##// END OF EJS Templates
Refactor the new QXYSeries::pointAt() -> QXYSeries::at()...
Refactor the new QXYSeries::pointAt() -> QXYSeries::at() QML API already had XYSeries::at() for the same functionality. Also, at() is a common method for returning an item at index in Qt containers, so use that instead of pointAt(). This function was introduced in polar chart refactoring and has not yet been released, so no problem changing the name at this point. Change-Id: I4286178cd971a4f3e6fbff9290ae0bbb5c9097cd Reviewed-by: Tomi Korpipää <tomi.korpipaa@digia.com>

File last commit:

r2491:d86f47a4910b
r2491:d86f47a4910b
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linechartitem.cpp
372 lines | 16.2 KiB | text/x-c | CppLexer
/****************************************************************************
**
** 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 Commercial Charts Add-on.
**
** $QT_BEGIN_LICENSE$
** Licensees holding valid Qt Commercial licenses may use this file in
** accordance with the Qt Commercial 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 "linechartitem_p.h"
#include "qlineseries.h"
#include "qlineseries_p.h"
#include "chartpresenter_p.h"
#include "polardomain_p.h"
#include <QPainter>
#include <QGraphicsSceneMouseEvent>
QTCOMMERCIALCHART_BEGIN_NAMESPACE
const qreal mouseEventMinWidth(12);
LineChartItem::LineChartItem(QLineSeries *series, QGraphicsItem *item)
: XYChart(series,item),
m_series(series),
m_pointsVisible(false),
m_chartType(QChart::ChartTypeUndefined)
{
setAcceptHoverEvents(true);
setZValue(ChartPresenter::LineChartZValue);
QObject::connect(series->d_func(), SIGNAL(updated()), this, SLOT(handleUpdated()));
QObject::connect(series, SIGNAL(visibleChanged()), this, SLOT(handleUpdated()));
QObject::connect(series, SIGNAL(opacityChanged()), this, SLOT(handleUpdated()));
handleUpdated();
}
QRectF LineChartItem::boundingRect() const
{
return m_rect;
}
QPainterPath LineChartItem::shape() const
{
return m_shapePath;
}
void LineChartItem::updateGeometry()
{
m_points = geometryPoints();
const QVector<QPointF> &points = m_points;
if (points.size() == 0) {
prepareGeometryChange();
m_fullPath = QPainterPath();
m_linePath = QPainterPath();
m_rect = QRect();
return;
}
QPainterPath linePath;
QPainterPath fullPath;
// Use worst case scenario to determine required margin.
qreal margin = m_linePen.width() * 1.42;
// Area series use component line series that aren't necessarily added to the chart themselves,
// so check if chart type is forced before trying to obtain it from the chart.
QChart::ChartType chartType = m_chartType;
if (chartType == QChart::ChartTypeUndefined)
chartType = m_series->chart()->chartType();
// For polar charts, we need special handling for angular (horizontal)
// points that are off-grid.
if (chartType == QChart::ChartTypePolar) {
QPainterPath linePathLeft;
QPainterPath linePathRight;
QPainterPath *currentSegmentPath = 0;
QPainterPath *previousSegmentPath = 0;
qreal minX = domain()->minX();
qreal maxX = domain()->maxX();
qreal minY = domain()->minY();
QPointF currentSeriesPoint = m_series->at(0);
QPointF currentGeometryPoint = points.at(0);
QPointF previousGeometryPoint = points.at(0);
int size = m_linePen.width();
bool pointOffGrid = false;
bool previousPointWasOffGrid = (currentSeriesPoint.x() < minX || currentSeriesPoint.x() > maxX);
qreal domainRadius = domain()->size().height() / 2.0;
const QPointF centerPoint(domainRadius, domainRadius);
if (!previousPointWasOffGrid) {
fullPath.moveTo(points.at(0));
if (m_pointsVisible && currentSeriesPoint.y() >= minY) {
// Do not draw ellipses for points below minimum Y.
linePath.addEllipse(points.at(0), size, size);
fullPath.addEllipse(points.at(0), size, size);
linePath.moveTo(points.at(0));
fullPath.moveTo(points.at(0));
}
}
qreal leftMarginLine = centerPoint.x() - margin;
qreal rightMarginLine = centerPoint.x() + margin;
qreal horizontal = centerPoint.y();
// See ScatterChartItem::updateGeometry() for explanation why seriesLastIndex is needed
const int seriesLastIndex = m_series->count() - 1;
for (int i = 1; i < points.size(); i++) {
// Interpolating line fragments would be ugly when thick pen is used,
// so we work around it by utilizing three separate
// paths for line segments and clip those with custom regions at paint time.
// "Right" path contains segments that cross the axis line with visible point on the
// right side of the axis line, as well as segments that have one point within the margin
// on the right side of the axis line and another point on the right side of the chart.
// "Left" path contains points with similarly on the left side.
// "Full" path contains rest of the points.
// This doesn't yield perfect results always. E.g. when segment covers more than 90
// degrees and both of the points are within the margin, one in the top half and one in the
// bottom half of the chart, the bottom one gets clipped incorrectly.
// However, this should be rare occurrence in any sensible chart.
currentSeriesPoint = m_series->at(qMin(seriesLastIndex, i));
currentGeometryPoint = points.at(i);
pointOffGrid = (currentSeriesPoint.x() < minX || currentSeriesPoint.x() > maxX);
// Draw something unless both off-grid
if (!pointOffGrid || !previousPointWasOffGrid) {
QPointF intersectionPoint;
qreal y;
if (pointOffGrid != previousPointWasOffGrid) {
if (currentGeometryPoint.x() == previousGeometryPoint.x()) {
y = currentGeometryPoint.y() + (currentGeometryPoint.y() - previousGeometryPoint.y()) / 2.0;
} else {
qreal ratio = (centerPoint.x() - currentGeometryPoint.x()) / (currentGeometryPoint.x() - previousGeometryPoint.x());
y = currentGeometryPoint.y() + (currentGeometryPoint.y() - previousGeometryPoint.y()) * ratio;
}
intersectionPoint = QPointF(centerPoint.x(), y);
}
bool dummyOk; // We know points are ok, but this is needed
qreal currentAngle = static_cast<PolarDomain *>(domain())->toAngularCoordinate(currentSeriesPoint.x(), dummyOk);
qreal previousAngle = static_cast<PolarDomain *>(domain())->toAngularCoordinate(m_series->at(i - 1).x(), dummyOk);
if ((qAbs(currentAngle - previousAngle) > 180.0)) {
// If the angle between two points is over 180 degrees (half X range),
// any direct segment between them becomes meaningless.
// In this case two line segments are drawn instead, from previous
// point to the center and from center to current point.
if ((previousAngle < 0.0 || (previousAngle <= 180.0 && previousGeometryPoint.x() < rightMarginLine))
&& previousGeometryPoint.y() < horizontal) {
currentSegmentPath = &linePathRight;
} else if ((previousAngle > 360.0 || (previousAngle > 180.0 && previousGeometryPoint.x() > leftMarginLine))
&& previousGeometryPoint.y() < horizontal) {
currentSegmentPath = &linePathLeft;
} else if (previousAngle > 0.0 && previousAngle < 360.0) {
currentSegmentPath = &linePath;
} else {
currentSegmentPath = 0;
}
if (currentSegmentPath) {
if (previousSegmentPath != currentSegmentPath)
currentSegmentPath->moveTo(previousGeometryPoint);
if (previousPointWasOffGrid)
fullPath.moveTo(intersectionPoint);
currentSegmentPath->lineTo(centerPoint);
fullPath.lineTo(centerPoint);
}
previousSegmentPath = currentSegmentPath;
if ((currentAngle < 0.0 || (currentAngle <= 180.0 && currentGeometryPoint.x() < rightMarginLine))
&& currentGeometryPoint.y() < horizontal) {
currentSegmentPath = &linePathRight;
} else if ((currentAngle > 360.0 || (currentAngle > 180.0 &&currentGeometryPoint.x() > leftMarginLine))
&& currentGeometryPoint.y() < horizontal) {
currentSegmentPath = &linePathLeft;
} else if (currentAngle > 0.0 && currentAngle < 360.0) {
currentSegmentPath = &linePath;
} else {
currentSegmentPath = 0;
}
if (currentSegmentPath) {
if (previousSegmentPath != currentSegmentPath)
currentSegmentPath->moveTo(centerPoint);
if (!previousSegmentPath)
fullPath.moveTo(centerPoint);
currentSegmentPath->lineTo(currentGeometryPoint);
if (pointOffGrid)
fullPath.lineTo(intersectionPoint);
else
fullPath.lineTo(currentGeometryPoint);
}
} else {
if (previousAngle < 0.0 || currentAngle < 0.0
|| ((previousAngle <= 180.0 && currentAngle <= 180.0)
&& ((previousGeometryPoint.x() < rightMarginLine && previousGeometryPoint.y() < horizontal)
|| (currentGeometryPoint.x() < rightMarginLine && currentGeometryPoint.y() < horizontal)))) {
currentSegmentPath = &linePathRight;
} else if (previousAngle > 360.0 || currentAngle > 360.0
|| ((previousAngle > 180.0 && currentAngle > 180.0)
&& ((previousGeometryPoint.x() > leftMarginLine && previousGeometryPoint.y() < horizontal)
|| (currentGeometryPoint.x() > leftMarginLine && currentGeometryPoint.y() < horizontal)))) {
currentSegmentPath = &linePathLeft;
} else {
currentSegmentPath = &linePath;
}
if (currentSegmentPath != previousSegmentPath)
currentSegmentPath->moveTo(previousGeometryPoint);
if (previousPointWasOffGrid)
fullPath.moveTo(intersectionPoint);
if (pointOffGrid)
fullPath.lineTo(intersectionPoint);
else
fullPath.lineTo(currentGeometryPoint);
currentSegmentPath->lineTo(currentGeometryPoint);
}
} else {
currentSegmentPath = 0;
}
previousPointWasOffGrid = pointOffGrid;
if (m_pointsVisible && !pointOffGrid && currentSeriesPoint.y() >= minY) {
linePath.addEllipse(points.at(i), size, size);
fullPath.addEllipse(points.at(i), size, size);
linePath.moveTo(points.at(i));
fullPath.moveTo(points.at(i));
}
previousSegmentPath = currentSegmentPath;
previousGeometryPoint = currentGeometryPoint;
}
m_linePathPolarRight = linePathRight;
m_linePathPolarLeft = linePathLeft;
// Note: This construction of m_fullpath is not perfect. The partial segments that are
// outside left/right clip regions at axis boundary still generate hover/click events,
// because shape doesn't get clipped. It doesn't seem possible to do sensibly.
} else { // not polar
linePath.moveTo(points.at(0));
if (m_pointsVisible) {
int size = m_linePen.width();
linePath.addEllipse(points.at(0), size, size);
linePath.moveTo(points.at(0));
for (int i = 1; i < points.size(); i++) {
linePath.lineTo(points.at(i));
linePath.addEllipse(points.at(i), size, size);
linePath.moveTo(points.at(i));
}
} else {
for (int i = 1; i < points.size(); i++)
linePath.lineTo(points.at(i));
}
fullPath = linePath;
}
QPainterPathStroker stroker;
// QPainter::drawLine does not respect join styles, for example BevelJoin becomes MiterJoin.
// This is why we are prepared for the "worst case" scenario, i.e. use always MiterJoin and
// multiply line width with square root of two when defining shape and bounding rectangle.
stroker.setWidth(margin);
stroker.setJoinStyle(Qt::MiterJoin);
stroker.setCapStyle(Qt::SquareCap);
stroker.setMiterLimit(m_linePen.miterLimit());
prepareGeometryChange();
m_linePath = linePath;
m_fullPath = fullPath;
m_shapePath = stroker.createStroke(fullPath);
m_rect = m_shapePath.boundingRect();
}
void LineChartItem::handleUpdated()
{
// If points visiblity has changed, a geometry update is needed.
// Also, if pen changes when points are visible, geometry update is needed.
bool doGeometryUpdate =
(m_pointsVisible != m_series->pointsVisible())
|| (m_series->pointsVisible() && (m_linePen != m_series->pen()));
setVisible(m_series->isVisible());
setOpacity(m_series->opacity());
m_pointsVisible = m_series->pointsVisible();
m_linePen = m_series->pen();
if (doGeometryUpdate)
updateGeometry();
update();
}
void LineChartItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget)
{
Q_UNUSED(widget)
Q_UNUSED(option)
QRectF clipRect = QRectF(QPointF(0, 0), domain()->size());
painter->save();
painter->setPen(m_linePen);
bool alwaysUsePath = false;
if (m_series->chart()->chartType() == QChart::ChartTypePolar) {
qreal halfWidth = domain()->size().width() / 2.0;
QRectF clipRectLeft = QRectF(0, 0, halfWidth, domain()->size().height());
QRectF clipRectRight = QRectF(halfWidth, 0, halfWidth, domain()->size().height());
QRegion fullPolarClipRegion(clipRect.toRect(), QRegion::Ellipse);
QRegion clipRegionLeft(fullPolarClipRegion.intersected(clipRectLeft.toRect()));
QRegion clipRegionRight(fullPolarClipRegion.intersected(clipRectRight.toRect()));
painter->setClipRegion(clipRegionLeft);
painter->drawPath(m_linePathPolarLeft);
painter->setClipRegion(clipRegionRight);
painter->drawPath(m_linePathPolarRight);
painter->setClipRegion(fullPolarClipRegion);
alwaysUsePath = true; // required for proper clipping
} else {
painter->setClipRect(clipRect);
}
if (m_pointsVisible) {
painter->setBrush(m_linePen.color());
painter->drawPath(m_linePath);
} else {
painter->setBrush(QBrush(Qt::NoBrush));
if (m_linePen.style() != Qt::SolidLine || alwaysUsePath) {
// If pen style is not solid line, always fall back to path painting
// to ensure proper continuity of the pattern
painter->drawPath(m_linePath);
} else {
for (int i(1); i < m_points.size(); i++)
painter->drawLine(m_points.at(i - 1), m_points.at(i));
}
}
painter->restore();
}
void LineChartItem::mousePressEvent(QGraphicsSceneMouseEvent *event)
{
emit XYChart::clicked(domain()->calculateDomainPoint(event->pos()));
QGraphicsItem::mousePressEvent(event);
}
void LineChartItem::hoverEnterEvent(QGraphicsSceneHoverEvent *event)
{
emit XYChart::hovered(domain()->calculateDomainPoint(event->pos()), true);
// event->accept();
QGraphicsItem::hoverEnterEvent(event);
}
void LineChartItem::hoverLeaveEvent(QGraphicsSceneHoverEvent *event)
{
emit XYChart::hovered(domain()->calculateDomainPoint(event->pos()), false);
// event->accept();
QGraphicsItem::hoverEnterEvent(event);
}
#include "moc_linechartitem_p.cpp"
QTCOMMERCIALCHART_END_NAMESPACE