/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** 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 1.1, 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. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qtoolbar.h" #ifndef QT_NO_TOOLBAR #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_WS_MAC #include #include #endif #include #include "qtoolbar_p.h" #include "qtoolbarseparator_p.h" #include "qtoolbarlayout_p.h" #include "qdebug.h" #define POPUP_TIMER_INTERVAL 500 QT_BEGIN_NAMESPACE #ifdef Q_WS_MAC static void qt_mac_updateToolBarButtonHint(QWidget *parentWidget) { if (!(parentWidget->windowFlags() & Qt::CustomizeWindowHint)) parentWidget->setWindowFlags(parentWidget->windowFlags() | Qt::MacWindowToolBarButtonHint); } #endif // qmainwindow.cpp extern QMainWindowLayout *qt_mainwindow_layout(const QMainWindow *window); /****************************************************************************** ** QToolBarPrivate */ void QToolBarPrivate::init() { Q_Q(QToolBar); q->setSizePolicy(QSizePolicy(QSizePolicy::Preferred, QSizePolicy::Fixed)); q->setBackgroundRole(QPalette::Button); q->setAttribute(Qt::WA_Hover); q->setAttribute(Qt::WA_X11NetWmWindowTypeToolBar); QStyle *style = q->style(); int e = style->pixelMetric(QStyle::PM_ToolBarIconSize, 0, q); iconSize = QSize(e, e); layout = new QToolBarLayout(q); layout->updateMarginAndSpacing(); #ifdef Q_WS_MAC if (q->parentWidget() && q->parentWidget()->isWindow()) { // Make sure that the window has the "toolbar" button. QWidget *parentWidget = q->parentWidget(); qt_mac_updateToolBarButtonHint(parentWidget); reinterpret_cast(parentWidget)->d_func()->createWinId(); // Please let me create your winId... extern OSWindowRef qt_mac_window_for(const QWidget *); // qwidget_mac.cpp macWindowToolbarShow(q->parentWidget(), true); } #endif toggleViewAction = new QAction(q); toggleViewAction->setCheckable(true); q->setMovable(q->style()->styleHint(QStyle::SH_ToolBar_Movable, 0, q )); QObject::connect(toggleViewAction, SIGNAL(triggered(bool)), q, SLOT(_q_toggleView(bool))); } void QToolBarPrivate::_q_toggleView(bool b) { Q_Q(QToolBar); if (b == q->isHidden()) { if (b) q->show(); else q->close(); } } void QToolBarPrivate::_q_updateIconSize(const QSize &sz) { Q_Q(QToolBar); if (!explicitIconSize) { // iconSize not explicitly set q->setIconSize(sz); explicitIconSize = false; } } void QToolBarPrivate::_q_updateToolButtonStyle(Qt::ToolButtonStyle style) { Q_Q(QToolBar); if (!explicitToolButtonStyle) { q->setToolButtonStyle(style); explicitToolButtonStyle = false; } } void QToolBarPrivate::updateWindowFlags(bool floating, bool unplug) { Q_Q(QToolBar); Qt::WindowFlags flags = floating ? Qt::Tool : Qt::Widget; flags |= Qt::FramelessWindowHint; if (unplug) { flags |= Qt::X11BypassWindowManagerHint; #ifdef Q_WS_MAC flags |= Qt::WindowStaysOnTopHint; #endif } q->setWindowFlags(flags); } void QToolBarPrivate::setWindowState(bool floating, bool unplug, const QRect &rect) { Q_Q(QToolBar); bool visible = !q->isHidden(); bool wasFloating = q->isFloating(); // ...is also currently using popup menus q->hide(); updateWindowFlags(floating, unplug); if (floating != wasFloating) layout->checkUsePopupMenu(); if (!rect.isNull()) q->setGeometry(rect); if (visible) q->show(); if (floating != wasFloating) emit q->topLevelChanged(floating); } void QToolBarPrivate::initDrag(const QPoint &pos) { Q_Q(QToolBar); if (state != 0) return; QMainWindow *win = qobject_cast(parent); Q_ASSERT(win != 0); QMainWindowLayout *layout = qt_mainwindow_layout(win); Q_ASSERT(layout != 0); if (layout->pluggingWidget != 0) // the main window is animating a docking operation return; state = new DragState; state->pressPos = pos; state->dragging = false; state->moving = false; state->widgetItem = 0; if (q->isRightToLeft()) state->pressPos = QPoint(q->width() - state->pressPos.x(), state->pressPos.y()); } void QToolBarPrivate::startDrag(bool moving) { Q_Q(QToolBar); Q_ASSERT(state != 0); if ((moving && state->moving) || state->dragging) return; QMainWindow *win = qobject_cast(parent); Q_ASSERT(win != 0); QMainWindowLayout *layout = qt_mainwindow_layout(win); Q_ASSERT(layout != 0); if (!moving) { state->widgetItem = layout->unplug(q); #if defined(Q_WS_MAC) && !defined(QT_MAC_USE_COCOA) if (q->isWindow()) { setWindowState(true, true); //set it to floating } #endif Q_ASSERT(state->widgetItem != 0); } state->dragging = !moving; state->moving = moving; } void QToolBarPrivate::endDrag() { Q_Q(QToolBar); Q_ASSERT(state != 0); q->releaseMouse(); if (state->dragging) { QMainWindowLayout *layout = qt_mainwindow_layout(qobject_cast(q->parentWidget())); Q_ASSERT(layout != 0); if (!layout->plug(state->widgetItem)) { if (q->isFloatable()) { layout->restore(); #if defined(Q_WS_X11) || defined(Q_WS_MAC) setWindowState(true); // gets rid of the X11BypassWindowManager window flag // and activates the resizer #endif q->activateWindow(); } else { layout->revert(state->widgetItem); } } } delete state; state = 0; } bool QToolBarPrivate::mousePressEvent(QMouseEvent *event) { Q_Q(QToolBar); QStyleOptionToolBar opt; q->initStyleOption(&opt); if (q->style()->subElementRect(QStyle::SE_ToolBarHandle, &opt, q).contains(event->pos()) == false) { #ifdef Q_WS_MAC // When using the unified toolbar on Mac OS X the user can can click and // drag between toolbar contents to move the window. Make this work by // implementing the standard mouse-dragging code and then call // window->move() in mouseMoveEvent below. if (QMainWindow *mainWindow = qobject_cast(parent)) { if (mainWindow->toolBarArea(q) == Qt::TopToolBarArea && mainWindow->unifiedTitleAndToolBarOnMac() && q->childAt(event->pos()) == 0) { macWindowDragging = true; macWindowDragPressPosition = event->pos(); return true; } } #endif return false; } if (event->button() != Qt::LeftButton) return true; if (!layout->movable()) return true; initDrag(event->pos()); return true; } bool QToolBarPrivate::mouseReleaseEvent(QMouseEvent*) { if (state != 0) { endDrag(); return true; } else { #ifdef Q_WS_MAC if (!macWindowDragging) return false; macWindowDragging = false; macWindowDragPressPosition = QPoint(); return true; #endif return false; } } bool QToolBarPrivate::mouseMoveEvent(QMouseEvent *event) { Q_Q(QToolBar); if (!state) { #ifdef Q_WS_MAC if (!macWindowDragging) return false; QWidget *w = q->window(); const QPoint delta = event->pos() - macWindowDragPressPosition; w->move(w->pos() + delta); return true; #endif return false; } QMainWindow *win = qobject_cast(parent); if (win == 0) return true; QMainWindowLayout *layout = qt_mainwindow_layout(win); Q_ASSERT(layout != 0); if (layout->pluggingWidget == 0 && (event->pos() - state->pressPos).manhattanLength() > QApplication::startDragDistance()) { const bool wasDragging = state->dragging; const bool moving = !q->isWindow() && (orientation == Qt::Vertical ? event->x() >= 0 && event->x() < q->width() : event->y() >= 0 && event->y() < q->height()); startDrag(moving); if (!moving && !wasDragging) { #ifdef Q_OS_WIN grabMouseWhileInWindow(); #else q->grabMouse(); #endif } } if (state->dragging) { QPoint pos = event->globalPos(); // if we are right-to-left, we move so as to keep the right edge the same distance // from the mouse if (q->isLeftToRight()) pos -= state->pressPos; else pos += QPoint(state->pressPos.x() - q->width(), -state->pressPos.y()); q->move(pos); layout->hover(state->widgetItem, event->globalPos()); } else if (state->moving) { const QPoint rtl(q->width() - state->pressPos.x(), state->pressPos.y()); //for RTL const QPoint globalPressPos = q->mapToGlobal(q->isRightToLeft() ? rtl : state->pressPos); int pos = 0; QPoint delta = event->globalPos() - globalPressPos; if (orientation == Qt::Vertical) { pos = q->y() + delta.y(); } else { if (q->isRightToLeft()) { pos = win->width() - q->width() - q->x() - delta.x(); } else { pos = q->x() + delta.x(); } } layout->moveToolBar(q, pos); } return true; } void QToolBarPrivate::unplug(const QRect &_r) { Q_Q(QToolBar); QRect r = _r; r.moveTopLeft(q->mapToGlobal(QPoint(0, 0))); setWindowState(true, true, r); layout->setExpanded(false); } void QToolBarPrivate::plug(const QRect &r) { setWindowState(false, false, r); } /****************************************************************************** ** QToolBar */ /*! \class QToolBar \brief The QToolBar class provides a movable panel that contains a set of controls. \ingroup mainwindow-classes Toolbar buttons are added by adding \e actions, using addAction() or insertAction(). Groups of buttons can be separated using addSeparator() or insertSeparator(). If a toolbar button is not appropriate, a widget can be inserted instead using addWidget() or insertWidget(); examples of suitable widgets are QSpinBox, QDoubleSpinBox, and QComboBox. When a toolbar button is pressed it emits the actionTriggered() signal. A toolbar can be fixed in place in a particular area (e.g. at the top of the window), or it can be movable (isMovable()) between toolbar areas; see allowedAreas() and isAreaAllowed(). When a toolbar is resized in such a way that it is too small to show all the items it contains, an extension button will appear as the last item in the toolbar. Pressing the extension button will pop up a menu containing the items that does not currently fit in the toolbar. When a QToolBar is not a child of a QMainWindow, it loses the ability to populate the extension pop up with widgets added to the toolbar using addWidget(). Please use widget actions created by inheriting QWidgetAction and implementing QWidgetAction::createWidget() instead. \sa QToolButton, QMenu, QAction, {Application Example} */ /*! \fn bool QToolBar::isAreaAllowed(Qt::ToolBarArea area) const Returns true if this toolbar is dockable in the given \a area; otherwise returns false. */ /*! \fn void QToolBar::addAction(QAction *action) \overload Appends the action \a action to the toolbar's list of actions. \sa QMenu::addAction(), QWidget::addAction() */ /*! \fn void QToolBar::actionTriggered(QAction *action) This signal is emitted when an action in this toolbar is triggered. This happens when the action's tool button is pressed, or when the action is triggered in some other way outside the tool bar. The parameter holds the triggered \a action. */ /*! \fn void QToolBar::allowedAreasChanged(Qt::ToolBarAreas allowedAreas) This signal is emitted when the collection of allowed areas for the toolbar is changed. The new areas in which the toolbar can be positioned are specified by \a allowedAreas. \sa allowedAreas */ /*! \fn void QToolBar::iconSizeChanged(const QSize &iconSize) This signal is emitted when the icon size is changed. The \a iconSize parameter holds the toolbar's new icon size. \sa iconSize QMainWindow::iconSize */ /*! \fn void QToolBar::movableChanged(bool movable) This signal is emitted when the toolbar becomes movable or fixed. If the toolbar can be moved, \a movable is true; otherwise it is false. \sa movable */ /*! \fn void QToolBar::orientationChanged(Qt::Orientation orientation) This signal is emitted when the orientation of the toolbar changes. The new orientation is specified by the \a orientation given. \sa orientation */ /*! \fn void QToolBar::toolButtonStyleChanged(Qt::ToolButtonStyle toolButtonStyle) This signal is emitted when the tool button style is changed. The \a toolButtonStyle parameter holds the toolbar's new tool button style. \sa toolButtonStyle QMainWindow::toolButtonStyle */ /*! \since 4.6 \fn void QToolBar::topLevelChanged(bool topLevel) This signal is emitted when the \l floating property changes. The \a topLevel parameter is true if the toolbar is now floating; otherwise it is false. \sa isWindow() */ /*! \fn void QToolBar::visibilityChanged(bool visible) \since 4.7 This signal is emitted when the toolbar becomes \a visible (or invisible). This happens when the widget is hidden or shown. */ /*! Constructs a QToolBar with the given \a parent. */ QToolBar::QToolBar(QWidget *parent) : QWidget(*new QToolBarPrivate, parent, 0) { Q_D(QToolBar); d->init(); } /*! Constructs a QToolBar with the given \a parent. The given window \a title identifies the toolbar and is shown in the context menu provided by QMainWindow. \sa setWindowTitle() */ QToolBar::QToolBar(const QString &title, QWidget *parent) : QWidget(*new QToolBarPrivate, parent, 0) { Q_D(QToolBar); d->init(); setWindowTitle(title); } #ifdef QT3_SUPPORT /*! \obsolete Constructs a QToolBar with the given \a parent and \a name. */ QToolBar::QToolBar(QWidget *parent, const char *name) : QWidget(*new QToolBarPrivate, parent, 0) { Q_D(QToolBar); d->init(); setObjectName(QString::fromAscii(name)); } #endif /*! Destroys the toolbar. */ QToolBar::~QToolBar() { // Remove the toolbar button if there is nothing left. QMainWindow *mainwindow = qobject_cast(parentWidget()); if (mainwindow) { #ifdef Q_WS_MAC QMainWindowLayout *mainwin_layout = qt_mainwindow_layout(mainwindow); if (mainwin_layout && mainwin_layout->layoutState.toolBarAreaLayout.isEmpty() && mainwindow->testAttribute(Qt::WA_WState_Created)) macWindowToolbarShow(mainwindow, false); #endif } } /*! \property QToolBar::movable \brief whether the user can move the toolbar within the toolbar area, or between toolbar areas By default, this property is true. This property only makes sense if the toolbar is in a QMainWindow. \sa allowedAreas */ void QToolBar::setMovable(bool movable) { Q_D(QToolBar); if (!movable == !d->movable) return; d->movable = movable; d->layout->invalidate(); emit movableChanged(d->movable); } bool QToolBar::isMovable() const { Q_D(const QToolBar); return d->movable; } /*! \property QToolBar::floatable \brief whether the toolbar can be dragged and dropped as an independent window. The default is true. */ bool QToolBar::isFloatable() const { Q_D(const QToolBar); return d->floatable; } void QToolBar::setFloatable(bool floatable) { Q_D(QToolBar); d->floatable = floatable; } /*! \property QToolBar::floating \brief whether the toolbar is an independent window. By default, this property is true. \sa QWidget::isWindow() */ bool QToolBar::isFloating() const { return isWindow(); } /*! \property QToolBar::allowedAreas \brief areas where the toolbar may be placed The default is Qt::AllToolBarAreas. This property only makes sense if the toolbar is in a QMainWindow. \sa movable */ void QToolBar::setAllowedAreas(Qt::ToolBarAreas areas) { Q_D(QToolBar); areas &= Qt::ToolBarArea_Mask; if (areas == d->allowedAreas) return; d->allowedAreas = areas; emit allowedAreasChanged(d->allowedAreas); } Qt::ToolBarAreas QToolBar::allowedAreas() const { Q_D(const QToolBar); #ifdef Q_WS_MAC if (QMainWindow *window = qobject_cast(parentWidget())) { if (window->unifiedTitleAndToolBarOnMac()) // Don't allow drags to the top (for now). return (d->allowedAreas & ~Qt::TopToolBarArea); } #endif return d->allowedAreas; } /*! \property QToolBar::orientation \brief orientation of the toolbar The default is Qt::Horizontal. This function should not be used when the toolbar is managed by QMainWindow. You can use QMainWindow::addToolBar() or QMainWindow::insertToolBar() if you wish to move a toolbar (that is already added to a main window) to another Qt::ToolBarArea. */ void QToolBar::setOrientation(Qt::Orientation orientation) { Q_D(QToolBar); if (orientation == d->orientation) return; d->orientation = orientation; if (orientation == Qt::Vertical) setSizePolicy(QSizePolicy(QSizePolicy::Fixed, QSizePolicy::Preferred)); else setSizePolicy(QSizePolicy(QSizePolicy::Preferred, QSizePolicy::Fixed)); d->layout->invalidate(); d->layout->activate(); emit orientationChanged(d->orientation); } Qt::Orientation QToolBar::orientation() const { Q_D(const QToolBar); return d->orientation; } /*! \property QToolBar::iconSize \brief size of icons in the toolbar. The default size is determined by the application's style and is derived from the QStyle::PM_ToolBarIconSize pixel metric. It is the maximum size an icon can have. Icons of smaller size will not be scaled up. */ QSize QToolBar::iconSize() const { Q_D(const QToolBar); return d->iconSize; } void QToolBar::setIconSize(const QSize &iconSize) { Q_D(QToolBar); QSize sz = iconSize; if (!sz.isValid()) { QMainWindow *mw = qobject_cast(parentWidget()); if (mw && mw->layout()) { QLayout *layout = mw->layout(); int i = 0; QLayoutItem *item = 0; do { item = layout->itemAt(i++); if (item && (item->widget() == this)) sz = mw->iconSize(); } while (!sz.isValid() && item != 0); } } if (!sz.isValid()) { const int metric = style()->pixelMetric(QStyle::PM_ToolBarIconSize, 0, this); sz = QSize(metric, metric); } if (d->iconSize != sz) { d->iconSize = sz; setMinimumSize(0, 0); emit iconSizeChanged(d->iconSize); } d->explicitIconSize = iconSize.isValid(); d->layout->invalidate(); } /*! \property QToolBar::toolButtonStyle \brief the style of toolbar buttons This property defines the style of all tool buttons that are added as \l{QAction}s. Note that if you add a QToolButton with the addWidget() method, it will not get this button style. The default is Qt::ToolButtonIconOnly. */ Qt::ToolButtonStyle QToolBar::toolButtonStyle() const { Q_D(const QToolBar); return d->toolButtonStyle; } void QToolBar::setToolButtonStyle(Qt::ToolButtonStyle toolButtonStyle) { Q_D(QToolBar); d->explicitToolButtonStyle = true; if (d->toolButtonStyle == toolButtonStyle) return; d->toolButtonStyle = toolButtonStyle; setMinimumSize(0, 0); emit toolButtonStyleChanged(d->toolButtonStyle); } /*! Removes all actions from the toolbar. \sa removeAction() */ void QToolBar::clear() { QList actions = this->actions(); for(int i = 0; i < actions.size(); i++) removeAction(actions.at(i)); } /*! \overload Creates a new action with the given \a text. This action is added to the end of the toolbar. */ QAction *QToolBar::addAction(const QString &text) { QAction *action = new QAction(text, this); addAction(action); return action; } /*! \overload Creates a new action with the given \a icon and \a text. This action is added to the end of the toolbar. */ QAction *QToolBar::addAction(const QIcon &icon, const QString &text) { QAction *action = new QAction(icon, text, this); addAction(action); return action; } /*! \overload Creates a new action with the given \a text. This action is added to the end of the toolbar. The action's \link QAction::triggered() triggered()\endlink signal is connected to \a member in \a receiver. */ QAction *QToolBar::addAction(const QString &text, const QObject *receiver, const char* member) { QAction *action = new QAction(text, this); QObject::connect(action, SIGNAL(triggered(bool)), receiver, member); addAction(action); return action; } /*! \overload Creates a new action with the icon \a icon and text \a text. This action is added to the end of the toolbar. The action's \link QAction::triggered() triggered()\endlink signal is connected to \a member in \a receiver. */ QAction *QToolBar::addAction(const QIcon &icon, const QString &text, const QObject *receiver, const char* member) { QAction *action = new QAction(icon, text, this); QObject::connect(action, SIGNAL(triggered(bool)), receiver, member); addAction(action); return action; } /*! Adds a separator to the end of the toolbar. \sa insertSeparator() */ QAction *QToolBar::addSeparator() { QAction *action = new QAction(this); action->setSeparator(true); addAction(action); return action; } /*! Inserts a separator into the toolbar in front of the toolbar item associated with the \a before action. \sa addSeparator() */ QAction *QToolBar::insertSeparator(QAction *before) { QAction *action = new QAction(this); action->setSeparator(true); insertAction(before, action); return action; } /*! Adds the given \a widget to the toolbar as the toolbar's last item. The toolbar takes ownership of \a widget. If you add a QToolButton with this method, the tools bar's Qt::ToolButtonStyle will not be respected. \note You should use QAction::setVisible() to change the visibility of the widget. Using QWidget::setVisible(), QWidget::show() and QWidget::hide() does not work. \sa insertWidget() */ QAction *QToolBar::addWidget(QWidget *widget) { QWidgetAction *action = new QWidgetAction(this); action->setDefaultWidget(widget); action->d_func()->autoCreated = true; addAction(action); return action; } /*! Inserts the given \a widget in front of the toolbar item associated with the \a before action. Note: You should use QAction::setVisible() to change the visibility of the widget. Using QWidget::setVisible(), QWidget::show() and QWidget::hide() does not work. \sa addWidget() */ QAction *QToolBar::insertWidget(QAction *before, QWidget *widget) { QWidgetAction *action = new QWidgetAction(this); action->setDefaultWidget(widget); action->d_func()->autoCreated = true; insertAction(before, action); return action; } /*! \internal Returns the geometry of the toolbar item associated with the given \a action, or an invalid QRect if no matching item is found. */ QRect QToolBar::actionGeometry(QAction *action) const { Q_D(const QToolBar); int index = d->layout->indexOf(action); if (index == -1) return QRect(); return d->layout->itemAt(index)->widget()->geometry(); } /*! Returns the action at point \a p. This function returns zero if no action was found. \sa QWidget::childAt() */ QAction *QToolBar::actionAt(const QPoint &p) const { Q_D(const QToolBar); QWidget *widget = childAt(p); int index = d->layout->indexOf(widget); if (index == -1) return 0; QLayoutItem *item = d->layout->itemAt(index); return static_cast(item)->action; } /*! \fn QAction *QToolBar::actionAt(int x, int y) const \overload Returns the action at the point \a x, \a y. This function returns zero if no action was found. */ /*! \reimp */ void QToolBar::actionEvent(QActionEvent *event) { Q_D(QToolBar); QAction *action = event->action(); QWidgetAction *widgetAction = qobject_cast(action); switch (event->type()) { case QEvent::ActionAdded: { Q_ASSERT_X(widgetAction == 0 || d->layout->indexOf(widgetAction) == -1, "QToolBar", "widgets cannot be inserted multiple times"); // reparent the action to this toolbar if it has been created // using the addAction(text) etc. convenience functions, to // preserve Qt 4.1.x behavior. The widget is already // reparented to us due to the createWidget call inside // createItem() if (widgetAction != 0 && widgetAction->d_func()->autoCreated) widgetAction->setParent(this); int index = d->layout->count(); if (event->before()) { index = d->layout->indexOf(event->before()); Q_ASSERT_X(index != -1, "QToolBar::insertAction", "internal error"); } d->layout->insertAction(index, action); break; } case QEvent::ActionChanged: d->layout->invalidate(); break; case QEvent::ActionRemoved: { int index = d->layout->indexOf(action); if (index != -1) { delete d->layout->takeAt(index); } break; } default: Q_ASSERT_X(false, "QToolBar::actionEvent", "internal error"); } } /*! \reimp */ void QToolBar::changeEvent(QEvent *event) { Q_D(QToolBar); switch (event->type()) { case QEvent::WindowTitleChange: d->toggleViewAction->setText(windowTitle()); break; case QEvent::StyleChange: d->layout->invalidate(); if (!d->explicitIconSize) setIconSize(QSize()); d->layout->updateMarginAndSpacing(); break; case QEvent::LayoutDirectionChange: d->layout->invalidate(); break; default: break; } QWidget::changeEvent(event); } /*! \reimp */ void QToolBar::paintEvent(QPaintEvent *) { Q_D(QToolBar); QPainter p(this); QStyle *style = this->style(); QStyleOptionToolBar opt; initStyleOption(&opt); if (d->layout->expanded || d->layout->animating || isWindow()) { //if the toolbar is expended, we need to fill the background with the window color //because some styles may expects that. p.fillRect(opt.rect, palette().background()); style->drawControl(QStyle::CE_ToolBar, &opt, &p, this); style->drawPrimitive(QStyle::PE_FrameMenu, &opt, &p, this); } else { style->drawControl(QStyle::CE_ToolBar, &opt, &p, this); } opt.rect = style->subElementRect(QStyle::SE_ToolBarHandle, &opt, this); if (opt.rect.isValid()) style->drawPrimitive(QStyle::PE_IndicatorToolBarHandle, &opt, &p, this); } /* Checks if an expanded toolbar has to wait for this popup to close before the toolbar collapses. This is true if 1) the popup has the toolbar in its parent chain, 2) the popup is a menu whose menuAction is somewhere in the toolbar. */ static bool waitForPopup(QToolBar *tb, QWidget *popup) { if (popup == 0 || popup->isHidden()) return false; QWidget *w = popup; while (w != 0) { if (w == tb) return true; w = w->parentWidget(); } QMenu *menu = qobject_cast(popup); if (menu == 0) return false; QAction *action = menu->menuAction(); QList widgets = action->associatedWidgets(); for (int i = 0; i < widgets.count(); ++i) { if (waitForPopup(tb, widgets.at(i))) return true; } return false; } #if defined(Q_WS_MAC) static bool toolbarInUnifiedToolBar(QToolBar *toolbar) { const QMainWindow *mainWindow = qobject_cast(toolbar->parentWidget()); return mainWindow && mainWindow->unifiedTitleAndToolBarOnMac() && mainWindow->toolBarArea(toolbar) == Qt::TopToolBarArea; } #endif /*! \reimp */ bool QToolBar::event(QEvent *event) { Q_D(QToolBar); switch (event->type()) { case QEvent::Timer: if (d->waitForPopupTimer.timerId() == static_cast(event)->timerId()) { QWidget *w = QApplication::activePopupWidget(); if (!waitForPopup(this, w)) { d->waitForPopupTimer.stop(); if (!this->underMouse()) d->layout->setExpanded(false); } } break; case QEvent::Hide: if (!isHidden()) break; // fallthrough intended case QEvent::Show: d->toggleViewAction->setChecked(event->type() == QEvent::Show); emit visibilityChanged(event->type() == QEvent::Show); #if defined(Q_WS_MAC) if (toolbarInUnifiedToolBar(this)) { // I can static_cast because I did the qobject_cast in the if above, therefore // we must have a QMainWindowLayout here. QMainWindowLayout *mwLayout = qt_mainwindow_layout(qobject_cast(parentWidget())); mwLayout->fixSizeInUnifiedToolbar(this); mwLayout->syncUnifiedToolbarVisibility(); } # if !defined(QT_MAC_USE_COCOA) // Fall through case QEvent::LayoutRequest: { // There's currently no way to invalidate the size and let // HIToolbar know about it. This forces a re-check. int earlyResult = -1; if (QMainWindow *mainWindow = qobject_cast(parentWidget())) { bool needUpdate = true; if (event->type() == QEvent::LayoutRequest) { QSize oldSizeHint = sizeHint(); earlyResult = QWidget::event(event) ? 1 : 0; needUpdate = oldSizeHint != sizeHint(); } if (needUpdate) { OSWindowRef windowRef = qt_mac_window_for(mainWindow); if (toolbarInUnifiedToolBar(this) && macWindowToolbarIsVisible(windowRef)) { DisableScreenUpdates(); macWindowToolbarShow(this, false); macWindowToolbarShow(this, true); EnableScreenUpdates(); } } if (earlyResult != -1) return earlyResult; } } # endif // !QT_MAC_USE_COCOA #endif // Q_WS_MAC break; case QEvent::ParentChange: d->layout->checkUsePopupMenu(); #if defined(Q_WS_MAC) if (parentWidget() && parentWidget()->isWindow()) qt_mac_updateToolBarButtonHint(parentWidget()); #endif break; case QEvent::MouseButtonPress: { if (d->mousePressEvent(static_cast(event))) return true; break; } case QEvent::MouseButtonRelease: if (d->mouseReleaseEvent(static_cast(event))) return true; break; case QEvent::HoverEnter: case QEvent::HoverLeave: // there's nothing special to do here and we don't want to update the whole widget return true; case QEvent::HoverMove: { #ifndef QT_NO_CURSOR QHoverEvent *e = static_cast(event); QStyleOptionToolBar opt; initStyleOption(&opt); if (style()->subElementRect(QStyle::SE_ToolBarHandle, &opt, this).contains(e->pos())) setCursor(Qt::SizeAllCursor); else unsetCursor(); #endif break; } case QEvent::MouseMove: if (d->mouseMoveEvent(static_cast(event))) return true; break; #ifdef Q_WS_WINCE case QEvent::ContextMenu: { QContextMenuEvent* contextMenuEvent = static_cast(event); QWidget* child = childAt(contextMenuEvent->pos()); QAbstractButton* button = qobject_cast(child); if (button) button->setDown(false); } break; #endif case QEvent::Leave: if (d->state != 0 && d->state->dragging) { #ifdef Q_OS_WIN // This is a workaround for loosing the mouse on Vista. QPoint pos = QCursor::pos(); QMouseEvent fake(QEvent::MouseMove, mapFromGlobal(pos), pos, Qt::NoButton, QApplication::mouseButtons(), QApplication::keyboardModifiers()); d->mouseMoveEvent(&fake); #endif } else { if (!d->layout->expanded) break; QWidget *w = QApplication::activePopupWidget(); if (waitForPopup(this, w)) { d->waitForPopupTimer.start(POPUP_TIMER_INTERVAL, this); break; } d->waitForPopupTimer.stop(); d->layout->setExpanded(false); break; } default: break; } return QWidget::event(event); } /*! Returns a checkable action that can be used to show or hide this toolbar. The action's text is set to the toolbar's window title. \sa QAction::text QWidget::windowTitle */ QAction *QToolBar::toggleViewAction() const { Q_D(const QToolBar); return d->toggleViewAction; } /*! \fn void QToolBar::setLabel(const QString &label) Use setWindowTitle() instead. */ /*! \fn QString QToolBar::label() const Use windowTitle() instead. */ /*! \since 4.2 Returns the widget associated with the specified \a action. \sa addWidget() */ QWidget *QToolBar::widgetForAction(QAction *action) const { Q_D(const QToolBar); int index = d->layout->indexOf(action); if (index == -1) return 0; return d->layout->itemAt(index)->widget(); } extern QMainWindowLayout *qt_mainwindow_layout(const QMainWindow *window); /*! \internal */ void QToolBar::initStyleOption(QStyleOptionToolBar *option) const { Q_D(const QToolBar); if (!option) return; option->initFrom(this); if (orientation() == Qt::Horizontal) option->state |= QStyle::State_Horizontal; option->lineWidth = style()->pixelMetric(QStyle::PM_ToolBarFrameWidth, 0, this); option->features = d->layout->movable() ? QStyleOptionToolBar::Movable : QStyleOptionToolBar::None; // if the tool bar is not in a QMainWindow, this will make the painting right option->toolBarArea = Qt::NoToolBarArea; // Add more styleoptions if the toolbar has been added to a mainwindow. QMainWindow *mainWindow = qobject_cast(parentWidget()); if (!mainWindow) return; QMainWindowLayout *layout = qt_mainwindow_layout(mainWindow); Q_ASSERT_X(layout != 0, "QToolBar::initStyleOption()", "QMainWindow->layout() != QMainWindowLayout"); layout->getStyleOptionInfo(option, const_cast(this)); } /*! \reimp */ void QToolBar::childEvent(QChildEvent *event) // ### remove me in 5.0 { QWidget::childEvent(event); } /*! \reimp */ void QToolBar::resizeEvent(QResizeEvent *event) // ### remove me in 5.0 { QWidget::resizeEvent(event); } QT_END_NAMESPACE #include "moc_qtoolbar.cpp" #endif // QT_NO_TOOLBAR