/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtXmlPatterns module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists purely as an // implementation detail. This header file may change from version to // version without notice, or even be removed. // // We mean it. #ifndef Patternist_Item_H #define Patternist_Item_H #include #include #include #include #include #include /** * @file * @short Due to strong interdependencies, this file contains the definitions for * the classes Item, QXmlNodeModelIndex, QAbstractXmlNodeModel and AtomicValue. The implementations are * in their respective source files. */ /** * @class QSharedData * @short Qt's base class for reference counting. */ QT_BEGIN_NAMESPACE template class QList; template class QVector; template class QAbstractXmlForwardIterator; class QSourceLocation; class QAbstractXmlReceiver; namespace QPatternist { class DynamicContext; class Item; class ItemType; class QObjectNodeModel; template class EmptyIterator; template class ListIterator; /** * @short Base class for all classes representing atomic values. * * Instantiating AtomicValues sub classes from a value of somekind, * for a certain type is done in three different ways: * * - The static factory fromLexical which available in most classes. This * function attempts to create a value from a QString that is considered * a lexical representation of the value. Thus, this function performs validation, takes * care of whitespace facets, and everything else related to instantiating a value from * a lexical representation. * - The static factory function fromValue. This function exists for * values where a C++ type exists which corresponds to the type's value space. * - By using instances available in CommonValues. This is the preferred method * since it uses existing singleton instances and thus saves memory. CommonValues * should be used whenever possible, it can be thought as a collection of constant values. * * For types that does not distinguish the value space and lexical space, such as xs:string, * only the fromValue() function exist, and fromLexical() is omitted. * * @ingroup Patternist_xdm * @author Frans Englich */ class Q_AUTOTEST_EXPORT AtomicValue : public QSharedData, public CppCastingHelper { public: virtual ~AtomicValue(); /** * A smart pointer wrapping AtomicValue instances. */ typedef QExplicitlySharedDataPointer Ptr; /** * A list if smart pointers wrapping AtomicValue instances. */ typedef QList List; /** * Determines whether this atomic value has an error. This is used * for implementing casting. * * @returns always @c false */ virtual bool hasError() const; /** * Always fails by issuing the type error ReportContext::FORG0006. Sub-classes * whose represented type do allow EBV to be extracted from, must thus * re-implement this function. */ virtual bool evaluateEBV(const QExplicitlySharedDataPointer &context) const; virtual QString stringValue() const = 0; virtual ItemType::Ptr type() const = 0; /** * Converts @p value to a QVariant. */ static QVariant toQt(const AtomicValue *const value); static inline QVariant toQt(const AtomicValue::Ptr &value) { return toQt(value.data()); } static Item toXDM(const QVariant &value); static ItemType::Ptr qtToXDMType(const QXmlItem &item); protected: inline AtomicValue() { } }; /** * @short Represents an item in the XPath 2.0 Data Model. * * There exists two types of items: nodes and atomic values. * * The XQuery 1.0 and XPath 2.0 Data Model and XML Path Language (XPath) 2.0 specification * makes a very strong distinction between a sequence of items and an atomized sequence. * * @ingroup Patternist_xdm * @author Frans Englich */ class Item { friend class QT_PREPEND_NAMESPACE(QXmlItem); public: /** * A smart pointer wrapping an Item instance. */ typedef QAbstractXmlForwardIterator Iterator; /** * A list of Item instances, each wrapped in a smart pointer. */ typedef QList List; /** * A vector of Item instances, each wrapped in a smart pointer. */ typedef QVector Vector; typedef QPatternist::SingletonIterator SingletonIterator; typedef QPatternist::EmptyIterator EmptyIterator; /** * Default constructor. */ inline Item() { reset(); } inline Item(const QXmlNodeModelIndex &n) : node(n.m_storage) { } inline Item(const Item &other) : node(other.node) { Q_STATIC_ASSERT_X(sizeof(QXmlNodeModelIndex) >= sizeof(AtomicValue), "Since we're only copying the node member, it must be the largest."); if(isAtomicValue()) atomicValue->ref.ref(); } inline Item(const AtomicValue::Ptr &a) { reset(); if(a) { atomicValue = a.data(); atomicValue->ref.ref(); /* Signal that we're housing an atomic value. */ node.model = reinterpret_cast(~0); } } inline Item(const AtomicValue *const a) { /* Note, the implementation is a copy of the constructor above. */ reset(); if(a) { atomicValue = a; atomicValue->ref.ref(); /* Signal that we're housing an atomic value. */ node.model = reinterpret_cast(~0); } } inline ~Item() { if(isAtomicValue() && !atomicValue->ref.deref()) delete atomicValue; } inline Item &operator=(const Item &other) { Q_ASSERT_X(sizeof(QXmlNodeModelIndex) >= sizeof(AtomicValue *), Q_FUNC_INFO, "If this doesn't hold, we won't copy all data."); if(other.isAtomicValue()) other.atomicValue->ref.ref(); if(isAtomicValue()) { if(!atomicValue->ref.deref()) delete atomicValue; } node = other.node; return *this; } template inline TCastTarget *as() const { #if defined(Patternist_DEBUG) && !defined(Q_CC_XLC) /* At least on aix-xlc-64, the compiler cries when it sees dynamic_cast. */ Q_ASSERT_X(atomicValue == 0 || dynamic_cast(atomicValue), Q_FUNC_INFO, "The cast is invalid. This class does not inherit the cast target."); #endif return const_cast(static_cast(atomicValue)); } /** * @short Returns the string value of this Item. * * In the case of a node, it is the node value corresponding to * the particular node type. For atomic values, it is equivalent * to the value cast as xs:string. * * Conceptually, this functions corresponds to the dm:string-value accessor. * * @see XQuery 1.0 and * XPath 2.0 Data Model, 5.13 string-value Accessor * @returns the string value. */ inline QString stringValue() const { if(isAtomicValue()) return atomicValue->stringValue(); else return asNode().stringValue(); } /** * @short Returns the typed value of this item. * * Conceptually, this functions corresponds to the dm:typed-value accessor. Here are * examples of what the typed value of an Item is: * * - The typed value of an atomic value is always the atomic value itself. * - A comment node has always a typed value of type @c xs:string * - For attribute and element nodes, the typed value can be arbitrary. For example, an * element can have a sequence of @c xs:dateTime instances. * * @returns the typed value of this item * @see XQuery 1.0 and * XPath 2.0 Data Model, 5.15 typed-value Accessor */ Item::Iterator::Ptr sequencedTypedValue() const; /** * @short Determines whether this item is an atomic value, or a node. * * If this Item is @c null, @c false is returned. * * @see isNode() * @returns @c true if it is an atomic value, otherwise @c false. */ inline bool isAtomicValue() const { /* Setting node.model to ~0, signals that it's an atomic value. */ return node.model == reinterpret_cast(~0); } /** * @short Determines whether this item is an atomic value, or a node. * * If this Item is @c null, false is returned. * * @see isAtomicValue() * @returns @c true if this item is a node, otherwise @c false. */ inline bool isNode() const { //return !isAtomicValue(); return node.model && node.model != reinterpret_cast(~0); } /** * @short Returns the ItemType this Item is of. * * For example, if this Item is an XML node, more specifically a text node, * text() is returned. That is, BuiltinTypes::text. However, if this * Item is an atomic value of type xs:long that is what's returned, * BuiltinTypes::xsLong. * * @returns the type of this Item. */ inline QExplicitlySharedDataPointer type() const { if(isAtomicValue()) return atomicValue->type(); else return asNode().type(); } inline const AtomicValue *asAtomicValue() const { Q_ASSERT(isAtomicValue()); return atomicValue; } inline const QXmlNodeModelIndex &asNode() const { Q_ASSERT_X(isNode() || isNull(), Q_FUNC_INFO, "This item isn't a valid QXmlNodeModelIndex."); Q_ASSERT_X(sizeof(QXmlNodeModelIndex) == sizeof(QPatternist::NodeIndexStorage), Q_FUNC_INFO, "If this doesn't hold, something is wrong."); return reinterpret_cast(node); } inline operator bool() const { return node.model; } inline bool isNull() const { return !node.model; } inline void reset() { node.reset(); } static inline Item fromPublic(const QXmlItem &i) { const Item it(i.m_node); if(it.isAtomicValue()) it.asAtomicValue()->ref.ref(); return it; } static inline QXmlItem toPublic(const Item &i) { return QXmlItem(i); } private: union { NodeIndexStorage node; const AtomicValue *atomicValue; }; }; template inline Item toItem(const QExplicitlySharedDataPointer atomicValue) { return Item(atomicValue.data()); } /** * This is an overload, provided for convenience. * @relates QXmlNodeModelIndex */ static inline QString formatData(const QXmlNodeModelIndex node) { return node.stringValue(); // This can be improved a lot. } } inline QXmlName QXmlNodeModelIndex::name() const { return m_storage.model->name(*this); } inline QXmlNodeModelIndex QXmlNodeModelIndex::root() const { return m_storage.model->root(*this); } inline QXmlNodeModelIndex::Iterator::Ptr QXmlNodeModelIndex::iterate(const QXmlNodeModelIndex::Axis axis) const { return m_storage.model->iterate(*this, axis); } inline QUrl QXmlNodeModelIndex::documentUri() const { return m_storage.model->documentUri(*this); } inline QUrl QXmlNodeModelIndex::baseUri() const { return m_storage.model->baseUri(*this); } inline QXmlNodeModelIndex::NodeKind QXmlNodeModelIndex::kind() const { return m_storage.model->kind(*this); } inline bool QXmlNodeModelIndex::isDeepEqual(const QXmlNodeModelIndex &other) const { return m_storage.model->isDeepEqual(*this, other); } inline QXmlNodeModelIndex::DocumentOrder QXmlNodeModelIndex::compareOrder(const QXmlNodeModelIndex &other) const { Q_ASSERT_X(model() == other.model(), Q_FUNC_INFO, "The API docs guarantees the two nodes are from the same model"); return m_storage.model->compareOrder(*this, other); } inline bool QXmlNodeModelIndex::is(const QXmlNodeModelIndex &other) const { return m_storage.model == other.m_storage.model && m_storage.data == other.m_storage.data && m_storage.additionalData == other.m_storage.additionalData; } inline void QXmlNodeModelIndex::sendNamespaces(QAbstractXmlReceiver *const receiver) const { m_storage.model->sendNamespaces(*this, receiver); } inline QVector QXmlNodeModelIndex::namespaceBindings() const { return m_storage.model->namespaceBindings(*this); } inline QXmlName::NamespaceCode QXmlNodeModelIndex::namespaceForPrefix(const QXmlName::PrefixCode prefix) const { return m_storage.model->namespaceForPrefix(*this, prefix); } inline QString QXmlNodeModelIndex::stringValue() const { return m_storage.model->stringValue(*this); } inline QPatternist::ItemType::Ptr QXmlNodeModelIndex::type() const { return m_storage.model->type(*this); } inline QExplicitlySharedDataPointer > QXmlNodeModelIndex::sequencedTypedValue() const { return m_storage.model->sequencedTypedValue(*this); } inline QXmlItem::QXmlItem(const QPatternist::Item &i) : m_node(i.node) { if(isAtomicValue()) m_atomicValue->ref.ref(); } Q_DECLARE_TYPEINFO(QPatternist::Item::Iterator::Ptr, Q_MOVABLE_TYPE); Q_DECLARE_TYPEINFO(QPatternist::AtomicValue, Q_MOVABLE_TYPE); QT_END_NAMESPACE #endif