/* -*- mode: C++ ; c-file-style: "stroustrup" -*- *****************************
* Qwt Widget Library
* Copyright (C) 1997 Josef Wilgen
* Copyright (C) 2002 Uwe Rathmann
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the Qwt License, Version 1.0
*****************************************************************************/
#include <math.h>
#include <qpainter.h>
#if QT_VERSION >= 0x040000
#include <qbitmap.h>
#include <qpalette.h>
#endif
#include <qpixmap.h>
#include <qevent.h>
#include "qwt_math.h"
#include "qwt_scale_engine.h"
#include "qwt_scale_map.h"
#include "qwt_paint_buffer.h"
#include "qwt_painter.h"
#include "qwt_dial_needle.h"
#include "qwt_dial.h"
class QwtDial::PrivateData
{
public:
PrivateData():
visibleBackground(true),
frameShadow(Sunken),
lineWidth(0),
mode(RotateNeedle),
origin(90.0),
minScaleArc(0.0),
maxScaleArc(0.0),
scaleDraw(0),
maxMajIntv(36),
maxMinIntv(10),
scaleStep(0.0),
needle(0) {
}
~PrivateData() {
delete scaleDraw;
delete needle;
}
bool visibleBackground;
Shadow frameShadow;
int lineWidth;
QwtDial::Mode mode;
double origin;
double minScaleArc;
double maxScaleArc;
QwtDialScaleDraw *scaleDraw;
int maxMajIntv;
int maxMinIntv;
double scaleStep;
QwtDialNeedle *needle;
static double previousDir;
};
double QwtDial::PrivateData::previousDir = -1.0;
/*!
Constructor
\param parent Parent dial widget
*/
QwtDialScaleDraw::QwtDialScaleDraw(QwtDial *parent):
d_parent(parent),
d_penWidth(1)
{
}
/*!
Set the pen width used for painting the scale
\param penWidth Pen width
\sa penWidth(), QwtDial::drawScale()
*/
void QwtDialScaleDraw::setPenWidth(uint penWidth)
{
d_penWidth = penWidth;
}
/*!
\return Pen width used for painting the scale
\sa setPenWidth, QwtDial::drawScale()
*/
uint QwtDialScaleDraw::penWidth() const
{
return d_penWidth;
}
/*!
Call QwtDial::scaleLabel of the parent dial widget.
\param value Value to display
\sa QwtDial::scaleLabel
*/
QwtText QwtDialScaleDraw::label(double value) const
{
if ( d_parent == NULL )
return QwtRoundScaleDraw::label(value);
return d_parent->scaleLabel(value);
}
/*!
\brief Constructor
\param parent Parent widget
Create a dial widget with no scale and no needle.
The default origin is 90.0 with no valid value. It accepts
mouse and keyboard inputs and has no step size. The default mode
is QwtDial::RotateNeedle.
*/
QwtDial::QwtDial(QWidget* parent):
QwtAbstractSlider(Qt::Horizontal, parent)
{
initDial();
}
#if QT_VERSION < 0x040000
/*!
\brief Constructor
\param parent Parent widget
\param name Object name
Create a dial widget with no scale and no needle.
The default origin is 90.0 with no valid value. It accepts
mouse and keyboard inputs and has no step size. The default mode
is QwtDial::RotateNeedle.
*/
QwtDial::QwtDial(QWidget* parent, const char *name):
QwtAbstractSlider(Qt::Horizontal, parent)
{
setName(name);
initDial();
}
#endif
void QwtDial::initDial()
{
d_data = new PrivateData;
#if QT_VERSION < 0x040000
setWFlags(Qt::WNoAutoErase);
#endif
#if QT_VERSION >= 0x040000
using namespace Qt;
#endif
setFocusPolicy(TabFocus);
QPalette p = palette();
for ( int i = 0; i < QPalette::NColorGroups; i++ ) {
const QPalette::ColorGroup cg = (QPalette::ColorGroup)i;
// Base: background color of the circle inside the frame.
// Foreground: background color of the circle inside the scale
#if QT_VERSION < 0x040000
p.setColor(cg, QColorGroup::Foreground,
p.color(cg, QColorGroup::Base));
#else
p.setColor(cg, QPalette::Foreground,
p.color(cg, QPalette::Base));
#endif
}
setPalette(p);
d_data->scaleDraw = new QwtDialScaleDraw(this);
d_data->scaleDraw->setRadius(0);
setScaleArc(0.0, 360.0); // scale as a full circle
setRange(0.0, 360.0, 1.0, 10); // degrees as deafult
}
//! Destructor
QwtDial::~QwtDial()
{
delete d_data;
}
/*!
Show/Hide the area outside of the frame
\param show Show if true, hide if false
\sa hasVisibleBackground(), setMask()
\warning When QwtDial is a toplevel widget the window
border might disappear too.
*/
void QwtDial::showBackground(bool show)
{
if ( d_data->visibleBackground != show ) {
d_data->visibleBackground = show;
updateMask();
}
}
/*!
true when the area outside of the frame is visible
\sa showBackground(), setMask()
*/
bool QwtDial::hasVisibleBackground() const
{
return d_data->visibleBackground;
}
/*!
Sets the frame shadow value from the frame style.
\param shadow Frame shadow
\sa setLineWidth(), QFrame::setFrameShadow()
*/
void QwtDial::setFrameShadow(Shadow shadow)
{
if ( shadow != d_data->frameShadow ) {
d_data->frameShadow = shadow;
if ( lineWidth() > 0 )
update();
}
}
/*!
\return Frame shadow
/sa setFrameShadow(), lineWidth(), QFrame::frameShadow
*/
QwtDial::Shadow QwtDial::frameShadow() const
{
return d_data->frameShadow;
}
/*!
Sets the line width
\param lineWidth Line width
\sa setFrameShadow()
*/
void QwtDial::setLineWidth(int lineWidth)
{
if ( lineWidth < 0 )
lineWidth = 0;
if ( d_data->lineWidth != lineWidth ) {
d_data->lineWidth = lineWidth;
update();
}
}
/*!
\return Line width of the frame
\sa setLineWidth(), frameShadow(), lineWidth()
*/
int QwtDial::lineWidth() const
{
return d_data->lineWidth;
}
/*!
\return bounding rect of the circle inside the frame
\sa setLineWidth(), scaleContentsRect(), boundingRect()
*/
QRect QwtDial::contentsRect() const
{
const int lw = lineWidth();
QRect r = boundingRect();
if ( lw > 0 ) {
r.setRect(r.x() + lw, r.y() + lw,
r.width() - 2 * lw, r.height() - 2 * lw);
}
return r;
}
/*!
\return bounding rect of the dial including the frame
\sa setLineWidth(), scaleContentsRect(), contentsRect()
*/
QRect QwtDial::boundingRect() const
{
const int radius = qwtMin(width(), height()) / 2;
QRect r(0, 0, 2 * radius, 2 * radius);
r.moveCenter(rect().center());
return r;
}
/*!
\return rect inside the scale
\sa setLineWidth(), boundingRect(), contentsRect()
*/
QRect QwtDial::scaleContentsRect() const
{
#if QT_VERSION < 0x040000
const QPen scalePen(colorGroup().text(), 0, Qt::NoPen);
#else
const QPen scalePen(palette().text(), 0, Qt::NoPen);
#endif
int scaleDist = 0;
if ( d_data->scaleDraw ) {
scaleDist = d_data->scaleDraw->extent(scalePen, font());
scaleDist++; // margin
}
const QRect rect = contentsRect();
return QRect(rect.x() + scaleDist, rect.y() + scaleDist,
rect.width() - 2 * scaleDist, rect.height() - 2 * scaleDist);
}
/*!
\brief Change the mode of the meter.
\param mode New mode
The value of the meter is indicated by the difference
between north of the scale and the direction of the needle.
In case of QwtDial::RotateNeedle north is pointing
to the origin() and the needle is rotating, in case of
QwtDial::RotateScale, the needle points to origin()
and the scale is rotating.
The default mode is QwtDial::RotateNeedle.
\sa mode(), setValue(), setOrigin()
*/
void QwtDial::setMode(Mode mode)
{
if ( mode != d_data->mode ) {
d_data->mode = mode;
update();
}
}
/*!
\return mode of the dial.
The value of the dial is indicated by the difference
between the origin and the direction of the needle.
In case of QwtDial::RotateNeedle the scale arc is fixed
to the origin() and the needle is rotating, in case of
QwtDial::RotateScale, the needle points to origin()
and the scale is rotating.
The default mode is QwtDial::RotateNeedle.
\sa setMode(), origin(), setScaleArc(), value()
*/
QwtDial::Mode QwtDial::mode() const
{
return d_data->mode;
}
/*!
Sets whether it is possible to step the value from the highest value to
the lowest value and vice versa to on.
\param wrapping en/disables wrapping
\sa wrapping(), QwtDoubleRange::periodic()
\note The meaning of wrapping is like the wrapping property of QSpinBox,
but not like it is used in QDial.
*/
void QwtDial::setWrapping(bool wrapping)
{
setPeriodic(wrapping);
}
/*!
wrapping() holds whether it is possible to step the value from the
highest value to the lowest value and vice versa.
\sa setWrapping(), QwtDoubleRange::setPeriodic()
\note The meaning of wrapping is like the wrapping property of QSpinBox,
but not like it is used in QDial.
*/
bool QwtDial::wrapping() const
{
return periodic();
}
/*!
Resize the dial widget
\param e Resize event
*/
void QwtDial::resizeEvent(QResizeEvent *e)
{
QWidget::resizeEvent(e);
if ( !hasVisibleBackground() )
updateMask();
}
/*!
Paint the dial
\param e Paint event
*/
void QwtDial::paintEvent(QPaintEvent *e)
{
const QRect &ur = e->rect();
if ( ur.isValid() ) {
#if QT_VERSION < 0x040000
QwtPaintBuffer paintBuffer(this, ur);
QPainter &painter = *paintBuffer.painter();
#else
QPainter painter(this);
painter.setRenderHint(QPainter::Antialiasing, true);
#endif
painter.save();
drawContents(&painter);
painter.restore();
painter.save();
drawFrame(&painter);
painter.restore();
if ( hasFocus() )
drawFocusIndicator(&painter);
}
}
/*!
Draw a dotted round circle, if !isReadOnly()
\param painter Painter
*/
void QwtDial::drawFocusIndicator(QPainter *painter) const
{
if ( !isReadOnly() ) {
QRect focusRect = contentsRect();
const int margin = 2;
focusRect.setRect(
focusRect.x() + margin,
focusRect.y() + margin,
focusRect.width() - 2 * margin,
focusRect.height() - 2 * margin);
#if QT_VERSION < 0x040000
QColor color = colorGroup().color(QColorGroup::Base);
#else
QColor color = palette().color(QPalette::Base);
#endif
if (color.isValid()) {
const QColor gray(Qt::gray);
int h, s, v;
#if QT_VERSION < 0x040000
color.hsv(&h, &s, &v);
#else
color.getHsv(&h, &s, &v);
#endif
color = (v > 128) ? gray.dark(120) : gray.light(120);
} else
color = Qt::darkGray;
painter->save();
painter->setBrush(Qt::NoBrush);
painter->setPen(QPen(color, 0, Qt::DotLine));
painter->drawEllipse(focusRect);
painter->restore();
}
}
/*!
Draw the frame around the dial
\param painter Painter
\sa lineWidth(), frameShadow()
*/
void QwtDial::drawFrame(QPainter *painter)
{
const int lw = lineWidth();
const int off = (lw + 1) % 2;
QRect r = boundingRect();
r.setRect(r.x() + lw / 2 - off, r.y() + lw / 2 - off,
r.width() - lw + off + 1, r.height() - lw + off + 1);
#if QT_VERSION >= 0x040000
#ifdef __GNUC__
#endif
r.setX(r.x() + 1);
r.setY(r.y() + 1);
r.setWidth(r.width() - 2);
r.setHeight(r.height() - 2);
#endif
if ( lw > 0 ) {
switch(d_data->frameShadow) {
case QwtDial::Raised:
#if QT_VERSION < 0x040000
QwtPainter::drawRoundFrame(painter, r,
lw, colorGroup(), false);
#else
QwtPainter::drawRoundFrame(painter, r,
lw, palette(), false);
#endif
break;
case QwtDial::Sunken:
#if QT_VERSION < 0x040000
QwtPainter::drawRoundFrame(painter, r,
lw, colorGroup(), true);
#else
QwtPainter::drawRoundFrame(painter, r,
lw, palette(), true);
#endif
break;
default: { // Plain
painter->save();
painter->setPen(QPen(Qt::black, lw));
painter->setBrush(Qt::NoBrush);
painter->drawEllipse(r);
painter->restore();
}
}
}
}
/*!
\brief Draw the contents inside the frame
QColorGroup::Background is the background color outside of the frame.
QColorGroup::Base is the background color inside the frame.
QColorGroup::Foreground is the background color inside the scale.
\param painter Painter
\sa boundingRect(), contentsRect(),
scaleContentsRect(), QWidget::setPalette
*/
void QwtDial::drawContents(QPainter *painter) const
{
#if QT_VERSION < 0x040000
if ( backgroundMode() == Qt::NoBackground ||
colorGroup().brush(QColorGroup::Base) !=
colorGroup().brush(QColorGroup::Background) )
#else
if ( testAttribute(Qt::WA_NoSystemBackground) ||
palette().brush(QPalette::Base) !=
palette().brush(QPalette::Background) )
#endif
{
const QRect br = boundingRect();
painter->save();
painter->setPen(Qt::NoPen);
#if QT_VERSION < 0x040000
painter->setBrush(colorGroup().brush(QColorGroup::Base));
#else
painter->setBrush(palette().brush(QPalette::Base));
#endif
painter->drawEllipse(br);
painter->restore();
}
const QRect insideScaleRect = scaleContentsRect();
#if QT_VERSION < 0x040000
if ( colorGroup().brush(QColorGroup::Foreground) !=
colorGroup().brush(QColorGroup::Base) )
#else
if ( palette().brush(QPalette::Foreground) !=
palette().brush(QPalette::Base) )
#endif
{
painter->save();
painter->setPen(Qt::NoPen);
#if QT_VERSION < 0x040000
painter->setBrush(colorGroup().brush(QColorGroup::Foreground));
#else
painter->setBrush(palette().brush(QPalette::Foreground));
#endif
painter->drawEllipse(insideScaleRect.x() - 1, insideScaleRect.y() - 1,
insideScaleRect.width(), insideScaleRect.height() );
painter->restore();
}
const QPoint center = insideScaleRect.center();
const int radius = insideScaleRect.width() / 2;
painter->save();
drawScaleContents(painter, center, radius);
painter->restore();
double direction = d_data->origin;
if (isValid()) {
direction = d_data->origin + d_data->minScaleArc;
if ( maxValue() > minValue() && d_data->maxScaleArc > d_data->minScaleArc ) {
const double ratio =
(value() - minValue()) / (maxValue() - minValue());
direction += ratio * (d_data->maxScaleArc - d_data->minScaleArc);
}
if ( direction >= 360.0 )
direction -= 360.0;
}
double origin = d_data->origin;
if ( mode() == RotateScale ) {
origin -= direction - d_data->origin;
direction = d_data->origin;
}
painter->save();
drawScale(painter, center, radius, origin, d_data->minScaleArc, d_data->maxScaleArc);
painter->restore();
if ( isValid() ) {
QPalette::ColorGroup cg;
if ( isEnabled() )
cg = hasFocus() ? QPalette::Active : QPalette::Inactive;
else
cg = QPalette::Disabled;
painter->save();
drawNeedle(painter, center, radius, direction, cg);
painter->restore();
}
}
/*!
Draw the needle
\param painter Painter
\param center Center of the dial
\param radius Length for the needle
\param direction Direction of the needle in degrees, counter clockwise
\param cg ColorGroup
*/
void QwtDial::drawNeedle(QPainter *painter, const QPoint ¢er,
int radius, double direction, QPalette::ColorGroup cg) const
{
if ( d_data->needle ) {
direction = 360.0 - direction; // counter clockwise
d_data->needle->draw(painter, center, radius, direction, cg);
}
}
/*!
Draw the scale
\param painter Painter
\param center Center of the dial
\param radius Radius of the scale
\param origin Origin of the scale
\param minArc Minimum of the arc
\param maxArc Minimum of the arc
\sa QwtAbstractScaleDraw::setAngleRange
*/
void QwtDial::drawScale(QPainter *painter, const QPoint ¢er,
int radius, double origin, double minArc, double maxArc) const
{
if ( d_data->scaleDraw == NULL )
return;
origin -= 270.0; // hardcoded origin of QwtScaleDraw
double angle = maxArc - minArc;
if ( angle > 360.0 )
angle = fmod(angle, 360.0);
minArc += origin;
if ( minArc < -360.0 )
minArc = fmod(minArc, 360.0);
maxArc = minArc + angle;
if ( maxArc > 360.0 ) {
// QwtAbstractScaleDraw::setAngleRange accepts only values
// in the range [-360.0..360.0]
minArc -= 360.0;
maxArc -= 360.0;
}
painter->setFont(font());
d_data->scaleDraw->setAngleRange(minArc, maxArc);
d_data->scaleDraw->setRadius(radius);
d_data->scaleDraw->moveCenter(center);
#if QT_VERSION < 0x040000
QColorGroup cg = colorGroup();
const QColor textColor = cg.color(QColorGroup::Text);
cg.setColor(QColorGroup::Foreground, textColor);
painter->setPen(QPen(textColor, d_data->scaleDraw->penWidth()));
d_data->scaleDraw->draw(painter, cg);
#else
QPalette pal = palette();
const QColor textColor = pal.color(QPalette::Text);
pal.setColor(QPalette::Foreground, textColor); //ticks, backbone
painter->setPen(QPen(textColor, d_data->scaleDraw->penWidth()));
d_data->scaleDraw->draw(painter, pal);
#endif
}
void QwtDial::drawScaleContents(QPainter *,
const QPoint &, int) const
{
// empty default implementation
}
/*!
Set a needle for the dial
Qwt is missing a set of good looking needles.
Contributions are very welcome.
\param needle Needle
\warning The needle will be deleted, when a different needle is
set or in ~QwtDial()
*/
void QwtDial::setNeedle(QwtDialNeedle *needle)
{
if ( needle != d_data->needle ) {
if ( d_data->needle )
delete d_data->needle;
d_data->needle = needle;
update();
}
}
/*!
\return needle
\sa setNeedle()
*/
const QwtDialNeedle *QwtDial::needle() const
{
return d_data->needle;
}
/*!
\return needle
\sa setNeedle()
*/
QwtDialNeedle *QwtDial::needle()
{
return d_data->needle;
}
//! QwtDoubleRange update hook
void QwtDial::rangeChange()
{
updateScale();
}
/*!
Update the scale with the current attributes
\sa setScale()
*/
void QwtDial::updateScale()
{
if ( d_data->scaleDraw ) {
QwtLinearScaleEngine scaleEngine;
const QwtScaleDiv scaleDiv = scaleEngine.divideScale(
minValue(), maxValue(),
d_data->maxMajIntv, d_data->maxMinIntv, d_data->scaleStep);
d_data->scaleDraw->setTransformation(scaleEngine.transformation());
d_data->scaleDraw->setScaleDiv(scaleDiv);
}
}
//! Return the scale draw
QwtDialScaleDraw *QwtDial::scaleDraw()
{
return d_data->scaleDraw;
}
//! Return the scale draw
const QwtDialScaleDraw *QwtDial::scaleDraw() const
{
return d_data->scaleDraw;
}
/*!
Set an individual scale draw
\param scaleDraw Scale draw
\warning The previous scale draw is deleted
*/
void QwtDial::setScaleDraw(QwtDialScaleDraw *scaleDraw)
{
if ( scaleDraw != d_data->scaleDraw ) {
if ( d_data->scaleDraw )
delete d_data->scaleDraw;
d_data->scaleDraw = scaleDraw;
updateScale();
update();
}
}
/*!
Change the intervals of the scale
\sa QwtAbstractScaleDraw::setScale
*/
void QwtDial::setScale(int maxMajIntv, int maxMinIntv, double step)
{
d_data->maxMajIntv = maxMajIntv;
d_data->maxMinIntv = maxMinIntv;
d_data->scaleStep = step;
updateScale();
}
/*!
A wrapper method for accessing the scale draw.
- options == 0\n
No visible scale: setScaleDraw(NULL)
- options & ScaleBackbone\n
En/disable the backbone of the scale.
- options & ScaleTicks\n
En/disable the ticks of the scale.
- options & ScaleLabel\n
En/disable scale labels
\sa QwtAbstractScaleDraw::enableComponent
*/
void QwtDial::setScaleOptions(int options)
{
if ( options == 0 )
setScaleDraw(NULL);
QwtDialScaleDraw *sd = d_data->scaleDraw;
if ( sd == NULL )
return;
sd->enableComponent(QwtAbstractScaleDraw::Backbone,
options & ScaleBackbone);
sd->enableComponent(QwtAbstractScaleDraw::Ticks,
options & ScaleTicks);
sd->enableComponent(QwtAbstractScaleDraw::Labels,
options & ScaleLabel);
}
//! See: QwtAbstractScaleDraw::setTickLength, QwtDialScaleDraw::setPenWidth
void QwtDial::setScaleTicks(int minLen, int medLen,
int majLen, int penWidth)
{
QwtDialScaleDraw *sd = d_data->scaleDraw;
if ( sd ) {
sd->setTickLength(QwtScaleDiv::MinorTick, minLen);
sd->setTickLength(QwtScaleDiv::MediumTick, medLen);
sd->setTickLength(QwtScaleDiv::MajorTick, majLen);
sd->setPenWidth(penWidth);
}
}
/*!
Find the label for a value
\param value Value
\return label
*/
QwtText QwtDial::scaleLabel(double value) const
{
#if 1
if ( value == -0 )
value = 0;
#endif
return QString::number(value);
}
//! \return Lower limit of the scale arc
double QwtDial::minScaleArc() const
{
return d_data->minScaleArc;
}
//! \return Upper limit of the scale arc
double QwtDial::maxScaleArc() const
{
return d_data->maxScaleArc;
}
/*!
\brief Change the origin
The origin is the angle where scale and needle is relative to.
\param origin New origin
\sa origin()
*/
void QwtDial::setOrigin(double origin)
{
d_data->origin = origin;
update();
}
/*!
The origin is the angle where scale and needle is relative to.
\return Origin of the dial
\sa setOrigin()
*/
double QwtDial::origin() const
{
return d_data->origin;
}
/*!
Change the arc of the scale
\param minArc Lower limit
\param maxArc Upper limit
*/
void QwtDial::setScaleArc(double minArc, double maxArc)
{
if ( minArc != 360.0 && minArc != -360.0 )
minArc = fmod(minArc, 360.0);
if ( maxArc != 360.0 && maxArc != -360.0 )
maxArc = fmod(maxArc, 360.0);
d_data->minScaleArc = qwtMin(minArc, maxArc);
d_data->maxScaleArc = qwtMax(minArc, maxArc);
if ( d_data->maxScaleArc - d_data->minScaleArc > 360.0 )
d_data->maxScaleArc = d_data->minScaleArc + 360.0;
update();
}
//! QwtDoubleRange update hook
void QwtDial::valueChange()
{
update();
QwtAbstractSlider::valueChange();
}
/*!
\return Size hint
*/
QSize QwtDial::sizeHint() const
{
int sh = 0;
if ( d_data->scaleDraw )
sh = d_data->scaleDraw->extent( QPen(), font() );
const int d = 6 * sh + 2 * lineWidth();
return QSize( d, d );
}
/*!
\brief Return a minimum size hint
\warning The return value of QwtDial::minimumSizeHint() depends on the
font and the scale.
*/
QSize QwtDial::minimumSizeHint() const
{
int sh = 0;
if ( d_data->scaleDraw )
sh = d_data->scaleDraw->extent(QPen(), font() );
const int d = 3 * sh + 2 * lineWidth();
return QSize( d, d );
}
static double line2Radians(const QPoint &p1, const QPoint &p2)
{
const QPoint p = p2 - p1;
double angle;
if ( p.x() == 0 )
angle = ( p.y() <= 0 ) ? M_PI_2 : 3 * M_PI_2;
else {
angle = atan(double(-p.y()) / double(p.x()));
if ( p.x() < 0 )
angle += M_PI;
if ( angle < 0.0 )
angle += 2 * M_PI;
}
return 360.0 - angle * 180.0 / M_PI;
}
/*!
Find the value for a given position
\param pos Position
\return Value
*/
double QwtDial::getValue(const QPoint &pos)
{
if ( d_data->maxScaleArc == d_data->minScaleArc || maxValue() == minValue() )
return minValue();
double dir = line2Radians(rect().center(), pos) - d_data->origin;
if ( dir < 0.0 )
dir += 360.0;
if ( mode() == RotateScale )
dir = 360.0 - dir;
// The position might be in the area that is outside the scale arc.
// We need the range of the scale if it was a complete circle.
const double completeCircle = 360.0 / (d_data->maxScaleArc - d_data->minScaleArc)
* (maxValue() - minValue());
double posValue = minValue() + completeCircle * dir / 360.0;
if ( scrollMode() == ScrMouse ) {
if ( d_data->previousDir >= 0.0 ) { // valid direction
// We have to find out whether the mouse is moving
// clock or counter clockwise
bool clockWise = false;
const double angle = dir - d_data->previousDir;
if ( (angle >= 0.0 && angle <= 180.0) || angle < -180.0 )
clockWise = true;
if ( clockWise ) {
if ( dir < d_data->previousDir && mouseOffset() > 0.0 ) {
// We passed 360 -> 0
setMouseOffset(mouseOffset() - completeCircle);
}
if ( wrapping() ) {
if ( posValue - mouseOffset() > maxValue() ) {
// We passed maxValue and the value will be set
// to minValue. We have to adjust the mouseOffset.
setMouseOffset(posValue - minValue());
}
} else {
if ( posValue - mouseOffset() > maxValue() ||
value() == maxValue() ) {
// We fix the value at maxValue by adjusting
// the mouse offset.
setMouseOffset(posValue - maxValue());
}
}
} else {
if ( dir > d_data->previousDir && mouseOffset() < 0.0 ) {
// We passed 0 -> 360
setMouseOffset(mouseOffset() + completeCircle);
}
if ( wrapping() ) {
if ( posValue - mouseOffset() < minValue() ) {
// We passed minValue and the value will be set
// to maxValue. We have to adjust the mouseOffset.
setMouseOffset(posValue - maxValue());
}
} else {
if ( posValue - mouseOffset() < minValue() ||
value() == minValue() ) {
// We fix the value at minValue by adjusting
// the mouse offset.
setMouseOffset(posValue - minValue());
}
}
}
}
d_data->previousDir = dir;
}
return posValue;
}
/*!
\sa QwtAbstractSlider::getScrollMode
*/
void QwtDial::getScrollMode(const QPoint &p, int &scrollMode, int &direction)
{
direction = 0;
scrollMode = ScrNone;
const QRegion region(contentsRect(), QRegion::Ellipse);
if ( region.contains(p) && p != rect().center() ) {
scrollMode = ScrMouse;
d_data->previousDir = -1.0;
}
}
/*!
Handles key events
- Key_Down, KeyLeft\n
Decrement by 1
- Key_Prior\n
Decrement by pageSize()
- Key_Home\n
Set the value to minValue()
- Key_Up, KeyRight\n
Increment by 1
- Key_Next\n
Increment by pageSize()
- Key_End\n
Set the value to maxValue()
\sa isReadOnly()
*/
void QwtDial::keyPressEvent(QKeyEvent *e)
{
if ( isReadOnly() ) {
e->ignore();
return;
}
if ( !isValid() )
return;
double previous = prevValue();
switch ( e->key() ) {
case Qt::Key_Down:
case Qt::Key_Left:
QwtDoubleRange::incValue(-1);
break;
#if QT_VERSION < 0x040000
case Qt::Key_Prior:
#else
case Qt::Key_PageUp:
#endif
QwtDoubleRange::incValue(-pageSize());
break;
case Qt::Key_Home:
setValue(minValue());
break;
case Qt::Key_Up:
case Qt::Key_Right:
QwtDoubleRange::incValue(1);
break;
#if QT_VERSION < 0x040000
case Qt::Key_Next:
#else
case Qt::Key_PageDown:
#endif
QwtDoubleRange::incValue(pageSize());
break;
case Qt::Key_End:
setValue(maxValue());
break;
default:
;
e->ignore();
}
if (value() != previous)
emit sliderMoved(value());
}
/*!
\brief Update the mask of the dial
In case of "hasVisibleBackground() == false", the backgound is
transparent by a mask.
\sa showBackground(), hasVisibleBackground()
*/
void QwtDial::updateMask()
{
if ( d_data->visibleBackground )
clearMask();
else
setMask(QRegion(boundingRect(), QRegion::Ellipse));
}