/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the tools applications 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 either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** 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 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://www.qtsoftware.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qtgradientwidget.h" #include #include #include #include #include #define _USE_MATH_DEFINES #include "math.h" #ifndef M_PI #define M_PI 3.14159265358979323846 #endif QT_BEGIN_NAMESPACE class QtGradientWidgetPrivate { QtGradientWidget *q_ptr; Q_DECLARE_PUBLIC(QtGradientWidget) public: QPointF fromViewport(const QPointF &point) const; QPointF toViewport(const QPointF &point) const; // void setupDrag(QtGradientStop *stop, int x); QPointF checkRange(const QPointF &point) const; QRectF pointRect(const QPointF &point, double size) const; double correctAngle(double angle) const; void setAngleConical(double angle); void paintPoint(QPainter *painter, const QPointF &point, double size) const; double m_handleSize; bool m_backgroundCheckered; QGradientStops m_gradientStops; QGradient::Type m_gradientType; QGradient::Spread m_gradientSpread; QPointF m_startLinear; QPointF m_endLinear; QPointF m_centralRadial; QPointF m_focalRadial; qreal m_radiusRadial; QPointF m_centralConical; qreal m_angleConical; enum Handle { NoHandle, StartLinearHandle, EndLinearHandle, CentralRadialHandle, FocalRadialHandle, RadiusRadialHandle, CentralConicalHandle, AngleConicalHandle }; Handle m_dragHandle; QPointF m_dragOffset; //double m_radiusOffset; double m_radiusFactor; double m_dragRadius; double m_angleOffset; double m_dragAngle; }; double QtGradientWidgetPrivate::correctAngle(double angle) const { double a = angle; while (a >= 360) a -= 360; while (a < 0) a += 360; return a; } void QtGradientWidgetPrivate::setAngleConical(double angle) { double a = correctAngle(angle); if (m_angleConical == a) return; m_angleConical = a; emit q_ptr->angleConicalChanged(m_angleConical); } QRectF QtGradientWidgetPrivate::pointRect(const QPointF &point, double size) const { return QRectF(point.x() - size / 2, point.y() - size / 2, size, size); } QPointF QtGradientWidgetPrivate::checkRange(const QPointF &point) const { QPointF p = point; if (p.x() > 1) p.setX(1); else if (p.x() < 0) p.setX(0); if (p.y() > 1) p.setY(1); else if (p.y() < 0) p.setY(0); return p; } QPointF QtGradientWidgetPrivate::fromViewport(const QPointF &point) const { QSize size = q_ptr->size(); return QPointF(point.x() / size.width(), point.y() / size.height()); } QPointF QtGradientWidgetPrivate::toViewport(const QPointF &point) const { QSize size = q_ptr->size(); return QPointF(point.x() * size.width(), point.y() * size.height()); } void QtGradientWidgetPrivate::paintPoint(QPainter *painter, const QPointF &point, double size) const { QPointF pf = toViewport(point); QRectF rf = pointRect(pf, size); QPen pen; pen.setWidthF(1); QColor alphaZero = Qt::white; alphaZero.setAlpha(0); painter->save(); painter->drawEllipse(rf); /* painter->save(); QLinearGradient lgV(0, rf.top(), 0, rf.bottom()); lgV.setColorAt(0, alphaZero); lgV.setColorAt(0.25, Qt::white); lgV.setColorAt(0.25, Qt::white); lgV.setColorAt(1, alphaZero); pen.setBrush(lgV); painter->setPen(pen); painter->drawLine(QPointF(pf.x(), rf.top()), QPointF(pf.x(), rf.bottom())); QLinearGradient lgH(rf.left(), 0, rf.right(), 0); lgH.setColorAt(0, alphaZero); lgH.setColorAt(0.5, Qt::white); lgH.setColorAt(1, alphaZero); pen.setBrush(lgH); painter->setPen(pen); painter->drawLine(QPointF(rf.left(), pf.y()), QPointF(rf.right(), pf.y())); painter->restore(); */ painter->restore(); } /* void QtGradientWidgetPrivate::setupDrag(QtGradientStop *stop, int x) { m_model->setCurrentStop(stop); int viewportX = qRound(toViewport(stop->position())); m_dragOffset = x - viewportX; QList stops = m_stops; m_stops.clear(); QListIterator itStop(stops); while (itStop.hasNext()) { QtGradientStop *s = itStop.next(); if (m_model->isSelected(s) || s == stop) { m_dragStops[s] = s->position() - stop->position(); m_stops.append(s); } else { m_dragOriginal[s->position()] = s->color(); } } itStop.toFront(); while (itStop.hasNext()) { QtGradientStop *s = itStop.next(); if (!m_model->isSelected(s)) m_stops.append(s); } m_stops.removeAll(stop); m_stops.prepend(stop); } */ //////////////////////////// QtGradientWidget::QtGradientWidget(QWidget *parent) : QWidget(parent), d_ptr(new QtGradientWidgetPrivate) { d_ptr->q_ptr = this; d_ptr->m_backgroundCheckered = true; d_ptr->m_handleSize = 20.0; d_ptr->m_gradientType = QGradient::LinearGradient; d_ptr->m_startLinear = QPointF(0, 0); d_ptr->m_endLinear = QPointF(1, 1); d_ptr->m_centralRadial = QPointF(0.5, 0.5); d_ptr->m_focalRadial = QPointF(0.5, 0.5); d_ptr->m_radiusRadial = 0.5; d_ptr->m_centralConical = QPointF(0.5, 0.5); d_ptr->m_angleConical = 0; d_ptr->m_dragHandle = QtGradientWidgetPrivate::NoHandle; setSizePolicy(QSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred)); } QtGradientWidget::~QtGradientWidget() { } QSize QtGradientWidget::sizeHint() const { return QSize(176, 176); } QSize QtGradientWidget::minimumSizeHint() const { return QSize(128, 128); } int QtGradientWidget::heightForWidth(int w) const { return w; } void QtGradientWidget::setBackgroundCheckered(bool checkered) { if (d_ptr->m_backgroundCheckered == checkered) return; d_ptr->m_backgroundCheckered = checkered; update(); } bool QtGradientWidget::isBackgroundCheckered() const { return d_ptr->m_backgroundCheckered; } void QtGradientWidget::mousePressEvent(QMouseEvent *e) { if (e->button() != Qt::LeftButton) return; QPoint p = e->pos(); if (d_ptr->m_gradientType == QGradient::LinearGradient) { QPointF startPoint = d_ptr->toViewport(d_ptr->m_startLinear); double x = p.x() - startPoint.x(); double y = p.y() - startPoint.y(); if ((d_ptr->m_handleSize * d_ptr->m_handleSize / 4) > (x * x + y * y)) { d_ptr->m_dragHandle = QtGradientWidgetPrivate::StartLinearHandle; d_ptr->m_dragOffset = QPointF(x, y); update(); return; } QPointF endPoint = d_ptr->toViewport(d_ptr->m_endLinear); x = p.x() - endPoint.x(); y = p.y() - endPoint.y(); if ((d_ptr->m_handleSize * d_ptr->m_handleSize / 4) > (x * x + y * y)) { d_ptr->m_dragHandle = QtGradientWidgetPrivate::EndLinearHandle; d_ptr->m_dragOffset = QPointF(x, y); update(); return; } } else if (d_ptr->m_gradientType == QGradient::RadialGradient) { QPointF focalPoint = d_ptr->toViewport(d_ptr->m_focalRadial); double x = p.x() - focalPoint.x(); double y = p.y() - focalPoint.y(); if ((d_ptr->m_handleSize * d_ptr->m_handleSize / 9) > (x * x + y * y)) { d_ptr->m_dragHandle = QtGradientWidgetPrivate::FocalRadialHandle; d_ptr->m_dragOffset = QPointF(x, y); update(); return; } QPointF centralPoint = d_ptr->toViewport(d_ptr->m_centralRadial); x = p.x() - centralPoint.x(); y = p.y() - centralPoint.y(); if ((d_ptr->m_handleSize * d_ptr->m_handleSize / 4) > (x * x + y * y)) { d_ptr->m_dragHandle = QtGradientWidgetPrivate::CentralRadialHandle; d_ptr->m_dragOffset = QPointF(x, y); update(); return; } QPointF central = d_ptr->toViewport(d_ptr->m_centralRadial); QRectF r = d_ptr->pointRect(central, 2 * d_ptr->m_handleSize / 3); QRectF r1(0, r.y(), size().width(), r.height()); QRectF r2(r.x(), 0, r.width(), r.y()); QRectF r3(r.x(), r.y() + r.height(), r.width(), size().height() - r.y() - r.height()); QPointF pF(p.x(), p.y()); if (r1.contains(pF) || r2.contains(pF) || r3.contains(pF)) { x = pF.x() / size().width() - d_ptr->m_centralRadial.x(); y = pF.y() / size().height() - d_ptr->m_centralRadial.y(); double clickRadius = sqrt(x * x + y * y); //d_ptr->m_radiusOffset = d_ptr->m_radiusRadial - clickRadius; d_ptr->m_radiusFactor = d_ptr->m_radiusRadial / clickRadius; if (d_ptr->m_radiusFactor == 0) d_ptr->m_radiusFactor = 1; d_ptr->m_dragRadius = d_ptr->m_radiusRadial; d_ptr->m_dragHandle = QtGradientWidgetPrivate::RadiusRadialHandle; mouseMoveEvent(e); update(); return; } } else if (d_ptr->m_gradientType == QGradient::ConicalGradient) { QPointF centralPoint = d_ptr->toViewport(d_ptr->m_centralConical); double x = p.x() - centralPoint.x(); double y = p.y() - centralPoint.y(); if ((d_ptr->m_handleSize * d_ptr->m_handleSize / 4) > (x * x + y * y)) { d_ptr->m_dragHandle = QtGradientWidgetPrivate::CentralConicalHandle; d_ptr->m_dragOffset = QPointF(x, y); update(); return; } double radius = size().width(); if (size().height() < radius) radius = size().height(); radius /= 2; double corr = d_ptr->m_handleSize / 3; radius -= corr; QPointF vp = d_ptr->toViewport(d_ptr->m_centralConical); x = p.x() - vp.x(); y = p.y() - vp.y(); if (((radius - corr) * (radius - corr) < (x * x + y * y)) && ((radius + corr) * (radius + corr) > (x * x + y * y))) { QPointF central = d_ptr->toViewport(d_ptr->m_centralConical); QPointF current(e->pos().x(), e->pos().y()); x = current.x() - central.x(); y = current.y() - central.y(); x /= size().width() / 2; y /= size().height() / 2; double r = sqrt(x * x + y * y); double arcSin = asin(y / r); double arcCos = acos(x / r); double angle = arcCos * 180 / M_PI; if (arcSin > 0) { angle = -angle; } d_ptr->m_angleOffset = d_ptr->m_angleConical - angle; d_ptr->m_dragAngle = d_ptr->m_angleConical; d_ptr->m_dragHandle = QtGradientWidgetPrivate::AngleConicalHandle; update(); return; } } } void QtGradientWidget::mouseReleaseEvent(QMouseEvent *e) { Q_UNUSED(e) d_ptr->m_dragHandle = QtGradientWidgetPrivate::NoHandle; update(); } void QtGradientWidget::mouseMoveEvent(QMouseEvent *e) { if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::NoHandle) return; QPointF newPos = QPointF((double)e->pos().x() - d_ptr->m_dragOffset.x(), (double)e->pos().y() - d_ptr->m_dragOffset.y()); QPointF newPoint = d_ptr->fromViewport(newPos); if (newPoint.x() < 0) newPoint.setX(0); else if (newPoint.x() > 1) newPoint.setX(1); if (newPoint.y() < 0) newPoint.setY(0); else if (newPoint.y() > 1) newPoint.setY(1); if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::StartLinearHandle) { d_ptr->m_startLinear = newPoint; emit startLinearChanged(newPoint); } else if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::EndLinearHandle) { d_ptr->m_endLinear = newPoint; emit endLinearChanged(newPoint); } else if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::CentralRadialHandle) { d_ptr->m_centralRadial = newPoint; emit centralRadialChanged(newPoint); } else if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::FocalRadialHandle) { d_ptr->m_focalRadial = newPoint; emit focalRadialChanged(newPoint); } else if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::RadiusRadialHandle) { QPointF centralPoint = d_ptr->toViewport(d_ptr->m_centralRadial); QPointF pF(e->pos().x(), e->pos().y()); double x = pF.x() - centralPoint.x(); double y = pF.y() - centralPoint.y(); if ((d_ptr->m_handleSize * d_ptr->m_handleSize / 4) > (x * x + y * y)) { if (d_ptr->m_radiusRadial != d_ptr->m_dragRadius) { d_ptr->m_radiusRadial = d_ptr->m_dragRadius; emit radiusRadialChanged(d_ptr->m_radiusRadial); } } else { x = pF.x() / size().width() - d_ptr->m_centralRadial.x(); y = pF.y() / size().height() - d_ptr->m_centralRadial.y(); double moveRadius = sqrt(x * x + y * y); //double newRadius = moveRadius + d_ptr->m_radiusOffset; double newRadius = moveRadius * d_ptr->m_radiusFactor; if (newRadius > 2) newRadius = 2; d_ptr->m_radiusRadial = newRadius; emit radiusRadialChanged(d_ptr->m_radiusRadial); } } else if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::CentralConicalHandle) { d_ptr->m_centralConical = newPoint; emit centralConicalChanged(newPoint); } else if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::AngleConicalHandle) { QPointF centralPoint = d_ptr->toViewport(d_ptr->m_centralConical); QPointF pF(e->pos().x(), e->pos().y()); double x = pF.x() - centralPoint.x(); double y = pF.y() - centralPoint.y(); if ((d_ptr->m_handleSize * d_ptr->m_handleSize / 4) > (x * x + y * y)) { if (d_ptr->m_angleConical != d_ptr->m_dragAngle) { d_ptr->m_angleConical = d_ptr->m_dragAngle; emit angleConicalChanged(d_ptr->m_angleConical); } } else { QPointF central = d_ptr->toViewport(d_ptr->m_centralConical); QPointF current = pF; x = current.x() - central.x(); y = current.y() - central.y(); x /= size().width() / 2; y /= size().height() / 2; double r = sqrt(x * x + y * y); double arcSin = asin(y / r); double arcCos = acos(x / r); double angle = arcCos * 180 / M_PI; if (arcSin > 0) { angle = -angle; } angle += d_ptr->m_angleOffset; d_ptr->setAngleConical(angle); } } update(); } void QtGradientWidget::mouseDoubleClickEvent(QMouseEvent *e) { mousePressEvent(e); } void QtGradientWidget::paintEvent(QPaintEvent *e) { Q_UNUSED(e) QPainter p(this); if (d_ptr->m_backgroundCheckered) { int pixSize = 40; QPixmap pm(2 * pixSize, 2 * pixSize); QPainter pmp(&pm); pmp.fillRect(0, 0, pixSize, pixSize, Qt::white); pmp.fillRect(pixSize, pixSize, pixSize, pixSize, Qt::white); pmp.fillRect(0, pixSize, pixSize, pixSize, Qt::black); pmp.fillRect(pixSize, 0, pixSize, pixSize, Qt::black); p.setBrushOrigin((size().width() % pixSize + pixSize) / 2, (size().height() % pixSize + pixSize) / 2); p.fillRect(rect(), pm); p.setBrushOrigin(0, 0); } QGradient *gradient = 0; switch (d_ptr->m_gradientType) { case QGradient::LinearGradient: gradient = new QLinearGradient(d_ptr->m_startLinear, d_ptr->m_endLinear); break; case QGradient::RadialGradient: gradient = new QRadialGradient(d_ptr->m_centralRadial, d_ptr->m_radiusRadial, d_ptr->m_focalRadial); break; case QGradient::ConicalGradient: gradient = new QConicalGradient(d_ptr->m_centralConical, d_ptr->m_angleConical); break; default: break; } if (!gradient) return; gradient->setStops(d_ptr->m_gradientStops); gradient->setSpread(d_ptr->m_gradientSpread); p.save(); p.scale(size().width(), size().height()); p.fillRect(QRect(0, 0, 1, 1), *gradient); p.restore(); p.setRenderHint(QPainter::Antialiasing); QColor c = QColor::fromRgbF(0.5, 0.5, 0.5, 0.5); QBrush br(c); p.setBrush(br); QPen pen(Qt::white); pen.setWidthF(1); p.setPen(pen); QPen dragPen = pen; dragPen.setWidthF(2); if (d_ptr->m_gradientType == QGradient::LinearGradient) { p.save(); if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::StartLinearHandle) p.setPen(dragPen); d_ptr->paintPoint(&p, d_ptr->m_startLinear, d_ptr->m_handleSize); p.restore(); p.save(); if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::EndLinearHandle) p.setPen(dragPen); d_ptr->paintPoint(&p, d_ptr->m_endLinear, d_ptr->m_handleSize); p.restore(); } else if (d_ptr->m_gradientType == QGradient::RadialGradient) { QPointF central = d_ptr->toViewport(d_ptr->m_centralRadial); p.save(); QRectF r = d_ptr->pointRect(central, 2 * d_ptr->m_handleSize / 3); QRectF r1(0, r.y(), size().width(), r.height()); QRectF r2(r.x(), 0, r.width(), r.y()); QRectF r3(r.x(), r.y() + r.height(), r.width(), size().height() - r.y() - r.height()); p.fillRect(r1, c); p.fillRect(r2, c); p.fillRect(r3, c); p.setBrush(Qt::NoBrush); p.save(); if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::CentralRadialHandle) p.setPen(dragPen); d_ptr->paintPoint(&p, d_ptr->m_centralRadial, d_ptr->m_handleSize); p.restore(); QRectF rect = QRectF(central.x() - d_ptr->m_radiusRadial * size().width(), central.y() - d_ptr->m_radiusRadial * size().height(), 2 * d_ptr->m_radiusRadial * size().width(), 2 * d_ptr->m_radiusRadial * size().height()); p.setClipRect(r1); p.setClipRect(r2, Qt::UniteClip); p.setClipRect(r3, Qt::UniteClip); p.drawEllipse(rect); if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::RadiusRadialHandle) { p.save(); p.setPen(dragPen); QRectF rect = QRectF(central.x() - d_ptr->m_radiusRadial / d_ptr->m_radiusFactor * size().width(), central.y() - d_ptr->m_radiusRadial / d_ptr->m_radiusFactor * size().height(), 2 * d_ptr->m_radiusRadial / d_ptr->m_radiusFactor * size().width(), 2 * d_ptr->m_radiusRadial / d_ptr->m_radiusFactor * size().height()); p.drawEllipse(rect); p.restore(); } p.restore(); p.save(); if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::FocalRadialHandle) p.setPen(dragPen); d_ptr->paintPoint(&p, d_ptr->m_focalRadial, 2 * d_ptr->m_handleSize / 3); p.restore(); } else if (d_ptr->m_gradientType == QGradient::ConicalGradient) { double radius = size().width(); if (size().height() < radius) radius = size().height(); radius /= 2; double corr = d_ptr->m_handleSize / 3; radius -= corr; QPointF central = d_ptr->toViewport(d_ptr->m_centralConical); p.save(); p.setBrush(Qt::NoBrush); QPen pen2(c); pen2.setWidthF(2 * d_ptr->m_handleSize / 3); p.setPen(pen2); p.drawEllipse(d_ptr->pointRect(central, 2 * radius)); p.restore(); p.save(); p.setBrush(Qt::NoBrush); int pointCount = 2; for (int i = 0; i < pointCount; i++) { QPointF ang(cos(M_PI * (i * 180.0 / pointCount + d_ptr->m_angleConical) / 180) * size().width() / 2, -sin(M_PI * (i * 180.0 / pointCount + d_ptr->m_angleConical) / 180) * size().height() / 2); double mod = sqrt(ang.x() * ang.x() + ang.y() * ang.y()); p.drawLine(QPointF(central.x() + ang.x() * (radius - corr) / mod, central.y() + ang.y() * (radius - corr) / mod), QPointF(central.x() + ang.x() * (radius + corr) / mod, central.y() + ang.y() * (radius + corr) / mod)); p.drawLine(QPointF(central.x() - ang.x() * (radius - corr) / mod, central.y() - ang.y() * (radius - corr) / mod), QPointF(central.x() - ang.x() * (radius + corr) / mod, central.y() - ang.y() * (radius + corr) / mod)); } if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::AngleConicalHandle) { p.save(); p.setPen(dragPen); QPointF ang(cos(M_PI * (d_ptr->m_angleConical - d_ptr->m_angleOffset) / 180) * size().width() / 2, -sin(M_PI * (d_ptr->m_angleConical - d_ptr->m_angleOffset) / 180) * size().height() / 2); double mod = sqrt(ang.x() * ang.x() + ang.y() * ang.y()); p.drawLine(QPointF(central.x() + ang.x() * (radius - corr) / mod, central.y() + ang.y() * (radius - corr) / mod), QPointF(central.x() + ang.x() * (radius + corr) / mod, central.y() + ang.y() * (radius + corr) / mod)); p.restore(); } p.restore(); p.save(); if (d_ptr->m_dragHandle == QtGradientWidgetPrivate::CentralConicalHandle) p.setPen(dragPen); d_ptr->paintPoint(&p, d_ptr->m_centralConical, d_ptr->m_handleSize); p.restore(); } delete gradient; } void QtGradientWidget::setGradientStops(const QGradientStops &stops) { d_ptr->m_gradientStops = stops; update(); } QGradientStops QtGradientWidget::gradientStops() const { return d_ptr->m_gradientStops; } void QtGradientWidget::setGradientType(QGradient::Type type) { if (type == QGradient::NoGradient) return; if (d_ptr->m_gradientType == type) return; d_ptr->m_gradientType = type; update(); } QGradient::Type QtGradientWidget::gradientType() const { return d_ptr->m_gradientType; } void QtGradientWidget::setGradientSpread(QGradient::Spread spread) { if (d_ptr->m_gradientSpread == spread) return; d_ptr->m_gradientSpread = spread; update(); } QGradient::Spread QtGradientWidget::gradientSpread() const { return d_ptr->m_gradientSpread; } void QtGradientWidget::setStartLinear(const QPointF &point) { if (d_ptr->m_startLinear == point) return; d_ptr->m_startLinear = d_ptr->checkRange(point); update(); } QPointF QtGradientWidget::startLinear() const { return d_ptr->m_startLinear; } void QtGradientWidget::setEndLinear(const QPointF &point) { if (d_ptr->m_endLinear == point) return; d_ptr->m_endLinear = d_ptr->checkRange(point); update(); } QPointF QtGradientWidget::endLinear() const { return d_ptr->m_endLinear; } void QtGradientWidget::setCentralRadial(const QPointF &point) { if (d_ptr->m_centralRadial == point) return; d_ptr->m_centralRadial = point; update(); } QPointF QtGradientWidget::centralRadial() const { return d_ptr->m_centralRadial; } void QtGradientWidget::setFocalRadial(const QPointF &point) { if (d_ptr->m_focalRadial == point) return; d_ptr->m_focalRadial = point; update(); } QPointF QtGradientWidget::focalRadial() const { return d_ptr->m_focalRadial; } void QtGradientWidget::setRadiusRadial(qreal radius) { if (d_ptr->m_radiusRadial == radius) return; d_ptr->m_radiusRadial = radius; update(); } qreal QtGradientWidget::radiusRadial() const { return d_ptr->m_radiusRadial; } void QtGradientWidget::setCentralConical(const QPointF &point) { if (d_ptr->m_centralConical == point) return; d_ptr->m_centralConical = point; update(); } QPointF QtGradientWidget::centralConical() const { return d_ptr->m_centralConical; } void QtGradientWidget::setAngleConical(qreal angle) { if (d_ptr->m_angleConical == angle) return; d_ptr->m_angleConical = angle; update(); } qreal QtGradientWidget::angleConical() const { return d_ptr->m_angleConical; } QT_END_NAMESPACE