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diff --git a/doc/src/examples/qobjectxmlmodel.qdoc b/doc/src/examples/qobjectxmlmodel.qdoc new file mode 100644 index 0000000..ce1dab6 --- /dev/null +++ b/doc/src/examples/qobjectxmlmodel.qdoc @@ -0,0 +1,353 @@ +/**************************************************************************** +** +** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). +** Contact: Qt Software Information (qt-info@nokia.com) +** +** This file is part of the documentation of the Qt Toolkit. +** +** $QT_BEGIN_LICENSE:LGPL$ +** No Commercial Usage +** This file contains pre-release code and may not be distributed. +** You may use this file in accordance with the terms and conditions +** contained in the either Technology Preview License Agreement or the +** Beta Release License Agreement. +** +** GNU Lesser General Public License Usage +** Alternatively, this file may be used under the terms of the GNU Lesser +** General Public License version 2.1 as published by the Free Software +** Foundation and appearing in the file LICENSE.LGPL included in the +** packaging of this file. Please review the following information to +** ensure the GNU Lesser General Public License version 2.1 requirements +** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. +** +** In addition, as a special exception, Nokia gives you certain +** additional rights. These rights are described in the Nokia Qt LGPL +** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this +** package. +** +** GNU General Public License Usage +** Alternatively, this file may be used under the terms of the GNU +** General Public License version 3.0 as published by the Free Software +** Foundation and appearing in the file LICENSE.GPL included in the +** packaging of this file. Please review the following information to +** ensure the GNU General Public License version 3.0 requirements will be +** met: http://www.gnu.org/copyleft/gpl.html. +** +** If you are unsure which license is appropriate for your use, please +** contact the sales department at qt-sales@nokia.com. +** $QT_END_LICENSE$ +** +****************************************************************************/ + +/*! + \example xmlpatterns/qobjectxmlmodel + \title QObject XML Model Example + + This example shows how to use QtXmlPatterns to query QObject trees + by modeling the non-XML data structure of a QObject tree to look + like XML. + + \tableofcontents + + \section1 Introduction + + This example illustrates two important points about using XQuery to + query non-XML data modeled to look like XML. The first point is that + a custom node model class doesn't always have to actually build the + node model. Sometimes the node model can be an already existing data + structure, like the QObject tree used in this example. The second + point is to explain what is required to make non-XML data look like + XML. + + In this example, we want to model a QObject tree to look like + XML. That is easy to do because a QObject tree maps to the XML tree + structure in a staightforward way. Each QObject node is modeled as + an XML element node. However, when we want to add the QMetaObject tree + to the QObject tree node model, we are trying to add a second tree to + the node model. The QMetaObject tree exists \e{behind} the QObject + tree. Adding the QMetaObject tree to the node model changes the two + dimensional tree into a three dimensional tree. + + The query engine can only traverse two dimensional trees, because an + XML document is always a two dimensional tree. If we want to add the + QMetaObject tree to the node model, we have to somehow flatten it + into the the same plane as the QObject tree. This requires that the + node model class must build an auxiliary data structure and make it + part of the two dimensional QObject node model. How to do this is + explained in \l{Including The QMetaObject Tree}. + + \section2 The User Interface + + The UI for this example was created using Qt Designer: + + \image qobjectxmlmodel-example.png + + \section1 Code Walk-Through + + The strategy for this example is different from the strategy for the + \l{File System Example}{file system example}. In the file system + example, the node model class had to actually build a node model + because the non-XML data to be traversed was the computer's file + system, a structure stored on disk in a form that the query engine + couldn't use. The node model class had to build an analog of the + computer's file system in memory. + + For this example, the data structure to be traversed already exists + in memory in a usable form. It is the QObject tree of the example + application itself. All we need is the pointer to the root of the + QObject tree. + + \note When we add the QMetaObject tree to the node model, the node + model class will have to build an auxiliary data structure to move + the QMetaObject tree into the same plane as the QObject tree. This + is explained later in \l{Including The QMetaObject Tree}. + + \section2 The Custom Node Model Class: QObjextXmlModel + + The node model class for this example is QObjextXmlModel, which is + derived from QSimpleXmlNodeModel. QObjextXmlModel implements the + callback interface functions that don't have implementations in + QSimpleXmlNodeModel: + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.h 0 + + The node model class declares three data members: + + \target Three Data Members + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.h 2 + + The constructor sets \c m_baseURI to the QUrl constructed from the + \l{QCoreApplication::applicationFilePath()}{file path} of the + application executable. This is the value returned by + \l{QAbstractXmlNodeModel::documentUri()}{documentUri()}. The + constructor sets \c{m_root} to point to the QObject tree for the + example application. This is the node model that the query engine + will use. And the constructor calls a local function to build the + auxiliary data structure (\c{m_allMetaObjects}) for including the + QMetaObject tree in the node model. How this auxiliary data + structure is incorporated into the QObject node model is discussed + in \l{Including The QMetaObject Tree}. + + \section3 Accessing The Node Model + + Since the query engine knows nothing about QObject trees, it can + only access them by calling functions in the node model callback + interface. The query engine passes a QXmlNodeModelIndex to uniquely + identify a node in the node model. The QXmlNodeModelIndex is + constructed from a pointer to the QObject that represents the node. + \l{QAbstractXmlNodeModel::createIndex()}{createIndex()} creates the + QXmlNodeModelIndex, as in the local \c{root()} function, for example: + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 0 + + A QObject represents an element node in the node model, but we also + need to represent attribute nodes. For example, the class name of a + QObject is an attribute of the QObject, so it should be an attribute + node in the node model. A QObject's class name is obtained from the + QObject. (Actually, it is in the QMetaObject, which is obtained from + the QObject). This means that a single QObject logically represents + multiple nodes in the node model: the element node and potentially + many attribute nodes. + + To uniquely identify an attribute node, we need the pointer to the + QObject containing the attribute, and an additional value that + identifies the attribute in the QObject. For this \e{additional + data} value, we use \c{enum QObjectNodeType}: + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.h 3 + + Ignore the \c{MetaObjectXXX} values for now. They will be explained + in \l{Including The QMetaObject Tree}. Here we are interested in the + three node types for QObject nodes: \c{IsQObject}, which represents + the element node type for a QObject, and \c{QObjectProperty} and + \c{QObjectClassName}, which represent the attribute node types for + the attributes of a QObject. + + The \l{QAbstractXmlNodeModel::createIndex()}{createIndex()} + function called in the \c{root()} snippet above is the overload that + accepts a \c{void*} pointer and a second parameter, + \c{additionalData}, with default value 0 (\c{IsQObject}). Wherever + you see a call to \l{QAbstractXmlNodeModel::createIndex()} + {createIndex()} that only passes the QObject pointer, it is creating + the node index for a QObject element node. To create the node index + for the class name attribute, for example, the \l{QObject + attributes} {attributes()} function uses + \c{createIndex(object,QObjectClassName)}. + + \target QObject attributes + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 6 + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 8 + + \l{QObject attributes} {attributes()} is one of the callback + functions you have to implement in your custom node model class. It + returns a QVector of \l{QXmlNodeModelIndex} {node indexes} for all + the attribute nodes for QObject \c{n}. It calls + \l{QAbstractXmlNodeModel::createIndex()} {createIndex()} in two places. + Both calls use the QObject pointer from the current node \c{n} (the + element node), and just add a different value for the \e{additional data} + parameter. This makes sense because, in XML, the attributes of an + element are part of that element. + + \section3 Traversing The Node Model + + The query engine traverses the QObject tree by calling back to the + node model class's implementation of \l{QObject nextFromSimpleAxis} + {nextFromSimpleAxis()}. This function is the heart of the callback + interface, and it will probably be the most complex to implement in + your custom node model class. Below is a partial listing of the + implementation for this example. The full listing will be shown in + \l{Including The QMetaObject Tree}, where we discuss traversing the + QMetaObject tree. + + \target QObject nextFromSimpleAxis + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 2 + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 4 + + The main switch uses \c toNodeType(), which obtains the node + type from \l{QXmlNodeModelIndex::additionalData()}: + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 1 + + \c{case IsObject} case is the most interesting. It switches again on + the value of the \c{axis} parameter, which specifies the direction + the query engine wants to take from the current node. It is one of + the four enum values of \l{QAbstractXmlNodeModel::SimpleAxis}. The + \l{QAbstractXmlNodeModel::Parent} {Parent} and + \l{QAbstractXmlNodeModel::FirstChild} {FirstChild} cases reduce to + calls to QObject::parent() and QObject::children() + respectively. Note that a default constructed QXmlNodeModelIndex is + returned in the \l{QAbstractXmlNodeModel::Parent} {Parent} case if + the current node is the root, and in the + \l{QAbstractXmlNodeModel::FirstChild} {FirstChild} case if the + current node has no children. + + For the \l{QAbstractXmlNodeModel::NextSibling} {NextSibling} and + \l{QAbstractXmlNodeModel::PreviousSibling} {PreviousSibling} axes, + the helper function \c{qObjectSibling()} is called, with +1 to + traverse to the \l{QAbstractXmlNodeModel::NextSibling} {NextSibling} + and -1 to traverse to the + \l{QAbstractXmlNodeModel::PreviousSibling} {PreviousSibling}. + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 5 + + \c{qObjectSibling()} determines whether or not the node has any + siblings. It is called with \c{n}, the index of the current node. + If the current node is a child, then it has a parent with children + (the current node one of these). + So, we get the \l{QObject::parent()}{parent}, obtain the parent's + \l{QObject::children()} {child list}, find the current node in the + list, and construct the node index for the next or previous child + (sibling) and return it. + + \note In \l{QObject nextFromSimpleAxis} {nextFromSimpleAxis()}, the + special case of asking for the + \l{QAbstractXmlNodeModel::PreviousSibling} {PreviousSibling} of the + root node is discussed in \l{Including The QMetaObject Tree}. + + Traversing away from a \c{QObjectClassName} attribute node or a + \c{QObjectProperty} attribute node might seem a bit confusing at + first glance. The only move allowed from an attribute node is to the + \l{QAbstractXmlNodeModel::Parent} {Parent}, because attribute nodes + don't have children. But these two cases simply return the + \l{QXmlNodeModelIndex} {node index} of the current node. + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 7 + + Since \c n is the QXmlNodeModelIndex of the current node, all this + does is create another QXmlNodeModelIndex for the current node and + return it. This was explained above in \l{Accessing The Node Model}, + where we saw that each QObject in the node model actually represents + an element node and potentially many attribute nodes. Traversing to + the parent node of an attribute simply creates a node index for the + same QObject, but with an \e{additional data} value of 0 + (\c{IsQObject}). + + If we only wanted to traverse the QObject tree with XQuery, we could + just implement the rest of the virtual callback functions listed + earlier and we would be done. The implementations for the remaining + functions are straightforward. But if we also want to use XQuery to + traverse the QMetaObject tree, we must include the QMetaObject tree + in the custom node model. + + \section3 Including The QMetaObject Tree + + The \l{Meta-Object System} {metaobject system} not only enables Qt's + \l{Signals and Slots} {signals and slots}, it also provides type + information that is useful at run-time; e.g., getting and setting + properties without knowing the property names at compile time. Each + QObject has an associated QMetaObject tree which contains all this + useful type information. Given a QObject, its QMetaObject is + obtained with QObject::metaObject(). Then QMetaObject::superClass() + can be called repeatedly to get the QMetaObject for each class in the + class hierarchy for the original QObject. + + However, the QMetaObject hierarchy is a second tree in a plan that + exists logically behind the plane of the QObject tree. The QtXmlPatterns + query engine can only traverse a two dimensional node model that + represents an XML tree. If we want to include the QMetaObject in the + same node model that represents the QObject tree, we must find a way + to flatten the QMetaObject tree into the same plane as the QObject + tree. + + The node model class declares \l{All MetaObjects}{m_allMetaObjects} + as a vector of pointers to QMetaObject: + + \target All MetaObjects + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.h 1 + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.h 4 + + This vector gets populated by the QObjectXmlModel constructor by + calling the private allMetaObjects() function: + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 9 + + The first half of the function is an example of the standard code + pattern for using QtXmlPatterns to run an XQuery. First it creates an + instance of QXmlQuery. Then it \l{QXmlQuery::bindVariable()}{binds} + the XQuery variable \c{$root} to the root node of the of the node + model; i.e., the root of the QObject tree. Then it + \l{QXmlQuery::setQuery()} {sets the query} to be an XQuery that + returns all the QObjects in the node model. Finally, the query is + evaluated into a \l{QXmlResultItems} {result item list}. + + \note \l{QXmlQuery::bindVariable()} must be called before + \l{QXmlQuery::setQuery()}, because setting the query causes + QtXmlPatterns to \e compile the XQuery, which requires knowledge of + the variable bindings. + + The second half of the function traverses the \l{QXmlResultItems} + {result item list}, getting the QMetaObject hierarchy for each + QObject and appending it to \l{All MetaObjects} {m_allMetaObjects}, + if it isn't already there. But how do we include this vector of + pointers to QMetaObjects in the node model? The key insight is + shown in the full listing of \l{Full Listing of nextFromSimpleAxis} + {nextFromSimpleAxis()}, where we are interested now in the + \c{MetaObjectXXX} cases: + + \target Full Listing of nextFromSimpleAxis + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 2 + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 3 + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 4 + + But first, revisit the \c{PreviousSibling} case for the + \c{IsQObject} case: + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 10 + + When asking for the previous sibling of the root of the QObject + tree, it creates a node model index with a null QObject pointer and + an \c{additionalData} value of \c{MetaObjects}. This effectively + allows the query engine to jump from the QObject tree to the + QMetaObject tree. + + The query engine can jump from the QMetaObject tree back to the + QObject tree in the \c{NextSibling} case of case \c{MetaObjects}, + where the \c{root()} function is called: + + \snippet examples/xmlpatterns/qobjectxmlmodel/qobjectxmlmodel.cpp 11 + + Having jumped from the QObject tree to the QMetaObject tree, the + query engine will use the \c{MetaObject}, \c{MetaObjectClassName}, + and \c{MetaObjectSuperClass} cases, which are similar to the cases + for \c{IsQObject}, \c{QObjectProperty}, and \c{QObjectClassName}. +*/ |