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#include "qstackedlayout.h"
#include "qlayout_p.h"
#include <qlist.h>
#include <qwidget.h>
#include "private/qlayoutengine_p.h"
QT_BEGIN_NAMESPACE
class QStackedLayoutPrivate : public QLayoutPrivate
{
Q_DECLARE_PUBLIC(QStackedLayout)
public:
QStackedLayoutPrivate() : index(-1), stackingMode(QStackedLayout::StackOne) {}
QList<QLayoutItem *> list;
int index;
QStackedLayout::StackingMode stackingMode;
};
/*!
\class QStackedLayout
\brief The QStackedLayout class provides a stack of widgets where
only one widget is visible at a time.
\ingroup geomanagement
QStackedLayout can be used to create a user interface similar to
the one provided by QTabWidget. There is also a convenience
QStackedWidget class built on top of QStackedLayout.
A QStackedLayout can be populated with a number of child widgets
("pages"). For example:
\snippet doc/src/snippets/qstackedlayout/main.cpp 0
\codeline
\snippet doc/src/snippets/qstackedlayout/main.cpp 2
\snippet doc/src/snippets/qstackedlayout/main.cpp 3
QStackedLayout provides no intrinsic means for the user to switch
page. This is typically done through a QComboBox or a QListWidget
that stores the titles of the QStackedLayout's pages. For
example:
\snippet doc/src/snippets/qstackedlayout/main.cpp 1
When populating a layout, the widgets are added to an internal
list. The indexOf() function returns the index of a widget in that
list. The widgets can either be added to the end of the list using
the addWidget() function, or inserted at a given index using the
insertWidget() function. The removeWidget() function removes the
widget at the given index from the layout. The number of widgets
contained in the layout, can be obtained using the count()
function.
The widget() function returns the widget at a given index
position. The index of the widget that is shown on screen is given
by currentIndex() and can be changed using setCurrentIndex(). In a
similar manner, the currently shown widget can be retrieved using
the currentWidget() function, and altered using the
setCurrentWidget() function.
Whenever the current widget in the layout changes or a widget is
removed from the layout, the currentChanged() and widgetRemoved()
signals are emitted respectively.
\sa QStackedWidget, QTabWidget
*/
/*!
\fn void QStackedLayout::currentChanged(int index)
This signal is emitted whenever the current widget in the layout
changes. The \a index specifies the index of the new current
widget, or -1 if there isn't a new one (for example, if there
are no widgets in the QStackedLayout)
\sa currentWidget(), setCurrentWidget()
*/
/*!
\fn void QStackedLayout::widgetRemoved(int index)
This signal is emitted whenever a widget is removed from the
layout. The widget's \a index is passed as parameter.
\sa removeWidget()
*/
/*!
\fn QWidget *QStackedLayout::widget()
\internal
*/
/*!
Constructs a QStackedLayout with no parent.
This QStackedLayout must be installed on a widget later on to
become effective.
\sa addWidget(), insertWidget()
*/
QStackedLayout::QStackedLayout()
: QLayout(*new QStackedLayoutPrivate, 0, 0)
{
}
/*!
Constructs a new QStackedLayout with the given \a parent.
This layout will install itself on the \a parent widget and
manage the geometry of its children.
*/
QStackedLayout::QStackedLayout(QWidget *parent)
: QLayout(*new QStackedLayoutPrivate, 0, parent)
{
}
/*!
Constructs a new QStackedLayout and inserts it into
the given \a parentLayout.
*/
QStackedLayout::QStackedLayout(QLayout *parentLayout)
: QLayout(*new QStackedLayoutPrivate, parentLayout, 0)
{
}
/*!
Destroys this QStackedLayout. Note that the layout's widgets are
\e not destroyed.
*/
QStackedLayout::~QStackedLayout()
{
Q_D(QStackedLayout);
qDeleteAll(d->list);
}
/*!
Adds the given \a widget to the end of this layout and returns the
index position of the \a widget.
If the QStackedLayout is empty before this function is called,
the given \a widget becomes the current widget.
\sa insertWidget(), removeWidget(), setCurrentWidget()
*/
int QStackedLayout::addWidget(QWidget *widget)
{
Q_D(QStackedLayout);
return insertWidget(d->list.count(), widget);
}
/*!
Inserts the given \a widget at the given \a index in this
QStackedLayout. If \a index is out of range, the widget is
appended (in which case it is the actual index of the \a widget
that is returned).
If the QStackedLayout is empty before this function is called, the
given \a widget becomes the current widget.
Inserting a new widget at an index less than or equal to the current index
will increment the current index, but keep the current widget.
\sa addWidget(), removeWidget(), setCurrentWidget()
*/
int QStackedLayout::insertWidget(int index, QWidget *widget)
{
Q_D(QStackedLayout);
addChildWidget(widget);
index = qMin(index, d->list.count());
if (index < 0)
index = d->list.count();
QWidgetItem *wi = QLayoutPrivate::createWidgetItem(this, widget);
d->list.insert(index, wi);
invalidate();
if (d->index < 0) {
setCurrentIndex(index);
} else {
if (index <= d->index)
++d->index;
if (d->stackingMode == StackOne)
widget->hide();
widget->lower();
}
return index;
}
/*!
\reimp
*/
QLayoutItem *QStackedLayout::itemAt(int index) const
{
Q_D(const QStackedLayout);
return d->list.value(index);
}
// Code that enables proper handling of the case that takeAt() is
// called somewhere inside QObject destructor (can't call hide()
// on the object then)
class QtFriendlyLayoutWidget : public QWidget
{
public:
inline bool wasDeleted() const { return d_ptr->wasDeleted; }
};
static bool qt_wasDeleted(const QWidget *w) { return static_cast<const QtFriendlyLayoutWidget*>(w)->wasDeleted(); }
/*!
\reimp
*/
QLayoutItem *QStackedLayout::takeAt(int index)
{
Q_D(QStackedLayout);
if (index <0 || index >= d->list.size())
return 0;
QLayoutItem *item = d->list.takeAt(index);
if (index == d->index) {
d->index = -1;
if ( d->list.count() > 0 ) {
int newIndex = (index == d->list.count()) ? index-1 : index;
setCurrentIndex(newIndex);
} else {
emit currentChanged(-1);
}
} else if (index < d->index) {
--d->index;
}
emit widgetRemoved(index);
if (item->widget() && !qt_wasDeleted(item->widget()))
item->widget()->hide();
return item;
}
/*!
\property QStackedLayout::currentIndex
\brief the index position of the widget that is visible
The current index is -1 if there is no current widget.
\sa currentWidget(), indexOf()
*/
void QStackedLayout::setCurrentIndex(int index)
{
Q_D(QStackedLayout);
QWidget *prev = currentWidget();
QWidget *next = widget(index);
if (!next || next == prev)
return;
bool reenableUpdates = false;
QWidget *parent = parentWidget();
if (parent && parent->updatesEnabled()) {
reenableUpdates = true;
parent->setUpdatesEnabled(false);
}
QWidget *fw = parent ? parent->window()->focusWidget() : 0;
if (prev) {
prev->clearFocus();
if (d->stackingMode == StackOne)
prev->hide();
}
d->index = index;
next->raise();
next->show();
// try to move focus onto the incoming widget if focus
// was somewhere on the outgoing widget.
if (parent) {
if (fw && (prev && prev->isAncestorOf(fw))) { // focus was on old page
// look for the best focus widget we can find
if (QWidget *nfw = next->focusWidget())
nfw->setFocus();
else {
// second best: first child widget in the focus chain
QWidget *i = fw;
while ((i = i->nextInFocusChain()) != fw) {
if (((i->focusPolicy() & Qt::TabFocus) == Qt::TabFocus)
&& !i->focusProxy() && i->isVisibleTo(next) && i->isEnabled()
&& next->isAncestorOf(i)) {
i->setFocus();
break;
}
}
// third best: incoming widget
if (i == fw )
next->setFocus();
}
}
}
if (reenableUpdates)
parent->setUpdatesEnabled(true);
emit currentChanged(index);
}
int QStackedLayout::currentIndex() const
{
Q_D(const QStackedLayout);
return d->index;
}
/*!
\fn void QStackedLayout::setCurrentWidget(QWidget *widget)
Sets the current widget to be the specified \a widget. The new
current widget must already be contained in this stacked layout.
\sa setCurrentIndex(), currentWidget()
*/
void QStackedLayout::setCurrentWidget(QWidget *widget)
{
int index = indexOf(widget);
if (index == -1) {
qWarning("QStackedLayout::setCurrentWidget: Widget %p not contained in stack", widget);
return;
}
setCurrentIndex(index);
}
/*!
Returns the current widget, or 0 if there are no widgets in this
layout.
\sa currentIndex(), setCurrentWidget()
*/
QWidget *QStackedLayout::currentWidget() const
{
Q_D(const QStackedLayout);
return d->index >= 0 ? d->list.at(d->index)->widget() : 0;
}
/*!
Returns the widget at the given \a index, or 0 if there is no
widget at the given position.
\sa currentWidget(), indexOf()
*/
QWidget *QStackedLayout::widget(int index) const
{
Q_D(const QStackedLayout);
if (index < 0 || index >= d->list.size())
return 0;
return d->list.at(index)->widget();
}
/*!
\property QStackedLayout::count
\brief the number of widgets contained in the layout
\sa currentIndex(), widget()
*/
int QStackedLayout::count() const
{
Q_D(const QStackedLayout);
return d->list.size();
}
/*!
\reimp
*/
void QStackedLayout::addItem(QLayoutItem *item)
{
QWidget *widget = item->widget();
if (widget) {
addWidget(widget);
delete item;
} else {
qWarning("QStackedLayout::addItem: Only widgets can be added");
}
}
/*!
\reimp
*/
QSize QStackedLayout::sizeHint() const
{
Q_D(const QStackedLayout);
QSize s(0, 0);
int n = d->list.count();
for (int i = 0; i < n; ++i)
if (QWidget *widget = d->list.at(i)->widget()) {
QSize ws(widget->sizeHint());
if (widget->sizePolicy().horizontalPolicy() == QSizePolicy::Ignored)
ws.setWidth(0);
if (widget->sizePolicy().verticalPolicy() == QSizePolicy::Ignored)
ws.setHeight(0);
s = s.expandedTo(ws);
}
return s;
}
/*!
\reimp
*/
QSize QStackedLayout::minimumSize() const
{
Q_D(const QStackedLayout);
QSize s(0, 0);
int n = d->list.count();
for (int i = 0; i < n; ++i)
if (QWidget *widget = d->list.at(i)->widget())
s = s.expandedTo(qSmartMinSize(widget));
return s;
}
/*!
\reimp
*/
void QStackedLayout::setGeometry(const QRect &rect)
{
Q_D(QStackedLayout);
switch (d->stackingMode) {
case StackOne:
if (QWidget *widget = currentWidget())
widget->setGeometry(rect);
break;
case StackAll:
if (const int n = d->list.count())
for (int i = 0; i < n; ++i)
if (QWidget *widget = d->list.at(i)->widget())
widget->setGeometry(rect);
break;
}
}
/*!
\enum QStackedLayout::StackingMode
\since 4.4
This enum specifies how the layout handles its child widgets
regarding their visibility.
\value StackOne
Only the current widget is visible. This is the default.
\value StackAll
All widgets are visible. The current widget is merely raised.
*/
/*!
\property QStackedLayout::stackingMode
\brief determines the way visibility of child widgets are handled.
\since 4.4
The default value is StackOne. Setting the property to StackAll
allows you to make use of the layout for overlay widgets
that do additional drawing on top of other widgets, for example,
graphical editors.
*/
QStackedLayout::StackingMode QStackedLayout::stackingMode() const
{
Q_D(const QStackedLayout);
return d->stackingMode;
}
void QStackedLayout::setStackingMode(StackingMode stackingMode)
{
Q_D(QStackedLayout);
if (d->stackingMode == stackingMode)
return;
d->stackingMode = stackingMode;
const int n = d->list.count();
if (n == 0)
return;
switch (d->stackingMode) {
case StackOne:
if (const int idx = currentIndex())
for (int i = 0; i < n; ++i)
if (QWidget *widget = d->list.at(i)->widget())
widget->setVisible(i == idx);
break;
case StackAll: { // Turn overlay on: Make sure all widgets are the same size
QRect geometry;
if (const QWidget *widget = currentWidget())
geometry = widget->geometry();
for (int i = 0; i < n; ++i)
if (QWidget *widget = d->list.at(i)->widget()) {
if (!geometry.isNull())
widget->setGeometry(geometry);
widget->setVisible(true);
}
}
break;
}
}
QT_END_NAMESPACE