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|
/****************************************************************************
**
** 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 QtDeclarative 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 "private/qdeclarativeitem_p.h"
#include "qdeclarativeitem.h"
#include "private/qdeclarativeevents_p_p.h"
#include <private/qdeclarativeengine_p.h>
#include <private/qgraphicsitem_p.h>
#include <qdeclarativeengine.h>
#include <qdeclarativeopenmetaobject_p.h>
#include <qdeclarativestate_p.h>
#include <qdeclarativeview.h>
#include <qdeclarativestategroup_p.h>
#include <qdeclarativecomponent.h>
#include <qdeclarativeinfo.h>
#include <QDebug>
#include <QPen>
#include <QEvent>
#include <QGraphicsSceneMouseEvent>
#include <QtCore/qnumeric.h>
#include <QtScript/qscriptengine.h>
#include <QtGui/qgraphicstransform.h>
#include <qlistmodelinterface_p.h>
#include <float.h>
QT_BEGIN_NAMESPACE
/*!
\qmlclass Transform QGraphicsTransform
\ingroup qml-transform-elements
\since 4.7
\brief The Transform elements provide a way of building advanced transformations on Items.
The Transform element is a base type which cannot be instantiated directly.
The following concrete Transform types are available:
\list
\o \l Rotation
\o \l Scale
\o \l Translate
\endlist
The Transform elements let you create and control advanced transformations that can be configured
independently using specialized properties.
You can assign any number of Transform elements to an \l Item. Each Transform is applied in order,
one at a time.
*/
/*!
\qmlclass Translate QDeclarativeTranslate
\ingroup qml-transform-elements
\since 4.7
\brief The Translate object provides a way to move an Item without changing its x or y properties.
The Translate object provides independent control over position in addition to the Item's x and y properties.
The following example moves the Y axis of the \l Rectangle elements while still allowing the \l Row element
to lay the items out as if they had not been transformed:
\qml
import QtQuick 1.0
Row {
Rectangle {
width: 100; height: 100
color: "blue"
transform: Translate { y: 20 }
}
Rectangle {
width: 100; height: 100
color: "red"
transform: Translate { y: -20 }
}
}
\endqml
\image translate.png
*/
/*!
\qmlproperty real Translate::x
The translation along the X axis.
*/
/*!
\qmlproperty real Translate::y
The translation along the Y axis.
*/
/*!
\qmlclass Scale QGraphicsScale
\ingroup qml-transform-elements
\since 4.7
\brief The Scale element provides a way to scale an Item.
The Scale element gives more control over scaling than using \l Item's \l{Item::scale}{scale} property. Specifically,
it allows a different scale for the x and y axes, and allows the scale to be relative to an
arbitrary point.
The following example scales the X axis of the Rectangle, relative to its interior point 25, 25:
\qml
Rectangle {
width: 100; height: 100
color: "blue"
transform: Scale { origin.x: 25; origin.y: 25; xScale: 3}
}
\endqml
\sa Rotation, Translate
*/
/*!
\qmlproperty real Scale::origin.x
\qmlproperty real Scale::origin.y
The point that the item is scaled from (i.e., the point that stays fixed relative to the parent as
the rest of the item grows). By default the origin is 0, 0.
*/
/*!
\qmlproperty real Scale::xScale
The scaling factor for the X axis.
*/
/*!
\qmlproperty real Scale::yScale
The scaling factor for the Y axis.
*/
/*!
\qmlclass Rotation QGraphicsRotation
\ingroup qml-transform-elements
\since 4.7
\brief The Rotation object provides a way to rotate an Item.
The Rotation object gives more control over rotation than using \l Item's \l{Item::rotation}{rotation} property.
Specifically, it allows (z axis) rotation to be relative to an arbitrary point.
The following example rotates a Rectangle around its interior point 25, 25:
\qml
Rectangle {
width: 100; height: 100
color: "blue"
transform: Rotation { origin.x: 25; origin.y: 25; angle: 45}
}
\endqml
Rotation also provides a way to specify 3D-like rotations for Items. For these types of
rotations you must specify the axis to rotate around in addition to the origin point.
The following example shows various 3D-like rotations applied to an \l Image.
\snippet doc/src/snippets/declarative/rotation.qml 0
\image axisrotation.png
\sa {declarative/ui-components/dialcontrol}{Dial Control example}, {declarative/toys/clocks}{Clocks example}
*/
/*!
\qmlproperty real Rotation::origin.x
\qmlproperty real Rotation::origin.y
The origin point of the rotation (i.e., the point that stays fixed relative to the parent as
the rest of the item rotates). By default the origin is 0, 0.
*/
/*!
\qmlproperty real Rotation::axis.x
\qmlproperty real Rotation::axis.y
\qmlproperty real Rotation::axis.z
The axis to rotate around. For simple (2D) rotation around a point, you do not need to specify an axis,
as the default axis is the z axis (\c{ axis { x: 0; y: 0; z: 1 } }).
For a typical 3D-like rotation you will usually specify both the origin and the axis.
\image 3d-rotation-axis.png
*/
/*!
\qmlproperty real Rotation::angle
The angle to rotate, in degrees clockwise.
*/
QDeclarativeContents::QDeclarativeContents(QDeclarativeItem *item) : m_item(item), m_x(0), m_y(0), m_width(0), m_height(0)
{
//### optimize
connect(this, SIGNAL(rectChanged(QRectF)), m_item, SIGNAL(childrenRectChanged(QRectF)));
}
QDeclarativeContents::~QDeclarativeContents()
{
QList<QGraphicsItem *> children = m_item->childItems();
for (int i = 0; i < children.count(); ++i) {
QDeclarativeItem *child = qobject_cast<QDeclarativeItem *>(children.at(i));
if(!child)//### Should this be ignoring non-QDeclarativeItem graphicsobjects?
continue;
QDeclarativeItemPrivate::get(child)->removeItemChangeListener(this, QDeclarativeItemPrivate::Geometry | QDeclarativeItemPrivate::Destroyed);
}
}
QRectF QDeclarativeContents::rectF() const
{
return QRectF(m_x, m_y, m_width, m_height);
}
void QDeclarativeContents::calcHeight(QDeclarativeItem *changed)
{
qreal oldy = m_y;
qreal oldheight = m_height;
if (changed) {
qreal top = oldy;
qreal bottom = oldy + oldheight;
qreal y = changed->y();
if (y + changed->height() > bottom)
bottom = y + changed->height();
if (y < top)
top = y;
m_y = top;
m_height = bottom - top;
} else {
qreal top = FLT_MAX;
qreal bottom = 0;
QList<QGraphicsItem *> children = m_item->childItems();
for (int i = 0; i < children.count(); ++i) {
QDeclarativeItem *child = qobject_cast<QDeclarativeItem *>(children.at(i));
if(!child)//### Should this be ignoring non-QDeclarativeItem graphicsobjects?
continue;
qreal y = child->y();
if (y + child->height() > bottom)
bottom = y + child->height();
if (y < top)
top = y;
}
if (!children.isEmpty())
m_y = top;
m_height = qMax(bottom - top, qreal(0.0));
}
if (m_height != oldheight || m_y != oldy)
emit rectChanged(rectF());
}
void QDeclarativeContents::calcWidth(QDeclarativeItem *changed)
{
qreal oldx = m_x;
qreal oldwidth = m_width;
if (changed) {
qreal left = oldx;
qreal right = oldx + oldwidth;
qreal x = changed->x();
if (x + changed->width() > right)
right = x + changed->width();
if (x < left)
left = x;
m_x = left;
m_width = right - left;
} else {
qreal left = FLT_MAX;
qreal right = 0;
QList<QGraphicsItem *> children = m_item->childItems();
for (int i = 0; i < children.count(); ++i) {
QDeclarativeItem *child = qobject_cast<QDeclarativeItem *>(children.at(i));
if(!child)//### Should this be ignoring non-QDeclarativeItem graphicsobjects?
continue;
qreal x = child->x();
if (x + child->width() > right)
right = x + child->width();
if (x < left)
left = x;
}
if (!children.isEmpty())
m_x = left;
m_width = qMax(right - left, qreal(0.0));
}
if (m_width != oldwidth || m_x != oldx)
emit rectChanged(rectF());
}
void QDeclarativeContents::complete()
{
QList<QGraphicsItem *> children = m_item->childItems();
for (int i = 0; i < children.count(); ++i) {
QDeclarativeItem *child = qobject_cast<QDeclarativeItem *>(children.at(i));
if(!child)//### Should this be ignoring non-QDeclarativeItem graphicsobjects?
continue;
QDeclarativeItemPrivate::get(child)->addItemChangeListener(this, QDeclarativeItemPrivate::Geometry | QDeclarativeItemPrivate::Destroyed);
//###what about changes to visibility?
}
calcGeometry();
}
void QDeclarativeContents::itemGeometryChanged(QDeclarativeItem *changed, const QRectF &newGeometry, const QRectF &oldGeometry)
{
Q_UNUSED(changed)
//### we can only pass changed if the left edge has moved left, or the right edge has moved right
if (newGeometry.width() != oldGeometry.width() || newGeometry.x() != oldGeometry.x())
calcWidth(/*changed*/);
if (newGeometry.height() != oldGeometry.height() || newGeometry.y() != oldGeometry.y())
calcHeight(/*changed*/);
}
void QDeclarativeContents::itemDestroyed(QDeclarativeItem *item)
{
if (item)
QDeclarativeItemPrivate::get(item)->removeItemChangeListener(this, QDeclarativeItemPrivate::Geometry | QDeclarativeItemPrivate::Destroyed);
calcGeometry();
}
void QDeclarativeContents::childRemoved(QDeclarativeItem *item)
{
if (item)
QDeclarativeItemPrivate::get(item)->removeItemChangeListener(this, QDeclarativeItemPrivate::Geometry | QDeclarativeItemPrivate::Destroyed);
calcGeometry();
}
void QDeclarativeContents::childAdded(QDeclarativeItem *item)
{
if (item)
QDeclarativeItemPrivate::get(item)->addItemChangeListener(this, QDeclarativeItemPrivate::Geometry | QDeclarativeItemPrivate::Destroyed);
calcWidth(item);
calcHeight(item);
}
QDeclarativeItemKeyFilter::QDeclarativeItemKeyFilter(QDeclarativeItem *item)
: m_processPost(false), m_next(0)
{
QDeclarativeItemPrivate *p =
item?static_cast<QDeclarativeItemPrivate *>(QGraphicsItemPrivate::get(item)):0;
if (p) {
m_next = p->keyHandler;
p->keyHandler = this;
}
}
QDeclarativeItemKeyFilter::~QDeclarativeItemKeyFilter()
{
}
void QDeclarativeItemKeyFilter::keyPressed(QKeyEvent *event, bool post)
{
if (m_next) m_next->keyPressed(event, post);
}
void QDeclarativeItemKeyFilter::keyReleased(QKeyEvent *event, bool post)
{
if (m_next) m_next->keyReleased(event, post);
}
void QDeclarativeItemKeyFilter::inputMethodEvent(QInputMethodEvent *event, bool post)
{
if (m_next) m_next->inputMethodEvent(event, post);
}
QVariant QDeclarativeItemKeyFilter::inputMethodQuery(Qt::InputMethodQuery query) const
{
if (m_next) return m_next->inputMethodQuery(query);
return QVariant();
}
void QDeclarativeItemKeyFilter::componentComplete()
{
if (m_next) m_next->componentComplete();
}
/*!
\qmlclass KeyNavigation QDeclarativeKeyNavigationAttached
\ingroup qml-basic-interaction-elements
\since 4.7
\brief The KeyNavigation attached property supports key navigation by arrow keys.
Key-based user interfaces commonly allow the use of arrow keys to navigate between
focusable items. The KeyNavigation attached property enables this behavior by providing a
convenient way to specify the item that should gain focus when an arrow or tab key is pressed.
The following example provides key navigation for a 2x2 grid of items:
\snippet doc/src/snippets/declarative/keynavigation.qml 0
The top-left item initially receives focus by setting \l {Item::}{focus} to
\c true. When an arrow key is pressed, the focus will move to the
appropriate item, as defined by the value that has been set for
the KeyNavigation \l left, \l right, \l up or \l down properties.
Note that if a KeyNavigation attached property receives the key press and release
events for a requested arrow or tab key, the event is accepted and does not
propagate any further.
By default, KeyNavigation receives key events after the item to which it is attached.
If the item accepts the key event, the KeyNavigation attached property will not
receive an event for that key. Setting the \l priority property to
\c KeyNavigation.BeforeItem allows the event to be used for key navigation
before the item, rather than after.
\sa {Keys}{Keys attached property}
*/
/*!
\qmlproperty Item KeyNavigation::left
\qmlproperty Item KeyNavigation::right
\qmlproperty Item KeyNavigation::up
\qmlproperty Item KeyNavigation::down
These properties hold the item to assign focus to
when the left, right, up or down cursor keys are
pressed.
*/
/*!
\qmlproperty Item KeyNavigation::tab
\qmlproperty Item KeyNavigation::backtab
These properties hold the item to assign focus to
when the Tab key or Shift+Tab key combination (Backtab) are pressed.
*/
QDeclarativeKeyNavigationAttached::QDeclarativeKeyNavigationAttached(QObject *parent)
: QObject(*(new QDeclarativeKeyNavigationAttachedPrivate), parent),
QDeclarativeItemKeyFilter(qobject_cast<QDeclarativeItem*>(parent))
{
m_processPost = true;
}
QDeclarativeKeyNavigationAttached *
QDeclarativeKeyNavigationAttached::qmlAttachedProperties(QObject *obj)
{
return new QDeclarativeKeyNavigationAttached(obj);
}
QDeclarativeItem *QDeclarativeKeyNavigationAttached::left() const
{
Q_D(const QDeclarativeKeyNavigationAttached);
return d->left;
}
void QDeclarativeKeyNavigationAttached::setLeft(QDeclarativeItem *i)
{
Q_D(QDeclarativeKeyNavigationAttached);
if (d->left == i)
return;
d->left = i;
emit leftChanged();
}
QDeclarativeItem *QDeclarativeKeyNavigationAttached::right() const
{
Q_D(const QDeclarativeKeyNavigationAttached);
return d->right;
}
void QDeclarativeKeyNavigationAttached::setRight(QDeclarativeItem *i)
{
Q_D(QDeclarativeKeyNavigationAttached);
if (d->right == i)
return;
d->right = i;
emit rightChanged();
}
QDeclarativeItem *QDeclarativeKeyNavigationAttached::up() const
{
Q_D(const QDeclarativeKeyNavigationAttached);
return d->up;
}
void QDeclarativeKeyNavigationAttached::setUp(QDeclarativeItem *i)
{
Q_D(QDeclarativeKeyNavigationAttached);
if (d->up == i)
return;
d->up = i;
emit upChanged();
}
QDeclarativeItem *QDeclarativeKeyNavigationAttached::down() const
{
Q_D(const QDeclarativeKeyNavigationAttached);
return d->down;
}
void QDeclarativeKeyNavigationAttached::setDown(QDeclarativeItem *i)
{
Q_D(QDeclarativeKeyNavigationAttached);
if (d->down == i)
return;
d->down = i;
emit downChanged();
}
QDeclarativeItem *QDeclarativeKeyNavigationAttached::tab() const
{
Q_D(const QDeclarativeKeyNavigationAttached);
return d->tab;
}
void QDeclarativeKeyNavigationAttached::setTab(QDeclarativeItem *i)
{
Q_D(QDeclarativeKeyNavigationAttached);
if (d->tab == i)
return;
d->tab = i;
emit tabChanged();
}
QDeclarativeItem *QDeclarativeKeyNavigationAttached::backtab() const
{
Q_D(const QDeclarativeKeyNavigationAttached);
return d->backtab;
}
void QDeclarativeKeyNavigationAttached::setBacktab(QDeclarativeItem *i)
{
Q_D(QDeclarativeKeyNavigationAttached);
if (d->backtab == i)
return;
d->backtab = i;
emit backtabChanged();
}
/*!
\qmlproperty enumeration KeyNavigation::priority
This property determines whether the keys are processed before
or after the attached item's own key handling.
\list
\o KeyNavigation.BeforeItem - process the key events before normal
item key processing. If the event is used for key navigation, it will be accepted and will not
be passed on to the item.
\o KeyNavigation.AfterItem (default) - process the key events after normal item key
handling. If the item accepts the key event it will not be
handled by the KeyNavigation attached property handler.
\endlist
*/
QDeclarativeKeyNavigationAttached::Priority QDeclarativeKeyNavigationAttached::priority() const
{
return m_processPost ? AfterItem : BeforeItem;
}
void QDeclarativeKeyNavigationAttached::setPriority(Priority order)
{
bool processPost = order == AfterItem;
if (processPost != m_processPost) {
m_processPost = processPost;
emit priorityChanged();
}
}
void QDeclarativeKeyNavigationAttached::keyPressed(QKeyEvent *event, bool post)
{
Q_D(QDeclarativeKeyNavigationAttached);
event->ignore();
if (post != m_processPost) {
QDeclarativeItemKeyFilter::keyPressed(event, post);
return;
}
switch(event->key()) {
case Qt::Key_Left:
if (d->left) {
d->left->setFocus(true);
event->accept();
}
break;
case Qt::Key_Right:
if (d->right) {
d->right->setFocus(true);
event->accept();
}
break;
case Qt::Key_Up:
if (d->up) {
d->up->setFocus(true);
event->accept();
}
break;
case Qt::Key_Down:
if (d->down) {
d->down->setFocus(true);
event->accept();
}
break;
case Qt::Key_Tab:
if (d->tab) {
d->tab->setFocus(true);
event->accept();
}
break;
case Qt::Key_Backtab:
if (d->backtab) {
d->backtab->setFocus(true);
event->accept();
}
break;
default:
break;
}
if (!event->isAccepted()) QDeclarativeItemKeyFilter::keyPressed(event, post);
}
void QDeclarativeKeyNavigationAttached::keyReleased(QKeyEvent *event, bool post)
{
Q_D(QDeclarativeKeyNavigationAttached);
event->ignore();
if (post != m_processPost) {
QDeclarativeItemKeyFilter::keyReleased(event, post);
return;
}
switch(event->key()) {
case Qt::Key_Left:
if (d->left) {
event->accept();
}
break;
case Qt::Key_Right:
if (d->right) {
event->accept();
}
break;
case Qt::Key_Up:
if (d->up) {
event->accept();
}
break;
case Qt::Key_Down:
if (d->down) {
event->accept();
}
break;
case Qt::Key_Tab:
if (d->tab) {
event->accept();
}
break;
case Qt::Key_Backtab:
if (d->backtab) {
event->accept();
}
break;
default:
break;
}
if (!event->isAccepted()) QDeclarativeItemKeyFilter::keyReleased(event, post);
}
/*!
\qmlclass Keys QDeclarativeKeysAttached
\ingroup qml-basic-interaction-elements
\since 4.7
\brief The Keys attached property provides key handling to Items.
All visual primitives support key handling via the Keys
attached property. Keys can be handled via the onPressed
and onReleased signal properties.
The signal properties have a \l KeyEvent parameter, named
\e event which contains details of the event. If a key is
handled \e event.accepted should be set to true to prevent the
event from propagating up the item hierarchy.
\section1 Example Usage
The following example shows how the general onPressed handler can
be used to test for a certain key; in this case, the left cursor
key:
\snippet doc/src/snippets/declarative/keys/keys-pressed.qml key item
Some keys may alternatively be handled via specific signal properties,
for example \e onSelectPressed. These handlers automatically set
\e event.accepted to true.
\snippet doc/src/snippets/declarative/keys/keys-handler.qml key item
See \l{Qt::Key}{Qt.Key} for the list of keyboard codes.
\section1 Key Handling Priorities
The Keys attached property can be configured to handle key events
before or after the item it is attached to. This makes it possible
to intercept events in order to override an item's default behavior,
or act as a fallback for keys not handled by the item.
If \l priority is Keys.BeforeItem (default) the order of key event processing is:
\list 1
\o Items specified in \c forwardTo
\o specific key handlers, e.g. onReturnPressed
\o onKeyPress, onKeyRelease handlers
\o Item specific key handling, e.g. TextInput key handling
\o parent item
\endlist
If priority is Keys.AfterItem the order of key event processing is:
\list 1
\o Item specific key handling, e.g. TextInput key handling
\o Items specified in \c forwardTo
\o specific key handlers, e.g. onReturnPressed
\o onKeyPress, onKeyRelease handlers
\o parent item
\endlist
If the event is accepted during any of the above steps, key
propagation stops.
\sa KeyEvent, {KeyNavigation}{KeyNavigation attached property}
*/
/*!
\qmlproperty bool Keys::enabled
This flags enables key handling if true (default); otherwise
no key handlers will be called.
*/
/*!
\qmlproperty enumeration Keys::priority
This property determines whether the keys are processed before
or after the attached item's own key handling.
\list
\o Keys.BeforeItem (default) - process the key events before normal
item key processing. If the event is accepted it will not
be passed on to the item.
\o Keys.AfterItem - process the key events after normal item key
handling. If the item accepts the key event it will not be
handled by the Keys attached property handler.
\endlist
*/
/*!
\qmlproperty list<Object> Keys::forwardTo
This property provides a way to forward key presses, key releases, and keyboard input
coming from input methods to other items. This can be useful when you want
one item to handle some keys (e.g. the up and down arrow keys), and another item to
handle other keys (e.g. the left and right arrow keys). Once an item that has been
forwarded keys accepts the event it is no longer forwarded to items later in the
list.
This example forwards key events to two lists:
\qml
ListView { id: list1 ... }
ListView { id: list2 ... }
Keys.forwardTo: [list1, list2]
focus: true
\endqml
*/
/*!
\qmlsignal Keys::onPressed(KeyEvent event)
This handler is called when a key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onReleased(KeyEvent event)
This handler is called when a key has been released. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit0Pressed(KeyEvent event)
This handler is called when the digit '0' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit1Pressed(KeyEvent event)
This handler is called when the digit '1' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit2Pressed(KeyEvent event)
This handler is called when the digit '2' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit3Pressed(KeyEvent event)
This handler is called when the digit '3' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit4Pressed(KeyEvent event)
This handler is called when the digit '4' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit5Pressed(KeyEvent event)
This handler is called when the digit '5' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit6Pressed(KeyEvent event)
This handler is called when the digit '6' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit7Pressed(KeyEvent event)
This handler is called when the digit '7' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit8Pressed(KeyEvent event)
This handler is called when the digit '8' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDigit9Pressed(KeyEvent event)
This handler is called when the digit '9' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onLeftPressed(KeyEvent event)
This handler is called when the Left arrow has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onRightPressed(KeyEvent event)
This handler is called when the Right arrow has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onUpPressed(KeyEvent event)
This handler is called when the Up arrow has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDownPressed(KeyEvent event)
This handler is called when the Down arrow has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onTabPressed(KeyEvent event)
This handler is called when the Tab key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onBacktabPressed(KeyEvent event)
This handler is called when the Shift+Tab key combination (Backtab) has
been pressed. The \a event parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onAsteriskPressed(KeyEvent event)
This handler is called when the Asterisk '*' has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onEscapePressed(KeyEvent event)
This handler is called when the Escape key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onReturnPressed(KeyEvent event)
This handler is called when the Return key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onEnterPressed(KeyEvent event)
This handler is called when the Enter key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onDeletePressed(KeyEvent event)
This handler is called when the Delete key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onSpacePressed(KeyEvent event)
This handler is called when the Space key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onBackPressed(KeyEvent event)
This handler is called when the Back key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onCancelPressed(KeyEvent event)
This handler is called when the Cancel key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onSelectPressed(KeyEvent event)
This handler is called when the Select key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onYesPressed(KeyEvent event)
This handler is called when the Yes key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onNoPressed(KeyEvent event)
This handler is called when the No key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onContext1Pressed(KeyEvent event)
This handler is called when the Context1 key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onContext2Pressed(KeyEvent event)
This handler is called when the Context2 key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onContext3Pressed(KeyEvent event)
This handler is called when the Context3 key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onContext4Pressed(KeyEvent event)
This handler is called when the Context4 key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onCallPressed(KeyEvent event)
This handler is called when the Call key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onHangupPressed(KeyEvent event)
This handler is called when the Hangup key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onFlipPressed(KeyEvent event)
This handler is called when the Flip key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onMenuPressed(KeyEvent event)
This handler is called when the Menu key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onVolumeUpPressed(KeyEvent event)
This handler is called when the VolumeUp key has been pressed. The \a event
parameter provides information about the event.
*/
/*!
\qmlsignal Keys::onVolumeDownPressed(KeyEvent event)
This handler is called when the VolumeDown key has been pressed. The \a event
parameter provides information about the event.
*/
const QDeclarativeKeysAttached::SigMap QDeclarativeKeysAttached::sigMap[] = {
{ Qt::Key_Left, "leftPressed" },
{ Qt::Key_Right, "rightPressed" },
{ Qt::Key_Up, "upPressed" },
{ Qt::Key_Down, "downPressed" },
{ Qt::Key_Tab, "tabPressed" },
{ Qt::Key_Backtab, "backtabPressed" },
{ Qt::Key_Asterisk, "asteriskPressed" },
{ Qt::Key_NumberSign, "numberSignPressed" },
{ Qt::Key_Escape, "escapePressed" },
{ Qt::Key_Return, "returnPressed" },
{ Qt::Key_Enter, "enterPressed" },
{ Qt::Key_Delete, "deletePressed" },
{ Qt::Key_Space, "spacePressed" },
{ Qt::Key_Back, "backPressed" },
{ Qt::Key_Cancel, "cancelPressed" },
{ Qt::Key_Select, "selectPressed" },
{ Qt::Key_Yes, "yesPressed" },
{ Qt::Key_No, "noPressed" },
{ Qt::Key_Context1, "context1Pressed" },
{ Qt::Key_Context2, "context2Pressed" },
{ Qt::Key_Context3, "context3Pressed" },
{ Qt::Key_Context4, "context4Pressed" },
{ Qt::Key_Call, "callPressed" },
{ Qt::Key_Hangup, "hangupPressed" },
{ Qt::Key_Flip, "flipPressed" },
{ Qt::Key_Menu, "menuPressed" },
{ Qt::Key_VolumeUp, "volumeUpPressed" },
{ Qt::Key_VolumeDown, "volumeDownPressed" },
{ 0, 0 }
};
bool QDeclarativeKeysAttachedPrivate::isConnected(const char *signalName)
{
return isSignalConnected(signalIndex(signalName));
}
QDeclarativeKeysAttached::QDeclarativeKeysAttached(QObject *parent)
: QObject(*(new QDeclarativeKeysAttachedPrivate), parent),
QDeclarativeItemKeyFilter(qobject_cast<QDeclarativeItem*>(parent))
{
Q_D(QDeclarativeKeysAttached);
m_processPost = false;
d->item = qobject_cast<QDeclarativeItem*>(parent);
}
QDeclarativeKeysAttached::~QDeclarativeKeysAttached()
{
}
QDeclarativeKeysAttached::Priority QDeclarativeKeysAttached::priority() const
{
return m_processPost ? AfterItem : BeforeItem;
}
void QDeclarativeKeysAttached::setPriority(Priority order)
{
bool processPost = order == AfterItem;
if (processPost != m_processPost) {
m_processPost = processPost;
emit priorityChanged();
}
}
void QDeclarativeKeysAttached::componentComplete()
{
Q_D(QDeclarativeKeysAttached);
if (d->item) {
for (int ii = 0; ii < d->targets.count(); ++ii) {
QGraphicsItem *targetItem = d->finalFocusProxy(d->targets.at(ii));
if (targetItem && (targetItem->flags() & QGraphicsItem::ItemAcceptsInputMethod)) {
d->item->setFlag(QGraphicsItem::ItemAcceptsInputMethod);
break;
}
}
}
}
void QDeclarativeKeysAttached::keyPressed(QKeyEvent *event, bool post)
{
Q_D(QDeclarativeKeysAttached);
if (post != m_processPost || !d->enabled || d->inPress) {
event->ignore();
QDeclarativeItemKeyFilter::keyPressed(event, post);
return;
}
// first process forwards
if (d->item && d->item->scene()) {
d->inPress = true;
for (int ii = 0; ii < d->targets.count(); ++ii) {
QGraphicsItem *i = d->finalFocusProxy(d->targets.at(ii));
if (i && i->isVisible()) {
d->item->scene()->sendEvent(i, event);
if (event->isAccepted()) {
d->inPress = false;
return;
}
}
}
d->inPress = false;
}
QDeclarativeKeyEvent ke(*event);
QByteArray keySignal = keyToSignal(event->key());
if (!keySignal.isEmpty()) {
keySignal += "(QDeclarativeKeyEvent*)";
if (d->isConnected(keySignal)) {
// If we specifically handle a key then default to accepted
ke.setAccepted(true);
int idx = QDeclarativeKeysAttached::staticMetaObject.indexOfSignal(keySignal);
metaObject()->method(idx).invoke(this, Qt::DirectConnection, Q_ARG(QDeclarativeKeyEvent*, &ke));
}
}
if (!ke.isAccepted())
emit pressed(&ke);
event->setAccepted(ke.isAccepted());
if (!event->isAccepted()) QDeclarativeItemKeyFilter::keyPressed(event, post);
}
void QDeclarativeKeysAttached::keyReleased(QKeyEvent *event, bool post)
{
Q_D(QDeclarativeKeysAttached);
if (post != m_processPost || !d->enabled || d->inRelease) {
event->ignore();
QDeclarativeItemKeyFilter::keyReleased(event, post);
return;
}
if (d->item && d->item->scene()) {
d->inRelease = true;
for (int ii = 0; ii < d->targets.count(); ++ii) {
QGraphicsItem *i = d->finalFocusProxy(d->targets.at(ii));
if (i && i->isVisible()) {
d->item->scene()->sendEvent(i, event);
if (event->isAccepted()) {
d->inRelease = false;
return;
}
}
}
d->inRelease = false;
}
QDeclarativeKeyEvent ke(*event);
emit released(&ke);
event->setAccepted(ke.isAccepted());
if (!event->isAccepted()) QDeclarativeItemKeyFilter::keyReleased(event, post);
}
void QDeclarativeKeysAttached::inputMethodEvent(QInputMethodEvent *event, bool post)
{
Q_D(QDeclarativeKeysAttached);
if (post == m_processPost && d->item && !d->inIM && d->item->scene()) {
d->inIM = true;
for (int ii = 0; ii < d->targets.count(); ++ii) {
QGraphicsItem *i = d->finalFocusProxy(d->targets.at(ii));
if (i && i->isVisible() && (i->flags() & QGraphicsItem::ItemAcceptsInputMethod)) {
d->item->scene()->sendEvent(i, event);
if (event->isAccepted()) {
d->imeItem = i;
d->inIM = false;
return;
}
}
}
d->inIM = false;
}
if (!event->isAccepted()) QDeclarativeItemKeyFilter::inputMethodEvent(event, post);
}
class QDeclarativeItemAccessor : public QGraphicsItem
{
public:
QVariant doInputMethodQuery(Qt::InputMethodQuery query) const {
return QGraphicsItem::inputMethodQuery(query);
}
};
QVariant QDeclarativeKeysAttached::inputMethodQuery(Qt::InputMethodQuery query) const
{
Q_D(const QDeclarativeKeysAttached);
if (d->item) {
for (int ii = 0; ii < d->targets.count(); ++ii) {
QGraphicsItem *i = d->finalFocusProxy(d->targets.at(ii));
if (i && i->isVisible() && (i->flags() & QGraphicsItem::ItemAcceptsInputMethod) && i == d->imeItem) { //### how robust is i == d->imeItem check?
QVariant v = static_cast<QDeclarativeItemAccessor *>(i)->doInputMethodQuery(query);
if (v.userType() == QVariant::RectF)
v = d->item->mapRectFromItem(i, v.toRectF()); //### cost?
return v;
}
}
}
return QDeclarativeItemKeyFilter::inputMethodQuery(query);
}
QDeclarativeKeysAttached *QDeclarativeKeysAttached::qmlAttachedProperties(QObject *obj)
{
return new QDeclarativeKeysAttached(obj);
}
/*!
\class QDeclarativeItem
\since 4.7
\brief The QDeclarativeItem class provides the most basic of all visual items in QML.
All visual items in Qt Declarative inherit from QDeclarativeItem. Although QDeclarativeItem
has no visual appearance, it defines all the properties that are
common across visual items - such as the x and y position, the
width and height, \l {anchor-layout}{anchoring} and key handling.
You can subclass QDeclarativeItem to provide your own custom visual item that inherits
these features. Note that, because it does not draw anything, QDeclarativeItem sets the
QGraphicsItem::ItemHasNoContents flag. If you subclass QDeclarativeItem to create a visual
item, you will need to unset this flag.
*/
/*!
\qmlclass Item QDeclarativeItem
\ingroup qml-basic-visual-elements
\since 4.7
\brief The Item is the most basic of all visual items in QML.
All visual items in Qt Declarative inherit from Item. Although Item
has no visual appearance, it defines all the properties that are
common across visual items - such as the x and y position, the
width and height, \l {anchor-layout}{anchoring} and key handling.
Item is also useful for grouping items together.
\qml
Item {
Image {
source: "tile.png"
}
Image {
x: 80
width: 100
height: 100
source: "tile.png"
}
Image {
x: 190
width: 100
height: 100
fillMode: Image.Tile
source: "tile.png"
}
}
\endqml
\section1 Key Handling
Key handling is available to all Item-based visual elements via the \l {Keys}{Keys}
attached property. The \e Keys attached property provides basic handlers such
as \l {Keys::onPressed}{onPressed} and \l {Keys::onReleased}{onReleased},
as well as handlers for specific keys, such as
\l {Keys::onCancelPressed}{onCancelPressed}. The example below
assigns \l {qmlfocus}{focus} to the item and handles
the Left key via the general \e onPressed handler and the Select key via the
onSelectPressed handler:
\qml
Item {
focus: true
Keys.onPressed: {
if (event.key == Qt.Key_Left) {
console.log("move left");
event.accepted = true;
}
}
Keys.onSelectPressed: console.log("Selected");
}
\endqml
See the \l {Keys}{Keys} attached property for detailed documentation.
*/
/*!
\fn void QDeclarativeItem::childrenRectChanged(const QRectF &)
\internal
*/
/*!
\fn void QDeclarativeItem::baselineOffsetChanged(qreal)
\internal
*/
/*!
\fn void QDeclarativeItem::stateChanged(const QString &state)
\internal
*/
/*!
\fn void QDeclarativeItem::parentChanged(QDeclarativeItem *)
\internal
*/
/*!
\fn void QDeclarativeItem::smoothChanged(bool)
\internal
*/
/*!
\fn void QDeclarativeItem::clipChanged(bool)
\internal
*/
/*! \fn void QDeclarativeItem::transformOriginChanged(TransformOrigin)
\internal
*/
/*!
\fn void QDeclarativeItem::focusChanged(bool)
\internal
*/
/*!
\fn void QDeclarativeItem::activeFocusChanged(bool)
\internal
*/
// ### Must fix
struct RegisterAnchorLineAtStartup {
RegisterAnchorLineAtStartup() {
qRegisterMetaType<QDeclarativeAnchorLine>("QDeclarativeAnchorLine");
}
};
static RegisterAnchorLineAtStartup registerAnchorLineAtStartup;
/*!
\fn QDeclarativeItem::QDeclarativeItem(QDeclarativeItem *parent)
Constructs a QDeclarativeItem with the given \a parent.
*/
QDeclarativeItem::QDeclarativeItem(QDeclarativeItem* parent)
: QGraphicsObject(*(new QDeclarativeItemPrivate), parent, 0)
{
Q_D(QDeclarativeItem);
d->init(parent);
}
/*! \internal
*/
QDeclarativeItem::QDeclarativeItem(QDeclarativeItemPrivate &dd, QDeclarativeItem *parent)
: QGraphicsObject(dd, parent, 0)
{
Q_D(QDeclarativeItem);
d->init(parent);
}
/*!
Destroys the QDeclarativeItem.
*/
QDeclarativeItem::~QDeclarativeItem()
{
Q_D(QDeclarativeItem);
for (int ii = 0; ii < d->changeListeners.count(); ++ii) {
QDeclarativeAnchorsPrivate *anchor = d->changeListeners.at(ii).listener->anchorPrivate();
if (anchor)
anchor->clearItem(this);
}
if (!d->parent || (parentItem() && !parentItem()->QGraphicsItem::d_ptr->inDestructor)) {
for (int ii = 0; ii < d->changeListeners.count(); ++ii) {
QDeclarativeAnchorsPrivate *anchor = d->changeListeners.at(ii).listener->anchorPrivate();
if (anchor && anchor->item && anchor->item->parentItem() != this) //child will be deleted anyway
anchor->updateOnComplete();
}
}
for(int ii = 0; ii < d->changeListeners.count(); ++ii) {
const QDeclarativeItemPrivate::ChangeListener &change = d->changeListeners.at(ii);
if (change.types & QDeclarativeItemPrivate::Destroyed)
change.listener->itemDestroyed(this);
}
d->changeListeners.clear();
delete d->_anchorLines; d->_anchorLines = 0;
delete d->_anchors; d->_anchors = 0;
delete d->_stateGroup; d->_stateGroup = 0;
delete d->_contents; d->_contents = 0;
}
/*!
\qmlproperty enumeration Item::transformOrigin
This property holds the origin point around which scale and rotation transform.
Nine transform origins are available, as shown in the image below.
\image declarative-transformorigin.png
This example rotates an image around its bottom-right corner.
\qml
Image {
source: "myimage.png"
transformOrigin: Item.BottomRight
rotation: 45
}
\endqml
The default transform origin is \c Item.Center.
To set an arbitrary transform origin point use the \l Scale or \l Rotation
transform elements.
*/
/*!
\qmlproperty Item Item::parent
This property holds the parent of the item.
*/
/*!
\property QDeclarativeItem::parent
This property holds the parent of the item.
*/
void QDeclarativeItem::setParentItem(QDeclarativeItem *parent)
{
QGraphicsObject::setParentItem(parent);
}
/*!
Returns the QDeclarativeItem parent of this item.
*/
QDeclarativeItem *QDeclarativeItem::parentItem() const
{
return qobject_cast<QDeclarativeItem *>(QGraphicsObject::parentItem());
}
/*!
\qmlproperty real Item::childrenRect.x
\qmlproperty real Item::childrenRect.y
\qmlproperty real Item::childrenRect.width
\qmlproperty real Item::childrenRect.height
The childrenRect properties allow an item access to the geometry of its
children. This property is useful if you have an item that needs to be
sized to fit its children.
*/
/*!
\qmlproperty list<Item> Item::children
\qmlproperty list<Object> Item::resources
The children property contains the list of visual children of this item.
The resources property contains non-visual resources that you want to
reference by name.
Generally you can rely on Item's default property to handle all this for
you, but it can come in handy in some cases.
\qml
Item {
children: [
Text {},
Rectangle {}
]
resources: [
Component {
id: myComponent
Text {}
}
]
}
\endqml
*/
/*!
Returns true if construction of the QML component is complete; otherwise
returns false.
It is often desirable to delay some processing until the component is
completed.
\sa componentComplete()
*/
bool QDeclarativeItem::isComponentComplete() const
{
Q_D(const QDeclarativeItem);
return d->componentComplete;
}
void QDeclarativeItemPrivate::data_append(QDeclarativeListProperty<QObject> *prop, QObject *o)
{
if (!o)
return;
QDeclarativeItem *that = static_cast<QDeclarativeItem *>(prop->object);
// This test is measurably (albeit only slightly) faster than qobject_cast<>()
const QMetaObject *mo = o->metaObject();
while (mo && mo != &QGraphicsObject::staticMetaObject) mo = mo->d.superdata;
if (mo) {
QGraphicsObject *graphicsObject = static_cast<QGraphicsObject *>(o);
QDeclarativeItemPrivate *contentItemPrivate = static_cast<QDeclarativeItemPrivate *>(QGraphicsItemPrivate::get(graphicsObject));
if (contentItemPrivate->componentComplete) {
graphicsObject->setParentItem(that);
} else {
contentItemPrivate->setParentItemHelper(that, /*newParentVariant=*/0, /*thisPointerVariant=*/0);
}
} else {
o->setParent(that);
}
}
static inline int children_count_helper(QDeclarativeListProperty<QObject> *prop)
{
QGraphicsItemPrivate *d = QGraphicsItemPrivate::get(static_cast<QGraphicsObject *>(prop->object));
return d->children.count();
}
static inline QObject *children_at_helper(QDeclarativeListProperty<QObject> *prop, int index)
{
QGraphicsItemPrivate *d = QGraphicsItemPrivate::get(static_cast<QGraphicsObject *>(prop->object));
if (index >= 0 && index < d->children.count())
return d->children.at(index)->toGraphicsObject();
else
return 0;
}
static inline void children_clear_helper(QDeclarativeListProperty<QObject> *prop)
{
QDeclarativeItemPrivate *d = static_cast<QDeclarativeItemPrivate*>(QGraphicsItemPrivate::get(static_cast<QGraphicsObject *>(prop->object)));
int childCount = d->children.count();
if (d->componentComplete) {
for (int index = 0 ;index < childCount; index++)
d->children.at(0)->setParentItem(0);
} else {
for (int index = 0 ;index < childCount; index++)
QGraphicsItemPrivate::get(d->children.at(0))->setParentItemHelper(0, /*newParentVariant=*/0, /*thisPointerVariant=*/0);
}
}
int QDeclarativeItemPrivate::data_count(QDeclarativeListProperty<QObject> *prop)
{
return resources_count(prop) + children_count_helper(prop);
}
QObject *QDeclarativeItemPrivate::data_at(QDeclarativeListProperty<QObject> *prop, int i)
{
int resourcesCount = resources_count(prop);
if (i < resourcesCount)
return resources_at(prop, i);
const int j = i - resourcesCount;
if (j < children_count_helper(prop))
return children_at_helper(prop, j);
return 0;
}
void QDeclarativeItemPrivate::data_clear(QDeclarativeListProperty<QObject> *prop)
{
resources_clear(prop);
children_clear_helper(prop);
}
QObject *QDeclarativeItemPrivate::resources_at(QDeclarativeListProperty<QObject> *prop, int index)
{
const QObjectList children = prop->object->children();
if (index < children.count())
return children.at(index);
else
return 0;
}
void QDeclarativeItemPrivate::resources_append(QDeclarativeListProperty<QObject> *prop, QObject *o)
{
o->setParent(prop->object);
}
int QDeclarativeItemPrivate::resources_count(QDeclarativeListProperty<QObject> *prop)
{
return prop->object->children().count();
}
void QDeclarativeItemPrivate::resources_clear(QDeclarativeListProperty<QObject> *prop)
{
const QObjectList children = prop->object->children();
for (int index = 0; index < children.count(); index++)
children.at(index)->setParent(0);
}
int QDeclarativeItemPrivate::transform_count(QDeclarativeListProperty<QGraphicsTransform> *list)
{
QGraphicsObject *object = qobject_cast<QGraphicsObject *>(list->object);
if (object) {
QGraphicsItemPrivate *d = QGraphicsItemPrivate::get(object);
return d->transformData ? d->transformData->graphicsTransforms.size() : 0;
} else {
return 0;
}
}
void QDeclarativeItemPrivate::transform_append(QDeclarativeListProperty<QGraphicsTransform> *list, QGraphicsTransform *item)
{
QGraphicsObject *object = qobject_cast<QGraphicsObject *>(list->object);
if (object && item) // QGraphicsItem applies the list in the wrong order, so we prepend.
QGraphicsItemPrivate::get(object)->prependGraphicsTransform(item);
}
QGraphicsTransform *QDeclarativeItemPrivate::transform_at(QDeclarativeListProperty<QGraphicsTransform> *list, int idx)
{
QGraphicsObject *object = qobject_cast<QGraphicsObject *>(list->object);
if (object) {
QGraphicsItemPrivate *d = QGraphicsItemPrivate::get(object);
if (!d->transformData)
return 0;
return d->transformData->graphicsTransforms.at(idx);
} else {
return 0;
}
}
void QDeclarativeItemPrivate::transform_clear(QDeclarativeListProperty<QGraphicsTransform> *list)
{
QGraphicsObject *object = qobject_cast<QGraphicsObject *>(list->object);
if (object) {
QGraphicsItemPrivate *d = QGraphicsItemPrivate::get(object);
if (!d->transformData)
return;
object->setTransformations(QList<QGraphicsTransform *>());
}
}
void QDeclarativeItemPrivate::parentProperty(QObject *o, void *rv, QDeclarativeNotifierEndpoint *e)
{
QDeclarativeItem *item = static_cast<QDeclarativeItem*>(o);
if (e)
e->connect(&item->d_func()->parentNotifier);
*((QDeclarativeItem **)rv) = item->parentItem();
}
/*!
\qmlproperty list<Object> Item::data
\default
The data property allows you to freely mix visual children and resources
in an item. If you assign a visual item to the data list it becomes
a child and if you assign any other object type, it is added as a resource.
So you can write:
\qml
Item {
Text {}
Rectangle {}
Timer {}
}
\endqml
instead of:
\qml
Item {
children: [
Text {},
Rectangle {}
]
resources: [
Timer {}
]
}
\endqml
data is a behind-the-scenes property: you should never need to explicitly
specify it.
*/
QDeclarativeListProperty<QObject> QDeclarativeItemPrivate::data()
{
return QDeclarativeListProperty<QObject>(q_func(), 0, QDeclarativeItemPrivate::data_append,
QDeclarativeItemPrivate::data_count,
QDeclarativeItemPrivate::data_at,
QDeclarativeItemPrivate::data_clear
);
}
/*!
\property QDeclarativeItem::childrenRect
\brief The geometry of an item's children.
This property holds the (collective) position and size of the item's children.
*/
QRectF QDeclarativeItem::childrenRect()
{
Q_D(QDeclarativeItem);
if (!d->_contents) {
d->_contents = new QDeclarativeContents(this);
if (d->componentComplete)
d->_contents->complete();
}
return d->_contents->rectF();
}
bool QDeclarativeItem::clip() const
{
return flags() & ItemClipsChildrenToShape;
}
void QDeclarativeItem::setClip(bool c)
{
if (clip() == c)
return;
setFlag(ItemClipsChildrenToShape, c);
emit clipChanged(c);
}
/*!
\qmlproperty real Item::x
\qmlproperty real Item::y
\qmlproperty real Item::width
\qmlproperty real Item::height
Defines the item's position and size relative to its parent.
\qml
Item { x: 100; y: 100; width: 100; height: 100 }
\endqml
*/
/*!
\qmlproperty real Item::z
Sets the stacking order of sibling items. By default the stacking order is 0.
Items with a higher stacking value are drawn on top of siblings with a
lower stacking order. Items with the same stacking value are drawn
bottom up in the order they appear. Items with a negative stacking
value are drawn under their parent's content.
The following example shows the various effects of stacking order.
\table
\row
\o \image declarative-item_stacking1.png
\o Same \c z - later children above earlier children:
\qml
Item {
Rectangle {
color: "red"
width: 100; height: 100
}
Rectangle {
color: "blue"
x: 50; y: 50; width: 100; height: 100
}
}
\endqml
\row
\o \image declarative-item_stacking2.png
\o Higher \c z on top:
\qml
Item {
Rectangle {
z: 1
color: "red"
width: 100; height: 100
}
Rectangle {
color: "blue"
x: 50; y: 50; width: 100; height: 100
}
}
\endqml
\row
\o \image declarative-item_stacking3.png
\o Same \c z - children above parents:
\qml
Item {
Rectangle {
color: "red"
width: 100; height: 100
Rectangle {
color: "blue"
x: 50; y: 50; width: 100; height: 100
}
}
}
\endqml
\row
\o \image declarative-item_stacking4.png
\o Lower \c z below:
\qml
Item {
Rectangle {
color: "red"
width: 100; height: 100
Rectangle {
z: -1
color: "blue"
x: 50; y: 50; width: 100; height: 100
}
}
}
\endqml
\endtable
*/
/*!
\qmlproperty bool Item::visible
Whether the item is visible. By default this is true.
\note visible is not linked to actual visibility; if an item
moves off screen, or the opacity changes to 0, this will
not affect the visible property.
*/
/*!
This function is called to handle this item's changes in
geometry from \a oldGeometry to \a newGeometry. If the two
geometries are the same, it doesn't do anything.
*/
void QDeclarativeItem::geometryChanged(const QRectF &newGeometry,
const QRectF &oldGeometry)
{
Q_D(QDeclarativeItem);
if (d->_anchors)
d->_anchors->d_func()->updateMe();
if (transformOrigin() != QDeclarativeItem::TopLeft
&& (newGeometry.width() != oldGeometry.width() || newGeometry.height() != oldGeometry.height())) {
if (d->transformData) {
QPointF origin = d->computeTransformOrigin();
if (transformOriginPoint() != origin)
setTransformOriginPoint(origin);
} else {
d->transformOriginDirty = true;
}
}
for(int ii = 0; ii < d->changeListeners.count(); ++ii) {
const QDeclarativeItemPrivate::ChangeListener &change = d->changeListeners.at(ii);
if (change.types & QDeclarativeItemPrivate::Geometry)
change.listener->itemGeometryChanged(this, newGeometry, oldGeometry);
}
if (newGeometry.width() != oldGeometry.width())
emit widthChanged();
if (newGeometry.height() != oldGeometry.height())
emit heightChanged();
}
void QDeclarativeItemPrivate::removeItemChangeListener(QDeclarativeItemChangeListener *listener, ChangeTypes types)
{
ChangeListener change(listener, types);
changeListeners.removeOne(change);
}
/*! \internal */
void QDeclarativeItem::keyPressEvent(QKeyEvent *event)
{
Q_D(QDeclarativeItem);
keyPressPreHandler(event);
if (event->isAccepted())
return;
if (d->keyHandler)
d->keyHandler->keyPressed(event, true);
else
event->ignore();
}
/*! \internal */
void QDeclarativeItem::keyReleaseEvent(QKeyEvent *event)
{
Q_D(QDeclarativeItem);
keyReleasePreHandler(event);
if (event->isAccepted())
return;
if (d->keyHandler)
d->keyHandler->keyReleased(event, true);
else
event->ignore();
}
/*! \internal */
void QDeclarativeItem::inputMethodEvent(QInputMethodEvent *event)
{
Q_D(QDeclarativeItem);
inputMethodPreHandler(event);
if (event->isAccepted())
return;
if (d->keyHandler)
d->keyHandler->inputMethodEvent(event, true);
else
event->ignore();
}
/*! \internal */
QVariant QDeclarativeItem::inputMethodQuery(Qt::InputMethodQuery query) const
{
Q_D(const QDeclarativeItem);
QVariant v;
if (d->keyHandler)
v = d->keyHandler->inputMethodQuery(query);
if (!v.isValid())
v = QGraphicsObject::inputMethodQuery(query);
return v;
}
/*!
\internal
*/
void QDeclarativeItem::keyPressPreHandler(QKeyEvent *event)
{
Q_D(QDeclarativeItem);
if (d->keyHandler && !d->doneEventPreHandler)
d->keyHandler->keyPressed(event, false);
else
event->ignore();
d->doneEventPreHandler = true;
}
/*!
\internal
*/
void QDeclarativeItem::keyReleasePreHandler(QKeyEvent *event)
{
Q_D(QDeclarativeItem);
if (d->keyHandler && !d->doneEventPreHandler)
d->keyHandler->keyReleased(event, false);
else
event->ignore();
d->doneEventPreHandler = true;
}
/*!
\internal
*/
void QDeclarativeItem::inputMethodPreHandler(QInputMethodEvent *event)
{
Q_D(QDeclarativeItem);
if (d->keyHandler && !d->doneEventPreHandler)
d->keyHandler->inputMethodEvent(event, false);
else
event->ignore();
d->doneEventPreHandler = true;
}
/*!
\internal
*/
QDeclarativeAnchorLine QDeclarativeItemPrivate::left() const
{
return anchorLines()->left;
}
/*!
\internal
*/
QDeclarativeAnchorLine QDeclarativeItemPrivate::right() const
{
return anchorLines()->right;
}
/*!
\internal
*/
QDeclarativeAnchorLine QDeclarativeItemPrivate::horizontalCenter() const
{
return anchorLines()->hCenter;
}
/*!
\internal
*/
QDeclarativeAnchorLine QDeclarativeItemPrivate::top() const
{
return anchorLines()->top;
}
/*!
\internal
*/
QDeclarativeAnchorLine QDeclarativeItemPrivate::bottom() const
{
return anchorLines()->bottom;
}
/*!
\internal
*/
QDeclarativeAnchorLine QDeclarativeItemPrivate::verticalCenter() const
{
return anchorLines()->vCenter;
}
/*!
\internal
*/
QDeclarativeAnchorLine QDeclarativeItemPrivate::baseline() const
{
return anchorLines()->baseline;
}
/*!
\qmlproperty AnchorLine Item::anchors.top
\qmlproperty AnchorLine Item::anchors.bottom
\qmlproperty AnchorLine Item::anchors.left
\qmlproperty AnchorLine Item::anchors.right
\qmlproperty AnchorLine Item::anchors.horizontalCenter
\qmlproperty AnchorLine Item::anchors.verticalCenter
\qmlproperty AnchorLine Item::anchors.baseline
\qmlproperty Item Item::anchors.fill
\qmlproperty Item Item::anchors.centerIn
\qmlproperty real Item::anchors.margins
\qmlproperty real Item::anchors.topMargin
\qmlproperty real Item::anchors.bottomMargin
\qmlproperty real Item::anchors.leftMargin
\qmlproperty real Item::anchors.rightMargin
\qmlproperty real Item::anchors.horizontalCenterOffset
\qmlproperty real Item::anchors.verticalCenterOffset
\qmlproperty real Item::anchors.baselineOffset
Anchors provide a way to position an item by specifying its
relationship with other items.
Margins apply to top, bottom, left, right, and fill anchors.
The \c anchors.margins property can be used to set all of the various margins at once, to the same value.
Note that margins are anchor-specific and are not applied if an item does not
use anchors.
Offsets apply for horizontal center, vertical center, and baseline anchors.
\table
\row
\o \image declarative-anchors_example.png
\o Text anchored to Image, horizontally centered and vertically below, with a margin.
\qml
Image { id: pic; ... }
Text {
id: label
anchors.horizontalCenter: pic.horizontalCenter
anchors.top: pic.bottom
anchors.topMargin: 5
...
}
\endqml
\row
\o \image declarative-anchors_example2.png
\o
Left of Text anchored to right of Image, with a margin. The y
property of both defaults to 0.
\qml
Image { id: pic; ... }
Text {
id: label
anchors.left: pic.right
anchors.leftMargin: 5
...
}
\endqml
\endtable
\c anchors.fill provides a convenient way for one item to have the
same geometry as another item, and is equivalent to connecting all
four directional anchors.
To clear an anchor value, set it to \c undefined.
\note You can only anchor an item to siblings or a parent.
For more information see \l {anchor-layout}{Anchor Layouts}.
*/
/*!
\property QDeclarativeItem::baselineOffset
\brief The position of the item's baseline in local coordinates.
The baseline of a \l Text item is the imaginary line on which the text
sits. Controls containing text usually set their baseline to the
baseline of their text.
For non-text items, a default baseline offset of 0 is used.
*/
qreal QDeclarativeItem::baselineOffset() const
{
Q_D(const QDeclarativeItem);
if (!d->baselineOffset.isValid()) {
return 0.0;
} else
return d->baselineOffset;
}
void QDeclarativeItem::setBaselineOffset(qreal offset)
{
Q_D(QDeclarativeItem);
if (offset == d->baselineOffset)
return;
d->baselineOffset = offset;
for(int ii = 0; ii < d->changeListeners.count(); ++ii) {
const QDeclarativeItemPrivate::ChangeListener &change = d->changeListeners.at(ii);
if (change.types & QDeclarativeItemPrivate::Geometry) {
QDeclarativeAnchorsPrivate *anchor = change.listener->anchorPrivate();
if (anchor)
anchor->updateVerticalAnchors();
}
}
emit baselineOffsetChanged(offset);
}
/*!
\qmlproperty real Item::rotation
This property holds the rotation of the item in degrees clockwise.
This specifies how many degrees to rotate the item around its transformOrigin.
The default rotation is 0 degrees (i.e. not rotated at all).
\table
\row
\o \image declarative-rotation.png
\o
\qml
Rectangle {
color: "blue"
width: 100; height: 100
Rectangle {
color: "red"
x: 25; y: 25; width: 50; height: 50
rotation: 30
}
}
\endqml
\endtable
\sa transform, Rotation
*/
/*!
\qmlproperty real Item::scale
This property holds the scale of the item.
A scale of less than 1 means the item will be displayed smaller than
normal, and a scale of greater than 1 means the item will be
displayed larger than normal. A negative scale means the item will
be mirrored.
By default, items are displayed at a scale of 1 (i.e. at their
normal size).
Scaling is from the item's transformOrigin.
\table
\row
\o \image declarative-scale.png
\o
\qml
Rectangle {
color: "blue"
width: 100; height: 100
Rectangle {
color: "green"
width: 25; height: 25
}
Rectangle {
color: "red"
x: 25; y: 25; width: 50; height: 50
scale: 1.4
}
}
\endqml
\endtable
\sa transform, Scale
*/
/*!
\qmlproperty real Item::opacity
The opacity of the item. Opacity is specified as a number between 0
(fully transparent) and 1 (fully opaque). The default is 1.
Opacity is an \e inherited attribute. That is, the opacity is
also applied individually to child items. In almost all cases this
is what you want, but in some cases (like the following example)
it may produce undesired results.
\table
\row
\o \image declarative-item_opacity1.png
\o
\qml
Item {
Rectangle {
color: "red"
width: 100; height: 100
Rectangle {
color: "blue"
x: 50; y: 50; width: 100; height: 100
}
}
}
\endqml
\row
\o \image declarative-item_opacity2.png
\o
\qml
Item {
Rectangle {
opacity: 0.5
color: "red"
width: 100; height: 100
Rectangle {
color: "blue"
x: 50; y: 50; width: 100; height: 100
}
}
}
\endqml
\endtable
*/
/*!
Returns a value indicating whether mouse input should
remain with this item exclusively.
\sa setKeepMouseGrab()
*/
bool QDeclarativeItem::keepMouseGrab() const
{
Q_D(const QDeclarativeItem);
return d->keepMouse;
}
/*!
The flag indicating whether the mouse should remain
with this item is set to \a keep.
This is useful for items that wish to grab and keep mouse
interaction following a predefined gesture. For example,
an item that is interested in horizontal mouse movement
may set keepMouseGrab to true once a threshold has been
exceeded. Once keepMouseGrab has been set to true, filtering
items will not react to mouse events.
If the item does not indicate that it wishes to retain mouse grab,
a filtering item may steal the grab. For example, Flickable may attempt
to steal a mouse grab if it detects that the user has begun to
move the viewport.
\sa keepMouseGrab()
*/
void QDeclarativeItem::setKeepMouseGrab(bool keep)
{
Q_D(QDeclarativeItem);
d->keepMouse = keep;
}
/*!
\qmlmethod object Item::mapFromItem(Item item, real x, real y)
Maps the point (\a x, \a y), which is in \a item's coordinate system, to
this item's coordinate system, and returns an object with \c x and \c y
properties matching the mapped cooordinate.
If \a item is a \c null value, this maps the point from the coordinate
system of the root QML view.
*/
QScriptValue QDeclarativeItem::mapFromItem(const QScriptValue &item, qreal x, qreal y) const
{
QScriptValue sv = QDeclarativeEnginePrivate::getScriptEngine(qmlEngine(this))->newObject();
QDeclarativeItem *itemObj = qobject_cast<QDeclarativeItem*>(item.toQObject());
if (!itemObj && !item.isNull()) {
qmlInfo(this) << "mapFromItem() given argument \"" << item.toString() << "\" which is neither null nor an Item";
return 0;
}
// If QGraphicsItem::mapFromItem() is called with 0, behaves the same as mapFromScene()
QPointF p = qobject_cast<QGraphicsItem*>(this)->mapFromItem(itemObj, x, y);
sv.setProperty(QLatin1String("x"), p.x());
sv.setProperty(QLatin1String("y"), p.y());
return sv;
}
/*!
\qmlmethod object Item::mapToItem(Item item, real x, real y)
Maps the point (\a x, \a y), which is in this item's coordinate system, to
\a item's coordinate system, and returns an object with \c x and \c y
properties matching the mapped cooordinate.
If \a item is a \c null value, this maps \a x and \a y to the coordinate
system of the root QML view.
*/
QScriptValue QDeclarativeItem::mapToItem(const QScriptValue &item, qreal x, qreal y) const
{
QScriptValue sv = QDeclarativeEnginePrivate::getScriptEngine(qmlEngine(this))->newObject();
QDeclarativeItem *itemObj = qobject_cast<QDeclarativeItem*>(item.toQObject());
if (!itemObj && !item.isNull()) {
qmlInfo(this) << "mapToItem() given argument \"" << item.toString() << "\" which is neither null nor an Item";
return 0;
}
// If QGraphicsItem::mapToItem() is called with 0, behaves the same as mapToScene()
QPointF p = qobject_cast<QGraphicsItem*>(this)->mapToItem(itemObj, x, y);
sv.setProperty(QLatin1String("x"), p.x());
sv.setProperty(QLatin1String("y"), p.y());
return sv;
}
/*!
\qmlmethod Item::forceActiveFocus()
Force active focus on the item.
This method sets focus on the item and makes sure that all the focus scopes higher in the object hierarchy are also given focus.
*/
void QDeclarativeItem::forceActiveFocus()
{
setFocus(true);
QGraphicsItem *parent = parentItem();
while (parent) {
if (parent->flags() & QGraphicsItem::ItemIsFocusScope)
parent->setFocus(Qt::OtherFocusReason);
parent = parent->parentItem();
}
}
/*!
\qmlmethod Item::childAt(real x, real y)
Returns the visible child item at point (\a x, \a y), which is in this
item's coordinate system, or \c null if there is no such item.
*/
QDeclarativeItem *QDeclarativeItem::childAt(qreal x, qreal y) const
{
const QList<QGraphicsItem *> children = childItems();
for (int i = children.count()-1; i >= 0; --i) {
if (QDeclarativeItem *child = qobject_cast<QDeclarativeItem *>(children.at(i))) {
if (child->isVisible() && child->x() <= x
&& child->x() + child->width() >= x
&& child->y() <= y
&& child->y() + child->height() >= y)
return child;
}
}
return 0;
}
void QDeclarativeItemPrivate::focusChanged(bool flag)
{
Q_Q(QDeclarativeItem);
if (!(flags & QGraphicsItem::ItemIsFocusScope) && parent)
emit q->activeFocusChanged(flag); //see also QDeclarativeItemPrivate::subFocusItemChange()
emit q->focusChanged(flag);
}
QDeclarativeListProperty<QObject> QDeclarativeItemPrivate::resources()
{
return QDeclarativeListProperty<QObject>(q_func(), 0, QDeclarativeItemPrivate::resources_append,
QDeclarativeItemPrivate::resources_count,
QDeclarativeItemPrivate::resources_at,
QDeclarativeItemPrivate::resources_clear
);
}
/*!
\qmlproperty list<State> Item::states
This property holds a list of states defined by the item.
\qml
Item {
states: [
State { ... },
State { ... }
...
]
}
\endqml
\sa {qmlstate}{States}
*/
QDeclarativeListProperty<QDeclarativeState> QDeclarativeItemPrivate::states()
{
return _states()->statesProperty();
}
/*!
\qmlproperty list<Transition> Item::transitions
This property holds a list of transitions defined by the item.
\qml
Item {
transitions: [
Transition { ... },
Transition { ... }
...
]
}
\endqml
\sa {qdeclarativeanimation.html#transitions}{QML Transitions}
*/
QDeclarativeListProperty<QDeclarativeTransition> QDeclarativeItemPrivate::transitions()
{
return _states()->transitionsProperty();
}
/*
\qmlproperty list<Filter> Item::filter
This property holds a list of graphical filters to be applied to the item.
\l {Filter}{Filters} include things like \l {Blur}{blurring}
the item, or giving it a \l Reflection. Some
filters may not be available on all canvases; if a filter is not
available on a certain canvas, it will simply not be applied for
that canvas (but the QML will still be considered valid).
\qml
Item {
filter: [
Blur { ... },
Reflection { ... }
...
]
}
\endqml
*/
/*!
\qmlproperty bool Item::clip
This property holds whether clipping is enabled. The default clip value is \c false.
If clipping is enabled, an item will clip its own painting, as well
as the painting of its children, to its bounding rectangle.
Non-rectangular clipping regions are not supported for performance reasons.
*/
/*!
\property QDeclarativeItem::clip
This property holds whether clipping is enabled. The default clip value is \c false.
If clipping is enabled, an item will clip its own painting, as well
as the painting of its children, to its bounding rectangle. If you set
clipping during an item's paint operation, remember to re-set it to
prevent clipping the rest of your scene.
Non-rectangular clipping regions are not supported for performance reasons.
*/
/*!
\qmlproperty string Item::state
This property holds the name of the current state of the item.
This property is often used in scripts to change between states. For
example:
\qml
function toggle() {
if (button.state == 'On')
button.state = 'Off';
else
button.state = 'On';
}
\endqml
If the item is in its base state (i.e. no explicit state has been
set), \c state will be a blank string. Likewise, you can return an
item to its base state by setting its current state to \c ''.
\sa {qmlstates}{States}
*/
QString QDeclarativeItemPrivate::state() const
{
if (!_stateGroup)
return QString();
else
return _stateGroup->state();
}
void QDeclarativeItemPrivate::setState(const QString &state)
{
_states()->setState(state);
}
/*!
\qmlproperty list<Transform> Item::transform
This property holds the list of transformations to apply.
For more information see \l Transform.
*/
/*! \internal */
QDeclarativeListProperty<QGraphicsTransform> QDeclarativeItem::transform()
{
Q_D(QDeclarativeItem);
return QDeclarativeListProperty<QGraphicsTransform>(this, 0, d->transform_append, d->transform_count,
d->transform_at, d->transform_clear);
}
/*!
\internal
classBegin() is called when the item is constructed, but its
properties have not yet been set.
\sa componentComplete(), isComponentComplete()
*/
void QDeclarativeItem::classBegin()
{
Q_D(QDeclarativeItem);
d->componentComplete = false;
if (d->_stateGroup)
d->_stateGroup->classBegin();
if (d->_anchors)
d->_anchors->classBegin();
}
/*!
\internal
componentComplete() is called when all items in the component
have been constructed. It is often desirable to delay some
processing until the component is complete an all bindings in the
component have been resolved.
*/
void QDeclarativeItem::componentComplete()
{
Q_D(QDeclarativeItem);
d->componentComplete = true;
if (d->_stateGroup)
d->_stateGroup->componentComplete();
if (d->_anchors) {
d->_anchors->componentComplete();
d->_anchors->d_func()->updateOnComplete();
}
if (d->keyHandler)
d->keyHandler->componentComplete();
if (d->_contents)
d->_contents->complete();
}
QDeclarativeStateGroup *QDeclarativeItemPrivate::_states()
{
Q_Q(QDeclarativeItem);
if (!_stateGroup) {
_stateGroup = new QDeclarativeStateGroup;
if (!componentComplete)
_stateGroup->classBegin();
QObject::connect(_stateGroup, SIGNAL(stateChanged(QString)),
q, SIGNAL(stateChanged(QString)));
}
return _stateGroup;
}
QDeclarativeItemPrivate::AnchorLines::AnchorLines(QGraphicsObject *q)
{
left.item = q;
left.anchorLine = QDeclarativeAnchorLine::Left;
right.item = q;
right.anchorLine = QDeclarativeAnchorLine::Right;
hCenter.item = q;
hCenter.anchorLine = QDeclarativeAnchorLine::HCenter;
top.item = q;
top.anchorLine = QDeclarativeAnchorLine::Top;
bottom.item = q;
bottom.anchorLine = QDeclarativeAnchorLine::Bottom;
vCenter.item = q;
vCenter.anchorLine = QDeclarativeAnchorLine::VCenter;
baseline.item = q;
baseline.anchorLine = QDeclarativeAnchorLine::Baseline;
}
QPointF QDeclarativeItemPrivate::computeTransformOrigin() const
{
Q_Q(const QDeclarativeItem);
QRectF br = q->boundingRect();
switch(origin) {
default:
case QDeclarativeItem::TopLeft:
return QPointF(0, 0);
case QDeclarativeItem::Top:
return QPointF(br.width() / 2., 0);
case QDeclarativeItem::TopRight:
return QPointF(br.width(), 0);
case QDeclarativeItem::Left:
return QPointF(0, br.height() / 2.);
case QDeclarativeItem::Center:
return QPointF(br.width() / 2., br.height() / 2.);
case QDeclarativeItem::Right:
return QPointF(br.width(), br.height() / 2.);
case QDeclarativeItem::BottomLeft:
return QPointF(0, br.height());
case QDeclarativeItem::Bottom:
return QPointF(br.width() / 2., br.height());
case QDeclarativeItem::BottomRight:
return QPointF(br.width(), br.height());
}
}
/*! \internal */
bool QDeclarativeItem::sceneEvent(QEvent *event)
{
Q_D(QDeclarativeItem);
if (event->type() == QEvent::KeyPress) {
QKeyEvent *k = static_cast<QKeyEvent *>(event);
if ((k->key() == Qt::Key_Tab || k->key() == Qt::Key_Backtab) &&
!(k->modifiers() & (Qt::ControlModifier | Qt::AltModifier))) {
keyPressEvent(static_cast<QKeyEvent *>(event));
if (!event->isAccepted())
return QGraphicsItem::sceneEvent(event);
else
return true;
} else {
return QGraphicsItem::sceneEvent(event);
}
} else {
bool rv = QGraphicsItem::sceneEvent(event);
if (event->type() == QEvent::FocusIn ||
event->type() == QEvent::FocusOut) {
d->focusChanged(hasActiveFocus());
}
return rv;
}
}
/*!
\internal
Note that unlike QGraphicsItems, QDeclarativeItem::itemChange() is \e not called
during initial widget polishing. Items wishing to optimize start-up construction
should instead consider using componentComplete().
*/
QVariant QDeclarativeItem::itemChange(GraphicsItemChange change,
const QVariant &value)
{
Q_D(QDeclarativeItem);
switch (change) {
case ItemParentHasChanged:
emit parentChanged(parentItem());
d->parentNotifier.notify();
break;
case ItemVisibleHasChanged: {
for(int ii = 0; ii < d->changeListeners.count(); ++ii) {
const QDeclarativeItemPrivate::ChangeListener &change = d->changeListeners.at(ii);
if (change.types & QDeclarativeItemPrivate::Visibility) {
change.listener->itemVisibilityChanged(this);
}
}
}
break;
case ItemOpacityHasChanged: {
for(int ii = 0; ii < d->changeListeners.count(); ++ii) {
const QDeclarativeItemPrivate::ChangeListener &change = d->changeListeners.at(ii);
if (change.types & QDeclarativeItemPrivate::Opacity) {
change.listener->itemOpacityChanged(this);
}
}
}
break;
case ItemChildAddedChange:
if (d->_contents && d->componentComplete)
d->_contents->childAdded(qobject_cast<QDeclarativeItem*>(
value.value<QGraphicsItem*>()));
break;
case ItemChildRemovedChange:
if (d->_contents && d->componentComplete)
d->_contents->childRemoved(qobject_cast<QDeclarativeItem*>(
value.value<QGraphicsItem*>()));
break;
default:
break;
}
return QGraphicsItem::itemChange(change, value);
}
/*! \internal */
QRectF QDeclarativeItem::boundingRect() const
{
Q_D(const QDeclarativeItem);
return QRectF(0, 0, d->mWidth, d->mHeight);
}
/*!
\enum QDeclarativeItem::TransformOrigin
Controls the point about which simple transforms like scale apply.
\value TopLeft The top-left corner of the item.
\value Top The center point of the top of the item.
\value TopRight The top-right corner of the item.
\value Left The left most point of the vertical middle.
\value Center The center of the item.
\value Right The right most point of the vertical middle.
\value BottomLeft The bottom-left corner of the item.
\value Bottom The center point of the bottom of the item.
\value BottomRight The bottom-right corner of the item.
*/
/*!
Returns the current transform origin.
*/
QDeclarativeItem::TransformOrigin QDeclarativeItem::transformOrigin() const
{
Q_D(const QDeclarativeItem);
return d->origin;
}
/*!
Set the transform \a origin.
*/
void QDeclarativeItem::setTransformOrigin(TransformOrigin origin)
{
Q_D(QDeclarativeItem);
if (origin != d->origin) {
d->origin = origin;
if (d->transformData)
QGraphicsItem::setTransformOriginPoint(d->computeTransformOrigin());
else
d->transformOriginDirty = true;
emit transformOriginChanged(d->origin);
}
}
void QDeclarativeItemPrivate::transformChanged()
{
Q_Q(QDeclarativeItem);
if (transformOriginDirty) {
q->QGraphicsItem::setTransformOriginPoint(computeTransformOrigin());
transformOriginDirty = false;
}
}
/*!
\property QDeclarativeItem::smooth
\brief whether the item is smoothly transformed.
This property is provided purely for the purpose of optimization. Turning
smooth transforms off is faster, but looks worse; turning smooth
transformations on is slower, but looks better.
By default smooth transformations are off.
*/
/*!
Returns true if the item should be drawn with antialiasing and
smooth pixmap filtering, false otherwise.
The default is false.
\sa setSmooth()
*/
bool QDeclarativeItem::smooth() const
{
Q_D(const QDeclarativeItem);
return d->smooth;
}
/*!
Sets whether the item should be drawn with antialiasing and
smooth pixmap filtering to \a smooth.
\sa smooth()
*/
void QDeclarativeItem::setSmooth(bool smooth)
{
Q_D(QDeclarativeItem);
if (d->smooth == smooth)
return;
d->smooth = smooth;
emit smoothChanged(smooth);
update();
}
/*!
\property QDeclarativeItem::anchors
\internal
*/
/*!
\property QDeclarativeItem::left
\internal
*/
/*!
\property QDeclarativeItem::right
\internal
*/
/*!
\property QDeclarativeItem::horizontalCenter
\internal
*/
/*!
\property QDeclarativeItem::top
\internal
*/
/*!
\property QDeclarativeItem::bottom
\internal
*/
/*!
\property QDeclarativeItem::verticalCenter
\internal
*/
/*!
\property QDeclarativeItem::focus
\internal
*/
/*!
\property QDeclarativeItem::transform
\internal
*/
/*!
\property QDeclarativeItem::transformOrigin
\internal
*/
/*!
\property QDeclarativeItem::activeFocus
\internal
*/
/*!
\property QDeclarativeItem::baseline
\internal
*/
/*!
\property QDeclarativeItem::data
\internal
*/
/*!
\property QDeclarativeItem::resources
\internal
*/
/*!
\property QDeclarativeItem::state
\internal
*/
/*!
\property QDeclarativeItem::states
\internal
*/
/*!
\property QDeclarativeItem::transformOriginPoint
\internal
*/
/*!
\property QDeclarativeItem::transitions
\internal
*/
/*!
\internal
Return the width of the item
*/
qreal QDeclarativeItem::width() const
{
Q_D(const QDeclarativeItem);
return d->width();
}
/*!
\internal
Set the width of the item
*/
void QDeclarativeItem::setWidth(qreal w)
{
Q_D(QDeclarativeItem);
d->setWidth(w);
}
/*!
\internal
Reset the width of the item
*/
void QDeclarativeItem::resetWidth()
{
Q_D(QDeclarativeItem);
d->resetWidth();
}
/*!
\internal
Return the width of the item
*/
qreal QDeclarativeItemPrivate::width() const
{
return mWidth;
}
/*!
\internal
*/
void QDeclarativeItemPrivate::setWidth(qreal w)
{
Q_Q(QDeclarativeItem);
if (qIsNaN(w))
return;
widthValid = true;
if (mWidth == w)
return;
qreal oldWidth = mWidth;
q->prepareGeometryChange();
mWidth = w;
q->geometryChanged(QRectF(q->x(), q->y(), width(), height()),
QRectF(q->x(), q->y(), oldWidth, height()));
}
/*!
\internal
*/
void QDeclarativeItemPrivate::resetWidth()
{
Q_Q(QDeclarativeItem);
widthValid = false;
q->setImplicitWidth(q->implicitWidth());
}
/*!
Returns the width of the item that is implied by other properties that determine the content.
*/
qreal QDeclarativeItem::implicitWidth() const
{
Q_D(const QDeclarativeItem);
return d->implicitWidth;
}
/*!
Sets the implied width of the item to \a w.
This is the width implied by other properties that determine the content.
*/
void QDeclarativeItem::setImplicitWidth(qreal w)
{
Q_D(QDeclarativeItem);
d->implicitWidth = w;
if (d->mWidth == w || widthValid())
return;
qreal oldWidth = d->mWidth;
prepareGeometryChange();
d->mWidth = w;
geometryChanged(QRectF(x(), y(), width(), height()),
QRectF(x(), y(), oldWidth, height()));
}
/*!
Returns whether the width property has been set explicitly.
*/
bool QDeclarativeItem::widthValid() const
{
Q_D(const QDeclarativeItem);
return d->widthValid;
}
/*!
\internal
Return the height of the item
*/
qreal QDeclarativeItem::height() const
{
Q_D(const QDeclarativeItem);
return d->height();
}
/*!
\internal
Set the height of the item
*/
void QDeclarativeItem::setHeight(qreal h)
{
Q_D(QDeclarativeItem);
d->setHeight(h);
}
/*!
\internal
Reset the height of the item
*/
void QDeclarativeItem::resetHeight()
{
Q_D(QDeclarativeItem);
d->resetHeight();
}
/*!
\internal
*/
qreal QDeclarativeItemPrivate::height() const
{
return mHeight;
}
/*!
\internal
*/
void QDeclarativeItemPrivate::setHeight(qreal h)
{
Q_Q(QDeclarativeItem);
if (qIsNaN(h))
return;
heightValid = true;
if (mHeight == h)
return;
qreal oldHeight = mHeight;
q->prepareGeometryChange();
mHeight = h;
q->geometryChanged(QRectF(q->x(), q->y(), width(), height()),
QRectF(q->x(), q->y(), width(), oldHeight));
}
/*!
\internal
*/
void QDeclarativeItemPrivate::resetHeight()
{
Q_Q(QDeclarativeItem);
heightValid = false;
q->setImplicitHeight(q->implicitHeight());
}
/*!
Returns the height of the item that is implied by other properties that determine the content.
*/
qreal QDeclarativeItem::implicitHeight() const
{
Q_D(const QDeclarativeItem);
return d->implicitHeight;
}
/*!
Sets the implied height of the item to \a h.
This is the height implied by other properties that determine the content.
*/
void QDeclarativeItem::setImplicitHeight(qreal h)
{
Q_D(QDeclarativeItem);
d->implicitHeight = h;
if (d->mHeight == h || heightValid())
return;
qreal oldHeight = d->mHeight;
prepareGeometryChange();
d->mHeight = h;
geometryChanged(QRectF(x(), y(), width(), height()),
QRectF(x(), y(), width(), oldHeight));
}
/*!
Returns whether the height property has been set explicitly.
*/
bool QDeclarativeItem::heightValid() const
{
Q_D(const QDeclarativeItem);
return d->heightValid;
}
/*! \internal */
void QDeclarativeItem::setSize(const QSizeF &size)
{
Q_D(QDeclarativeItem);
d->heightValid = true;
d->widthValid = true;
if (d->height() == size.height() && d->width() == size.width())
return;
qreal oldHeight = d->height();
qreal oldWidth = d->width();
prepareGeometryChange();
d->setHeight(size.height());
d->setWidth(size.width());
geometryChanged(QRectF(x(), y(), width(), height()),
QRectF(x(), y(), oldWidth, oldHeight));
}
/*!
\qmlproperty bool Item::activeFocus
This property indicates whether the item has active focus.
An item with active focus will receive keyboard input,
or is a FocusScope ancestor of the item that will receive keyboard input.
Usually, activeFocus is gained by setting focus on an item and its enclosing
FocusScopes. In the following example \c input will have activeFocus.
\qml
Rectangle {
FocusScope {
focus: true
TextInput {
id: input
focus: true
}
}
}
\endqml
\sa focus, {qmlfocus}{Keyboard Focus}
*/
/*! \internal */
bool QDeclarativeItem::hasActiveFocus() const
{
Q_D(const QDeclarativeItem);
return focusItem() == this ||
(d->flags & QGraphicsItem::ItemIsFocusScope && focusItem() != 0);
}
/*!
\qmlproperty bool Item::focus
This property indicates whether the item has focus within the enclosing focus scope. If true, this item
will gain active focus when the enclosing focus scope gains active focus.
In the following example, \c input will be given active focus when \c scope gains active focus.
\qml
Rectangle {
FocusScope {
id: scope
TextInput {
id: input
focus: true
}
}
}
\endqml
For the purposes of this property, the scene as a whole is assumed to act like a focus scope.
On a practical level, that means the following QML will give active focus to \c input on startup.
\qml
Rectangle {
TextInput {
id: input
focus: true
}
}
\endqml
\sa activeFocus, {qmlfocus}{Keyboard Focus}
*/
/*! \internal */
bool QDeclarativeItem::hasFocus() const
{
Q_D(const QDeclarativeItem);
QGraphicsItem *p = d->parent;
while (p) {
if (p->flags() & QGraphicsItem::ItemIsFocusScope) {
return p->focusScopeItem() == this;
}
p = p->parentItem();
}
return hasActiveFocus();
}
/*! \internal */
void QDeclarativeItem::setFocus(bool focus)
{
if (focus)
QGraphicsItem::setFocus(Qt::OtherFocusReason);
else
QGraphicsItem::clearFocus();
}
/*!
\internal
*/
void QDeclarativeItem::paint(QPainter *, const QStyleOptionGraphicsItem *, QWidget *)
{
}
/*!
\internal
*/
bool QDeclarativeItem::event(QEvent *ev)
{
Q_D(QDeclarativeItem);
switch (ev->type()) {
case QEvent::KeyPress:
case QEvent::KeyRelease:
case QEvent::InputMethod:
d->doneEventPreHandler = false;
break;
default:
break;
}
return QGraphicsObject::event(ev);
}
#ifndef QT_NO_DEBUG_STREAM
QDebug operator<<(QDebug debug, QDeclarativeItem *item)
{
if (!item) {
debug << "QDeclarativeItem(0)";
return debug;
}
debug << item->metaObject()->className() << "(this =" << ((void*)item)
<< ", parent =" << ((void*)item->parentItem())
<< ", geometry =" << QRectF(item->pos(), QSizeF(item->width(), item->height()))
<< ", z =" << item->zValue() << ')';
return debug;
}
#endif
qint64 QDeclarativeItemPrivate::consistentTime = -1;
void QDeclarativeItemPrivate::setConsistentTime(qint64 t)
{
consistentTime = t;
}
class QElapsedTimerConsistentTimeHack
{
public:
void start() {
t1 = QDeclarativeItemPrivate::consistentTime;
t2 = 0;
}
qint64 elapsed() {
return QDeclarativeItemPrivate::consistentTime - t1;
}
qint64 restart() {
qint64 val = QDeclarativeItemPrivate::consistentTime - t1;
t1 = QDeclarativeItemPrivate::consistentTime;
t2 = 0;
return val;
}
private:
qint64 t1;
qint64 t2;
};
void QDeclarativeItemPrivate::start(QElapsedTimer &t)
{
if (QDeclarativeItemPrivate::consistentTime == -1)
t.start();
else
((QElapsedTimerConsistentTimeHack*)&t)->start();
}
qint64 QDeclarativeItemPrivate::elapsed(QElapsedTimer &t)
{
if (QDeclarativeItemPrivate::consistentTime == -1)
return t.elapsed();
else
return ((QElapsedTimerConsistentTimeHack*)&t)->elapsed();
}
qint64 QDeclarativeItemPrivate::restart(QElapsedTimer &t)
{
if (QDeclarativeItemPrivate::consistentTime == -1)
return t.restart();
else
return ((QElapsedTimerConsistentTimeHack*)&t)->restart();
}
QT_END_NAMESPACE
#include <moc_qdeclarativeitem.cpp>
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