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/*
This file is part of KDE Schema Parser
Copyright (c) 2005 Tobias Koenig <tokoe@kde.org>
based on wsdlpull parser by Vivek Krishna
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "complextype.h"
#include <QDebug>
namespace XSD {
class ComplexType::Private
{
public:
Private() : mAnonymous(false), mConflicting(false), mBaseDerivation(Restriction) {}
QString mDocumentation;
Element::List mElements;
Attribute::List mAttributes;
Group::List mGroups;
AttributeGroup::List mAttributeGroups;
bool mAnonymous;
bool mConflicting;
Derivation mBaseDerivation;
QName mBaseTypeName;
QName mArrayType;
QList<QName> mDerivedTypes;
bool operator==(const ComplexType::Private &other) const
{
return mElements == other.mElements && mAttributes == other.mAttributes
&& mGroups == other.mGroups && mAttributeGroups == other.mAttributeGroups
&& mBaseDerivation == other.mBaseDerivation && mBaseTypeName == other.mBaseTypeName
&& mArrayType == other.mArrayType;
}
inline bool operator!=(const ComplexType::Private &other) const { return !(*this == other); }
};
ComplexType::ComplexType(const QString &nameSpace) : XSDType(nameSpace), d(new Private) {}
ComplexType::ComplexType() : XSDType(), d(new Private) {}
ComplexType::ComplexType(const ComplexType &other) : XSDType(other), d(new Private)
{
*d = *other.d;
}
ComplexType::ComplexType(ComplexType &&other) : XSDType(other), d(std::move(other.d)) {}
ComplexType::~ComplexType() = default;
ComplexType &ComplexType::operator=(const ComplexType &other)
{
if (this == &other) {
return *this;
}
XSDType::operator=(other);
*d = *other.d;
return *this;
}
ComplexType &ComplexType::operator=(ComplexType &&other) noexcept = default;
void ComplexType::setDocumentation(const QString &documentation)
{
d->mDocumentation = documentation;
}
QString ComplexType::documentation() const
{
return d->mDocumentation;
}
void ComplexType::setBaseTypeName(const QName &baseTypeName)
{
d->mBaseTypeName = baseTypeName;
}
QName ComplexType::baseTypeName() const
{
return d->mBaseTypeName;
}
void ComplexType::addDerivedType(const QName &derivedTypeName)
{
d->mDerivedTypes.append(derivedTypeName);
}
QList<QName> ComplexType::derivedTypes() const
{
return d->mDerivedTypes;
}
void ComplexType::setBaseDerivation(Derivation derivation)
{
d->mBaseDerivation = derivation;
}
ComplexType::Derivation ComplexType::baseDerivation() const
{
return d->mBaseDerivation;
}
bool ComplexType::isSimple() const
{
return false;
}
bool ComplexType::isPolymorphicBaseClass() const
{
return !isArray() && !d->mDerivedTypes.isEmpty() && d->mBaseTypeName.isEmpty();
}
void ComplexType::setArrayType(const QName &arrayType)
{
d->mArrayType = arrayType;
}
QName ComplexType::arrayType() const
{
return d->mArrayType;
}
bool ComplexType::isArray() const
{
return !arrayType().isEmpty();
}
void ComplexType::setAnonymous(bool anonymous)
{
d->mAnonymous = anonymous;
}
bool ComplexType::isAnonymous() const
{
return d->mAnonymous;
}
void ComplexType::setConflicting(bool conflicting)
{
d->mConflicting = conflicting;
}
bool ComplexType::isConflicting() const
{
return d->mConflicting;
}
void ComplexType::setElements(const Element::List &elements)
{
d->mElements = elements;
}
Element::List ComplexType::elements() const
{
return d->mElements;
}
void ComplexType::setGroups(const Group::List &groups)
{
d->mGroups = groups;
}
void ComplexType::addGroup(const Group &group)
{
d->mGroups.append(group);
}
Group::List ComplexType::groups() const
{
return d->mGroups;
}
void ComplexType::setAttributes(const Attribute::List &attributes)
{
d->mAttributes = attributes;
}
Attribute::List ComplexType::attributes() const
{
return d->mAttributes;
}
void ComplexType::addAttributeGroups(const AttributeGroup &attributeGroups)
{
d->mAttributeGroups.append(attributeGroups);
}
void ComplexType::setAttributeGroups(const AttributeGroup::List &attributeGroups)
{
d->mAttributeGroups = attributeGroups;
}
AttributeGroup::List ComplexType::attributeGroups() const
{
return d->mAttributeGroups;
}
void ComplexType::addAttribute(const Attribute &attribute)
{
d->mAttributes.append(attribute);
}
Attribute ComplexType::attribute(const QName &attrName) const
{
Q_FOREACH (const Attribute &attr, d->mAttributes) {
if (attr.qualifiedName() == attrName) {
return attr;
}
}
return Attribute();
}
void ComplexType::addElement(const Element &element)
{
d->mElements.append(element);
}
bool ComplexType::isEmpty() const
{
return d->mAttributeGroups.isEmpty() && d->mGroups.isEmpty() && d->mAttributes.isEmpty()
&& d->mElements.isEmpty() && d->mBaseTypeName.isEmpty() && d->mArrayType.isEmpty();
}
bool ComplexType::operator==(const ComplexType &other) const
{
return XSDType::operator==(other) && *d == *other.d;
}
ComplexType ComplexTypeList::complexType(const QName &qualifiedName) const
{
// qDebug() << "looking for" << typeName << "ns=" << typeName.nameSpace();
for (const ComplexType &type : std::as_const(*this)) {
// qDebug() << type.nameSpace() << "qualifiedName=" << type.qualifiedName();
if (qualifiedName == type.qualifiedName()) {
return type;
}
}
// qDebug() << "Complex type" << qualifiedName << "not found";
return ComplexType();
}
ComplexTypeList::iterator ComplexTypeList::findComplexType(const QName &qualifiedName)
{
for (iterator it = begin(); it != end(); ++it)
if ((*it).qualifiedName() == qualifiedName) {
return it;
}
return end();
}
} // namespace XSD
QDebug operator<<(QDebug dbg, const XSD::ComplexType &type)
{
dbg << type.qualifiedName();
// dbg << type.attributes();
return dbg;
}
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