/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Qt Software Information (qt-info@nokia.com) ** ** This file is part of the QtGui module 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. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qstyleditemdelegate.h" #ifndef QT_NO_ITEMVIEWS #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE class QStyledItemDelegatePrivate : public QObjectPrivate { Q_DECLARE_PUBLIC(QStyledItemDelegate) public: QStyledItemDelegatePrivate() : factory(0) { } static const QWidget *widget(const QStyleOptionViewItem &option) { if (const QStyleOptionViewItemV3 *v3 = qstyleoption_cast(&option)) return v3->widget; return 0; } const QItemEditorFactory *editorFactory() const { return factory ? factory : QItemEditorFactory::defaultFactory(); } void _q_commitDataAndCloseEditor(QWidget *editor) { Q_Q(QStyledItemDelegate); emit q->commitData(editor); emit q->closeEditor(editor, QAbstractItemDelegate::SubmitModelCache); } QItemEditorFactory *factory; }; /*! \class QStyledItemDelegate \brief The QStyledItemDelegate class provides display and editing facilities for data items from a model. \ingroup model-view \mainclass \since 4.4 When displaying data from models in Qt item views, e.g., a QTableView, the individual items are drawn by a delegate. Also, when an item is edited, it provides an editor widget, which is placed on top of the item view while editing takes place. QStyledItemDelegate is the default delegate for all Qt item views, and is installed upon them when they are created. The QStyledItemDelegate class is one of the \l{Model/View Classes} and is part of Qt's \l{Model/View Programming}{model/view framework}. The delegate allows the display and editing of items to be developed independently from the model and view. The data of items in models are assigned an \l{Qt::}{ItemDataRole}; each item can store a QVariant for each role. QStyledItemDelegate implements display and editing for the most common datatypes expected by users, including booleans, integers, and strings. The data will be drawn differently depending on which role they have in the model. The following table describes the roles and the data types the delegate can handle for each of them. It is often sufficient to ensure that the model returns appropriate data for each of the roles to determine the appearance of items in views. \table \header \o Role \o Accepted Types \omit \row \o \l Qt::AccessibleDescriptionRole \o QString \row \o \l Qt::AccessibleTextRole \o QString \endomit \row \o \l Qt::BackgroundRole \o QBrush \row \o \l Qt::BackgroundColorRole \o QColor (obsolete; use Qt::BackgroundRole instead) \row \o \l Qt::CheckStateRole \o Qt::CheckState \row \o \l Qt::DecorationRole \o QIcon and QColor \row \o \l Qt::DisplayRole \o QString and types with a string representation \row \o \l Qt::EditRole \o See QItemEditorFactory for details \row \o \l Qt::FontRole \o QFont \row \o \l Qt::SizeHintRole \o QSize \omit \row \o \l Qt::StatusTipRole \o \endomit \row \o \l Qt::TextAlignmentRole \o Qt::Alignment \row \o \l Qt::ForegroundRole \o QBrush \row \o \l Qt::TextColorRole \o QColor (obsolete; use Qt::ForegroundRole instead) \omit \row \o \l Qt::ToolTipRole \row \o \l Qt::WhatsThisRole \endomit \endtable Editors are created with a QItemEditorFactory; a default static instance provided by QItemEditorFactory is installed on all item delegates. You can set a custom factory using setItemEditorFactory() or set a new default factory with QItemEditorFactory::setDefaultFactory(). It is the data stored in the item model with the \l{Qt::}{EditRole} that is edited. See the QItemEditorFactory class for a more high-level introduction to item editor factories. The \l{Color Editor Factory Example}{Color Editor Factory} example shows how to create custom editors with a factory. \section1 Subclassing QStyledItemDelegate If the delegate does not support painting of the data types you need or you want to customize the drawing of items, you need to subclass QStyledItemDelegate, and reimplement paint() and possibly sizeHint(). The paint() function is called individually for each item, and with sizeHint(), you can specify the hint for each of them. When reimplementing paint(), one would typically handle the datatypes one would like to draw and use the superclass implementation for other types. The painting of check box indicators are performed by the current style. The style also specifies the size and the bounding rectangles in which to draw the data for the different data roles. The bounding rectangle of the item itself is also calculated by the style. When drawing already supported datatypes, it is therefore a good idea to ask the style for these bounding rectangles. The QStyle class description describes this in more detail. If you wish to change any of the bounding rectangles calculated by the style or the painting of check box indicators, you can subclass QStyle. Note, however, that the size of the items can also be affected by reimplementing sizeHint(). It is possible for a custom delegate to provide editors without the use of an editor item factory. In this case, the following virtual functions must be reimplemented: \list \o createEditor() returns the widget used to change data from the model and can be reimplemented to customize editing behavior. \o setEditorData() provides the widget with data to manipulate. \o updateEditorGeometry() ensures that the editor is displayed correctly with respect to the item view. \o setModelData() returns updated data to the model. \endlist The \l{Star Delegate Example}{Star Delegate} example creates editors by reimplementing these methods. \section1 QStyledItemDelegate vs. QItemDelegate Since Qt 4.4, there are two delegate classes: QItemDelegate and QStyledItemDelegate. However, the default delegate is QStyledItemDelegate. These two classes are independent alternatives to painting and providing editors for items in views. The difference between them is that QStyledItemDelegate uses the current style to paint its items. We therefore recommend using QStyledItemDelegate as the base class when implementing custom delegates or when working with Qt style sheets. The code required for either class should be equal unless the custom delegate needs to use the style for drawing. If you wish to customize the painting of item views, you should implement a custom style. Please see the QStyle class documentation for details. \sa {Delegate Classes}, QItemDelegate, QAbstractItemDelegate, QStyle, {Spin Box Delegate Example}, {Star Delegate Example}, {Color Editor Factory Example} */ /*! Constructs an item delegate with the given \a parent. */ QStyledItemDelegate::QStyledItemDelegate(QObject *parent) : QAbstractItemDelegate(*new QStyledItemDelegatePrivate(), parent) { } /*! Destroys the item delegate. */ QStyledItemDelegate::~QStyledItemDelegate() { } /*! This function returns the string that the delegate will use to display the Qt::DisplayRole of the model in \a locale. \a value is the value of the Qt::DisplayRole provided by the model. The default implementation uses the QLocale::toString to convert \a value into a QString. */ QString QStyledItemDelegate::displayText(const QVariant &value, const QLocale& locale) const { QString text; switch (value.type()) { case QVariant::Double: text = locale.toString(value.toDouble()); break; case QVariant::Int: case QVariant::LongLong: text = locale.toString(value.toLongLong()); break; case QVariant::UInt: case QVariant::ULongLong: text = locale.toString(value.toULongLong()); break; case QVariant::Date: text = locale.toString(value.toDate(), QLocale::ShortFormat); break; case QVariant::Time: text = locale.toString(value.toTime(), QLocale::ShortFormat); break; case QVariant::DateTime: text = locale.toString(value.toDateTime().date(), QLocale::ShortFormat); text += QLatin1Char(' '); text += locale.toString(value.toDateTime().time(), QLocale::ShortFormat); break; default: // convert new lines into line separators text = value.toString(); for (int i = 0; i < text.count(); ++i) { if (text.at(i) == QLatin1Char('\n')) text[i] = QChar::LineSeparator; } break; } return text; } /*! Initialize \a option with the values using the index \a index. This method is useful for subclasses when they need a QStyleOptionViewItem, but don't want to fill in all the information themselves. This function will check the version of the QStyleOptionViewItem and fill in the additional values for a QStyleOptionViewItemV2, QStyleOptionViewItemV3 and QStyleOptionViewItemV4. \sa QStyleOption::initFrom() */ void QStyledItemDelegate::initStyleOption(QStyleOptionViewItem *option, const QModelIndex &index) const { QVariant value = index.data(Qt::FontRole); if (value.isValid() && !value.isNull()) { option->font = qvariant_cast(value).resolve(option->font); option->fontMetrics = QFontMetrics(option->font); } value = index.data(Qt::TextAlignmentRole); if (value.isValid() && !value.isNull()) option->displayAlignment = (Qt::Alignment)value.toInt(); value = index.data(Qt::ForegroundRole); if (qVariantCanConvert(value)) option->palette.setBrush(QPalette::Text, qvariant_cast(value)); if (QStyleOptionViewItemV4 *v4 = qstyleoption_cast(option)) { v4->index = index; QVariant value = index.data(Qt::CheckStateRole); if (value.isValid() && !value.isNull()) { v4->features |= QStyleOptionViewItemV2::HasCheckIndicator; v4->checkState = static_cast(value.toInt()); } value = index.data(Qt::DecorationRole); if (value.isValid() && !value.isNull()) { v4->features |= QStyleOptionViewItemV2::HasDecoration; switch (value.type()) { case QVariant::Icon: { v4->icon = qvariant_cast(value); QIcon::Mode mode; if (!(option->state & QStyle::State_Enabled)) mode = QIcon::Disabled; else if (option->state & QStyle::State_Selected) mode = QIcon::Selected; else mode = QIcon::Normal; QIcon::State state = option->state & QStyle::State_Open ? QIcon::On : QIcon::Off; v4->decorationSize = v4->icon.actualSize(option->decorationSize, mode, state); break; } case QVariant::Color: { QPixmap pixmap(option->decorationSize); pixmap.fill(qvariant_cast(value)); v4->icon = QIcon(pixmap); break; } case QVariant::Image: { QImage image = qvariant_cast(value); v4->icon = QIcon(QPixmap::fromImage(image)); v4->decorationSize = image.size(); break; } case QVariant::Pixmap: { QPixmap pixmap = qvariant_cast(value); v4->icon = QIcon(pixmap); v4->decorationSize = pixmap.size(); break; } default: break; } } value = index.data(Qt::DisplayRole); if (value.isValid() && !value.isNull()) { v4->features |= QStyleOptionViewItemV2::HasDisplay; v4->text = displayText(value, v4->locale); } v4->backgroundBrush = qvariant_cast(index.data(Qt::BackgroundRole)); } } /*! Renders the delegate using the given \a painter and style \a option for the item specified by \a index. This function paints the item using the view's QStyle. When reimplementing paint in a subclass. Use the initStyleOption() to set up the \a option in the same way as the QStyledItemDelegate; the option will always be an instance of QStyleOptionViewItemV4. Please see its class description for information on its contents. Whenever possible, use the \a option while painting. Especially its \l{QStyleOption::}{rect} variable to decide where to draw and its \l{QStyleOption::}{state} to determine if it is enabled or selected. After painting, you should ensure that the painter is returned to its the state it was supplied in when this function was called. For example, it may be useful to call QPainter::save() before painting and QPainter::restore() afterwards. \sa QItemDelegate::paint(), QStyle::drawControl(), QStyle::CE_ItemViewItem */ void QStyledItemDelegate::paint(QPainter *painter, const QStyleOptionViewItem &option, const QModelIndex &index) const { Q_ASSERT(index.isValid()); QStyleOptionViewItemV4 opt = option; initStyleOption(&opt, index); const QWidget *widget = QStyledItemDelegatePrivate::widget(option); QStyle *style = widget ? widget->style() : QApplication::style(); style->drawControl(QStyle::CE_ItemViewItem, &opt, painter, widget); } /*! Returns the size needed by the delegate to display the item specified by \a index, taking into account the style information provided by \a option. This function uses the view's QStyle to determine the size of the item. \sa QStyle::sizeFromContents(), QStyle::CT_ItemViewItem */ QSize QStyledItemDelegate::sizeHint(const QStyleOptionViewItem &option, const QModelIndex &index) const { QVariant value = index.data(Qt::SizeHintRole); if (value.isValid()) return qvariant_cast(value); QStyleOptionViewItemV4 opt = option; initStyleOption(&opt, index); const QWidget *widget = QStyledItemDelegatePrivate::widget(option); QStyle *style = widget ? widget->style() : QApplication::style(); return style->sizeFromContents(QStyle::CT_ItemViewItem, &opt, QSize(), widget); } /*! Returns the widget used to edit the item specified by \a index for editing. The \a parent widget and style \a option are used to control how the editor widget appears. \sa QAbstractItemDelegate::createEditor() */ QWidget *QStyledItemDelegate::createEditor(QWidget *parent, const QStyleOptionViewItem &, const QModelIndex &index) const { Q_D(const QStyledItemDelegate); if (!index.isValid()) return 0; QVariant::Type t = static_cast(index.data(Qt::EditRole).userType()); return d->editorFactory()->createEditor(t, parent); } /*! Sets the data to be displayed and edited by the \a editor from the data model item specified by the model \a index. The default implementation stores the data in the \a editor widget's \l {Qt's Property System} {user property}. \sa QMetaProperty::isUser() */ void QStyledItemDelegate::setEditorData(QWidget *editor, const QModelIndex &index) const { #ifdef QT_NO_PROPERTIES Q_UNUSED(editor); Q_UNUSED(index); #else Q_D(const QStyledItemDelegate); QVariant v = index.data(Qt::EditRole); QByteArray n = editor->metaObject()->userProperty().name(); // ### Qt 5: remove // A work-around for missing "USER true" in qdatetimeedit.h for // QTimeEdit's time property and QDateEdit's date property. // It only triggers if the default user property "dateTime" is // reported for QTimeEdit and QDateEdit. if (n == "dateTime") { if (editor->inherits("QTimeEdit")) n = "time"; else if (editor->inherits("QDateEdit")) n = "date"; } // ### Qt 5: give QComboBox a USER property if (n.isEmpty() && editor->inherits("QComboBox")) n = d->editorFactory()->valuePropertyName(static_cast(v.userType())); if (!n.isEmpty()) { if (!v.isValid()) v = QVariant(editor->property(n).userType(), (const void *)0); editor->setProperty(n, v); } #endif } /*! Gets data drom the \a editor widget and stores it in the specified \a model at the item \a index. The default implementation gets the value to be stored in the data model from the \a editor widget's \l {Qt's Property System} {user property}. \sa QMetaProperty::isUser() */ void QStyledItemDelegate::setModelData(QWidget *editor, QAbstractItemModel *model, const QModelIndex &index) const { #ifdef QT_NO_PROPERTIES Q_UNUSED(model); Q_UNUSED(editor); Q_UNUSED(index); #else Q_D(const QStyledItemDelegate); Q_ASSERT(model); Q_ASSERT(editor); QByteArray n = editor->metaObject()->userProperty().name(); if (n.isEmpty()) n = d->editorFactory()->valuePropertyName( static_cast(model->data(index, Qt::EditRole).userType())); if (!n.isEmpty()) model->setData(index, editor->property(n), Qt::EditRole); #endif } /*! Updates the \a editor for the item specified by \a index according to the style \a option given. */ void QStyledItemDelegate::updateEditorGeometry(QWidget *editor, const QStyleOptionViewItem &option, const QModelIndex &index) const { if (!editor) return; Q_ASSERT(index.isValid()); const QWidget *widget = QStyledItemDelegatePrivate::widget(option); QStyleOptionViewItemV4 opt = option; initStyleOption(&opt, index); // let the editor take up all available space //if the editor is not a QLineEdit //or it is in a QTableView #if !defined(QT_NO_TABLEVIEW) && !defined(QT_NO_LINEEDIT) if (qobject_cast(editor) && !qobject_cast(widget)) opt.showDecorationSelected = editor->style()->styleHint(QStyle::SH_ItemView_ShowDecorationSelected, 0, editor); else #endif opt.showDecorationSelected = true; QStyle *style = widget ? widget->style() : QApplication::style(); QRect geom = style->subElementRect(QStyle::SE_ItemViewItemText, &opt, widget); if ( editor->layoutDirection() == Qt::RightToLeft) { const int delta = qSmartMinSize(editor).width() - geom.width(); if (delta > 0) { //we need to widen the geometry geom.adjust(-delta, 0, 0, 0); } } editor->setGeometry(geom); } /*! Returns the editor factory used by the item delegate. If no editor factory is set, the function will return null. \sa setItemEditorFactory() */ QItemEditorFactory *QStyledItemDelegate::itemEditorFactory() const { Q_D(const QStyledItemDelegate); return d->factory; } /*! Sets the editor factory to be used by the item delegate to be the \a factory specified. If no editor factory is set, the item delegate will use the default editor factory. \sa itemEditorFactory() */ void QStyledItemDelegate::setItemEditorFactory(QItemEditorFactory *factory) { Q_D(QStyledItemDelegate); d->factory = factory; } /*! \fn bool QStyledItemDelegate::eventFilter(QObject *editor, QEvent *event) Returns true if the given \a editor is a valid QWidget and the given \a event is handled; otherwise returns false. The following key press events are handled by default: \list \o \gui Tab \o \gui Backtab \o \gui Enter \o \gui Return \o \gui Esc \endlist In the case of \gui Tab, \gui Backtab, \gui Enter and \gui Return key press events, the \a editor's data is comitted to the model and the editor is closed. If the \a event is a \gui Tab key press the view will open an editor on the next item in the view. Likewise, if the \a event is a \gui Backtab key press the view will open an editor on the \e previous item in the view. If the event is a \gui Esc key press event, the \a editor is closed \e without committing its data. \sa commitData(), closeEditor() */ bool QStyledItemDelegate::eventFilter(QObject *object, QEvent *event) { QWidget *editor = qobject_cast(object); if (!editor) return false; if (event->type() == QEvent::KeyPress) { switch (static_cast(event)->key()) { case Qt::Key_Tab: emit commitData(editor); emit closeEditor(editor, QAbstractItemDelegate::EditNextItem); return true; case Qt::Key_Backtab: emit commitData(editor); emit closeEditor(editor, QAbstractItemDelegate::EditPreviousItem); return true; case Qt::Key_Enter: case Qt::Key_Return: #ifndef QT_NO_TEXTEDIT if (qobject_cast(editor) || qobject_cast(editor)) return false; // don't filter enter key events for QTextEdit // We want the editor to be able to process the key press // before committing the data (e.g. so it can do // validation/fixup of the input). #endif // QT_NO_TEXTEDIT #ifndef QT_NO_LINEEDIT if (QLineEdit *e = qobject_cast(editor)) if (!e->hasAcceptableInput()) return false; #endif // QT_NO_LINEEDIT QMetaObject::invokeMethod(this, "_q_commitDataAndCloseEditor", Qt::QueuedConnection, Q_ARG(QWidget*, editor)); return false; case Qt::Key_Escape: // don't commit data emit closeEditor(editor, QAbstractItemDelegate::RevertModelCache); break; default: return false; } if (editor->parentWidget()) editor->parentWidget()->setFocus(); return true; } else if (event->type() == QEvent::FocusOut || event->type() == QEvent::Hide) { //the Hide event will take care of he editors that are in fact complete dialogs if (!editor->isActiveWindow() || (QApplication::focusWidget() != editor)) { QWidget *w = QApplication::focusWidget(); while (w) { // don't worry about focus changes internally in the editor if (w == editor) return false; w = w->parentWidget(); } #ifndef QT_NO_DRAGANDDROP // The window may lose focus during an drag operation. // i.e when dragging involves the taskbar on Windows. if (QDragManager::self() && QDragManager::self()->object != 0) return false; #endif // Opening a modal dialog will start a new eventloop // that will process the deleteLater event. QWidget *activeModalWidget = QApplication::activeModalWidget(); if (activeModalWidget && !activeModalWidget->isAncestorOf(editor) && qobject_cast(activeModalWidget)) return false; emit commitData(editor); emit closeEditor(editor, NoHint); } } else if (event->type() == QEvent::ShortcutOverride) { if (static_cast(event)->key() == Qt::Key_Escape) { event->accept(); return true; } } return false; } /*! \reimp */ bool QStyledItemDelegate::editorEvent(QEvent *event, QAbstractItemModel *model, const QStyleOptionViewItem &option, const QModelIndex &index) { Q_ASSERT(event); Q_ASSERT(model); // make sure that the item is checkable Qt::ItemFlags flags = model->flags(index); if (!(flags & Qt::ItemIsUserCheckable) || !(option.state & QStyle::State_Enabled) || !(flags & Qt::ItemIsEnabled)) return false; // make sure that we have a check state QVariant value = index.data(Qt::CheckStateRole); if (!value.isValid()) return false; const QWidget *widget = QStyledItemDelegatePrivate::widget(option); QStyle *style = widget ? widget->style() : QApplication::style(); // make sure that we have the right event type if ((event->type() == QEvent::MouseButtonRelease) || (event->type() == QEvent::MouseButtonDblClick)) { QStyleOptionViewItemV4 viewOpt(option); initStyleOption(&viewOpt, index); QRect checkRect = style->subElementRect(QStyle::SE_ItemViewItemCheckIndicator, &viewOpt, widget); QMouseEvent *me = static_cast(event); if (me->button() != Qt::LeftButton || !checkRect.contains(me->pos())) return false; // eat the double click events inside the check rect if (event->type() == QEvent::MouseButtonDblClick) return true; } else if (event->type() == QEvent::KeyPress) { if (static_cast(event)->key() != Qt::Key_Space && static_cast(event)->key() != Qt::Key_Select) return false; } else { return false; } Qt::CheckState state = (static_cast(value.toInt()) == Qt::Checked ? Qt::Unchecked : Qt::Checked); return model->setData(index, state, Qt::CheckStateRole); } QT_END_NAMESPACE #include "moc_qstyleditemdelegate.cpp" #endif // QT_NO_ITEMVIEWS