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However, instead of using a separate model to hold these address types, we use one database table to hold the example data and another to hold the address types. In this way, we store all the information in the same place. \section1 Window Class Definition The class provides a constructor, a slot to keep the buttons up to date, and a private function to set up the model: \snippet examples/sql/sqlwidgetmapper/window.h Window definition In addition to the QDataWidgetMapper object and the controls used to make up the user interface, we use a QStandardItemModel to hold our data and a QStringListModel to hold information about the types of address that can be applied to each person's data. \section1 Window Class Implementation The first act performed by the \c Window class constructor is to set up the model used to hold the example data. Since this is a key part of the example, we will look at this first. The model is initialized in the window's \c{setupModel()} function. Here, we create a SQLite database containing a "person" table with primary key, name, address and type fields. \snippet examples/sql/sqlwidgetmapper/window.cpp Set up the main table On each row of the table, we insert default values for these fields, including values for the address types that correspond to the address types are stored in a separate table. \image widgetmapper-sql-mapping-table.png We create an "addresstype" table containing the identifiers used in the "person" table and the corresponding strings: \snippet examples/sql/sqlwidgetmapper/window.cpp Set up the address type table The "typeid" field in the "person" table is related to the contents of the "addresstype" table via a relation in a QSqlRelationalTableModel. This kind of model performs all the necessary work to store the data in a database and also allows any relations to be used as models in their own right. In this case, we have defined a relation for the "typeid" field in the "person" table that relates it to the "id" field in the "addresstype" table and which causes the contents of the "description" field to be used wherever the "typeid" is presented to the user. (See the QSqlRelationalTableModel::setRelation() documentation for details.) \image widgetmapper-sql-mapping.png The constructor of the \c Window class can be explained in three parts. In the first part, we set up the model used to hold the data, then we set up the widgets used for the user interface: \snippet examples/sql/sqlwidgetmapper/window.cpp Set up widgets We obtain a model for the combo box from the main model, based on the relation we set up for the "typeid" field. The call to the combo box's \l{QComboBox::}{setModelColumn()} selects the field in the field in the model to display. Note that this approach is similar to the one used in the \l{Combo Widget Mapper Example} in that we set up a model for the combo box. However, in this case, we obtain a model based on a relation in the QSqlRelationalTableModel rather than create a separate one. Next, we set up the widget mapper, relating each input widget to a field in the model: \snippet examples/sql/sqlwidgetmapper/window.cpp Set up the mapper For the combo box, we already know the index of the field in the model from the \c{setupModel()} function. We use a QSqlRelationalDelegate as a proxy between the mapper and the input widgets to match up the "typeid" values in the model with those in the combo box's model and populate the combo box with descriptions rather than integer values. As a result, the user is able to select an item from the combo box, and the associated value is written back to the model. The rest of the constructor is very similar to that of the \l{Simple Widget Mapper Example}: \snippet examples/sql/sqlwidgetmapper/window.cpp Set up connections and layouts We show the implementation of the \c{updateButtons()} slot for completeness: \snippet examples/sql/sqlwidgetmapper/window.cpp Slot for updating the buttons \omit \section1 Delegate Class Definition and Implementation The delegate we use to mediate interaction between the widget mapper and the input widgets is a small QItemDelegate subclass: \snippet examples/sql/sqlwidgetmapper/delegate.h Delegate class definition This provides implementations of the two standard functions used to pass data between editor widgets and the model (see the \l{Delegate Classes} documentation for a more general description of these functions). Since we only provide an empty implementation of the constructor, we concentrate on the other two functions. The \l{QItemDelegate::}{setEditorData()} implementation takes the data referred to by the model index supplied and processes it according to the presence of a \c currentIndex property in the editor widget: \snippet examples/sql/sqlwidgetmapper/delegate.cpp setEditorData implementation If, like QComboBox, the editor widget has this property, it is set using the value from the model. Since we are passing around QVariant values, the strings stored in the model are automatically converted to the integer values needed for the \c currentIndex property. As a result, instead of showing "0", "1" or "2" in the combo box, one of its predefined set of items is shown. We call QItemDelegate::setEditorData() for widgets without the \c currentIndex property. The \l{QItemDelegate::}{setModelData()} implementation performs the reverse process, taking the value stored in the widget's \c currentIndex property and storing it back in the model: \snippet examples/sql/sqlwidgetmapper/delegate.cpp setModelData implementation \endomit \section1 Summary and Further Reading The use of a separate model for the combo box and a special delegate for the widget mapper allows us to present a menu of choices to the user. Although the choices are stored in the same database as the user's data, they are held in a separate table. Using this approach, we can reconstructed complete records at a later time while using database features appropriately. If SQL models are not being used, it is still possible to use more than one model to present choices to the user. This is covered by the \l{Combo Widget Mapper Example}. */