plasma-framework/widgets/meter.cpp

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/*
* Copyright (C) 2007 Petri Damsten <damu@iki.fi>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Library General Public License as
* published by the Free Software Foundation; either version 2, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details
*
* You should have received a copy of the GNU Library General Public
* License along with this program; if not, write to the
* Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "meter.h"
#include <cmath>
#include <QPainter>
#include <QTimeLine>
#include <kdebug.h>
#include <kglobalsettings.h>
#include "plasma/animator.h"
#include "plasma/framesvg.h"
#include "plasma/theme.h"
namespace Plasma {
class MeterPrivate
{
public:
MeterPrivate(Meter *m)
: minimum(0),
maximum(100),
value(0),
targetValue(0),
meterType(Meter::AnalogMeter),
image(0),
minrotate(0),
maxrotate(360),
meter(m),
movementId(0)
{
}
void progressChanged(qreal progress)
{
bool over = qFuzzyCompare(progress, 1.0);
if (value == targetValue) {
if (!over && movementId) {
Animator::self()->stopCustomAnimation(movementId);
}
return;
}
if (over) {
value = targetValue;
//kDebug() << "done";
movementId = 0;
} else {
int frame = progress * 10;
int delta = targetValue - value;
value += (delta / qreal(10 - frame));
//kDebug() << frame << value << targetValue;
}
meter->update();
}
void paint(QPainter *p, const QString &elementID)
{
if (image->hasElement(elementID)) {
QRectF elementRect = image->elementRect(elementID);
image->paint(p, elementRect, elementID);
}
}
void text(QPainter *p, int index)
{
QString elementID = QString("label%1").arg(index);
QString text = labels[index];
if (image->hasElement(elementID)) {
QRectF elementRect = image->elementRect(elementID);
Qt::Alignment align = Qt::AlignCenter;
if (colors.count() > index) {
p->setPen(QPen(colors[index]));
}
if (fonts.count() > index) {
p->setFont(fonts[index]);
}
if (alignments.count() > index) {
align = alignments[index];
}
if (elementRect.width() > elementRect.height()) {
p->drawText(elementRect, align, text);
} else {
p->save();
QPointF rotateCenter(
elementRect.left() + elementRect.width() / 2,
elementRect.top() + elementRect.height() / 2);
p->translate(rotateCenter);
p->rotate(-90);
p->translate(elementRect.height() / -2,
elementRect.width() / -2);
QRectF r(0, 0, elementRect.height(), elementRect.width());
p->drawText(r, align, text);
p->restore();
}
}
}
QRectF barRect()
{
if (labels.count() > 0) {
return image->elementRect("background");
} else {
return QRectF(QPoint(0,0), meter->size());
}
}
void paintBackground(QPainter *p)
{
//be retrocompatible with themes for kde <= 4.1
if (image->hasElement("background-center")) {
QRectF elementRect = barRect();
QSize imageSize = image->size();
image->resize();
image->setElementPrefix("background");
image->resizeFrame(elementRect.size());
image->paintFrame(p, elementRect.topLeft());
image->resize(imageSize);
paintBar(p, "bar-inactive");
} else {
paint(p, "background");
}
}
void paintBar(QPainter *p, const QString &prefix)
{
QRectF elementRect = barRect();
QSize imageSize = image->size();
image->resize();
QSize tileSize = image->elementSize("bar-active-center");
if (elementRect.width() > elementRect.height()) {
qreal ratio = tileSize.height() / tileSize.width();
int numTiles = elementRect.width()/(elementRect.height()/ratio);
tileSize = QSize(elementRect.width()/numTiles, elementRect.height());
QPoint center = elementRect.center().toPoint();
elementRect.setWidth(tileSize.width()*numTiles);
elementRect.moveCenter(center);
} else {
qreal ratio = tileSize.width() / tileSize.height();
int numTiles = elementRect.height()/(elementRect.width()/ratio);
tileSize = QSize(elementRect.width(), elementRect.height()/numTiles);
QPoint center = elementRect.center().toPoint();
elementRect.setHeight(tileSize.height()*numTiles);
elementRect.moveCenter(center);
}
image->setElementPrefix(prefix);
image->resizeFrame(tileSize);
p->drawTiledPixmap(elementRect, image->framePixmap());
image->resize(imageSize);
}
void paintForeground(QPainter *p)
{
for (int i = 0; i < labels.count(); ++i) {
text(p, i);
}
paint(p, "foreground");
}
void setSizePolicyAndPreferredSize()
{
switch (meterType) {
case Meter::BarMeterHorizontal:
meter->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Fixed);
break;
case Meter::BarMeterVertical:
meter->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::MinimumExpanding);
break;
case Meter::AnalogMeter:
default:
meter->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred);
break;
}
if (image) {
//set a sane preferredSize. We can't just use the svg's native size, since that way
//letters get cut off if the user uses a font larger then usual. Check how many rows of
//labels we have, add 1 (the progress bar), and multiply by the font height to get a
//somewhat sane size height. This is not perfect but work well enough for 4.2. I suggest
//we look into alternatives for 4.3.
uint i = 0;
uint rows = 0;
qreal prevY = -1;
QString labelName = "label0";
while (image->hasElement(labelName)) {
if (image->elementRect(labelName).y() > prevY) {
prevY = image->elementRect(labelName).y();
rows++;
}
i++;
labelName = QString("label%0").arg(i);
}
Plasma::Theme *theme = Plasma::Theme::defaultTheme();
QFont font = theme->font(Plasma::Theme::DefaultFont);
QFontMetrics fm(font);
meter->setPreferredHeight((rows + 1) * fm.height());
} else {
meter->setPreferredSize(QSizeF(30, 30));
}
}
int minimum;
int maximum;
int value;
int targetValue;
QStringList labels;
QList<Qt::Alignment> alignments;
QList<QColor> colors;
QList<QFont> fonts;
QString svg;
Meter::MeterType meterType;
Plasma::FrameSvg *image;
int minrotate;
int maxrotate;
Meter *meter;
int movementId;
};
Meter::Meter(QGraphicsItem *parent) :
QGraphicsWidget(parent),
d(new MeterPrivate(this))
{
d->setSizePolicyAndPreferredSize();
}
Meter::~Meter()
{
delete d;
}
void Meter::setMaximum(int maximum)
{
d->maximum = maximum;
}
int Meter::maximum() const
{
return d->maximum;
}
void Meter::setMinimum(int minimum)
{
d->minimum = minimum;
}
int Meter::minimum() const
{
return d->minimum;
}
void Meter::setValue(int value)
{
if (value == d->targetValue) {
return;
}
d->targetValue = qBound(d->minimum, value, d->maximum);
int delta = abs(d->value - d->targetValue);
if (d->movementId) {
Animator::self()->stopCustomAnimation(d->movementId);
d->movementId = 0;
}
//kDebug() << d->targetValue << d->value << delta;
if (!(KGlobalSettings::graphicEffectsLevel() & KGlobalSettings::SimpleAnimationEffects) ||
delta / qreal(d->maximum) < 0.1) {
d->value = value;
update();
} else {
d->movementId = Animator::self()->customAnimation(10, 100, Animator::EaseOutCurve,
this, "progressChanged");
}
}
int Meter::value() const
{
return d->value;
}
void Meter::setLabel(int index, const QString &text)
{
while (d->labels.count() <= index) {
d->labels << QString();
}
d->labels[index] = text;
}
QString Meter::label(int index) const
{
return d->labels[index];
}
void Meter::setLabelColor(int index, const QColor &color)
{
while (d->colors.count() <= index) {
d->colors << color;
}
d->colors[index] = color;
}
QColor Meter::labelColor(int index) const
{
return d->colors[index];
}
void Meter::setLabelFont(int index, const QFont &font)
{
while (d->fonts.count() <= index) {
d->fonts << font;
}
d->fonts[index] = font;
}
QFont Meter::labelFont(int index) const
{
return d->fonts[index];
}
void Meter::setLabelAlignment(int index, Qt::Alignment alignment)
{
while (d->alignments.count() <= index) {
d->alignments << alignment;
}
d->alignments[index] = alignment;
}
Qt::Alignment Meter::labelAlignment(int index) const
{
return d->alignments[index];
}
QRectF Meter::labelRect(int index) const
{
QString elementID = QString("label%1").arg(index);
return d->image->elementRect(elementID);
}
void Meter::dataUpdated(const QString &sourceName, const Plasma::DataEngine::Data &data)
{
Q_UNUSED(sourceName)
foreach (const QVariant &v, data) {
if (v.type() == QVariant::Int ||
v.type() == QVariant::UInt ||
v.type() == QVariant::LongLong ||
v.type() == QVariant::ULongLong) {
setValue(v.toInt());
return;
}
}
}
void Meter::setSvg(const QString &svg)
{
d->svg = svg;
delete d->image;
d->image = new Plasma::FrameSvg(this);
d->image->setImagePath(svg);
// To create renderer and get default size
d->image->resize();
d->setSizePolicyAndPreferredSize();
if (d->image->hasElement("rotateminmax")) {
QRectF r = d->image->elementRect("rotateminmax");
d->minrotate = (int)r.height();
d->maxrotate = (int)r.width();
}
}
QString Meter::svg() const
{
return d->svg;
}
void Meter::setMeterType(MeterType meterType)
{
d->meterType = meterType;
if (d->svg.isEmpty()) {
if (meterType == BarMeterHorizontal) {
setSvg("widgets/bar_meter_horizontal");
} else if (meterType == BarMeterVertical) {
setSvg("widgets/bar_meter_vertical");
} else if (meterType == AnalogMeter) {
setSvg("widgets/analog_meter");
}
}
d->setSizePolicyAndPreferredSize();
}
Meter::MeterType Meter::meterType() const
{
return d->meterType;
}
void Meter::paint(QPainter *p,
const QStyleOptionGraphicsItem *option,
QWidget *widget)
{
Q_UNUSED(option)
Q_UNUSED(widget)
if (!d->image) {
return;
}
QRectF rect(QPointF(0, 0), size());
QRectF clipRect;
qreal percentage = 0.0;
qreal angle = 0.0;
QPointF rotateCenter;
QSize intSize = QSize((int)size().width(), (int)size().height());
if (intSize != d->image->size()) {
d->image->resize(intSize);
}
if (d->maximum != d->minimum) {
percentage = (qreal)d->value / (d->maximum - d->minimum);
}
p->setRenderHint(QPainter::SmoothPixmapTransform);
switch (d->meterType) {
case BarMeterHorizontal:
case BarMeterVertical:
d->paintBackground(p);
p->save();
clipRect = d->barRect();
if (clipRect.width() > clipRect.height()) {
clipRect.setWidth(clipRect.width() * percentage);
} else {
qreal bottom = clipRect.bottom();
clipRect.setHeight(clipRect.height() * percentage);
clipRect.moveBottom(bottom);
}
p->setClipRect(clipRect);
//be retrocompatible
if (d->image->hasElement("bar-active-center")) {
d->paintBar(p, "bar-active");
} else {
d->paint(p, "bar");
}
p->restore();
d->paintForeground(p);
break;
case AnalogMeter:
d->paintBackground(p);
p->save();
if (d->image->hasElement("rotatecenter")) {
QRectF r = d->image->elementRect("rotatecenter");
rotateCenter = QPointF(r.left() + r.width() / 2,
r.top() + r.height() / 2);
} else {
rotateCenter = QPointF(rect.width() / 2, rect.height() / 2);
}
angle = percentage * (d->maxrotate - d->minrotate) + d->minrotate;
if (d->image->hasElement("pointer-shadow")) {
p->save();
p->translate(rotateCenter+QPoint(2,3));
p->rotate(angle);
p->translate(-1 * rotateCenter);
d->paint(p, "pointer-shadow");
p->restore();
}
p->translate(rotateCenter);
p->rotate(angle);
p->translate(-1 * rotateCenter);
d->paint(p, "pointer");
p->restore();
d->paintForeground(p);
break;
}
}
} // End of namepace
#include "meter.moc"