/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt3Support 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 Technology Preview License Agreement accompanying ** this package. ** ** 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 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "q3toolbar.h" #ifndef QT_NO_TOOLBAR #include "q3mainwindow.h" #include "qapplication.h" #include "q3combobox.h" #include "qcursor.h" #include "qdesktopwidget.h" #include "qdrawutil.h" #include "qevent.h" #include "qframe.h" #include "qlayout.h" #include "qmap.h" #include "qpainter.h" #include "q3popupmenu.h" #include "qstyle.h" #include "qstyleoption.h" #include "qtimer.h" #include "qtoolbutton.h" #include "qtooltip.h" QT_BEGIN_NAMESPACE static const char * const arrow_v_xpm[] = { "7 9 3 1", " c None", ". c #000000", "+ c none", ".+++++.", "..+++..", "+..+..+", "++...++", ".++.++.", "..+++..", "+..+..+", "++...++", "+++.+++"}; static const char * const arrow_h_xpm[] = { "9 7 3 1", " c None", ". c #000000", "+ c none", "..++..+++", "+..++..++", "++..++..+", "+++..++..", "++..++..+", "+..++..++", "..++..+++"}; class Q3ToolBarExtensionWidget; class Q3ToolBarPrivate { public: Q3ToolBarPrivate() : moving(false), checkingExtension(false) { } bool moving; bool checkingExtension; Q3ToolBarExtensionWidget *extension; Q3PopupMenu *extensionPopup; QMap actions; }; class Q3ToolBarSeparator : public QWidget { Q_OBJECT public: Q3ToolBarSeparator(Qt::Orientation, Q3ToolBar *parent, const char* name=0); QSize sizeHint() const; Qt::Orientation orientation() const { return orient; } public slots: void setOrientation(Qt::Orientation); protected: void changeEvent(QEvent *); void paintEvent(QPaintEvent *); private: Qt::Orientation orient; }; class Q3ToolBarExtensionWidget : public QWidget { Q_OBJECT public: Q3ToolBarExtensionWidget(QWidget *w); void setOrientation(Qt::Orientation o); QToolButton *button() const { return tb; } protected: void resizeEvent(QResizeEvent *e) { QWidget::resizeEvent(e); layOut(); } private: void layOut(); QToolButton *tb; Qt::Orientation orient; }; Q3ToolBarExtensionWidget::Q3ToolBarExtensionWidget(QWidget *w) : QWidget(w, "qt_dockwidget_internal") { tb = new QToolButton(this, "qt_toolbar_ext_button"); tb->setAutoRaise(true); setOrientation(Qt::Horizontal); setAutoFillBackground(true); } void Q3ToolBarExtensionWidget::setOrientation(Qt::Orientation o) { orient = o; if (orient == Qt::Horizontal) tb->setIcon(QPixmap((const char **)arrow_h_xpm)); else tb->setIcon(QPixmap((const char **)arrow_v_xpm)); layOut(); } void Q3ToolBarExtensionWidget::layOut() { tb->setGeometry(2, 2, width() - 4, height() - 4); } Q3ToolBarSeparator::Q3ToolBarSeparator(Qt::Orientation o , Q3ToolBar *parent, const char* name) : QWidget(parent, name) { connect(parent, SIGNAL(orientationChanged(Qt::Orientation)), this, SLOT(setOrientation(Qt::Orientation))); setOrientation(o); setSizePolicy(QSizePolicy(QSizePolicy::Minimum, QSizePolicy::Minimum)); } void Q3ToolBarSeparator::setOrientation(Qt::Orientation o) { orient = o; } void Q3ToolBarSeparator::changeEvent(QEvent *ev) { if(ev->type() == QEvent::StyleChange) setOrientation(orient); QWidget::changeEvent(ev); } static QStyleOption getStyleOption(const Q3ToolBarSeparator *tbs) { QStyleOption opt(0); opt.rect = tbs->rect(); opt.palette = tbs->palette(); if (tbs->orientation() == Qt::Horizontal) opt.state = QStyle::State_Horizontal; else opt.state = QStyle::State_None; return opt; } QSize Q3ToolBarSeparator::sizeHint() const { QStyleOption opt = getStyleOption(this); int extent = style()->pixelMetric(QStyle::PM_ToolBarSeparatorExtent, &opt, this); if (orient == Qt::Horizontal) return QSize(extent, 0); else return QSize(0, extent); } void Q3ToolBarSeparator::paintEvent(QPaintEvent *) { QPainter p(this); QStyleOption opt = getStyleOption(this); style()->drawPrimitive(QStyle::PE_Q3DockWindowSeparator, &opt, &p, this); } QT_BEGIN_INCLUDE_NAMESPACE #include "q3toolbar.moc" QT_END_INCLUDE_NAMESPACE /*! \class Q3ToolBar \brief The Q3ToolBar class provides a movable panel containing widgets such as tool buttons. \compat A toolbar is a panel that contains a set of controls, usually represented by small icons. It's purpose is to provide quick access to frequently used commands or options. Within a Q3MainWindow the user can drag toolbars within and between the \link Q3DockArea dock areas\endlink. Toolbars can also be dragged out of any dock area to float freely as top-level windows. Q3ToolBar is a specialization of QDockWindow, and so provides all the functionality of a QDockWindow. To use Q3ToolBar you simply create a Q3ToolBar as a child of a Q3MainWindow, create a number of QToolButton widgets (or other widgets) in left to right (or top to bottom) order and call addSeparator() when you want a separator. When a toolbar is floated the caption used is the label given in the constructor call. This can be changed with setLabel(). You may use most widgets within a toolbar, with QToolButton and QComboBox being the most common. But note that the toolbar's actions must be \l {Q3Action}s. If you create a new widget on an already visible Q3ToolBar, this widget will automatically become visible without needing a show() call. (This differs from every other Qt widget container. We recommend calling show() anyway since we hope to fix this anomaly in a future release.) Q3ToolBars, like QDockWindows, are located in \l{Q3DockArea}s or float as top-level windows. Q3MainWindow provides four Q3DockAreas (top, left, right and bottom). When you create a new toolbar (as in the example above) as a child of a Q3MainWindow the toolbar will be added to the top dock area. You can move it to another dock area (or float it) by calling Q3MainWindow::moveDockWindow(). Dock areas lay out their windows in lines. If the main window is resized so that the area occupied by the toolbar is too small to show all its widgets a little arrow button (which looks like a right-pointing chevron, '»') will appear at the right or bottom of the toolbar depending on its orientation. Clicking this button pops up a menu that shows the 'overflowing' items. QToolButtons are represented in the menu using their textLabel property, other QAbstractButton subclasses are represented using their text property, and QComboBoxes are represented as submenus, with the caption text being used in the submenu item. Usually a toolbar will get precisely the space it needs. However, with setHorizontalStretchable(), setVerticalStretchable() or setStretchableWidget() you can tell the main window to expand the toolbar to fill all available space in the specified orientation. The toolbar arranges its buttons either horizontally or vertically (see orientation() for details). Generally, Q3DockArea will set the orientation correctly for you, but you can set it yourself with setOrientation() and track any changes by connecting to the orientationChanged() signal. You can use the clear() method to remove all items from a toolbar. \img qdockwindow.png Toolbar (dock window) \caption A floating QToolbar (dock window) \sa QToolButton Q3MainWindow */ /*! Constructs an empty toolbar. The toolbar is called \a name and is a child of \a parent and is managed by \a parent. It is initially located in dock area \a dock and is labeled \a label. If \a newLine is true the toolbar will be placed on a new line in the dock area. */ Q3ToolBar::Q3ToolBar(const QString &label, Q3MainWindow * parent, Qt::ToolBarDock dock, bool newLine, const char * name) : Q3DockWindow(InDock, parent, name, 0, true) { mw = parent; init(); if (parent) parent->addToolBar(this, label, dock, newLine); } /*! Constructs an empty horizontal toolbar. The toolbar is called \a name and is a child of \a parent and is managed by \a mainWindow. The \a label and \a newLine parameters are passed straight to Q3MainWindow::addDockWindow(). \a name and the widget flags \a f are passed on to the Q3DockWindow constructor. Use this constructor if you want to create torn-off (undocked, floating) toolbars or toolbars in the \link QStatusBar status bar\endlink. */ Q3ToolBar::Q3ToolBar(const QString &label, Q3MainWindow * mainWindow, QWidget * parent, bool newLine, const char * name, Qt::WindowFlags f) : Q3DockWindow(InDock, parent, name, f, true) { mw = mainWindow; init(); setParent(parent); if (mainWindow) mainWindow->addToolBar(this, label, Qt::DockUnmanaged, newLine); } /*! \overload Constructs an empty toolbar called \a name, with parent \a parent, in its \a parent's top dock area, without any label and without requiring a newline. */ Q3ToolBar::Q3ToolBar(Q3MainWindow * parent, const char * name) : Q3DockWindow(InDock, parent, name, 0, true) { mw = parent; init(); if (parent) parent->addToolBar(this, QString(), Qt::DockTop); } /*! \internal Common initialization code. Requires that \c mw and \c o are set. Does not call Q3MainWindow::addDockWindow(). */ void Q3ToolBar::init() { d = new Q3ToolBarPrivate; d->extension = 0; d->extensionPopup = 0; sw = 0; setBackgroundRole(QPalette::Button); setFocusPolicy(Qt::NoFocus); setFrameStyle(QFrame::ToolBarPanel | QFrame::Raised); } /*! Destructor. */ Q3ToolBar::~Q3ToolBar() { delete d; } /*! \reimp */ void Q3ToolBar::setOrientation(Qt::Orientation o) { Q3DockWindow::setOrientation(o); if (d->extension) d->extension->setOrientation(o); QObjectList childList = children(); for (int i = 0; i < childList.size(); ++i) { Q3ToolBarSeparator* w = qobject_cast(childList.at(i)); if (w) w->setOrientation(o); } } /*! Adds a separator to the right/bottom of the toolbar. */ void Q3ToolBar::addSeparator() { (void) new Q3ToolBarSeparator(orientation(), this, "toolbar separator"); } /*! \reimp */ void Q3ToolBar::styleChange(QStyle &oldStyle) { Q3DockWindow::styleChange(oldStyle); } /*! \reimp */ void Q3ToolBar::setVisible(bool visible) { Q3DockWindow::setVisible(visible); if (mw) mw->triggerLayout(false); if (visible) checkForExtension(size()); } /*! Returns a pointer to the Q3MainWindow which manages this toolbar. */ Q3MainWindow * Q3ToolBar::mainWindow() const { return mw; } /*! Sets the widget \a w to be expanded if this toolbar is requested to stretch. The request to stretch might occur because Q3MainWindow right-justifies the dock area the toolbar is in, or because this toolbar's isVerticalStretchable() or isHorizontalStretchable() is set to true. If you call this function and the toolbar is not yet stretchable, setStretchable() is called. \sa Q3MainWindow::setRightJustification(), setVerticalStretchable(), setHorizontalStretchable() */ void Q3ToolBar::setStretchableWidget(QWidget * w) { sw = w; boxLayout()->setStretchFactor(w, 1); if (!isHorizontalStretchable() && !isVerticalStretchable()) { if (orientation() == Qt::Horizontal) setHorizontalStretchable(true); else setVerticalStretchable(true); } } /*! \reimp */ bool Q3ToolBar::event(QEvent * e) { bool r = Q3DockWindow::event(e); // After the event filters have dealt with it, do our stuff. if (e->type() == QEvent::ChildInserted) { QObject * child = ((QChildEvent*)e)->child(); if (child && child->isWidgetType() && !((QWidget*)child)->isWindow() && child->parent() == this && QLatin1String("qt_dockwidget_internal") != child->objectName()) { boxLayout()->addWidget((QWidget*)child); QLayoutItem *item = boxLayout()->itemAt(boxLayout()->indexOf((QWidget*)child)); if (QToolButton *button = qobject_cast(child)) { item->setAlignment(Qt::AlignHCenter); button->setFocusPolicy(Qt::NoFocus); if (mw) { QObject::connect(mw, SIGNAL(pixmapSizeChanged(bool)), button, SLOT(setUsesBigPixmap(bool))); button->setUsesBigPixmap(mw->usesBigPixmaps()); QObject::connect(mw, SIGNAL(usesTextLabelChanged(bool)), child, SLOT(setUsesTextLabel(bool))); button->setUsesTextLabel(mw->usesTextLabel()); } button->setAutoRaise(true); } if (isVisible()) { // toolbar compatibility: we auto show widgets that // are not explicitly hidden if (((QWidget*)child)->testAttribute(Qt::WA_WState_Hidden) && !((QWidget*)child)->testAttribute(Qt::WA_WState_ExplicitShowHide)) ((QWidget*)child)->show(); checkForExtension(size()); } } if (child && child->isWidgetType() && ((QWidget*)child) == sw) boxLayout()->setStretchFactor((QWidget*)child, 1); } else if (e->type() == QEvent::Show) { layout()->activate(); } else if (e->type() == QEvent::LayoutHint && place() == OutsideDock) { adjustSize(); } return r; } /*! \property Q3ToolBar::label \brief the toolbar's label. If the toolbar is floated the label becomes the toolbar window's caption. There is no default label text. */ void Q3ToolBar::setLabel(const QString & label) { l = label; setWindowTitle(l); } QString Q3ToolBar::label() const { return l; } /*! Deletes all the toolbar's child widgets. */ void Q3ToolBar::clear() { QObjectList childList = children(); d->extension = 0; d->extensionPopup = 0; //they will both be destroyed by the following code for (int i = 0; i < childList.size(); ++i) { QObject *obj = childList.at(i); if (obj->isWidgetType() && QLatin1String("qt_dockwidget_internal") != obj->objectName()) delete obj; } } /*! \internal */ QSize Q3ToolBar::minimumSize() const { if (orientation() == Qt::Horizontal) return QSize(0, Q3DockWindow::minimumSize().height()); return QSize(Q3DockWindow::minimumSize().width(), 0); } /*! \reimp */ QSize Q3ToolBar::minimumSizeHint() const { if (orientation() == Qt::Horizontal) return QSize(0, Q3DockWindow::minimumSizeHint().height()); return QSize(Q3DockWindow::minimumSizeHint().width(), 0); } void Q3ToolBar::createPopup() { if (!d->extensionPopup) { d->extensionPopup = new Q3PopupMenu(this, "qt_dockwidget_internal"); connect(d->extensionPopup, SIGNAL(aboutToShow()), this, SLOT(createPopup())); } if (!d->extension) { d->extension = new Q3ToolBarExtensionWidget(this); d->extension->setOrientation(orientation()); d->extension->button()->setPopup(d->extensionPopup); d->extension->button()->setPopupMode(QToolButton::InstantPopup); } d->extensionPopup->clear(); // delete submenus QObjectList popups = d->extensionPopup->queryList("Q3PopupMenu", 0, false, true); while (!popups.isEmpty()) delete popups.takeFirst(); QObjectList childlist = queryList("QWidget", 0, false, true); bool hide = false; bool doHide = false; int id; for (int i = 0; i < childlist.size(); ++i) { QObject *obj = childlist.at(i); if (!obj->isWidgetType() || obj == d->extension->button() || obj == d->extensionPopup || QLatin1String("qt_dockwidget_internal") == obj->objectName()) { continue; } int j = 2; QWidget *w = (QWidget*)obj; if (qobject_cast(w)) j = 1; hide = false; const int padding = 4; // extra pixels added by the layout hierarchy QPoint p(mapTo(this, w->geometry().bottomRight())); if (orientation() == Qt::Horizontal) { if ((p.x() > (doHide ? width() - d->extension->width() / j - padding : width() - padding)) || (p.x() > parentWidget()->width() - d->extension->width())) hide = true; } else { if ((p.y() > (doHide ? height()- d->extension->height() / j - padding : height() - padding)) || (p.y() > parentWidget()->height() - d->extension->height())) hide = true; } if (hide && w->isVisible()) { doHide = true; if (qobject_cast(w)) { QToolButton *b = (QToolButton*)w; QString s = b->textLabel(); if (s.isEmpty()) s = b->text(); if (b->popup() && b->popupDelay() == 0) id = d->extensionPopup->insertItem(b->iconSet(), s, b->popup()); else id = d->extensionPopup->insertItem(b->iconSet(), s, b, SLOT(click())) ; if (b->isToggleButton()) d->extensionPopup->setItemChecked(id, b->isOn()); if (!b->isEnabled()) d->extensionPopup->setItemEnabled(id, false); } else if (qobject_cast(w)) { QAbstractButton *b = (QAbstractButton*)w; QString s = b->text(); if (s.isEmpty()) s = QLatin1String(""); if (b->pixmap()) id = d->extensionPopup->insertItem(*b->pixmap(), s, b, SLOT(click())); else id = d->extensionPopup->insertItem(s, b, SLOT(click())); if (b->isToggleButton()) d->extensionPopup->setItemChecked(id, b->isOn()); if (!b->isEnabled()) d->extensionPopup->setItemEnabled(id, false); #ifndef QT_NO_COMBOBOX } else if (qobject_cast(w)) { Q3ComboBox *c = (Q3ComboBox*)w; if (c->count() != 0) { QString s = c->windowTitle(); if (s.isEmpty()) s = c->currentText(); int maxItems = 0; Q3PopupMenu *cp = new Q3PopupMenu(d->extensionPopup); cp->setEnabled(c->isEnabled()); d->extensionPopup->insertItem(s, cp); connect(cp, SIGNAL(activated(int)), c, SLOT(internalActivate(int))); for (int i = 0; i < c->count(); ++i) { QString tmp = c->text(i); cp->insertItem(tmp, i); if (c->currentText() == tmp) cp->setItemChecked(i, true); if (!maxItems) { if (cp->actions().count() == 10) { int h = cp->sizeHint().height(); maxItems = QApplication::desktop()->height() * 10 / h; } } else if (cp->actions().count() >= maxItems - 1) { Q3PopupMenu* sp = new Q3PopupMenu(d->extensionPopup); cp->insertItem(tr("More..."), sp); cp = sp; connect(cp, SIGNAL(activated(int)), c, SLOT(internalActivate(int))); } } } #endif //QT_NO_COMBOBOX } } } } /*! \reimp */ void Q3ToolBar::resizeEvent(QResizeEvent *e) { Q3DockWindow::resizeEvent(e); checkForExtension(e->size()); } /*! \internal This function is called when an action is triggered. The relevant information is passed in the event \a e. */ void Q3ToolBar::actionEvent(QActionEvent *e) { if (e->type() == QEvent::ActionAdded) { QAction *a = e->action(); QWidget *w; if (a->isSeparator()) { w = new Q3ToolBarSeparator(orientation(), this, "toolbar separator"); } else { QToolButton* btn = new QToolButton(this); btn->setDefaultAction(a); w = btn; } d->actions.insert(a, w); } else if (e->type() == QEvent::ActionRemoved) { QAction *a = e->action(); delete d->actions.take(a); } } void Q3ToolBar::checkForExtension(const QSize &sz) { if (!isVisible()) return; if (d->checkingExtension) return; d->checkingExtension = true; bool tooSmall; if (orientation() == Qt::Horizontal) tooSmall = sz.width() < sizeHint().width(); else tooSmall = sz.height() < sizeHint().height(); if (tooSmall) { createPopup(); if (d->extensionPopup->actions().count()) { // parentWidget()->width() used since the Q3ToolBar width // will never be less than minimumSize() if (orientation() == Qt::Horizontal) d->extension->setGeometry((parentWidget() ? parentWidget()->width() : width()) - 20, 1, 20, height() - 2); else d->extension->setGeometry(1, (parentWidget() ? parentWidget()->height() : height()) - 20, width() - 2, 20); d->extension->show(); d->extension->raise(); } else { delete d->extension; d->extension = 0; delete d->extensionPopup; d->extensionPopup = 0; } } else { delete d->extension; d->extension = 0; delete d->extensionPopup; d->extensionPopup = 0; } d->checkingExtension = false; } /*! \internal */ void Q3ToolBar::setMinimumSize(int, int) { } /* from chaunsee: 1. Tool Bars should contain only high-frequency functions. Avoid putting things like About and Exit on a tool bar unless they are frequent functions. 2. All tool bar buttons must have some keyboard access method (it can be a menu or shortcut key or a function in a dialog box that can be accessed through the keyboard). 3. Make tool bar functions as efficient as possible (the common example is to Print in Microsoft applications, it doesn't bring up the Print dialog box, it prints immediately to the default printer). 4. Avoid turning tool bars into graphical menu bars. To me, a tool bar should be efficient. Once you make almost all the items in a tool bar into graphical pull-down menus, you start to lose efficiency. 5. Make sure that adjacent icons are distinctive. There are some tool bars where you see a group of 4-5 icons that represent related functions, but they are so similar that you can't differentiate among them. These tool bars are often a poor attempt at a "common visual language". 6. Use any de facto standard icons of your platform (for windows use the cut, copy and paste icons provided in dev kits rather than designing your own). 7. Avoid putting a highly destructive tool bar button (delete database) by a safe, high-frequency button (Find) -- this will yield 1-0ff errors). 8. Tooltips in many Microsoft products simply reiterate the menu text even when that is not explanatory. Consider making your tooltips slightly more verbose and explanatory than the corresponding menu item. 9. Keep the tool bar as stable as possible when you click on different objects. Consider disabling tool bar buttons if they are used in most, but not all contexts. 10. If you have multiple tool bars (like the Microsoft MMC snap-ins have), put the most stable tool bar to at the left with less stable ones to the right. This arrangement (stable to less stable) makes the tool bar somewhat more predictable. 11. Keep a single tool bar to fewer than 20 items divided into 4-7 groups of items. */ QT_END_NAMESPACE #endif