/**************************************************************************** ** ** Copyright (C) 2013 Digia Plc ** All rights reserved. ** For any questions to Digia, please use contact form at http://qt.digia.com ** ** This file is part of the Qt Enterprise Charts Add-on. ** ** $QT_BEGIN_LICENSE$ ** Licensees holding valid Qt Enterprise licenses may use this file in ** accordance with the Qt Enterprise License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. ** ** If you have questions regarding the use of this file, please use ** contact form at http://qt.digia.com ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "piesliceitem_p.h" #include "piechartitem_p.h" #include "qpieseries.h" #include "qpieslice.h" #include "chartpresenter_p.h" #include #include #include #include #include #include QTCOMMERCIALCHART_BEGIN_NAMESPACE QPointF offset(qreal angle, qreal length) { qreal dx = qSin(angle * (M_PI / 180)) * length; qreal dy = qCos(angle * (M_PI / 180)) * length; return QPointF(dx, -dy); } PieSliceItem::PieSliceItem(QGraphicsItem *parent) : QGraphicsObject(parent), m_hovered(false) { setAcceptHoverEvents(true); setAcceptedMouseButtons(Qt::MouseButtonMask); setZValue(ChartPresenter::PieSeriesZValue); m_labelItem = new QGraphicsTextItem(this); m_labelItem->document()->setDocumentMargin(1.0); } PieSliceItem::~PieSliceItem() { // If user is hovering over the slice and it gets destroyed we do // not get a hover leave event. So we must emit the signal here. if (m_hovered) emit hovered(false); } QRectF PieSliceItem::boundingRect() const { return m_boundingRect; } QPainterPath PieSliceItem::shape() const { // Don't include the label and label arm. // This is used to detect a mouse clicks. We do not want clicks from label. return m_slicePath; } void PieSliceItem::paint(QPainter *painter, const QStyleOptionGraphicsItem * /*option*/, QWidget * /*widget*/) { painter->save(); painter->setClipRect(parentItem()->boundingRect()); painter->setPen(m_data.m_slicePen); painter->setBrush(m_data.m_sliceBrush); painter->drawPath(m_slicePath); painter->restore(); if (m_data.m_isLabelVisible) { painter->save(); // Pen for label arm not defined in the QPieSeries api, let's use brush's color instead painter->setBrush(m_data.m_labelBrush); if (m_data.m_labelPosition == QPieSlice::LabelOutside) { painter->setClipRect(parentItem()->boundingRect()); painter->strokePath(m_labelArmPath, m_data.m_labelBrush.color()); } painter->restore(); } } void PieSliceItem::hoverEnterEvent(QGraphicsSceneHoverEvent * /*event*/) { m_hovered = true; emit hovered(true); } void PieSliceItem::hoverLeaveEvent(QGraphicsSceneHoverEvent * /*event*/) { m_hovered = false; emit hovered(false); } void PieSliceItem::mousePressEvent(QGraphicsSceneMouseEvent *event) { emit clicked(event->buttons()); QGraphicsItem::mousePressEvent(event); } void PieSliceItem::setLayout(const PieSliceData &sliceData) { m_data = sliceData; updateGeometry(); update(); } void PieSliceItem::updateGeometry() { if (m_data.m_radius <= 0) return; prepareGeometryChange(); // slice path qreal centerAngle; QPointF armStart; m_slicePath = slicePath(m_data.m_center, m_data.m_radius, m_data.m_startAngle, m_data.m_angleSpan, ¢erAngle, &armStart); m_labelItem->setVisible(m_data.m_isLabelVisible); if (m_data.m_isLabelVisible) { // text rect QFontMetricsF fm(m_data.m_labelFont); m_labelTextRect = ChartPresenter::textBoundingRect(m_data.m_labelFont, m_data.m_labelText, 0); QString label(m_data.m_labelText); m_labelItem->setDefaultTextColor(m_data.m_labelBrush.color()); m_labelItem->setFont(m_data.m_labelFont); // text position if (m_data.m_labelPosition == QPieSlice::LabelOutside) { setFlag(QGraphicsItem::ItemClipsChildrenToShape, false); // label arm path QPointF labelTextStart; m_labelArmPath = labelArmPath(armStart, centerAngle, m_data.m_radius * m_data.m_labelArmLengthFactor, m_labelTextRect.width(), &labelTextStart); m_labelTextRect.moveBottomLeft(labelTextStart); if (m_labelTextRect.left() < 0) m_labelTextRect.setLeft(0); else if (m_labelTextRect.left() < parentItem()->boundingRect().left()) m_labelTextRect.setLeft(parentItem()->boundingRect().left()); if (m_labelTextRect.right() > parentItem()->boundingRect().right()) m_labelTextRect.setRight(parentItem()->boundingRect().right()); if (fm.width(m_data.m_labelText) > m_labelTextRect.width()) { label = ChartPresenter::truncatedText(m_data.m_labelFont, m_data.m_labelText, qreal(0.0), m_labelTextRect.width(), m_labelTextRect.height(), m_labelTextRect); m_labelArmPath = labelArmPath(armStart, centerAngle, m_data.m_radius * m_data.m_labelArmLengthFactor, m_labelTextRect.width(), &labelTextStart); m_labelTextRect.moveBottomLeft(labelTextStart); } m_labelItem->setTextWidth(m_labelTextRect.width() + m_labelItem->document()->documentMargin()); m_labelItem->setHtml(label); m_labelItem->setRotation(0); m_labelItem->setPos(m_labelTextRect.x(), m_labelTextRect.y() + 1.0); } else { // label inside setFlag(QGraphicsItem::ItemClipsChildrenToShape); m_labelItem->setTextWidth(m_labelTextRect.width() + m_labelItem->document()->documentMargin()); m_labelItem->setHtml(label); QPointF textCenter; if (m_data.m_holeRadius > 0) { textCenter = m_data.m_center + offset(centerAngle, m_data.m_holeRadius + (m_data.m_radius - m_data.m_holeRadius) / 2); } else { textCenter = m_data.m_center + offset(centerAngle, m_data.m_radius / 2); } m_labelItem->setPos(textCenter.x() - m_labelItem->boundingRect().width() / 2, textCenter.y() - fm.height() / 2); QPointF labelCenter = m_labelItem->boundingRect().center(); m_labelItem->setTransformOriginPoint(labelCenter); if (m_data.m_labelPosition == QPieSlice::LabelInsideTangential) { m_labelItem->setRotation(m_data.m_startAngle + m_data.m_angleSpan / 2); } else if (m_data.m_labelPosition == QPieSlice::LabelInsideNormal) { if (m_data.m_startAngle + m_data.m_angleSpan / 2 < 180) m_labelItem->setRotation(m_data.m_startAngle + m_data.m_angleSpan / 2 - 90); else m_labelItem->setRotation(m_data.m_startAngle + m_data.m_angleSpan / 2 + 90); } else { m_labelItem->setRotation(0); } } } // bounding rect if (m_data.m_isLabelVisible) m_boundingRect = m_slicePath.boundingRect().united(m_labelArmPath.boundingRect()).united(m_labelTextRect); else m_boundingRect = m_slicePath.boundingRect(); // Inflate bounding rect by 2/3 pen width to make sure it encompasses whole slice also for thick pens // and miter joins. int penWidth = (m_data.m_slicePen.width() * 2) / 3; m_boundingRect = m_boundingRect.adjusted(-penWidth, -penWidth, penWidth, penWidth); } QPointF PieSliceItem::sliceCenter(QPointF point, qreal radius, QPieSlice *slice) { if (slice->isExploded()) { qreal centerAngle = slice->startAngle() + (slice->angleSpan() / 2); qreal len = radius * slice->explodeDistanceFactor(); point += offset(centerAngle, len); } return point; } QPainterPath PieSliceItem::slicePath(QPointF center, qreal radius, qreal startAngle, qreal angleSpan, qreal *centerAngle, QPointF *armStart) { // calculate center angle *centerAngle = startAngle + (angleSpan / 2); // calculate slice rectangle QRectF rect(center.x() - radius, center.y() - radius, radius * 2, radius * 2); // slice path QPainterPath path; if (m_data.m_holeRadius > 0) { QRectF insideRect(center.x() - m_data.m_holeRadius, center.y() - m_data.m_holeRadius, m_data.m_holeRadius * 2, m_data.m_holeRadius * 2); path.arcMoveTo(rect, -startAngle + 90); path.arcTo(rect, -startAngle + 90, -angleSpan); path.arcTo(insideRect, -startAngle + 90 - angleSpan, angleSpan); path.closeSubpath(); } else { path.moveTo(rect.center()); path.arcTo(rect, -startAngle + 90, -angleSpan); path.closeSubpath(); } // calculate label arm start point *armStart = center; *armStart += offset(*centerAngle, radius + PIESLICE_LABEL_GAP); return path; } QPainterPath PieSliceItem::labelArmPath(QPointF start, qreal angle, qreal length, qreal textWidth, QPointF *textStart) { // Normalize the angle to 0-360 range // NOTE: We are using int here on purpose. Depenging on platform and hardware // qreal can be a double, float or something the user gives to the Qt configure // (QT_COORD_TYPE). Compilers do not seem to support modulo for double or float // but there are fmod() and fmodf() functions for that. So instead of some #ifdef // that might break we just use int. Precision for this is just fine for our needs. int normalized = angle * 10.0; normalized = normalized % 3600; if (normalized < 0) normalized += 3600; angle = (qreal) normalized / 10.0; // prevent label arm pointing straight down because it will look bad if (angle < 180 && angle > 170) angle = 170; if (angle > 180 && angle < 190) angle = 190; // line from slice to label QPointF parm1 = start + offset(angle, length); // line to underline the label QPointF parm2 = parm1; if (angle < 180) { // arm swings the other way on the left side parm2 += QPointF(textWidth, 0); *textStart = parm1; } else { parm2 += QPointF(-textWidth, 0); *textStart = parm2; } QPainterPath path; path.moveTo(start); path.lineTo(parm1); path.lineTo(parm2); return path; } #include "moc_piesliceitem_p.cpp" QTCOMMERCIALCHART_END_NAMESPACE