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/****************************************************************************
**
** 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 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 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 "qundogroup.h"
#include "qundostack.h"
#include "qundostack_p.h"
#ifndef QT_NO_UNDOGROUP
QT_BEGIN_NAMESPACE
class QUndoGroupPrivate : public QObjectPrivate
{
Q_DECLARE_PUBLIC(QUndoGroup)
public:
QUndoGroupPrivate() : active(0) {}
QUndoStack *active;
QList<QUndoStack*> stack_list;
};
/*!
\class QUndoGroup
\brief The QUndoGroup class is a group of QUndoStack objects.
\since 4.2
For an overview of the Qt's undo framework, see the
\link qundo.html overview\endlink.
An application often has multiple undo stacks, one for each opened document. At the
same time, an application usually has one undo action and one redo action, which
triggers undo or redo in the active document.
QUndoGroup is a group of QUndoStack objects, one of which may be active. It has
an undo() and redo() slot, which calls QUndoStack::undo() and QUndoStack::redo()
for the active stack. It also has the functions createUndoAction() and createRedoAction().
The actions returned by these functions behave in the same way as those returned by
QUndoStack::createUndoAction() and QUndoStack::createRedoAction() of the active
stack.
Stacks are added to a group with addStack() and removed with removeStack(). A stack
is implicitly added to a group when it is created with the group as its parent
QObject.
It is the programmer's responsibility to specify which stack is active by
calling QUndoStack::setActive(), usually when the associated document window receives focus.
The active stack may also be set with setActiveStack(), and is returned by activeStack().
When a stack is added to a group using addStack(), the group does not take ownership
of the stack. This means the stack has to be deleted separately from the group. When
a stack is deleted, it is automatically removed from a group. A stack may belong to
only one group. Adding it to another group will cause it to be removed from the previous
group.
A QUndoGroup is also useful in conjunction with QUndoView. If a QUndoView is
set to watch a group using QUndoView::setGroup(), it will update itself to display
the active stack.
*/
/*!
Creates an empty QUndoGroup object with parent \a parent.
\sa addStack()
*/
QUndoGroup::QUndoGroup(QObject *parent)
: QObject(*new QUndoGroupPrivate(), parent)
{
}
/*!
Destroys the QUndoGroup.
*/
QUndoGroup::~QUndoGroup()
{
// Ensure all QUndoStacks no longer refer to this group.
Q_D(QUndoGroup);
QList<QUndoStack *>::iterator it = d->stack_list.begin();
QList<QUndoStack *>::iterator end = d->stack_list.end();
while (it != end) {
(*it)->d_func()->group = 0;
++it;
}
}
/*!
Adds \a stack to this group. The group does not take ownership of the stack. Another
way of adding a stack to a group is by specifying the group as the stack's parent
QObject in QUndoStack::QUndoStack(). In this case, the stack is deleted when the
group is deleted, in the usual manner of QObjects.
\sa removeStack() stacks() QUndoStack::QUndoStack()
*/
void QUndoGroup::addStack(QUndoStack *stack)
{
Q_D(QUndoGroup);
if (d->stack_list.contains(stack))
return;
d->stack_list.append(stack);
if (QUndoGroup *other = stack->d_func()->group)
other->removeStack(stack);
stack->d_func()->group = this;
}
/*!
Removes \a stack from this group. If the stack was the active stack in the group,
the active stack becomes 0.
\sa addStack() stacks() QUndoStack::~QUndoStack()
*/
void QUndoGroup::removeStack(QUndoStack *stack)
{
Q_D(QUndoGroup);
if (d->stack_list.removeAll(stack) == 0)
return;
if (stack == d->active)
setActiveStack(0);
stack->d_func()->group = 0;
}
/*!
Returns a list of stacks in this group.
\sa addStack() removeStack()
*/
QList<QUndoStack*> QUndoGroup::stacks() const
{
Q_D(const QUndoGroup);
return d->stack_list;
}
/*!
Sets the active stack of this group to \a stack.
If the stack is not a member of this group, this function does nothing.
Synonymous with calling QUndoStack::setActive() on \a stack.
The actions returned by createUndoAction() and createRedoAction() will now behave
in the same way as those returned by \a stack's QUndoStack::createUndoAction()
and QUndoStack::createRedoAction().
\sa QUndoStack::setActive() activeStack()
*/
void QUndoGroup::setActiveStack(QUndoStack *stack)
{
Q_D(QUndoGroup);
if (d->active == stack)
return;
if (d->active != 0) {
disconnect(d->active, SIGNAL(canUndoChanged(bool)),
this, SIGNAL(canUndoChanged(bool)));
disconnect(d->active, SIGNAL(undoTextChanged(QString)),
this, SIGNAL(undoTextChanged(QString)));
disconnect(d->active, SIGNAL(canRedoChanged(bool)),
this, SIGNAL(canRedoChanged(bool)));
disconnect(d->active, SIGNAL(redoTextChanged(QString)),
this, SIGNAL(redoTextChanged(QString)));
disconnect(d->active, SIGNAL(indexChanged(int)),
this, SIGNAL(indexChanged(int)));
disconnect(d->active, SIGNAL(cleanChanged(bool)),
this, SIGNAL(cleanChanged(bool)));
}
d->active = stack;
if (d->active == 0) {
emit canUndoChanged(false);
emit undoTextChanged(QString());
emit canRedoChanged(false);
emit redoTextChanged(QString());
emit cleanChanged(true);
emit indexChanged(0);
} else {
connect(d->active, SIGNAL(canUndoChanged(bool)),
this, SIGNAL(canUndoChanged(bool)));
connect(d->active, SIGNAL(undoTextChanged(QString)),
this, SIGNAL(undoTextChanged(QString)));
connect(d->active, SIGNAL(canRedoChanged(bool)),
this, SIGNAL(canRedoChanged(bool)));
connect(d->active, SIGNAL(redoTextChanged(QString)),
this, SIGNAL(redoTextChanged(QString)));
connect(d->active, SIGNAL(indexChanged(int)),
this, SIGNAL(indexChanged(int)));
connect(d->active, SIGNAL(cleanChanged(bool)),
this, SIGNAL(cleanChanged(bool)));
emit canUndoChanged(d->active->canUndo());
emit undoTextChanged(d->active->undoText());
emit canRedoChanged(d->active->canRedo());
emit redoTextChanged(d->active->redoText());
emit cleanChanged(d->active->isClean());
emit indexChanged(d->active->index());
}
emit activeStackChanged(d->active);
}
/*!
Returns the active stack of this group.
If none of the stacks are active, or if the group is empty, this function
returns 0.
\sa setActiveStack() QUndoStack::setActive()
*/
QUndoStack *QUndoGroup::activeStack() const
{
Q_D(const QUndoGroup);
return d->active;
}
/*!
Calls QUndoStack::undo() on the active stack.
If none of the stacks are active, or if the group is empty, this function
does nothing.
\sa redo() canUndo() setActiveStack()
*/
void QUndoGroup::undo()
{
Q_D(QUndoGroup);
if (d->active != 0)
d->active->undo();
}
/*!
Calls QUndoStack::redo() on the active stack.
If none of the stacks are active, or if the group is empty, this function
does nothing.
\sa undo() canRedo() setActiveStack()
*/
void QUndoGroup::redo()
{
Q_D(QUndoGroup);
if (d->active != 0)
d->active->redo();
}
/*!
Returns the value of the active stack's QUndoStack::canUndo().
If none of the stacks are active, or if the group is empty, this function
returns false.
\sa canRedo() setActiveStack()
*/
bool QUndoGroup::canUndo() const
{
Q_D(const QUndoGroup);
return d->active != 0 && d->active->canUndo();
}
/*!
Returns the value of the active stack's QUndoStack::canRedo().
If none of the stacks are active, or if the group is empty, this function
returns false.
\sa canUndo() setActiveStack()
*/
bool QUndoGroup::canRedo() const
{
Q_D(const QUndoGroup);
return d->active != 0 && d->active->canRedo();
}
/*!
Returns the value of the active stack's QUndoStack::undoText().
If none of the stacks are active, or if the group is empty, this function
returns an empty string.
\sa redoText() setActiveStack()
*/
QString QUndoGroup::undoText() const
{
Q_D(const QUndoGroup);
return d->active == 0 ? QString() : d->active->undoText();
}
/*!
Returns the value of the active stack's QUndoStack::redoText().
If none of the stacks are active, or if the group is empty, this function
returns an empty string.
\sa undoText() setActiveStack()
*/
QString QUndoGroup::redoText() const
{
Q_D(const QUndoGroup);
return d->active == 0 ? QString() : d->active->redoText();
}
/*!
Returns the value of the active stack's QUndoStack::isClean().
If none of the stacks are active, or if the group is empty, this function
returns true.
\sa setActiveStack()
*/
bool QUndoGroup::isClean() const
{
Q_D(const QUndoGroup);
return d->active == 0 || d->active->isClean();
}
#ifndef QT_NO_ACTION
/*!
Creates an undo QAction object with parent \a parent.
Triggering this action will cause a call to QUndoStack::undo() on the active stack.
The text of this action will always be the text of the command which will be undone
in the next call to undo(), prefixed by \a prefix. If there is no command available
for undo, if the group is empty or if none of the stacks are active, this action will
be disabled.
If \a prefix is empty, the default prefix "Undo" is used.
\sa createRedoAction() canUndo() QUndoCommand::text()
*/
QAction *QUndoGroup::createUndoAction(QObject *parent, const QString &prefix) const
{
QString pref = prefix.isEmpty() ? tr("Undo") : prefix;
QUndoAction *result = new QUndoAction(pref, parent);
result->setEnabled(canUndo());
result->setPrefixedText(undoText());
connect(this, SIGNAL(canUndoChanged(bool)),
result, SLOT(setEnabled(bool)));
connect(this, SIGNAL(undoTextChanged(QString)),
result, SLOT(setPrefixedText(QString)));
connect(result, SIGNAL(triggered()), this, SLOT(undo()));
return result;
}
/*!
Creates an redo QAction object with parent \a parent.
Triggering this action will cause a call to QUndoStack::redo() on the active stack.
The text of this action will always be the text of the command which will be redone
in the next call to redo(), prefixed by \a prefix. If there is no command available
for redo, if the group is empty or if none of the stacks are active, this action will
be disabled.
If \a prefix is empty, the default prefix "Undo" is used.
\sa createUndoAction() canRedo() QUndoCommand::text()
*/
QAction *QUndoGroup::createRedoAction(QObject *parent, const QString &prefix) const
{
QString pref = prefix.isEmpty() ? tr("Redo") : prefix;
QUndoAction *result = new QUndoAction(pref, parent);
result->setEnabled(canRedo());
result->setPrefixedText(redoText());
connect(this, SIGNAL(canRedoChanged(bool)),
result, SLOT(setEnabled(bool)));
connect(this, SIGNAL(redoTextChanged(QString)),
result, SLOT(setPrefixedText(QString)));
connect(result, SIGNAL(triggered()), this, SLOT(redo()));
return result;
}
#endif // QT_NO_ACTION
/*! \fn void QUndoGroup::activeStackChanged(QUndoStack *stack)
This signal is emitted whenever the active stack of the group changes. This can happen
when setActiveStack() or QUndoStack::setActive() is called, or when the active stack
is removed form the group. \a stack is the new active stack. If no stack is active,
\a stack is 0.
\sa setActiveStack() QUndoStack::setActive()
*/
/*! \fn void QUndoGroup::indexChanged(int idx)
This signal is emitted whenever the active stack emits QUndoStack::indexChanged()
or the active stack changes.
\a idx is the new current index, or 0 if the active stack is 0.
\sa QUndoStack::indexChanged() setActiveStack()
*/
/*! \fn void QUndoGroup::cleanChanged(bool clean)
This signal is emitted whenever the active stack emits QUndoStack::cleanChanged()
or the active stack changes.
\a clean is the new state, or true if the active stack is 0.
\sa QUndoStack::cleanChanged() setActiveStack()
*/
/*! \fn void QUndoGroup::canUndoChanged(bool canUndo)
This signal is emitted whenever the active stack emits QUndoStack::canUndoChanged()
or the active stack changes.
\a canUndo is the new state, or false if the active stack is 0.
\sa QUndoStack::canUndoChanged() setActiveStack()
*/
/*! \fn void QUndoGroup::canRedoChanged(bool canRedo)
This signal is emitted whenever the active stack emits QUndoStack::canRedoChanged()
or the active stack changes.
\a canRedo is the new state, or false if the active stack is 0.
\sa QUndoStack::canRedoChanged() setActiveStack()
*/
/*! \fn void QUndoGroup::undoTextChanged(const QString &undoText)
This signal is emitted whenever the active stack emits QUndoStack::undoTextChanged()
or the active stack changes.
\a undoText is the new state, or an empty string if the active stack is 0.
\sa QUndoStack::undoTextChanged() setActiveStack()
*/
/*! \fn void QUndoGroup::redoTextChanged(const QString &redoText)
This signal is emitted whenever the active stack emits QUndoStack::redoTextChanged()
or the active stack changes.
\a redoText is the new state, or an empty string if the active stack is 0.
\sa QUndoStack::redoTextChanged() setActiveStack()
*/
QT_END_NAMESPACE
#endif // QT_NO_UNDOGROUP
|