelGroup::AllCompositor);
validateIdAttribute("all");
TagValidationHandler tagValidator(XsdTagScope::All, this, m_namePool);
XsdParticle::List particles;
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
modelGroup->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Element, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalElement(particle, parent);
particle->setTerm(term);
if (particle->maximumOccursUnbounded() || particle->maximumOccurs() > 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must be %3 or %4.")
.arg(formatAttribute("maxOccurs"))
.arg(formatElement("all"))
.arg(formatData("0"))
.arg(formatData("1")));
return modelGroup;
}
particles.append(particle);
} else {
parseUnknown();
}
}
}
modelGroup->setParticles(particles);
tagValidator.finalize();
return modelGroup;
}
XsdModelGroup::Ptr XsdSchemaParser::parseLocalAll(const XsdParticle::Ptr &particle, const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::All, this);
validateElement(XsdTagScope::LocalAll);
const XsdModelGroup::Ptr modelGroup(new XsdModelGroup());
modelGroup->setCompositor(XsdModelGroup::AllCompositor);
// parse attributes
if (!parseMinMaxConstraint(particle, "all")) {
return modelGroup;
}
if (particle->maximumOccursUnbounded() || particle->maximumOccurs() != 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must have a value of %3.")
.arg(formatAttribute("maxOccurs"))
.arg(formatElement("all"))
.arg(formatData("1")));
return modelGroup;
}
if (particle->minimumOccurs() != 0 && particle->minimumOccurs() != 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must have a value of %3 or %4.")
.arg(formatAttribute("minOccurs"))
.arg(formatElement("all"))
.arg(formatData("0"))
.arg(formatData("1")));
return modelGroup;
}
validateIdAttribute("all");
TagValidationHandler tagValidator(XsdTagScope::LocalAll, this, m_namePool);
XsdParticle::List particles;
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
modelGroup->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Element, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalElement(particle, parent);
particle->setTerm(term);
if (particle->maximumOccursUnbounded() || particle->maximumOccurs() > 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must have a value of %3 or %4.")
.arg(formatAttribute("maxOccurs"))
.arg(formatElement("all"))
.arg(formatData("0"))
.arg(formatData("1")));
return modelGroup;
}
particles.append(particle);
} else {
parseUnknown();
}
}
}
modelGroup->setParticles(particles);
tagValidator.finalize();
return modelGroup;
}
XsdModelGroup::Ptr XsdSchemaParser::parseChoice(const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Choice, this);
validateElement(XsdTagScope::Choice);
const XsdModelGroup::Ptr modelGroup(new XsdModelGroup());
modelGroup->setCompositor(XsdModelGroup::ChoiceCompositor);
validateIdAttribute("choice");
XsdParticle::List particles;
TagValidationHandler tagValidator(XsdTagScope::Choice, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
modelGroup->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Element, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalElement(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
m_schemaResolver->addAllGroupCheck(term);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Any, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseAny(particle);
particle->setTerm(term);
particles.append(particle);
} else {
parseUnknown();
}
}
}
modelGroup->setParticles(particles);
tagValidator.finalize();
return modelGroup;
}
XsdModelGroup::Ptr XsdSchemaParser::parseLocalChoice(const XsdParticle::Ptr &particle, const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Choice, this);
validateElement(XsdTagScope::LocalChoice);
const XsdModelGroup::Ptr modelGroup(new XsdModelGroup());
modelGroup->setCompositor(XsdModelGroup::ChoiceCompositor);
// parse attributes
if (!parseMinMaxConstraint(particle, "choice")) {
return modelGroup;
}
validateIdAttribute("choice");
XsdParticle::List particles;
TagValidationHandler tagValidator(XsdTagScope::LocalChoice, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
modelGroup->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Element, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalElement(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
m_schemaResolver->addAllGroupCheck(term);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Any, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseAny(particle);
particle->setTerm(term);
particles.append(particle);
} else {
parseUnknown();
}
}
}
modelGroup->setParticles(particles);
tagValidator.finalize();
return modelGroup;
}
XsdModelGroup::Ptr XsdSchemaParser::parseSequence(const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Sequence, this);
validateElement(XsdTagScope::Sequence);
const XsdModelGroup::Ptr modelGroup(new XsdModelGroup());
modelGroup->setCompositor(XsdModelGroup::SequenceCompositor);
validateIdAttribute("sequence");
XsdParticle::List particles;
TagValidationHandler tagValidator(XsdTagScope::Sequence, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
modelGroup->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Element, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalElement(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
m_schemaResolver->addAllGroupCheck(term);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Any, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseAny(particle);
particle->setTerm(term);
particles.append(particle);
} else {
parseUnknown();
}
}
}
modelGroup->setParticles(particles);
tagValidator.finalize();
return modelGroup;
}
XsdModelGroup::Ptr XsdSchemaParser::parseLocalSequence(const XsdParticle::Ptr &particle, const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Sequence, this);
validateElement(XsdTagScope::LocalSequence);
const XsdModelGroup::Ptr modelGroup(new XsdModelGroup());
modelGroup->setCompositor(XsdModelGroup::SequenceCompositor);
// parse attributes
if (!parseMinMaxConstraint(particle, "sequence")) {
return modelGroup;
}
validateIdAttribute("sequence");
XsdParticle::List particles;
TagValidationHandler tagValidator(XsdTagScope::LocalSequence, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
modelGroup->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Element, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalElement(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Group, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseReferredGroup(particle);
m_schemaResolver->addAllGroupCheck(term);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Choice, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalChoice(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Sequence, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseLocalSequence(particle, parent);
particle->setTerm(term);
particles.append(particle);
} else if (isSchemaTag(XsdSchemaToken::Any, token, namespaceToken)) {
const XsdParticle::Ptr particle(new XsdParticle());
const XsdTerm::Ptr term = parseAny(particle);
particle->setTerm(term);
particles.append(particle);
} else {
parseUnknown();
}
}
}
modelGroup->setParticles(particles);
tagValidator.finalize();
return modelGroup;
}
XsdAttribute::Ptr XsdSchemaParser::parseGlobalAttribute()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Attribute, this);
validateElement(XsdTagScope::GlobalAttribute);
const XsdAttribute::Ptr attribute(new XsdAttribute());
attribute->setScope(XsdAttribute::Scope::Ptr(new XsdAttribute::Scope()));
attribute->scope()->setVariety(XsdAttribute::Scope::Global);
if (hasAttribute(QString::fromLatin1("default")) && hasAttribute(QString::fromLatin1("fixed"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("attribute"))
.arg(formatAttribute("default"))
.arg(formatAttribute("fixed")));
return attribute;
}
// parse attributes
if (hasAttribute(QString::fromLatin1("default"))) {
const QString value = readAttribute(QString::fromLatin1("default"));
attribute->setValueConstraint(XsdAttribute::ValueConstraint::Ptr(new XsdAttribute::ValueConstraint()));
attribute->valueConstraint()->setVariety(XsdAttribute::ValueConstraint::Default);
attribute->valueConstraint()->setValue(value);
} else if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
attribute->setValueConstraint(XsdAttribute::ValueConstraint::Ptr(new XsdAttribute::ValueConstraint()));
attribute->valueConstraint()->setVariety(XsdAttribute::ValueConstraint::Fixed);
attribute->valueConstraint()->setValue(value);
}
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("attribute"));
if ((objectName.namespaceURI() == StandardNamespaces::xsi) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("type")) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("nil")) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("schemaLocation")) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("noNamespaceSchemaLocation"))) {
error(QtXmlPatterns::tr("Content of %1 attribute of %2 element must not be from namespace %3.")
.arg(formatAttribute("name"))
.arg(formatElement("attribute"))
.arg(formatURI(CommonNamespaces::XSI)));
return attribute;
}
if (m_namePool->stringForLocalName(objectName.localName()) == QString::fromLatin1("xmlns")) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must not be %3.")
.arg(formatAttribute("name"))
.arg(formatElement("attribute"))
.arg(formatData("xmlns")));
return attribute;
}
attribute->setName(objectName);
bool hasTypeAttribute = false;
bool hasTypeSpecified = false;
if (hasAttribute(QString::fromLatin1("type"))) {
hasTypeAttribute = true;
const QString type = readQNameAttribute(QString::fromLatin1("type"), "attribute");
QXmlName typeName;
convertName(type, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addAttributeType(attribute, typeName, currentSourceLocation()); // add to resolver
hasTypeSpecified = true;
}
validateIdAttribute("attribute");
TagValidationHandler tagValidator(XsdTagScope::GlobalAttribute, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
attribute->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
if (hasTypeAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("attribute"))
.arg(formatElement("simpleType"))
.arg(formatAttribute("type")));
break;
}
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(attribute);
attribute->setType(type);
hasTypeSpecified = true;
// add it to list of anonymous types as well
addAnonymousType(type);
} else {
parseUnknown();
}
}
}
if (!hasTypeSpecified) {
attribute->setType(BuiltinTypes::xsAnySimpleType); // default value
return attribute;
}
tagValidator.finalize();
return attribute;
}
XsdAttributeUse::Ptr XsdSchemaParser::parseLocalAttribute(const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Attribute, this);
validateElement(XsdTagScope::LocalAttribute);
bool hasRefAttribute = false;
bool hasTypeAttribute = false;
bool hasTypeSpecified = false;
XsdAttributeUse::Ptr attributeUse;
if (hasAttribute(QString::fromLatin1("ref"))) {
const XsdAttributeReference::Ptr reference = XsdAttributeReference::Ptr(new XsdAttributeReference());
reference->setType(XsdAttributeReference::AttributeUse);
reference->setSourceLocation(currentSourceLocation());
attributeUse = reference;
hasRefAttribute = true;
} else {
attributeUse = XsdAttributeUse::Ptr(new XsdAttributeUse());
}
if (hasAttribute(QString::fromLatin1("default")) && hasAttribute(QString::fromLatin1("fixed"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("attribute"))
.arg(formatAttribute("default"))
.arg(formatAttribute("fixed")));
return attributeUse;
}
if (hasRefAttribute) {
if (hasAttribute(QString::fromLatin1("form"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("attribute"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("form")));
return attributeUse;
}
if (hasAttribute(QString::fromLatin1("name"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("attribute"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("name")));
return attributeUse;
}
if (hasAttribute(QString::fromLatin1("type"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("attribute"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("type")));
return attributeUse;
}
}
// parse attributes
// default, fixed and use are handled by both, attribute use and attribute reference
if (hasAttribute(QString::fromLatin1("default"))) {
const QString value = readAttribute(QString::fromLatin1("default"));
attributeUse->setValueConstraint(XsdAttributeUse::ValueConstraint::Ptr(new XsdAttributeUse::ValueConstraint()));
attributeUse->valueConstraint()->setVariety(XsdAttributeUse::ValueConstraint::Default);
attributeUse->valueConstraint()->setValue(value);
} else if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
attributeUse->setValueConstraint(XsdAttributeUse::ValueConstraint::Ptr(new XsdAttributeUse::ValueConstraint()));
attributeUse->valueConstraint()->setVariety(XsdAttributeUse::ValueConstraint::Fixed);
attributeUse->valueConstraint()->setValue(value);
}
if (hasAttribute(QString::fromLatin1("use"))) {
const QString value = readAttribute(QString::fromLatin1("use"));
if (value != QString::fromLatin1("optional") &&
value != QString::fromLatin1("prohibited") &&
value != QString::fromLatin1("required")) {
attributeContentError("use", "attribute", value);
return attributeUse;
}
if (value == QString::fromLatin1("optional"))
attributeUse->setUseType(XsdAttributeUse::OptionalUse);
else if (value == QString::fromLatin1("prohibited"))
attributeUse->setUseType(XsdAttributeUse::ProhibitedUse);
else if (value == QString::fromLatin1("required"))
attributeUse->setUseType(XsdAttributeUse::RequiredUse);
if (attributeUse->valueConstraint() && attributeUse->valueConstraint()->variety() == XsdAttributeUse::ValueConstraint::Default && value != QString::fromLatin1("optional")) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must have the value %3 because the %4 attribute is set.")
.arg(formatAttribute("use"))
.arg(formatElement("attribute"))
.arg(formatData("optional"))
.arg(formatElement("default")));
return attributeUse;
}
}
const XsdAttribute::Ptr attribute(new XsdAttribute());
attributeUse->setAttribute(attribute);
m_componentLocationHash.insert(attribute, currentSourceLocation());
attribute->setScope(XsdAttribute::Scope::Ptr(new XsdAttribute::Scope()));
attribute->scope()->setVariety(XsdAttribute::Scope::Local);
attribute->scope()->setParent(parent);
// now make a difference between attribute reference and attribute use
if (hasRefAttribute) {
const QString reference = readQNameAttribute(QString::fromLatin1("ref"), "attribute");
QXmlName referenceName;
convertName(reference, NamespaceSupport::ElementName, referenceName); // translate qualified name into QXmlName
const XsdAttributeReference::Ptr attributeReference = attributeUse;
attributeReference->setReferenceName(referenceName);
} else {
if (hasAttribute(QString::fromLatin1("name"))) {
const QString attributeName = readNameAttribute("attribute");
QXmlName objectName;
if (hasAttribute(QString::fromLatin1("form"))) {
const QString value = readAttribute(QString::fromLatin1("form"));
if (value != QString::fromLatin1("qualified") && value != QString::fromLatin1("unqualified")) {
attributeContentError("form", "attribute", value);
return attributeUse;
}
if (value == QString::fromLatin1("qualified")) {
objectName = m_namePool->allocateQName(m_targetNamespace, attributeName);
} else {
objectName = m_namePool->allocateQName(QString(), attributeName);
}
} else {
if (m_attributeFormDefault == QString::fromLatin1("qualified")) {
objectName = m_namePool->allocateQName(m_targetNamespace, attributeName);
} else {
objectName = m_namePool->allocateQName(QString(), attributeName);
}
}
if ((objectName.namespaceURI() == StandardNamespaces::xsi) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("type")) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("nil")) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("schemaLocation")) &&
(m_namePool->stringForLocalName(objectName.localName()) != QString::fromLatin1("noNamespaceSchemaLocation"))) {
error(QtXmlPatterns::tr("Content of %1 attribute of %2 element must not be from namespace %3.")
.arg(formatAttribute("name"))
.arg(formatElement("attribute"))
.arg(formatURI(CommonNamespaces::XSI)));
return attributeUse;
}
if (m_namePool->stringForLocalName(objectName.localName()) == QString::fromLatin1("xmlns")) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must not be %3.")
.arg(formatAttribute("name"))
.arg(formatElement("attribute"))
.arg(formatData("xmlns")));
return attributeUse;
}
attribute->setName(objectName);
}
if (hasAttribute(QString::fromLatin1("type"))) {
hasTypeAttribute = true;
const QString type = readQNameAttribute(QString::fromLatin1("type"), "attribute");
QXmlName typeName;
convertName(type, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addAttributeType(attribute, typeName, currentSourceLocation()); // add to resolver
hasTypeSpecified = true;
}
if (attributeUse->valueConstraint()) {
//TODO: check whether assigning the value constraint of the attribute use to the attribute is correct
if (!attribute->valueConstraint())
attribute->setValueConstraint(XsdAttribute::ValueConstraint::Ptr(new XsdAttribute::ValueConstraint()));
attribute->valueConstraint()->setVariety((XsdAttribute::ValueConstraint::Variety)attributeUse->valueConstraint()->variety());
attribute->valueConstraint()->setValue(attributeUse->valueConstraint()->value());
attribute->valueConstraint()->setLexicalForm(attributeUse->valueConstraint()->lexicalForm());
}
}
validateIdAttribute("attribute");
TagValidationHandler tagValidator(XsdTagScope::LocalAttribute, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
attribute->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
if (hasTypeAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("attribute"))
.arg(formatElement("simpleType"))
.arg(formatAttribute("type")));
break;
}
if (hasRefAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("attribute"))
.arg(formatElement("simpleType"))
.arg(formatAttribute("ref")));
break;
}
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(attribute);
attribute->setType(type);
hasTypeSpecified = true;
// add it to list of anonymous types as well
addAnonymousType(type);
} else {
parseUnknown();
}
}
}
if (!hasTypeSpecified) {
attribute->setType(BuiltinTypes::xsAnySimpleType); // default value
}
tagValidator.finalize();
return attributeUse;
}
XsdAttributeGroup::Ptr XsdSchemaParser::parseNamedAttributeGroup()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::AttributeGroup, this);
validateElement(XsdTagScope::NamedAttributeGroup);
const XsdAttributeGroup::Ptr attributeGroup(new XsdAttributeGroup());
// parse attributes
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("attributeGroup"));
attributeGroup->setName(objectName);
validateIdAttribute("attributeGroup");
TagValidationHandler tagValidator(XsdTagScope::NamedAttributeGroup, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
attributeGroup->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Attribute, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseLocalAttribute(attributeGroup);
if (attributeUse->useType() == XsdAttributeUse::ProhibitedUse) {
warning(QtXmlPatterns::tr("Specifying use='prohibited' inside an attribute group has no effect."));
} else {
attributeGroup->addAttributeUse(attributeUse);
}
} else if (isSchemaTag(XsdSchemaToken::AttributeGroup, token, namespaceToken)) {
const XsdAttributeUse::Ptr attributeUse = parseReferredAttributeGroup();
attributeGroup->addAttributeUse(attributeUse);
} else if (isSchemaTag(XsdSchemaToken::AnyAttribute, token, namespaceToken)) {
const XsdWildcard::Ptr wildcard = parseAnyAttribute();
attributeGroup->setWildcard(wildcard);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return attributeGroup;
}
XsdAttributeUse::Ptr XsdSchemaParser::parseReferredAttributeGroup()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::AttributeGroup, this);
validateElement(XsdTagScope::ReferredAttributeGroup);
const XsdAttributeReference::Ptr attributeReference(new XsdAttributeReference());
attributeReference->setType(XsdAttributeReference::AttributeGroup);
attributeReference->setSourceLocation(currentSourceLocation());
// parse attributes
const QString reference = readQNameAttribute(QString::fromLatin1("ref"), "attributeGroup");
QXmlName referenceName;
convertName(reference, NamespaceSupport::ElementName, referenceName); // translate qualified name into QXmlName
attributeReference->setReferenceName(referenceName);
validateIdAttribute("attributeGroup");
TagValidationHandler tagValidator(XsdTagScope::ReferredAttributeGroup, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
attributeReference->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return attributeReference;
}
XsdElement::Ptr XsdSchemaParser::parseGlobalElement()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Element, this);
validateElement(XsdTagScope::GlobalElement);
const XsdElement::Ptr element(new XsdElement());
element->setScope(XsdElement::Scope::Ptr(new XsdElement::Scope()));
element->scope()->setVariety(XsdElement::Scope::Global);
bool hasTypeAttribute = false;
bool hasTypeSpecified = false;
bool hasSubstitutionGroup = false;
// parse attributes
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("element"));
element->setName(objectName);
if (hasAttribute(QString::fromLatin1("abstract"))) {
const QString abstract = readAttribute(QString::fromLatin1("abstract"));
const Boolean::Ptr value = Boolean::fromLexical(abstract);
if (value->hasError()) {
attributeContentError("abstract", "element", abstract, BuiltinTypes::xsBoolean);
return element;
}
element->setIsAbstract(value->as<Boolean>()->value());
} else {
element->setIsAbstract(false); // the default value
}
if (hasAttribute(QString::fromLatin1("default")) && hasAttribute(QString::fromLatin1("fixed"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("default"))
.arg(formatAttribute("fixed")));
return element;
}
if (hasAttribute(QString::fromLatin1("default"))) {
const QString value = readAttribute(QString::fromLatin1("default"));
element->setValueConstraint(XsdElement::ValueConstraint::Ptr(new XsdElement::ValueConstraint()));
element->valueConstraint()->setVariety(XsdElement::ValueConstraint::Default);
element->valueConstraint()->setValue(value);
} else if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
element->setValueConstraint(XsdElement::ValueConstraint::Ptr(new XsdElement::ValueConstraint()));
element->valueConstraint()->setVariety(XsdElement::ValueConstraint::Fixed);
element->valueConstraint()->setValue(value);
}
element->setDisallowedSubstitutions(readBlockingConstraintAttribute(NamedSchemaComponent::ExtensionConstraint | NamedSchemaComponent::RestrictionConstraint | NamedSchemaComponent::SubstitutionConstraint, "element"));
element->setSubstitutionGroupExclusions(readDerivationConstraintAttribute(SchemaType::ExtensionConstraint | SchemaType::RestrictionConstraint, "element"));
if (hasAttribute(QString::fromLatin1("nillable"))) {
const QString nillable = readAttribute(QString::fromLatin1("nillable"));
const Boolean::Ptr value = Boolean::fromLexical(nillable);
if (value->hasError()) {
attributeContentError("nillable", "element", nillable, BuiltinTypes::xsBoolean);
return element;
}
element->setIsNillable(value->as<Boolean>()->value());
} else {
element->setIsNillable(false); // the default value
}
if (hasAttribute(QString::fromLatin1("type"))) {
const QString type = readQNameAttribute(QString::fromLatin1("type"), "element");
QXmlName typeName;
convertName(type, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addElementType(element, typeName, currentSourceLocation()); // add to resolver
hasTypeAttribute = true;
hasTypeSpecified = true;
}
if (hasAttribute(QString::fromLatin1("substitutionGroup"))) {
QList<QXmlName> elementNames;
const QString value = readAttribute(QString::fromLatin1("substitutionGroup"));
const QStringList substitutionGroups = value.split(QLatin1Char(' '), Qt::SkipEmptyParts);
if (substitutionGroups.isEmpty()) {
attributeContentError("substitutionGroup", "element", value, BuiltinTypes::xsQName);
return element;
}
for (int i = 0; i < substitutionGroups.count(); ++i) {
const QString value = substitutionGroups.at(i).simplified();
if (!XPathHelper::isQName(value)) {
attributeContentError("substitutionGroup", "element", value, BuiltinTypes::xsQName);
return element;
}
QXmlName elementName;
convertName(value, NamespaceSupport::ElementName, elementName); // translate qualified name into QXmlName
elementNames.append(elementName);
}
m_schemaResolver->addSubstitutionGroupAffiliation(element, elementNames, currentSourceLocation()); // add to resolver
hasSubstitutionGroup = true;
}
validateIdAttribute("element");
XsdAlternative::List alternatives;
TagValidationHandler tagValidator(XsdTagScope::GlobalElement, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
element->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
if (hasTypeAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("simpleType"))
.arg(formatAttribute("type")));
return element;
}
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(element);
element->setType(type);
// add it to list of anonymous types as well
addAnonymousType(type);
hasTypeSpecified = true;
} else if (isSchemaTag(XsdSchemaToken::ComplexType, token, namespaceToken)) {
if (hasTypeAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("complexType"))
.arg(formatAttribute("type")));
return element;
}
const XsdComplexType::Ptr type = parseLocalComplexType();
type->setContext(element);
element->setType(type);
// add it to list of anonymous types as well
addAnonymousType(type);
hasTypeSpecified = true;
} else if (isSchemaTag(XsdSchemaToken::Alternative, token, namespaceToken)) {
const XsdAlternative::Ptr alternative = parseAlternative();
alternatives.append(alternative);
} else if (isSchemaTag(XsdSchemaToken::Unique, token, namespaceToken)) {
const XsdIdentityConstraint::Ptr constraint = parseUnique();
element->addIdentityConstraint(constraint);
} else if (isSchemaTag(XsdSchemaToken::Key, token, namespaceToken)) {
const XsdIdentityConstraint::Ptr constraint = parseKey();
element->addIdentityConstraint(constraint);
} else if (isSchemaTag(XsdSchemaToken::Keyref, token, namespaceToken)) {
const XsdIdentityConstraint::Ptr constraint = parseKeyRef(element);
element->addIdentityConstraint(constraint);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
if (!hasTypeSpecified) {
if (hasSubstitutionGroup)
m_schemaResolver->addSubstitutionGroupType(element);
else
element->setType(BuiltinTypes::xsAnyType);
}
if (!alternatives.isEmpty()) {
element->setTypeTable(XsdElement::TypeTable::Ptr(new XsdElement::TypeTable()));
for (int i = 0; i < alternatives.count(); ++i) {
if (alternatives.at(i)->test())
element->typeTable()->addAlternative(alternatives.at(i));
if (i == (alternatives.count() - 1)) { // the final one
if (!alternatives.at(i)->test()) {
element->typeTable()->setDefaultTypeDefinition(alternatives.at(i));
} else {
const XsdAlternative::Ptr alternative(new XsdAlternative());
if (element->type())
alternative->setType(element->type());
else
m_schemaResolver->addAlternativeType(alternative, element); // add to resolver
element->typeTable()->setDefaultTypeDefinition(alternative);
}
}
}
}
return element;
}
XsdTerm::Ptr XsdSchemaParser::parseLocalElement(const XsdParticle::Ptr &particle, const NamedSchemaComponent::Ptr &parent)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Element, this);
validateElement(XsdTagScope::LocalElement);
bool hasRefAttribute = false;
bool hasTypeAttribute = false;
bool hasTypeSpecified = false;
XsdTerm::Ptr term;
XsdElement::Ptr element;
if (hasAttribute(QString::fromLatin1("ref"))) {
term = XsdReference::Ptr(new XsdReference());
hasRefAttribute = true;
} else {
term = XsdElement::Ptr(new XsdElement());
element = term;
}
if (hasRefAttribute) {
if (hasAttribute(QString::fromLatin1("name"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("name")));
return term;
} else if (hasAttribute(QString::fromLatin1("block"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("block")));
return term;
} else if (hasAttribute(QString::fromLatin1("nillable"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("nillable")));
return term;
} else if (hasAttribute(QString::fromLatin1("default"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("default")));
return term;
} else if (hasAttribute(QString::fromLatin1("fixed"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("fixed")));
return term;
} else if (hasAttribute(QString::fromLatin1("form"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("form")));
return term;
} else if (hasAttribute(QString::fromLatin1("type"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("ref"))
.arg(formatAttribute("type")));
return term;
}
}
// parse attributes
if (!parseMinMaxConstraint(particle, "element")) {
return element;
}
if (!hasAttribute(QString::fromLatin1("name")) && !hasAttribute(QString::fromLatin1("ref"))) {
error(QtXmlPatterns::tr("%1 element must have either %2 or %3 attribute.")
.arg(formatElement("element"))
.arg(formatAttribute("name"))
.arg(formatAttribute("ref")));
return element;
}
if (hasRefAttribute) {
const QString ref = readQNameAttribute(QString::fromLatin1("ref"), "element");
QXmlName referenceName;
convertName(ref, NamespaceSupport::ElementName, referenceName); // translate qualified name into QXmlName
const XsdReference::Ptr reference = term;
reference->setReferenceName(referenceName);
reference->setType(XsdReference::Element);
reference->setSourceLocation(currentSourceLocation());
} else {
element->setScope(XsdElement::Scope::Ptr(new XsdElement::Scope()));
element->scope()->setVariety(XsdElement::Scope::Local);
element->scope()->setParent(parent.data());
if (hasAttribute(QString::fromLatin1("name"))) {
const QString elementName = readNameAttribute("element");
QXmlName objectName;
if (hasAttribute(QString::fromLatin1("form"))) {
const QString value = readAttribute(QString::fromLatin1("form"));
if (value != QString::fromLatin1("qualified") && value != QString::fromLatin1("unqualified")) {
attributeContentError("form", "element", value);
return element;
}
if (value == QString::fromLatin1("qualified")) {
objectName = m_namePool->allocateQName(m_targetNamespace, elementName);
} else {
objectName = m_namePool->allocateQName(QString(), elementName);
}
} else {
if (m_elementFormDefault == QString::fromLatin1("qualified")) {
objectName = m_namePool->allocateQName(m_targetNamespace, elementName);
} else {
objectName = m_namePool->allocateQName(QString(), elementName);
}
}
element->setName(objectName);
}
if (hasAttribute(QString::fromLatin1("nillable"))) {
const QString nillable = readAttribute(QString::fromLatin1("nillable"));
const Boolean::Ptr value = Boolean::fromLexical(nillable);
if (value->hasError()) {
attributeContentError("nillable", "element", nillable, BuiltinTypes::xsBoolean);
return term;
}
element->setIsNillable(value->as<Boolean>()->value());
} else {
element->setIsNillable(false); // the default value
}
if (hasAttribute(QString::fromLatin1("default")) && hasAttribute(QString::fromLatin1("fixed"))) {
error(QtXmlPatterns::tr("%1 element must not have %2 and %3 attribute together.")
.arg(formatElement("element"))
.arg(formatAttribute("default"))
.arg(formatAttribute("fixed")));
return element;
}
if (hasAttribute(QString::fromLatin1("default"))) {
const QString value = readAttribute(QString::fromLatin1("default"));
element->setValueConstraint(XsdElement::ValueConstraint::Ptr(new XsdElement::ValueConstraint()));
element->valueConstraint()->setVariety(XsdElement::ValueConstraint::Default);
element->valueConstraint()->setValue(value);
} else if (hasAttribute(QString::fromLatin1("fixed"))) {
const QString value = readAttribute(QString::fromLatin1("fixed"));
element->setValueConstraint(XsdElement::ValueConstraint::Ptr(new XsdElement::ValueConstraint()));
element->valueConstraint()->setVariety(XsdElement::ValueConstraint::Fixed);
element->valueConstraint()->setValue(value);
}
if (hasAttribute(QString::fromLatin1("type"))) {
const QString type = readQNameAttribute(QString::fromLatin1("type"), "element");
QXmlName typeName;
convertName(type, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addElementType(element, typeName, currentSourceLocation()); // add to resolver
hasTypeAttribute = true;
hasTypeSpecified = true;
}
element->setDisallowedSubstitutions(readBlockingConstraintAttribute(NamedSchemaComponent::ExtensionConstraint | NamedSchemaComponent::RestrictionConstraint | NamedSchemaComponent::SubstitutionConstraint, "element"));
}
validateIdAttribute("element");
XsdAlternative::List alternatives;
TagValidationHandler tagValidator(XsdTagScope::LocalElement, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
term->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
if (hasRefAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("simpleType"))
.arg(formatAttribute("ref")));
return term;
} else if (hasTypeAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("simpleType"))
.arg(formatAttribute("type")));
return term;
}
const XsdSimpleType::Ptr type = parseLocalSimpleType();
type->setContext(element);
element->setType(type);
// add it to list of anonymous types as well
addAnonymousType(type);
hasTypeSpecified = true;
} else if (isSchemaTag(XsdSchemaToken::ComplexType, token, namespaceToken)) {
if (hasRefAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("complexType"))
.arg(formatAttribute("ref")));
return term;
} else if (hasTypeAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("complexType"))
.arg(formatAttribute("type")));
return term;
}
const XsdComplexType::Ptr type = parseLocalComplexType();
type->setContext(element);
element->setType(type);
// add it to list of anonymous types as well
addAnonymousType(type);
hasTypeSpecified = true;
} else if (isSchemaTag(XsdSchemaToken::Alternative, token, namespaceToken)) {
if (hasRefAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("alternative"))
.arg(formatAttribute("ref")));
return term;
}
const XsdAlternative::Ptr alternative = parseAlternative();
alternatives.append(alternative);
} else if (isSchemaTag(XsdSchemaToken::Unique, token, namespaceToken)) {
if (hasRefAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("unique"))
.arg(formatAttribute("ref")));
return term;
}
const XsdIdentityConstraint::Ptr constraint = parseUnique();
element->addIdentityConstraint(constraint);
} else if (isSchemaTag(XsdSchemaToken::Key, token, namespaceToken)) {
if (hasRefAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("key"))
.arg(formatAttribute("ref")));
return term;
}
const XsdIdentityConstraint::Ptr constraint = parseKey();
element->addIdentityConstraint(constraint);
} else if (isSchemaTag(XsdSchemaToken::Keyref, token, namespaceToken)) {
if (hasRefAttribute) {
error(QtXmlPatterns::tr("%1 element with %2 child element must not have a %3 attribute.")
.arg(formatElement("element"))
.arg(formatElement("keyref"))
.arg(formatAttribute("ref")));
return term;
}
const XsdIdentityConstraint::Ptr constraint = parseKeyRef(element);
element->addIdentityConstraint(constraint);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
if (!hasTypeSpecified && !hasRefAttribute)
element->setType(BuiltinTypes::xsAnyType);
if (!hasRefAttribute && !alternatives.isEmpty()) {
element->setTypeTable(XsdElement::TypeTable::Ptr(new XsdElement::TypeTable()));
for (int i = 0; i < alternatives.count(); ++i) {
if (alternatives.at(i)->test())
element->typeTable()->addAlternative(alternatives.at(i));
if (i == (alternatives.count() - 1)) { // the final one
if (!alternatives.at(i)->test()) {
element->typeTable()->setDefaultTypeDefinition(alternatives.at(i));
} else {
const XsdAlternative::Ptr alternative(new XsdAlternative());
if (element->type())
alternative->setType(element->type());
else
m_schemaResolver->addAlternativeType(alternative, element); // add to resolver
element->typeTable()->setDefaultTypeDefinition(alternative);
}
}
}
}
return term;
}
XsdIdentityConstraint::Ptr XsdSchemaParser::parseUnique()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Unique, this);
validateElement(XsdTagScope::Unique);
const XsdIdentityConstraint::Ptr constraint(new XsdIdentityConstraint());
constraint->setCategory(XsdIdentityConstraint::Unique);
// parse attributes
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("unique"));
constraint->setName(objectName);
validateIdAttribute("unique");
TagValidationHandler tagValidator(XsdTagScope::Unique, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
constraint->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Selector, token, namespaceToken)) {
parseSelector(constraint);
} else if (isSchemaTag(XsdSchemaToken::Field, token, namespaceToken)) {
parseField(constraint);
} else {
parseUnknown();
}
}
}
// add constraint to schema for further checking
addIdentityConstraint(constraint);
tagValidator.finalize();
return constraint;
}
XsdIdentityConstraint::Ptr XsdSchemaParser::parseKey()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Key, this);
validateElement(XsdTagScope::Key);
const XsdIdentityConstraint::Ptr constraint(new XsdIdentityConstraint());
constraint->setCategory(XsdIdentityConstraint::Key);
// parse attributes
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("key"));
constraint->setName(objectName);
validateIdAttribute("key");
TagValidationHandler tagValidator(XsdTagScope::Key, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
constraint->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Selector, token, namespaceToken)) {
parseSelector(constraint);
} else if (isSchemaTag(XsdSchemaToken::Field, token, namespaceToken)) {
parseField(constraint);
} else {
parseUnknown();
}
}
}
// add constraint to schema for further checking
addIdentityConstraint(constraint);
tagValidator.finalize();
return constraint;
}
XsdIdentityConstraint::Ptr XsdSchemaParser::parseKeyRef(const XsdElement::Ptr &element)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Keyref, this);
validateElement(XsdTagScope::KeyRef);
const XsdIdentityConstraint::Ptr constraint(new XsdIdentityConstraint());
constraint->setCategory(XsdIdentityConstraint::KeyReference);
// parse attributes
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("keyref"));
constraint->setName(objectName);
const QString refer = readQNameAttribute(QString::fromLatin1("refer"), "keyref");
QXmlName referenceName;
convertName(refer, NamespaceSupport::ElementName, referenceName); // translate qualified name into QXmlName
m_schemaResolver->addKeyReference(element, constraint, referenceName, currentSourceLocation()); // add to resolver
validateIdAttribute("keyref");
TagValidationHandler tagValidator(XsdTagScope::KeyRef, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
constraint->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::Selector, token, namespaceToken)) {
parseSelector(constraint);
} else if (isSchemaTag(XsdSchemaToken::Field, token, namespaceToken)) {
parseField(constraint);
} else {
parseUnknown();
}
}
}
// add constraint to schema for further checking
addIdentityConstraint(constraint);
tagValidator.finalize();
return constraint;
}
void XsdSchemaParser::parseSelector(const XsdIdentityConstraint::Ptr &ptr)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Selector, this);
validateElement(XsdTagScope::Selector);
// parse attributes
const XsdXPathExpression::Ptr expression = readXPathExpression("selector");
const QString xpath = readXPathAttribute(QString::fromLatin1("xpath"), XPathSelector, "selector");
expression->setExpression(xpath);
ptr->setSelector(expression);
validateIdAttribute("selector");
TagValidationHandler tagValidator(XsdTagScope::Selector, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
expression->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
void XsdSchemaParser::parseField(const XsdIdentityConstraint::Ptr &ptr)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Field, this);
validateElement(XsdTagScope::Field);
// parse attributes
const XsdXPathExpression::Ptr expression = readXPathExpression("field");
const QString xpath = readXPathAttribute(QString::fromLatin1("xpath"), XPathField, "field");
expression->setExpression(xpath);
ptr->addField(expression);
validateIdAttribute("field");
TagValidationHandler tagValidator(XsdTagScope::Field, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
expression->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
}
XsdAlternative::Ptr XsdSchemaParser::parseAlternative()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Alternative, this);
validateElement(XsdTagScope::Alternative);
const XsdAlternative::Ptr alternative(new XsdAlternative());
bool hasTypeSpecified = false;
if (hasAttribute(QString::fromLatin1("test"))) {
const XsdXPathExpression::Ptr expression = readXPathExpression("alternative");
const QString test = readXPathAttribute(QString::fromLatin1("test"), XPath20, "alternative");
expression->setExpression(test);
alternative->setTest(expression);
}
if (hasAttribute(QString::fromLatin1("type"))) {
const QString type = readQNameAttribute(QString::fromLatin1("type"), "alternative");
QXmlName typeName;
convertName(type, NamespaceSupport::ElementName, typeName); // translate qualified name into QXmlName
m_schemaResolver->addAlternativeType(alternative, typeName, currentSourceLocation()); // add to resolver
hasTypeSpecified = true;
}
validateIdAttribute("alternative");
TagValidationHandler tagValidator(XsdTagScope::Alternative, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
alternative->addAnnotation(annotation);
} else if (isSchemaTag(XsdSchemaToken::SimpleType, token, namespaceToken)) {
const XsdSimpleType::Ptr type = parseLocalSimpleType();
alternative->setType(type);
// add it to list of anonymous types as well
addAnonymousType(type);
hasTypeSpecified = true;
} else if (isSchemaTag(XsdSchemaToken::ComplexType, token, namespaceToken)) {
const XsdComplexType::Ptr type = parseLocalComplexType();
alternative->setType(type);
// add it to list of anonymous types as well
addAnonymousType(type);
hasTypeSpecified = true;
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
if (!hasTypeSpecified) {
error(QtXmlPatterns::tr("%1 element must have either %2 attribute or %3 or %4 as child element.")
.arg(formatElement("alternative"))
.arg(formatAttribute("type"))
.arg(formatElement("simpleType"))
.arg(formatElement("complexType")));
return alternative;
}
return alternative;
}
XsdNotation::Ptr XsdSchemaParser::parseNotation()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Notation, this);
validateElement(XsdTagScope::Notation);
const XsdNotation::Ptr notation(new XsdNotation());
// parse attributes
const QXmlName objectName = m_namePool->allocateQName(m_targetNamespace, readNameAttribute("notation"));
notation->setName(objectName);
bool hasOptionalAttribute = false;
if (hasAttribute(QString::fromLatin1("public"))) {
const QString value = readAttribute(QString::fromLatin1("public"));
if (!value.isEmpty()) {
const DerivedString<TypeToken>::Ptr publicId = DerivedString<TypeToken>::fromLexical(m_namePool, value);
if (publicId->hasError()) {
attributeContentError("public", "notation", value, BuiltinTypes::xsToken);
return notation;
}
notation->setPublicId(publicId);
}
hasOptionalAttribute = true;
}
if (hasAttribute(QString::fromLatin1("system"))) {
const QString value = readAttribute(QString::fromLatin1("system"));
if (!isValidUri(value)) {
attributeContentError("system", "notation", value, BuiltinTypes::xsAnyURI);
return notation;
}
if (!value.isEmpty()) {
const AnyURI::Ptr systemId = AnyURI::fromLexical(value);
notation->setSystemId(systemId);
}
hasOptionalAttribute = true;
}
if (!hasOptionalAttribute) {
error(QtXmlPatterns::tr("%1 element requires either %2 or %3 attribute.")
.arg(formatElement("notation"))
.arg(formatAttribute("public"))
.arg(formatAttribute("system")));
return notation;
}
validateIdAttribute("notation");
TagValidationHandler tagValidator(XsdTagScope::Notation, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isCharacters() || isEntityReference()) {
if (!text().toString().trimmed().isEmpty()) {
error(QtXmlPatterns::tr("Text or entity references not allowed inside %1 element").arg(formatElement("notation.")));
return notation;
}
}
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
notation->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return notation;
}
XsdWildcard::Ptr XsdSchemaParser::parseAny(const XsdParticle::Ptr &particle)
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::Any, this);
validateElement(XsdTagScope::Any);
const XsdWildcard::Ptr wildcard(new XsdWildcard());
// parse attributes
if (!parseMinMaxConstraint(particle, "any")) {
return wildcard;
}
if (hasAttribute(QString::fromLatin1("namespace"))) {
const auto valueList = readAttribute(QString::fromLatin1("namespace")).split(QLatin1Char(' '), Qt::SkipEmptyParts);
const QSet<QString> values(valueList.cbegin(), valueList.cend());
if ((values.contains(QString::fromLatin1("##any")) || values.contains(QString::fromLatin1("##other"))) && values.count() != 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must contain %3, %4 or a list of URIs.")
.arg(formatAttribute("namespace"))
.arg(formatElement("any"))
.arg(formatData("##any"))
.arg(formatData("##other")));
return wildcard;
}
if (values.contains(QString::fromLatin1("##any"))) {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Any);
} else if (values.contains(QString::fromLatin1("##other"))) {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Not);
if (!m_targetNamespace.isEmpty())
wildcard->namespaceConstraint()->setNamespaces(QSet<QString>() << m_targetNamespace);
else
wildcard->namespaceConstraint()->setNamespaces(QSet<QString>() << XsdWildcard::absentNamespace());
} else {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Enumeration);
QStringList newValues = values.values();
// replace the ##targetNamespace entry
for (int i = 0; i < newValues.count(); ++i) {
if (newValues.at(i) == QString::fromLatin1("##targetNamespace")) {
if (!m_targetNamespace.isEmpty())
newValues[i] = m_targetNamespace;
else
newValues[i] = XsdWildcard::absentNamespace();
} else if (newValues.at(i) == QString::fromLatin1("##local")) {
newValues[i] = XsdWildcard::absentNamespace();
}
}
// check for invalid URIs
for (int i = 0; i < newValues.count(); ++i) {
const QString stringValue = newValues.at(i);
if (stringValue == XsdWildcard::absentNamespace())
continue;
if (!isValidUri(stringValue)) {
attributeContentError("namespace", "any", stringValue, BuiltinTypes::xsAnyURI);
return wildcard;
}
}
wildcard->namespaceConstraint()->setNamespaces(QSet<QString>(newValues.cbegin(), newValues.cend()));
}
} else {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Any);
}
if (hasAttribute(QString::fromLatin1("processContents"))) {
const QString value = readAttribute(QString::fromLatin1("processContents"));
if (value != QString::fromLatin1("lax") &&
value != QString::fromLatin1("skip") &&
value != QString::fromLatin1("strict")) {
attributeContentError("processContents", "any", value);
return wildcard;
}
if (value == QString::fromLatin1("lax")) {
wildcard->setProcessContents(XsdWildcard::Lax);
} else if (value == QString::fromLatin1("skip")) {
wildcard->setProcessContents(XsdWildcard::Skip);
} else if (value == QString::fromLatin1("strict")) {
wildcard->setProcessContents(XsdWildcard::Strict);
}
} else {
wildcard->setProcessContents(XsdWildcard::Strict);
}
validateIdAttribute("any");
TagValidationHandler tagValidator(XsdTagScope::Any, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
wildcard->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return wildcard;
}
XsdWildcard::Ptr XsdSchemaParser::parseAnyAttribute()
{
const ElementNamespaceHandler namespaceHandler(XsdSchemaToken::AnyAttribute, this);
validateElement(XsdTagScope::AnyAttribute);
const XsdWildcard::Ptr wildcard(new XsdWildcard());
// parse attributes
if (hasAttribute(QString::fromLatin1("namespace"))) {
const auto valueList = readAttribute(QString::fromLatin1("namespace")).split(QLatin1Char(' '), Qt::SkipEmptyParts);
const QSet<QString> values(valueList.cbegin(), valueList.cend());
if ((values.contains(QString::fromLatin1("##any")) || values.contains(QString::fromLatin1("##other"))) && values.count() != 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must contain %3, %4 or a list of URIs.")
.arg(formatAttribute("namespace"))
.arg(formatElement("anyAttribute"))
.arg(formatData("##any"))
.arg(formatData("##other")));
return wildcard;
}
if (values.contains(QString::fromLatin1("##any"))) {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Any);
} else if (values.contains(QString::fromLatin1("##other"))) {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Not);
if (!m_targetNamespace.isEmpty())
wildcard->namespaceConstraint()->setNamespaces(QSet<QString>() << m_targetNamespace);
else
wildcard->namespaceConstraint()->setNamespaces(QSet<QString>() << XsdWildcard::absentNamespace());
} else {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Enumeration);
QStringList newValues = values.values();
// replace the ##targetNamespace entry
for (int i = 0; i < newValues.count(); ++i) {
if (newValues.at(i) == QString::fromLatin1("##targetNamespace")) {
if (!m_targetNamespace.isEmpty())
newValues[i] = m_targetNamespace;
else
newValues[i] = XsdWildcard::absentNamespace();
} else if (newValues.at(i) == QString::fromLatin1("##local")) {
newValues[i] = XsdWildcard::absentNamespace();
}
}
// check for invalid URIs
for (int i = 0; i < newValues.count(); ++i) {
const QString stringValue = newValues.at(i);
if (stringValue == XsdWildcard::absentNamespace())
continue;
if (!isValidUri(stringValue)) {
attributeContentError("namespace", "anyAttribute", stringValue, BuiltinTypes::xsAnyURI);
return wildcard;
}
}
wildcard->namespaceConstraint()->setNamespaces(QSet<QString>(newValues.cbegin(), newValues.cend()));
}
} else {
wildcard->namespaceConstraint()->setVariety(XsdWildcard::NamespaceConstraint::Any);
}
if (hasAttribute(QString::fromLatin1("processContents"))) {
const QString value = readAttribute(QString::fromLatin1("processContents"));
if (value != QString::fromLatin1("lax") &&
value != QString::fromLatin1("skip") &&
value != QString::fromLatin1("strict")) {
attributeContentError("processContents", "anyAttribute", value);
return wildcard;
}
if (value == QString::fromLatin1("lax")) {
wildcard->setProcessContents(XsdWildcard::Lax);
} else if (value == QString::fromLatin1("skip")) {
wildcard->setProcessContents(XsdWildcard::Skip);
} else if (value == QString::fromLatin1("strict")) {
wildcard->setProcessContents(XsdWildcard::Strict);
}
} else {
wildcard->setProcessContents(XsdWildcard::Strict);
}
validateIdAttribute("anyAttribute");
TagValidationHandler tagValidator(XsdTagScope::AnyAttribute, this, m_namePool);
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement()) {
const XsdSchemaToken::NodeName token = XsdSchemaToken::toToken(name());
const XsdSchemaToken::NodeName namespaceToken = XsdSchemaToken::toToken(namespaceUri());
tagValidator.validate(token);
if (isSchemaTag(XsdSchemaToken::Annotation, token, namespaceToken)) {
const XsdAnnotation::Ptr annotation = parseAnnotation();
wildcard->addAnnotation(annotation);
} else {
parseUnknown();
}
}
}
tagValidator.finalize();
return wildcard;
}
void XsdSchemaParser::parseUnknownDocumentation()
{
Q_ASSERT(isStartElement());
m_namespaceSupport.pushContext();
m_namespaceSupport.setPrefixes(namespaceDeclarations());
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement())
parseUnknownDocumentation();
}
m_namespaceSupport.popContext();
}
void XsdSchemaParser::parseUnknown()
{
Q_ASSERT(isStartElement());
m_namespaceSupport.pushContext();
m_namespaceSupport.setPrefixes(namespaceDeclarations());
error(QtXmlPatterns::tr("%1 element is not allowed in this context.").arg(formatElement(name().toString())));
while (!atEnd()) {
readNext();
if (isEndElement())
break;
if (isStartElement())
parseUnknown();
}
m_namespaceSupport.popContext();
}
bool XsdSchemaParser::parseMinMaxConstraint(const XsdParticle::Ptr &particle, const char *elementName)
{
if (hasAttribute(QString::fromLatin1("minOccurs"))) {
const QString value = readAttribute(QString::fromLatin1("minOccurs"));
DerivedInteger<TypeNonNegativeInteger>::Ptr integer = DerivedInteger<TypeNonNegativeInteger>::fromLexical(m_namePool, value);
if (integer->hasError()) {
attributeContentError("minOccurs", elementName, value, BuiltinTypes::xsNonNegativeInteger);
return false;
} else {
particle->setMinimumOccurs(integer->as< DerivedInteger<TypeNonNegativeInteger> >()->storedValue());
}
} else {
particle->setMinimumOccurs(1);
}
if (hasAttribute(QString::fromLatin1("maxOccurs"))) {
const QString value = readAttribute(QString::fromLatin1("maxOccurs"));
if (value == QString::fromLatin1("unbounded")) {
particle->setMaximumOccursUnbounded(true);
} else {
particle->setMaximumOccursUnbounded(false);
DerivedInteger<TypeNonNegativeInteger>::Ptr integer = DerivedInteger<TypeNonNegativeInteger>::fromLexical(m_namePool, value);
if (integer->hasError()) {
attributeContentError("maxOccurs", elementName, value, BuiltinTypes::xsNonNegativeInteger);
return false;
} else {
particle->setMaximumOccurs(integer->as< DerivedInteger<TypeNonNegativeInteger> >()->storedValue());
}
}
} else {
particle->setMaximumOccursUnbounded(false);
particle->setMaximumOccurs(1);
}
if (!particle->maximumOccursUnbounded()) {
if (particle->maximumOccurs() < particle->minimumOccurs()) {
error(QtXmlPatterns::tr("%1 attribute of %2 element has larger value than %3 attribute.")
.arg(formatAttribute("minOccurs"))
.arg(formatElement(elementName))
.arg(formatAttribute("maxOccurs")));
return false;
}
}
return true;
}
QSourceLocation XsdSchemaParser::currentSourceLocation() const
{
QSourceLocation location;
location.setLine(lineNumber());
location.setColumn(columnNumber());
location.setUri(m_documentURI);
return location;
}
void XsdSchemaParser::convertName(const QString &qualifiedName, NamespaceSupport::NameType type, QXmlName &name)
{
bool result = m_namespaceSupport.processName(qualifiedName, type, name);
if (!result) {
error(QtXmlPatterns::tr("Prefix of qualified name %1 is not defined.").arg(formatKeyword(qualifiedName)));
}
}
QString XsdSchemaParser::readNameAttribute(const char *elementName)
{
const QString value = readAttribute(QString::fromLatin1("name")).simplified();
if (!QXmlUtils::isNCName(value)) {
attributeContentError("name", elementName, value, BuiltinTypes::xsNCName);
return QString();
} else {
return value;
}
}
QString XsdSchemaParser::readQNameAttribute(const QString &typeAttribute, const char *elementName)
{
const QString value = readAttribute(typeAttribute).simplified();
if (!XPathHelper::isQName(value)) {
attributeContentError(typeAttribute.toLatin1(), elementName, value, BuiltinTypes::xsQName);
return QString();
} else {
return value;
}
}
QString XsdSchemaParser::readNamespaceAttribute(const QString &attributeName, const char *elementName)
{
const QString value = readAttribute(attributeName);
if (value.isEmpty()) {
attributeContentError(attributeName.toLatin1(), elementName, value, BuiltinTypes::xsAnyURI);
return QString();
}
return value;
}
SchemaType::DerivationConstraints XsdSchemaParser::readDerivationConstraintAttribute(const SchemaType::DerivationConstraints &allowedConstraints, const char *elementName)
{
// first convert the flags into strings for easier comparison
QSet<QString> allowedContent;
if (allowedConstraints & SchemaType::RestrictionConstraint)
allowedContent.insert(QString::fromLatin1("restriction"));
if (allowedConstraints & SchemaType::ExtensionConstraint)
allowedContent.insert(QString::fromLatin1("extension"));
if (allowedConstraints & SchemaType::ListConstraint)
allowedContent.insert(QString::fromLatin1("list"));
if (allowedConstraints & SchemaType::UnionConstraint)
allowedContent.insert(QString::fromLatin1("union"));
// read content from the attribute if available, otherwise use the default definitions from the schema tag
QString content;
if (hasAttribute(QString::fromLatin1("final"))) {
content = readAttribute(QString::fromLatin1("final"));
// split string into list to validate the content of the attribute
const QStringList values = content.split(QLatin1Char(' '), Qt::SkipEmptyParts);
for (int i = 0; i < values.count(); i++) {
const QString value = values.at(i);
if (!allowedContent.contains(value) && (value != QString::fromLatin1("#all"))) {
attributeContentError("final", elementName, value);
return SchemaType::DerivationConstraints();
}
if ((value == QString::fromLatin1("#all")) && values.count() != 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must either contain %3 or the other values.")
.arg(formatAttribute("final"))
.arg(formatElement(elementName))
.arg(formatData("#all")));
return SchemaType::DerivationConstraints();
}
}
} else {
// content of the default value has been validated in parseSchema already
content = m_finalDefault;
}
const auto &contentList = content.split(QLatin1Char(' '), Qt::SkipEmptyParts);
QSet<QString> contentSet(contentList.cbegin(), contentList.cend());
// if the '#all' tag is defined, we return all allowed values
if (contentSet.contains(QString::fromLatin1("#all"))) {
return allowedConstraints;
} else { // return the values from content set that intersects with the allowed values
contentSet.intersect(allowedContent);
SchemaType::DerivationConstraints constraints;
if (contentSet.contains(QString::fromLatin1("restriction")))
constraints |= SchemaType::RestrictionConstraint;
if (contentSet.contains(QString::fromLatin1("extension")))
constraints |= SchemaType::ExtensionConstraint;
if (contentSet.contains(QString::fromLatin1("list")))
constraints |= SchemaType::ListConstraint;
if (contentSet.contains(QString::fromLatin1("union")))
constraints |= SchemaType::UnionConstraint;
return constraints;
}
}
NamedSchemaComponent::BlockingConstraints XsdSchemaParser::readBlockingConstraintAttribute(const NamedSchemaComponent::BlockingConstraints &allowedConstraints, const char *elementName)
{
// first convert the flags into strings for easier comparison
QSet<QString> allowedContent;
if (allowedConstraints & NamedSchemaComponent::RestrictionConstraint)
allowedContent.insert(QString::fromLatin1("restriction"));
if (allowedConstraints & NamedSchemaComponent::ExtensionConstraint)
allowedContent.insert(QString::fromLatin1("extension"));
if (allowedConstraints & NamedSchemaComponent::SubstitutionConstraint)
allowedContent.insert(QString::fromLatin1("substitution"));
// read content from the attribute if available, otherwise use the default definitions from the schema tag
QString content;
if (hasAttribute(QString::fromLatin1("block"))) {
content = readAttribute(QString::fromLatin1("block"));
// split string into list to validate the content of the attribute
const QStringList values = content.split(QLatin1Char(' '), Qt::SkipEmptyParts);
for (int i = 0; i < values.count(); i++) {
const QString value = values.at(i);
if (!allowedContent.contains(value) && (value != QString::fromLatin1("#all"))) {
attributeContentError("block", elementName, value);
return NamedSchemaComponent::BlockingConstraints();
}
if ((value == QString::fromLatin1("#all")) && values.count() != 1) {
error(QtXmlPatterns::tr("%1 attribute of %2 element must either contain %3 or the other values.")
.arg(formatAttribute("block"))
.arg(formatElement(elementName))
.arg(formatData("#all")));
return NamedSchemaComponent::BlockingConstraints();
}
}
} else {
// content of the default value has been validated in parseSchema already
content = m_blockDefault;
}
const auto &contentList = content.split(QLatin1Char(' '), Qt::SkipEmptyParts);
QSet<QString> contentSet(contentList.cbegin(), contentList.cend());
// if the '#all' tag is defined, we return all allowed values
if (contentSet.contains(QString::fromLatin1("#all"))) {
return allowedConstraints;
} else { // return the values from content set that intersects with the allowed values
contentSet.intersect(allowedContent);
NamedSchemaComponent::BlockingConstraints constraints;
if (contentSet.contains(QString::fromLatin1("restriction")))
constraints |= NamedSchemaComponent::RestrictionConstraint;
if (contentSet.contains(QString::fromLatin1("extension")))
constraints |= NamedSchemaComponent::ExtensionConstraint;
if (contentSet.contains(QString::fromLatin1("substitution")))
constraints |= NamedSchemaComponent::SubstitutionConstraint;
return constraints;
}
}
XsdXPathExpression::Ptr XsdSchemaParser::readXPathExpression(const char *elementName)
{
const XsdXPathExpression::Ptr expression(new XsdXPathExpression());
const QList<QXmlName> namespaceBindings = m_namespaceSupport.namespaceBindings();
QXmlName emptyName;
for (int i = 0; i < namespaceBindings.count(); ++i) {
if (namespaceBindings.at(i).prefix() == StandardPrefixes::empty)
emptyName = namespaceBindings.at(i);
}
expression->setNamespaceBindings(namespaceBindings);
QString xpathDefaultNamespace;
if (hasAttribute(QString::fromLatin1("xpathDefaultNamespace"))) {
xpathDefaultNamespace = readAttribute(QString::fromLatin1("xpathDefaultNamespace"));
if (xpathDefaultNamespace != QString::fromLatin1("##defaultNamespace") &&
xpathDefaultNamespace != QString::fromLatin1("##targetNamespace") &&
xpathDefaultNamespace != QString::fromLatin1("##local")) {
if (!isValidUri(xpathDefaultNamespace)) {
attributeContentError("xpathDefaultNamespace", elementName, xpathDefaultNamespace, BuiltinTypes::xsAnyURI);
return expression;
}
}
} else {
xpathDefaultNamespace = m_xpathDefaultNamespace;
}
AnyURI::Ptr namespaceURI;
if (xpathDefaultNamespace == QString::fromLatin1("##defaultNamespace")) {
if (!emptyName.isNull())
namespaceURI = AnyURI::fromLexical(m_namePool->stringForNamespace(emptyName.namespaceURI()));
} else if (xpathDefaultNamespace == QString::fromLatin1("##targetNamespace")) {
if (!m_targetNamespace.isEmpty())
namespaceURI = AnyURI::fromLexical(m_targetNamespace);
} else if (xpathDefaultNamespace == QString::fromLatin1("##local")) {
// it is absent
} else {
namespaceURI = AnyURI::fromLexical(xpathDefaultNamespace);
}
if (namespaceURI) {
if (namespaceURI->hasError()) {
attributeContentError("xpathDefaultNamespace", elementName, xpathDefaultNamespace, BuiltinTypes::xsAnyURI);
return expression;
}
expression->setDefaultNamespace(namespaceURI);
}
//TODO: read the base uri if qmaintaining reader support it
return expression;
}
QString XsdSchemaParser::readXPathAttribute(const QString &attributeName, XPathType type, const char *elementName)
{
const QString value = readAttribute(attributeName);
if (value.isEmpty() || value.startsWith(QLatin1Char('/'))) {
attributeContentError(attributeName.toLatin1(), elementName, value);
return QString();
}
QXmlNamePool namePool(m_namePool.data());
QXmlQuery::QueryLanguage language = QXmlQuery::XPath20;
switch (type) {
case XPath20: language = QXmlQuery::XPath20; break;
case XPathSelector: language = QXmlQuery::XmlSchema11IdentityConstraintSelector; break;
case XPathField: language = QXmlQuery::XmlSchema11IdentityConstraintField; break;
};
QXmlQuery query(language, namePool);
QXmlQueryPrivate *queryPrivate = query.d;
const QList<QXmlName> namespaceBindings = m_namespaceSupport.namespaceBindings();
for (int i = 0; i < namespaceBindings.count(); ++i) {
if (namespaceBindings.at(i).prefix() != StandardPrefixes::empty)
queryPrivate->addAdditionalNamespaceBinding(namespaceBindings.at(i));
}
query.setQuery(value, m_documentURI);
if (!query.isValid()) {
attributeContentError(attributeName.toLatin1(), elementName, value);
return QString();
}
return value;
}
void XsdSchemaParser::validateIdAttribute(const char *elementName)
{
if (hasAttribute(QString::fromLatin1("id"))) {
const QString value = readAttribute(QString::fromLatin1("id"));
DerivedString<TypeID>::Ptr id = DerivedString<TypeID>::fromLexical(m_namePool, value);
if (id->hasError()) {
attributeContentError("id", elementName, value, BuiltinTypes::xsID);
} else {
if (m_idCache->hasId(value)) {
error(QtXmlPatterns::tr("Component with ID %1 has been defined previously.").arg(formatData(value)));
} else {
m_idCache->addId(value);
}
}
}
}
bool XsdSchemaParser::isSchemaTag(XsdSchemaToken::NodeName tag, XsdSchemaToken::NodeName token, XsdSchemaToken::NodeName namespaceToken) const
{
return ((tag == token) && (namespaceToken == XsdSchemaToken::XML_NS_SCHEMA_URI));
}
void XsdSchemaParser::addElement(const XsdElement::Ptr &element)
{
const QXmlName objectName = element->name(m_namePool);
if (m_schema->element(objectName)) {
error(QtXmlPatterns::tr("Element %1 already defined.").arg(formatElement(m_namePool->displayName(objectName))));
} else {
m_schema->addElement(element);
m_componentLocationHash.insert(element, currentSourceLocation());
}
}
void XsdSchemaParser::addAttribute(const XsdAttribute::Ptr &attribute)
{
const QXmlName objectName = attribute->name(m_namePool);
if (m_schema->attribute(objectName)) {
error(QtXmlPatterns::tr("Attribute %1 already defined.").arg(formatAttribute(m_namePool->displayName(objectName))));
} else {
m_schema->addAttribute(attribute);
m_componentLocationHash.insert(attribute, currentSourceLocation());
}
}
void XsdSchemaParser::addType(const SchemaType::Ptr &type)
{
// we don't import redefinitions of builtin types, that just causes problems
if (m_builtinTypeNames.contains(type->name(m_namePool)))
return;
const QXmlName objectName = type->name(m_namePool);
if (m_schema->type(objectName)) {
error(QtXmlPatterns::tr("Type %1 already defined.").arg(formatType(m_namePool, objectName)));
} else {
m_schema->addType(type);
if (type->isSimpleType())
m_componentLocationHash.insert(XsdSimpleType::Ptr(type), currentSourceLocation());
else
m_componentLocationHash.insert(XsdComplexType::Ptr(type), currentSourceLocation());
}
}
void XsdSchemaParser::addAnonymousType(const SchemaType::Ptr &type)
{
m_schema->addAnonymousType(type);
if (type->isSimpleType())
m_componentLocationHash.insert(XsdSimpleType::Ptr(type), currentSourceLocation());
else
m_componentLocationHash.insert(XsdComplexType::Ptr(type), currentSourceLocation());
}
void XsdSchemaParser::addAttributeGroup(const XsdAttributeGroup::Ptr &group)
{
const QXmlName objectName = group->name(m_namePool);
if (m_schema->attributeGroup(objectName)) {
error(QtXmlPatterns::tr("Attribute group %1 already defined.").arg(formatKeyword(m_namePool, objectName)));
} else {
m_schema->addAttributeGroup(group);
m_componentLocationHash.insert(group, currentSourceLocation());
}
}
void XsdSchemaParser::addElementGroup(const XsdModelGroup::Ptr &group)
{
const QXmlName objectName = group->name(m_namePool);
if (m_schema->elementGroup(objectName)) {
error(QtXmlPatterns::tr("Element group %1 already defined.").arg(formatKeyword(m_namePool, objectName)));
} else {
m_schema->addElementGroup(group);
m_componentLocationHash.insert(group, currentSourceLocation());
}
}
void XsdSchemaParser::addNotation(const XsdNotation::Ptr &notation)
{
const QXmlName objectName = notation->name(m_namePool);
if (m_schema->notation(objectName)) {
error(QtXmlPatterns::tr("Notation %1 already defined.").arg(formatKeyword(m_namePool, objectName)));
} else {
m_schema->addNotation(notation);
m_componentLocationHash.insert(notation, currentSourceLocation());
}
}
void XsdSchemaParser::addIdentityConstraint(const XsdIdentityConstraint::Ptr &constraint)
{
const QXmlName objectName = constraint->name(m_namePool);
if (m_schema->identityConstraint(objectName)) {
error(QtXmlPatterns::tr("Identity constraint %1 already defined.").arg(formatKeyword(m_namePool, objectName)));
} else {
m_schema->addIdentityConstraint(constraint);
m_componentLocationHash.insert(constraint, currentSourceLocation());
}
}
void XsdSchemaParser::addFacet(const XsdFacet::Ptr &facet, XsdFacet::Hash &facets, const SchemaType::Ptr &type)
{
// @see http://www.w3.org/TR/xmlschema-2/#src-single-facet-value
if (facets.contains(facet->type())) {
error(QtXmlPatterns::tr("Duplicated facets in simple type %1.").arg(formatType(m_namePool, type)));
return;
}
facets.insert(facet->type(), facet);
}
QT_END_NAMESPACE