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Emit hover leave signal from PieSliceItem when it gets destroyed....
Emit hover leave signal from PieSliceItem when it gets destroyed. This fixes the problem with the drilldown demo highlight getting stuck when switching series.
Michal Klocek - - Load All Authors

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r1082:4c0668542a54
r1083:b264b1ddc4c8
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chartpresenter.cpp
406 lines | 12.9 KiB | text/x-c | CppLexer
/ src / chartpresenter.cpp
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/****************************************************************************
**
** Copyright (C) 2012 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 "chartpresenter_p.h"
#include "qchart.h"
#include "qchart_p.h"
#include "qaxis.h"
#include "chartdataset_p.h"
#include "charttheme_p.h"
#include "chartanimator_p.h"
#include "qabstractseries_p.h"
#include "qareaseries.h"
#include "chartaxis_p.h"
#include "areachartitem_p.h"
#include "chartbackground_p.h"
QTCOMMERCIALCHART_BEGIN_NAMESPACE
ChartPresenter::ChartPresenter(QChart* chart,ChartDataSet* dataset):QObject(chart),
m_chart(chart),
m_animator(0),
m_dataset(dataset),
m_chartTheme(0),
m_chartRect(QRectF(QPoint(0,0),m_chart->size())),
m_options(QChart::NoAnimation),
m_minLeftMargin(0),
m_minBottomMargin(0),
m_backgroundItem(0),
m_titleItem(0),
m_marginBig(60),
m_marginSmall(20),
m_marginTiny(10),
m_chartMargins(QRect(m_marginBig,m_marginBig,0,0))
{
}
ChartPresenter::~ChartPresenter()
{
delete m_chartTheme;
}
void ChartPresenter::setGeometry(const QRectF& rect)
{
m_rect = rect;
Q_ASSERT(m_rect.isValid());
updateLayout();
}
void ChartPresenter::setMinimumMarginWidth(ChartAxis* axis, qreal width)
{
switch(axis->axisType()){
case ChartAxis::X_AXIS:
{
if(width>m_chartRect.width()+ m_chartMargins.left()) {
m_minLeftMargin= width - m_chartRect.width();
updateLayout();
}
break;
}
case ChartAxis::Y_AXIS:
{
if(m_minLeftMargin!=width){
m_minLeftMargin= width;
updateLayout();
}
break;
}
}
}
void ChartPresenter::setMinimumMarginHeight(ChartAxis* axis, qreal height)
{
switch(axis->axisType()){
case ChartAxis::X_AXIS:
{
if(m_minBottomMargin!=height) {
m_minBottomMargin= height;
updateLayout();
}
break;
}
case ChartAxis::Y_AXIS:
{
if(height>m_chartMargins.bottom()+m_chartRect.height()){
m_minBottomMargin= height - m_chartRect.height();
updateLayout();
}
break;
}
}
}
void ChartPresenter::handleAxisAdded(QAxis* axis,Domain* domain)
{
ChartAxis* item = new ChartAxis(axis,this,axis==m_dataset->axisX()?ChartAxis::X_AXIS : ChartAxis::Y_AXIS);
if(m_options.testFlag(QChart::GridAxisAnimations)){
m_animator->addAnimation(item);
}
if(axis==m_dataset->axisX()){
m_chartTheme->decorate(axis,true);
QObject::connect(domain,SIGNAL(rangeXChanged(qreal,qreal,int)),item,SLOT(handleRangeChanged(qreal,qreal,int)));
//initialize
item->handleRangeChanged(domain->minX(),domain->maxX(),domain->tickXCount());
}
else{
m_chartTheme->decorate(axis,false);
QObject::connect(domain,SIGNAL(rangeYChanged(qreal,qreal,int)),item,SLOT(handleRangeChanged(qreal,qreal,int)));
//initialize
item->handleRangeChanged(domain->minY(),domain->maxY(),domain->tickYCount());
}
QObject::connect(this,SIGNAL(geometryChanged(QRectF)),item,SLOT(handleGeometryChanged(QRectF)));
//initialize
item->handleGeometryChanged(m_chartRect);
m_axisItems.insert(axis, item);
}
void ChartPresenter::handleAxisRemoved(QAxis* axis)
{
ChartAxis* item = m_axisItems.take(axis);
Q_ASSERT(item);
if(m_animator) m_animator->removeAnimation(item);
delete item;
}
void ChartPresenter::handleSeriesAdded(QAbstractSeries* series,Domain* domain)
{
Chart *item = series->d_ptr->createGraphics(this);
Q_ASSERT(item);
QObject::connect(this,SIGNAL(geometryChanged(QRectF)),item,SLOT(handleGeometryChanged(QRectF)));
QObject::connect(domain,SIGNAL(domainChanged(qreal,qreal,qreal,qreal)),item,SLOT(handleDomainChanged(qreal,qreal,qreal,qreal)));
//initialize
item->handleDomainChanged(domain->minX(),domain->maxX(),domain->minY(),domain->maxY());
if(m_chartRect.isValid()) item->handleGeometryChanged(m_chartRect);
m_chartItems.insert(series,item);
}
void ChartPresenter::handleSeriesRemoved(QAbstractSeries* series)
{
Chart* item = m_chartItems.take(series);
Q_ASSERT(item);
if(m_animator) {
//small hack to handle area animations
if(series->type() == QAbstractSeries::SeriesTypeArea){
QAreaSeries* areaSeries = static_cast<QAreaSeries*>(series);
AreaChartItem* area = static_cast<AreaChartItem*>(item);
m_animator->removeAnimation(area->upperLineItem());
if(areaSeries->lowerSeries()) m_animator->removeAnimation(area->lowerLineItem());
}else
m_animator->removeAnimation(item);
}
delete item;
}
void ChartPresenter::setTheme(QChart::ChartTheme theme,bool force)
{
if(m_chartTheme && m_chartTheme->id() == theme) return;
delete m_chartTheme;
m_chartTheme = ChartTheme::createTheme(theme);
m_chartTheme->setForced(force);
m_chartTheme->decorate(m_chart);
m_chartTheme->decorate(m_chart->legend());
resetAllElements();
}
QChart::ChartTheme ChartPresenter::theme()
{
return m_chartTheme->id();
}
void ChartPresenter::setAnimationOptions(QChart::AnimationOptions options)
{
if(m_options!=options) {
m_options=options;
if(m_options!=QChart::NoAnimation && !m_animator) {
m_animator= new ChartAnimator(this);
}
resetAllElements();
}
}
void ChartPresenter::resetAllElements()
{
QList<QAxis *> axisList = m_axisItems.uniqueKeys();
QList<QAbstractSeries *> seriesList = m_chartItems.uniqueKeys();
foreach(QAxis *axis, axisList) {
handleAxisRemoved(axis);
handleAxisAdded(axis,m_dataset->domain(axis));
}
foreach(QAbstractSeries *series, seriesList) {
handleSeriesRemoved(series);
handleSeriesAdded(series,m_dataset->domain(series));
// m_dataset->removeSeries(series);
// m_dataset->addSeries(series);
}
}
void ChartPresenter::zoomIn()
{
QRectF rect = chartGeometry();
rect.setWidth(rect.width()/2);
rect.setHeight(rect.height()/2);
rect.moveCenter(chartGeometry().center());
zoomIn(rect);
}
void ChartPresenter::zoomIn(const QRectF& rect)
{
QRectF r = rect.normalized();
r.translate(-m_chartMargins.topLeft());
if(!r.isValid()) return;
if(m_animator) {
QPointF point(r.center().x()/chartGeometry().width(),r.center().y()/chartGeometry().height());
m_animator->setState(ChartAnimator::ZoomInState,point);
}
m_dataset->zoomInDomain(r,chartGeometry().size());
if(m_animator) {
m_animator->setState(ChartAnimator::ShowState);
}
}
void ChartPresenter::zoomOut()
{
if(m_animator)
{
m_animator->setState(ChartAnimator::ZoomOutState);
}
QSizeF size = chartGeometry().size();
QRectF rect = chartGeometry();
rect.translate(-m_chartMargins.topLeft());
if(!rect.isValid()) return;
m_dataset->zoomOutDomain(rect.adjusted(size.width()/4,size.height()/4,-size.width()/4,-size.height()/4),size);
//m_dataset->zoomOutDomain(m_zoomStack[m_zoomIndex-1],geometry().size());
if(m_animator){
m_animator->setState(ChartAnimator::ShowState);
}
}
void ChartPresenter::scroll(int dx,int dy)
{
if(m_animator){
if(dx<0) m_animator->setState(ChartAnimator::ScrollLeftState,QPointF());
if(dx>0) m_animator->setState(ChartAnimator::ScrollRightState,QPointF());
if(dy<0) m_animator->setState(ChartAnimator::ScrollUpState,QPointF());
if(dy>0) m_animator->setState(ChartAnimator::ScrollDownState,QPointF());
}
m_dataset->scrollDomain(dx,dy,chartGeometry().size());
if(m_animator){
m_animator->setState(ChartAnimator::ShowState);
}
}
QChart::AnimationOptions ChartPresenter::animationOptions() const
{
return m_options;
}
void ChartPresenter::updateLayout()
{
if (!m_rect.isValid()) return;
// recalculate title size
QSize titleSize;
int titlePadding=0;
if (m_titleItem) {
titleSize= m_titleItem->boundingRect().size().toSize();
}
//defaults
m_chartMargins = QRect(QPoint(m_minLeftMargin>m_marginBig?m_minLeftMargin:m_marginBig,m_marginBig),QPoint(m_marginBig,m_minBottomMargin>m_marginBig?m_minBottomMargin:m_marginBig));
titlePadding = m_chartMargins.top()/2;
QLegend* legend = m_chart->d_ptr->m_legend;
// recalculate legend position
if (legend->isAttachedToChart() && legend->isEnabled()) {
QRect legendRect;
// Reserve some space for legend
switch (legend->alignment()) {
case QLegend::AlignmentTop: {
int ledgendSize = legend->minHeight();
int topPadding = 2*m_marginTiny + titleSize.height() + ledgendSize + m_marginTiny;
m_chartMargins = QRect(QPoint(m_chartMargins.left(),topPadding),QPoint(m_chartMargins.right(),m_chartMargins.bottom()));
m_legendMargins = QRect(QPoint(m_chartMargins.left(),topPadding - (ledgendSize + m_marginTiny)),QPoint(m_chartMargins.right(),m_rect.height()-topPadding + m_marginTiny));
titlePadding = m_marginTiny + m_marginTiny;
break;
}
case QLegend::AlignmentBottom: {
int ledgendSize = legend->minHeight();
int bottomPadding = m_marginTiny + m_marginSmall + ledgendSize + m_marginTiny + m_minBottomMargin;
m_chartMargins = QRect(QPoint(m_chartMargins.left(),m_chartMargins.top()),QPoint(m_chartMargins.right(),bottomPadding));
m_legendMargins = QRect(QPoint(m_chartMargins.left(),m_rect.height()-bottomPadding + m_marginTiny + m_minBottomMargin),QPoint(m_chartMargins.right(),m_marginTiny + m_marginSmall));
titlePadding = m_chartMargins.top()/2;
break;
}
case QLegend::AlignmentLeft: {
int ledgendSize = legend->minWidth();
int leftPadding = m_marginTiny + m_marginSmall + ledgendSize + m_marginTiny + m_minLeftMargin;
m_chartMargins = QRect(QPoint(leftPadding,m_chartMargins.top()),QPoint(m_chartMargins.right(),m_chartMargins.bottom()));
m_legendMargins = QRect(QPoint(m_marginTiny + m_marginSmall,m_chartMargins.top()),QPoint(m_rect.width()-leftPadding + m_marginTiny + m_minLeftMargin,m_chartMargins.bottom()));
titlePadding = m_chartMargins.top()/2;
break;
}
case QLegend::AlignmentRight: {
int ledgendSize = legend->minWidth();
int rightPadding = m_marginTiny + m_marginSmall + ledgendSize + m_marginTiny;
m_chartMargins = QRect(QPoint(m_chartMargins.left(),m_chartMargins.top()),QPoint(rightPadding,m_chartMargins.bottom()));
m_legendMargins = QRect(QPoint(m_rect.width()- rightPadding+ m_marginTiny ,m_chartMargins.top()),QPoint(m_marginTiny + m_marginSmall,m_chartMargins.bottom()));
titlePadding = m_chartMargins.top()/2;
break;
}
default: {
break;
}
}
}
if(m_rect.width()<2*(m_chartMargins.top()+m_chartMargins.bottom()) || m_rect.height()< 2*(m_chartMargins.top() + m_chartMargins.bottom()))
{
m_chart->setMinimumSize(2*(m_chartMargins.top()+m_chartMargins.bottom()),2*(m_chartMargins.top() + m_chartMargins.bottom()));
return;
}
// recalculate title position
if (m_titleItem) {
QPointF center = m_rect.center() -m_titleItem->boundingRect().center();
m_titleItem->setPos(center.x(),titlePadding);
}
//recalculate background gradient
if (m_backgroundItem) {
m_backgroundItem->setRect(m_rect.adjusted(m_marginTiny,m_marginTiny, -m_marginTiny, -m_marginTiny));
}
QRectF chartRect = m_rect.adjusted(m_chartMargins.left(),m_chartMargins.top(),-m_chartMargins.right(),-m_chartMargins.bottom());
legend->setGeometry(m_rect.adjusted(m_legendMargins.left(),m_legendMargins.top(),-m_legendMargins.right(),-m_legendMargins.bottom()));
if(m_chartRect!=chartRect){
m_chartRect=chartRect;
emit geometryChanged(m_chartRect);
}
}
void ChartPresenter::createChartBackgroundItem()
{
if (!m_backgroundItem) {
m_backgroundItem = new ChartBackground(rootItem());
m_backgroundItem->setPen(Qt::NoPen);
m_backgroundItem->setZValue(ChartPresenter::BackgroundZValue);
}
}
void ChartPresenter::createChartTitleItem()
{
if (!m_titleItem) {
m_titleItem = new QGraphicsSimpleTextItem(rootItem());
m_titleItem->setZValue(ChartPresenter::BackgroundZValue);
}
}
#include "moc_chartpresenter_p.cpp"
QTCOMMERCIALCHART_END_NAMESPACE