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/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** 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 "qmouse_qws.h"
#include "qwindowsystem_qws.h"
#include "qscreen_qws.h"
#include "qapplication.h"
#include "qtextstream.h"
#include "qfile.h"
#include "qdebug.h"
#include "qscreen_qws.h"
QT_BEGIN_NAMESPACE
/*!
\class QWSPointerCalibrationData
\ingroup qws
\brief The QWSPointerCalibrationData class is a container for
mouse calibration data in Qt for Embedded Linux.
Note that this class is only available in \l{Qt for Embedded Linux}.
QWSPointerCalibrationData stores device and screen coordinates in
the devPoints and screenPoints variables, respectively.
A calibration program should create a QWSPointerCalibrationData
object, fill the devPoints and screenPoints variables with its
device and screen coordinates, and pass the object to the mouse
driver using the QWSMouseHandler::calibrate() function.
\sa QWSCalibratedMouseHandler, {Mouse Calibration Example}
*/
/*!
\variable QWSPointerCalibrationData::devPoints
\brief the raw device coordinates for each value of the Location enum.
*/
/*!
\variable QWSPointerCalibrationData::screenPoints
\brief the logical screen coordinates for each value of the Location enum.
*/
/*!
\enum QWSPointerCalibrationData::Location
This enum describes the various logical positions that can be
specified by the devPoints and screenPoints variables.
\value TopLeft Index of the top left corner of the screen.
\value BottomLeft Index of the bottom left corner of the screen.
\value BottomRight Index of the bottom right corner of the screen.
\value TopRight Index of the top right corner of the screen.
\value Center Index of the center of the screen.
\value LastLocation Last index in the pointer arrays.
*/
class QWSMouseHandlerPrivate
{
public:
QWSMouseHandlerPrivate() : screen(qt_screen) {}
const QScreen *screen;
};
/*!
\class QWSMouseHandler
\ingroup qws
\brief The QWSMouseHandler class is a base class for mouse drivers in
Qt for Embedded Linux.
Note that this class is only available in \l{Qt for Embedded Linux}.
\l{Qt for Embedded Linux} provides ready-made drivers for several mouse
protocols, see the \l{Qt for Embedded Linux Pointer Handling}{pointer
handling} documentation for details. Custom mouse drivers can be
implemented by subclassing the QWSMouseHandler class and creating
a mouse driver plugin (derived from QMouseDriverPlugin).
The default implementation of the QMouseDriverFactory class
will automatically detect the plugin, and load the driver into the
server application at run-time using Qt's \l {How to Create Qt
Plugins}{plugin system}.
The mouse driver receives mouse events from the system device and
encapsulates each event with an instance of the QWSEvent class
which it then passes to the server application (the server is
responsible for propagating the event to the appropriate
client). To receive mouse events, a QWSMouseHandler object will
usually create a QSocketNotifier object for the given device. The
QSocketNotifier class provides support for monitoring activity on
a file descriptor. When the socket notifier receives data, it will
call the mouse driver's mouseChanged() function to send the event
to the \l{Qt for Embedded Linux} server application for relaying to
clients.
If you are creating a driver for a device that needs calibration
or noise reduction, such as a touchscreen, use the
QWSCalibratedMouseHandler subclass instead to take advantage of
the calibrate() and clearCalibration() functions. The \l
{qws/mousecalibration}{Mouse Calibration}
demonstrates how to write a simple program using the mechanisms
provided by the QWSMouseHandler class to calibrate a mouse driver.
Note that when deriving from the QWSMouseHandler class, the
resume() and suspend() functions must be reimplemented to control
the flow of mouse input, i.e., the default implementation does
nothing. Reimplementations of these functions typically call the
QSocketNotifier::setEnabled() function to enable or disable the
socket notifier, respectively.
In addition, QWSMouseHandler provides the setScreen() function
that allows you to specify a screen for your mouse driver and the
limitToScreen() function that ensures that a given position is
within this screen's boundaries (changing the position if
necessary). Finally, QWSMouseHandler provides the pos() function
returning the current mouse position.
\sa QMouseDriverPlugin, QMouseDriverFactory, {Qt for Embedded Linux Pointer
Handling}
*/
/*!
\fn void QWSMouseHandler::suspend()
Implement this function to suspend reading and handling of mouse
events, e.g., call the QSocketNotifier::setEnabled() function to
disable the socket notifier.
\sa resume()
*/
/*!
\fn void QWSMouseHandler::resume()
Implement this function to resume reading and handling mouse
events, e.g., call the QSocketNotifier::setEnabled() function to
enable the socket notifier.
\sa suspend()
*/
/*!
\fn const QPoint &QWSMouseHandler::pos() const
Returns the current mouse position.
\sa mouseChanged(), limitToScreen()
*/
/*!
Constructs a mouse driver. The \a driver and \a device arguments
are passed by the QWS_MOUSE_PROTO environment variable.
Call the QWSServer::setMouseHandler() function to make the newly
created mouse driver, the primary driver. Note that the primary
driver is controlled by the system, i.e., the system will delete
it upon exit.
*/
QWSMouseHandler::QWSMouseHandler(const QString &, const QString &)
: mousePos(QWSServer::mousePosition), d_ptr(new QWSMouseHandlerPrivate)
{
}
/*!
Destroys this mouse driver.
Do not call this function if this driver is the primary mouse
driver, i.e., if QWSServer::setMouseHandler() function has been
called passing this driver as argument. The primary mouse
driver is deleted by the system.
*/
QWSMouseHandler::~QWSMouseHandler()
{
delete d_ptr;
}
/*!
Ensures that the given \a position is within the screen's
boundaries, changing the \a position if necessary.
\sa pos(), setScreen()
*/
void QWSMouseHandler::limitToScreen(QPoint &position)
{
position.setX(qMin(d_ptr->screen->deviceWidth() - 1, qMax(0, position.x())));
position.setY(qMin(d_ptr->screen->deviceHeight() - 1, qMax(0, position.y())));
}
/*!
\since 4.2
Sets the screen for this mouse driver to be the given \a screen.
\sa limitToScreen()
*/
void QWSMouseHandler::setScreen(const QScreen *screen)
{
d_ptr->screen = (screen ? screen : qt_screen);
}
/*!
Notifies the system of a new mouse event.
This function updates the current mouse position and sends the
event to the \l{Qt for Embedded Linux} server application for
delivery to the correct widget. Note that a custom mouse driver must call
this function whenever it wants to deliver a new mouse event.
The given \a position is the global position of the mouse cursor.
The \a state parameter is a bitmask of the Qt::MouseButton enum's
values, indicating which mouse buttons are pressed. The \a wheel
parameter is the delta value of the mouse wheel as returned by
QWheelEvent::delta().
\sa pos()
*/
void QWSMouseHandler::mouseChanged(const QPoint &position, int state, int wheel)
{
mousePos = position + d_ptr->screen->offset();
QWSServer::sendMouseEvent(mousePos, state, wheel);
}
/*!
\fn QWSMouseHandler::clearCalibration()
This virtual function allows subclasses of QWSMouseHandler to
clear the calibration information. Note that the default
implementation does nothing.
\sa QWSCalibratedMouseHandler::clearCalibration(), calibrate()
*/
/*!
\fn QWSMouseHandler::calibrate(const QWSPointerCalibrationData *data)
This virtual function allows subclasses of QWSMouseHandler to set
the calibration information passed in the given \a data. Note that
the default implementation does nothing.
\sa QWSCalibratedMouseHandler::calibrate(), clearCalibration()
*/
/*! \fn QWSMouseHandler::getCalibration(QWSPointerCalibrationData *data) const
This virtual function allows subclasses of QWSMouseHandler
to fill in the device coordinates in \a data with values
that correspond to screen coordinates that are already in
\a data. Note that the default implementation does nothing.
*/
/*!
\class QWSCalibratedMouseHandler
\ingroup qws
\brief The QWSCalibratedMouseHandler class provides mouse
calibration and noise reduction in Qt for Embedded Linux.
Note that this class is only available in \l{Qt for Embedded Linux}.
\l{Qt for Embedded Linux} provides ready-made drivers for several mouse
protocols, see the \l{Qt for Embedded Linux Pointer Handling}{pointer
handling} documentation for details. In general, custom mouse
drivers can be implemented by subclassing the QWSMouseHandler
class. But when the system device does not have a fixed mapping
between device and screen coordinates and/or produces noisy events
(e.g., a touchscreen), you should derive from the
QWSCalibratedMouseHandler class instead to take advantage of its
calibration functionality. As always, you must also create a mouse
driver plugin (derived from QMouseDriverPlugin);
the implementation of the QMouseDriverFactory class will then
automatically detect the plugin, and load the driver into the
server application at run-time using Qt's
\l{How to Create Qt Plugins}{plugin system}.
QWSCalibratedMouseHandler provides an implementation of the
calibrate() function to update the calibration parameters based on
coordinate mapping of the given calibration data. The calibration
data is represented by an QWSPointerCalibrationData object. The
linear transformation between device coordinates and screen
coordinates is performed by calling the transform() function
explicitly on the points passed to the
QWSMouseHandler::mouseChanged() function. Use the
clearCalibration() function to make the mouse driver return mouse
events in raw device coordinates and not in screen coordinates.
The calibration parameters are recalculated whenever calibrate()
is called, and they can be stored using the writeCalibration()
function. Previously written parameters can be retrieved at any
time using the readCalibration() function (calibration parameters
are always read when the class is instantiated). Note that the
calibration parameters is written to and read from the file
currently specified by the POINTERCAL_FILE environment variable;
the default file is \c /etc/pointercal.
To achieve noise reduction, QWSCalibratedMouseHandler provides the
sendFiltered() function. Use this function instead of
mouseChanged() whenever a mouse event occurs. The filter's size
can be manipulated using the setFilterSize() function.
\sa QWSMouseHandler, QWSPointerCalibrationData,
{Mouse Calibration Example}
*/
/*!
\internal
*/
QWSCalibratedMouseHandler::QWSCalibratedMouseHandler(const QString &, const QString &)
: samples(5), currSample(0), numSamples(0)
{
clearCalibration();
readCalibration();
}
/*!
Fills \a cd with the device coordinates corresponding to the given
screen coordinates.
\internal
*/
void QWSCalibratedMouseHandler::getCalibration(QWSPointerCalibrationData *cd) const
{
const qint64 scale = qint64(a) * qint64(e) - qint64(b) * qint64(d);
const qint64 xOff = qint64(b) * qint64(f) - qint64(c) * qint64(e);
const qint64 yOff = qint64(c) * qint64(d) - qint64(a) * qint64(f);
for (int i = 0; i <= QWSPointerCalibrationData::LastLocation; ++i) {
const qint64 sX = cd->screenPoints[i].x();
const qint64 sY = cd->screenPoints[i].y();
const qint64 dX = (s*(e*sX - b*sY) + xOff) / scale;
const qint64 dY = (s*(a*sY - d*sX) + yOff) / scale;
cd->devPoints[i] = QPoint(dX, dY);
}
}
/*!
Clears the current calibration, i.e., makes the mouse
driver return mouse events in raw device coordinates instead of
screen coordinates.
\sa calibrate()
*/
void QWSCalibratedMouseHandler::clearCalibration()
{
a = 1;
b = 0;
c = 0;
d = 0;
e = 1;
f = 0;
s = 1;
}
/*!
Saves the current calibration parameters in \c /etc/pointercal
(separated by whitespace and in alphabetical order).
You can override the default \c /etc/pointercal by specifying
another file using the POINTERCAL_FILE environment variable.
\sa readCalibration()
*/
void QWSCalibratedMouseHandler::writeCalibration()
{
QString calFile;
calFile = QString::fromLocal8Bit(qgetenv("POINTERCAL_FILE"));
if (calFile.isEmpty())
calFile = QLatin1String("/etc/pointercal");
#ifndef QT_NO_TEXTSTREAM
QFile file(calFile);
if (file.open(QIODevice::WriteOnly)) {
QTextStream t(&file);
t << a << " " << b << " " << c << " ";
t << d << " " << e << " " << f << " " << s << endl;
} else
#endif
{
qCritical("QWSCalibratedMouseHandler::writeCalibration: "
"Could not save calibration into %s", qPrintable(calFile));
}
}
/*!
Reads previously written calibration parameters which are stored
in \c /etc/pointercal (separated by whitespace and in alphabetical
order).
You can override the default \c /etc/pointercal by specifying
another file using the POINTERCAL_FILE environment variable.
\sa writeCalibration()
*/
void QWSCalibratedMouseHandler::readCalibration()
{
QString calFile = QString::fromLocal8Bit(qgetenv("POINTERCAL_FILE"));
if (calFile.isEmpty())
calFile = QLatin1String("/etc/pointercal");
#ifndef QT_NO_TEXTSTREAM
QFile file(calFile);
if (file.open(QIODevice::ReadOnly)) {
QTextStream t(&file);
t >> a >> b >> c >> d >> e >> f >> s;
if (s == 0 || t.status() != QTextStream::Ok) {
qCritical("Corrupt calibration data");
clearCalibration();
}
} else
#endif
{
qDebug() << "Could not read calibration:" <<calFile;
}
}
static int ilog2(quint32 n)
{
int result = 0;
if (n & 0xffff0000) {
n >>= 16;
result += 16;
}
if (n & 0xff00) {
n >>= 8;
result += 8;}
if (n & 0xf0) {
n >>= 4;
result += 4;
}
if (n & 0xc) {
n >>= 2;
result += 2;
}
if (n & 0x2)
result += 1;
return result;
}
/*!
Updates the calibration parameters based on coordinate mapping of
the given \a data.
Create an instance of the QWSPointerCalibrationData class, fill in
the device and screen coordinates and pass that object to the mouse
driver using this function.
\sa clearCalibration(), transform()
*/
void QWSCalibratedMouseHandler::calibrate(const QWSPointerCalibrationData *data)
{
// Algorithm derived from
// "How To Calibrate Touch Screens" by Carlos E. Vidales,
// printed in Embedded Systems Programming, Vol. 15 no 6, June 2002
// URL: http://www.embedded.com/showArticle.jhtml?articleID=9900629
const QPoint pd0 = data->devPoints[QWSPointerCalibrationData::TopLeft];
const QPoint pd1 = data->devPoints[QWSPointerCalibrationData::TopRight];
const QPoint pd2 = data->devPoints[QWSPointerCalibrationData::BottomRight];
const QPoint p0 = data->screenPoints[QWSPointerCalibrationData::TopLeft];
const QPoint p1 = data->screenPoints[QWSPointerCalibrationData::TopRight];
const QPoint p2 = data->screenPoints[QWSPointerCalibrationData::BottomRight];
const qint64 xd0 = pd0.x();
const qint64 xd1 = pd1.x();
const qint64 xd2 = pd2.x();
const qint64 yd0 = pd0.y();
const qint64 yd1 = pd1.y();
const qint64 yd2 = pd2.y();
const qint64 x0 = p0.x();
const qint64 x1 = p1.x();
const qint64 x2 = p2.x();
const qint64 y0 = p0.y();
const qint64 y1 = p1.y();
const qint64 y2 = p2.y();
qint64 scale = ((xd0 - xd2)*(yd1 - yd2) - (xd1 - xd2)*(yd0 - yd2));
int shift = 0;
qint64 absScale = qAbs(scale);
// use maximum 16 bit precision to reduce risk of integer overflow
if (absScale > (1 << 16)) {
shift = ilog2(absScale >> 16) + 1;
scale >>= shift;
}
s = scale;
a = ((x0 - x2)*(yd1 - yd2) - (x1 - x2)*(yd0 - yd2)) >> shift;
b = ((xd0 - xd2)*(x1 - x2) - (x0 - x2)*(xd1 - xd2)) >> shift;
c = (yd0*(xd2*x1 - xd1*x2) + yd1*(xd0*x2 - xd2*x0) + yd2*(xd1*x0 - xd0*x1)) >> shift;
d = ((y0 - y2)*(yd1 - yd2) - (y1 - y2)*(yd0 - yd2)) >> shift;
e = ((xd0 - xd2)*(y1 - y2) - (y0 - y2)*(xd1 - xd2)) >> shift;
f = (yd0*(xd2*y1 - xd1*y2) + yd1*(xd0*y2 - xd2*y0) + yd2*(xd1*y0 - xd0*y1)) >> shift;
writeCalibration();
}
/*!
Transforms the given \a position from device coordinates to screen
coordinates, and returns the transformed position.
This function is typically called explicitly on the points passed
to the QWSMouseHandler::mouseChanged() function.
This implementation is a linear transformation using 7 parameters
(\c a, \c b, \c c, \c d, \c e, \c f and \c s) to transform the
device coordinates (\c Xd, \c Yd) into screen coordinates (\c Xs,
\c Ys) using the following equations:
\snippet doc/src/snippets/code/src_gui_embedded_qmouse_qws.cpp 0
\sa mouseChanged()
*/
QPoint QWSCalibratedMouseHandler::transform(const QPoint &position)
{
QPoint tp;
tp.setX((a * position.x() + b * position.y() + c) / s);
tp.setY((d * position.x() + e * position.y() + f) / s);
return tp;
}
/*!
Sets the size of the filter used in noise reduction to the given
\a size.
The sendFiltered() function reduces noice by calculating an
average position from a collection of mouse event positions. The
filter size determines the number of positions that forms the
basis for these calculations.
\sa sendFiltered()
*/
void QWSCalibratedMouseHandler::setFilterSize(int size)
{
samples.resize(qMax(1, size));
numSamples = 0;
currSample = 0;
}
/*!
\fn bool QWSCalibratedMouseHandler::sendFiltered(const QPoint &position, int state)
Notifies the system of a new mouse event \e after applying a noise
reduction filter. Returns true if the filtering process is
successful; otherwise returns false. Note that if the filtering
process failes, the system is not notified about the event.
The given \a position is the global position of the mouse. The \a
state parameter is a bitmask of the Qt::MouseButton enum's values
indicating which mouse buttons are pressed.
The noice is reduced by calculating an average position from a
collection of mouse event positions and then calling the
mouseChanged() function with the new position. The number of
positions that is used is determined by the filter size.
\sa mouseChanged(), setFilterSize()
*/
bool QWSCalibratedMouseHandler::sendFiltered(const QPoint &position, int button)
{
if (!button) {
if (numSamples >= samples.count())
mouseChanged(transform(position), 0);
currSample = 0;
numSamples = 0;
return true;
}
bool sent = false;
samples[currSample] = position;
numSamples++;
if (numSamples >= samples.count()) {
int ignore = -1;
if (samples.count() > 2) { // throw away the "worst" sample
int maxd = 0;
for (int i = 0; i < samples.count(); i++) {
int d = (mousePos - samples[i]).manhattanLength();
if (d > maxd) {
maxd = d;
ignore = i;
}
}
}
// average the rest
QPoint pos(0, 0);
int numAveraged = 0;
for (int i = 0; i < samples.count(); i++) {
if (ignore == i)
continue;
pos += samples[i];
++numAveraged;
}
if (numAveraged)
pos /= numAveraged;
mouseChanged(transform(pos), button);
sent = true;
}
currSample++;
if (currSample >= samples.count())
currSample = 0;
return sent;
}
QT_END_NAMESPACE
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