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mirror of https://github.com/fralx/LimeReport.git synced 2024-12-24 08:34:38 +03:00
LimeReport/limereport/items/lrchartitem.cpp
2022-03-13 22:49:39 +01:00

1412 lines
45 KiB
C++

#include "lrchartitem.h"
#include <QStyleOptionGraphicsItem>
#include <QPainter>
#include "lrdesignelementsfactory.h"
#include "lrchartitemeditor.h"
#include "lrdatasourcemanager.h"
#include "lrpagedesignintf.h"
#include "lrreportengine_p.h"
#include "lrdatadesignintf.h"
#include "lrchartaxiseditor.h"
#include "charts/lrpiechart.h"
#include "charts/lrverticalbarchart.h"
#include "charts/lrhorizontalbarchart.h"
#include "charts/lrlineschart.h"
#include "charts/lrgridlineschart.h"
namespace{
const QString xmlTag = "ChartItem";
LimeReport::BaseDesignIntf * createChartItem(QObject* owner, LimeReport::BaseDesignIntf* parent){
return new LimeReport::ChartItem(owner,parent);
}
bool registred = LimeReport::DesignElementsFactory::instance().registerCreator(
xmlTag, LimeReport::ItemAttribs(QObject::tr("Chart Item"),"Item"), createChartItem
);
}
namespace LimeReport{
QColor generateColor()
{
int red = (rand()%(256 - 1)) + 1;
int green = (rand()%(256 - 1)) + 1;
int blue = (rand()%(256 - 1)) + 1;;
return QColor(red,green,blue);
}
QColor color_map[39] = {
QColor(51,102,204), QColor(220,57,18), QColor(225, 153, 0), QColor(16, 150, 24),
QColor(153,0,153), QColor(0,153,198), QColor(221, 68, 119), QColor(255,0,0),
QColor(0,0,139), QColor(0,205,0), QColor(233,30,99), QColor(255,255,0),
QColor(244,67,54), QColor(156,39,176), QColor(103,58,183), QColor(63,81,181),
QColor(33,153,243), QColor(0,150,136), QColor(78,175,80), QColor(139,195,74),
QColor(205,228,57), QColor(0,139,0), QColor(0,0,255), QColor(255,235,59),
QColor(255,193,7), QColor(255,152,0), QColor(255,87,34), QColor(121,85,72),
QColor(158,158,158), QColor(96,125,139), QColor(241,153,185), QColor(64,64,64),
QColor(188,229,218), QColor(139,0,0), QColor(139,139,0), QColor(171, 130, 255),
QColor(139, 123, 139), QColor(255, 0, 255), QColor(139, 69, 19)
};
QString SeriesItem::name() const
{
return m_name;
}
void SeriesItem::setName(const QString &name)
{
m_name = name;
}
QString SeriesItem::valuesColumn() const
{
return m_valuesColumn;
}
void SeriesItem::setValuesColumn(const QString &valuesColumn)
{
m_valuesColumn = valuesColumn;
}
QString SeriesItem::labelsColumn() const
{
return m_labelsColumn;
}
void SeriesItem::setLabelsColumn(const QString &labelsColumn)
{
m_labelsColumn = labelsColumn;
}
QString SeriesItem::xAxisColumn() const
{
return m_xAxisColumn;
}
void SeriesItem::setXAxisColumn(const QString &xAxisColumn)
{
m_xAxisColumn = xAxisColumn;
}
SeriesItem *SeriesItem::clone()
{
SeriesItem* result = new SeriesItem();
for (int i = 0; i < this->metaObject()->propertyCount(); ++i){
result->setProperty(this->metaObject()->property(i).name(),property(this->metaObject()->property(i).name()));
}
return result;
}
void SeriesItem::fillSeriesData(IDataSource *dataSource)
{
m_data.clear();
if (dataSource){
dataSource->first();
int currentColorIndex = 0;
while(!dataSource->eof()){
if (!m_labelsColumn.isEmpty())
m_data.labels().append(dataSource->data(m_labelsColumn).toString());
if (!m_xAxisColumn.isEmpty())
m_data.xAxisValues().append(dataSource->data(m_xAxisColumn).toDouble());
m_data.values().append(dataSource->data(m_valuesColumn).toDouble());
m_data.colors().append((currentColorIndex<32)?color_map[currentColorIndex]:generateColor());
dataSource->next();
currentColorIndex++;
}
}
}
QColor SeriesItem::color() const
{
return m_color;
}
void SeriesItem::setColor(const QColor &color)
{
m_color = color;
}
SeriesItem::SeriesItemPreferredType SeriesItem::preferredType() const
{
return m_preferredType;
}
void SeriesItem::setPreferredType(const SeriesItemPreferredType& type)
{
m_preferredType = type;
}
ChartItem::ChartItem(QObject *owner, QGraphicsItem *parent)
: ItemDesignIntf(xmlTag, owner, parent), m_legendBorder(true),
m_legendAlign(LegendAlignRightCenter), m_titleAlign(TitleAlignCenter),
m_chartType(Pie), m_labelsField(""), m_isEmpty(true),
m_showLegend(true), m_drawPoints(true), m_seriesLineWidth(4),
m_horizontalAxisOnTop(false), m_gridChartLines(AllLines),
m_legendStyle(LegendPoints)
{
m_xAxisData = new AxisData(AxisData::XAxis, this);
m_xAxisData->setReverseDirection(true);
m_yAxisData = new AxisData(AxisData::YAxis, this);
m_labels<<"First"<<"Second"<<"Thrid";
m_chart = new PieChart(this);
m_chart->setTitleFont(font());
}
ChartItem::~ChartItem()
{
foreach (SeriesItem* series, m_series) {
delete series;
}
m_series.clear();
delete m_chart;
}
ChartItem::TitleAlign ChartItem::titleAlign() const
{
return m_titleAlign;
}
void ChartItem::setTitleAlign(const TitleAlign &titleAlign)
{
if (m_titleAlign != titleAlign){
TitleAlign oldValue = m_titleAlign;
m_titleAlign = titleAlign;
notify("titleAlign",oldValue,m_titleAlign);
update();
}
}
void ChartItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget)
{
painter->save();
setupPainter(painter);
painter->setFont(transformToSceneFont(painter->font()));
painter->setRenderHint(QPainter::Antialiasing,true);
painter->setRenderHint(QPainter::TextAntialiasing,true);
qreal borderMargin = (rect().height()*0.01>10)?(10):(rect().height()*0.01);
qreal maxTitleHeight = rect().height()*0.5;
QFont tmpFont = painter->font();
qreal titleOffset = 0;
if (!m_title.isEmpty()) {
QFontMetrics fm(titleFont());
const qreal titleHeight = fm.boundingRect(rect().toRect(), Qt::TextWordWrap,chartTitle()).height() + borderMargin * 2;
titleOffset = std::min(titleHeight, maxTitleHeight);
}
const QRectF titleRect = QRectF(borderMargin,borderMargin,rect().width()-borderMargin*2,titleOffset);
QRectF legendRect = QRectF(0, 0, 0, 0);
QRectF diagramRect = rect().adjusted(borderMargin, titleOffset + borderMargin,
-(borderMargin * 2), -borderMargin);
if (m_showLegend) {
legendRect = m_chart->calcChartLegendRect(painter->font(), rect(), false, borderMargin, titleOffset);
switch(legendAlign()) {
case LegendAlignRightTop:
case LegendAlignRightBottom:
case LegendAlignRightCenter:
diagramRect.adjust(0, 0, -legendRect.width(), 0);
break;
case LegendAlignBottomLeft:
case LegendAlignBottomCenter:
case LegendAlignBottomRight:
diagramRect.adjust(0, 0, 0, -(legendRect.height() + borderMargin * 2));
break;
}
}
paintChartTitle(painter, titleRect);
if (m_showLegend)
m_chart->paintChartLegend(painter,legendRect);
m_chart->paintChart(painter,diagramRect);
painter->restore();
ItemDesignIntf::paint(painter,option,widget);
}
QObject *ChartItem::xAxisSettings()
{
return m_xAxisData;
}
void ChartItem::setYAxisSettings(QObject *axis)
{
AxisData *data = dynamic_cast<AxisData*>(axis);
if (data) {
m_yAxisData->copy(data);
}
}
QObject *ChartItem::yAxisSettings()
{
return m_yAxisData;
}
void ChartItem::setXAxisSettings(QObject *axis)
{
AxisData *data = static_cast<AxisData*>(axis);
if (data) {
m_xAxisData->copy(data);
}
}
AxisData *ChartItem::xAxisData()
{
return m_xAxisData;
}
AxisData *ChartItem::yAxisData()
{
return m_yAxisData;
}
void ChartItem::showAxisEditorDialog(bool isXAxis)
{
showDialog(new ChartAxisEditor(this, page(), isXAxis, settings()));
}
BaseDesignIntf *ChartItem::createSameTypeItem(QObject *owner, QGraphicsItem *parent)
{
ChartItem* result = new ChartItem(owner,parent);
foreach (SeriesItem* series, m_series) {
result->m_series.append(series->clone());
}
return result;
}
QObject *ChartItem::createElement(const QString &collectionName, const QString &elementType)
{
Q_UNUSED(elementType);
if (collectionName.compare("series")==0){
SeriesItem* seriesItem = new SeriesItem();
m_series.append(seriesItem);
return seriesItem;
}
return 0;
}
int ChartItem::elementsCount(const QString &collectionName)
{
if (collectionName.compare("series")==0)
return m_series.count();
return 0;
}
QObject *ChartItem::elementAt(const QString &collectionName, int index)
{
if (collectionName.compare("series")==0)
return m_series.at(index);
return 0;
}
void ChartItem::updateItemSize(DataSourceManager *dataManager, RenderPass , int )
{
m_isEmpty = false;
if (dataManager && dataManager->dataSource(m_datasource)){
IDataSource* ds = dataManager->dataSource(m_datasource);
foreach (SeriesItem* series, m_series) {
if (series->isEmpty()){
series->setLabelsColumn(m_labelsField);
series->setXAxisColumn(m_xAxisField);
series->fillSeriesData(ds);
}
}
fillLabels(ds);
}
}
void ChartItem::fillLabels(IDataSource *dataSource)
{
m_labels.clear();
if (dataSource && !m_labelsField.isEmpty()){
dataSource->first();
while(!dataSource->eof()){
m_labels.append(dataSource->data(m_labelsField).toString());
dataSource->next();
}
}
}
QWidget *ChartItem::defaultEditor()
{
QWidget* editor = new ChartItemEditor(this, page(), settings());
editor->setAttribute(Qt::WA_DeleteOnClose);
return editor;
}
bool ChartItem::isNeedUpdateSize(RenderPass pass) const
{
return pass == FirstPass && m_isEmpty;
}
QSettings *ChartItem::settings()
{
PageDesignIntf *page = this->page();
if (page->settings()) {
return page->settings();
}
if (page->reportEditor()) {
return page->reportEditor()->settings();
}
return 0;
}
bool ChartItem::showLegend() const
{
return m_showLegend;
}
void ChartItem::setShowLegend(bool showLegend)
{
if (m_showLegend != showLegend){
m_showLegend = showLegend;
notify("showLegend", !m_showLegend, m_showLegend);
update();
}
m_showLegend = showLegend;
}
QList<QString> ChartItem::labels() const
{
return m_labels;
}
void ChartItem::setLabels(const QList<QString> &labels)
{
m_labels = labels;
}
QString ChartItem::labelsField() const
{
return m_labelsField;
}
void ChartItem::setLabelsField(const QString &labelsField)
{
m_labelsField = labelsField;
}
ChartItem::ChartType ChartItem::chartType() const
{
return m_chartType;
}
void ChartItem::setChartType(const ChartType &chartType)
{
if (m_chartType != chartType){
ChartType oldValue = m_chartType;
m_chartType = chartType;
QFont oldTitleFont = m_chart->titleFont();
delete m_chart;
switch (m_chartType) {
case Pie:
m_chart = new PieChart(this);
break;
case VerticalBar:
m_chart = new VerticalBarChart(this);
break;
case HorizontalBar:
m_chart = new HorizontalBarChart(this);
break;
case Lines:
m_chart = new LinesChart(this);
break;
case GridLines:
m_chart = new GridLinesChart(this);
break;
}
m_chart->setTitleFont(oldTitleFont);
notify("chartType",oldValue,m_chartType);
update();
}
}
QString ChartItem::datasource() const
{
return m_datasource;
}
void ChartItem::setDatasource(const QString &datasource)
{
m_datasource = datasource;
}
void ChartItem::paintChartTitle(QPainter *painter, QRectF titleRect)
{
painter->save();
QFont tmpFont = transformToSceneFont(titleFont());
QRect titleBoundingRect = QFontMetrics(tmpFont).boundingRect(rect().toRect(), Qt::TextWordWrap, chartTitle());
while ((titleBoundingRect.height() > titleRect.height() || titleBoundingRect.width() > titleRect.width())
&& tmpFont.pixelSize() > 1)
{
tmpFont.setPixelSize(tmpFont.pixelSize()-1);
titleBoundingRect = QFontMetrics(tmpFont).boundingRect(rect().toRect(), Qt::TextWordWrap, chartTitle());
}
painter->setFont(tmpFont);
Qt::AlignmentFlag align = Qt::AlignCenter;
switch (m_titleAlign) {
case TitleAlignLeft:
align = Qt::AlignLeft;
break;
case TitleAlignCenter:
align = Qt::AlignCenter;
break;
case TitleAlignRight:
align = Qt::AlignRight;
break;
}
painter->drawText(titleRect, align | Qt::TextWordWrap, m_title);
painter->restore();
}
ChartItem::LegendAlign ChartItem::legendAlign() const
{
return m_legendAlign;
}
void ChartItem::setLegendAlign(const LegendAlign &legendAlign)
{
if (m_legendAlign != legendAlign){
LegendAlign oldValue = m_legendAlign;
m_legendAlign = legendAlign;
notify("legendAlign",oldValue,m_legendAlign);
update();
}
}
ChartItem::LegendStyle ChartItem::legendStyle() const
{
return m_legendStyle;
}
void ChartItem::setLegendStyle(const LegendStyle &legendStyle)
{
if (m_legendStyle == legendStyle) {
return;
}
LegendStyle oldValue = m_legendStyle;
m_legendStyle = legendStyle;
notify("legendStyle", oldValue, m_legendStyle);
update();
}
bool ChartItem::drawLegendBorder() const
{
return m_legendBorder;
}
void ChartItem::setDrawLegendBorder(bool legendBorder)
{
if (m_legendBorder!=legendBorder){
m_legendBorder = legendBorder;
notify("legendBorder",!m_legendBorder,m_legendBorder);
update();
}
}
QString ChartItem::chartTitle() const
{
return m_title;
}
void ChartItem::setChartTitle(const QString &title)
{
if (m_title != title){
QString oldValue = m_title;
m_title = title;
update();
notify("chartTitle",oldValue,title);
}
}
QList<SeriesItem *> &ChartItem::series()
{
return m_series;
}
void ChartItem::setSeries(const QList<SeriesItem *> &series)
{
m_series = series;
}
bool ChartItem::isSeriesExists(const QString &name)
{
foreach (SeriesItem* series, m_series) {
if (series->name().compare(name)==0) return true;
}
return false;
}
int ChartItem::seriesLineWidth() const
{
return m_seriesLineWidth;
}
bool ChartItem::drawPoints() const
{
return m_drawPoints;
}
void ChartItem::setDrawPoints(bool drawPoints)
{
if (m_drawPoints != drawPoints){
m_drawPoints = drawPoints;
notify("drawPoints", !m_drawPoints, m_drawPoints);
update();
}
m_drawPoints = drawPoints;
}
void ChartItem::setSeriesLineWidth(int newSeriesLineWidth)
{
if (m_seriesLineWidth != newSeriesLineWidth){
int oldValue = m_seriesLineWidth;
m_seriesLineWidth = newSeriesLineWidth;
notify("seriesLineWidth", oldValue, m_seriesLineWidth);
update();
}
m_seriesLineWidth = newSeriesLineWidth;
}
QString ChartItem::xAxisField() const
{
return m_xAxisField;
}
void ChartItem::setXAxisField(const QString &xAxisField)
{
m_xAxisField = xAxisField;
}
bool ChartItem::horizontalAxisOnTop() const
{
return m_horizontalAxisOnTop;
}
void ChartItem::setHorizontalAxisOnTop(bool horizontalAxisOnTop)
{
if (m_horizontalAxisOnTop != horizontalAxisOnTop){
m_horizontalAxisOnTop = horizontalAxisOnTop;
notify("horizontalAxisOnTop", !m_horizontalAxisOnTop, m_horizontalAxisOnTop);
update();
}
m_horizontalAxisOnTop = horizontalAxisOnTop;
}
ChartItem::GridChartLines ChartItem::gridChartLines() const
{
return m_gridChartLines;
}
void ChartItem::setGridChartLines(GridChartLines flags)
{
if (m_gridChartLines == flags) {
return;
}
GridChartLines oldValue = m_gridChartLines;
m_gridChartLines = flags;
if (isLoading()) {
return;
}
update(rect());
notify("gridChartLines",QVariant(oldValue),QVariant(flags));
}
void ChartItem::setCharItemFont(QFont value)
{
if (font() == value) {
return;
}
QFont oldValue = font();
setFont(value);
if (!isLoading()) update();
notify("font",oldValue,value);
}
QFont ChartItem::titleFont() const
{
return m_chart->titleFont();
}
void ChartItem::setTitleFont(QFont value)
{
if (m_chart->titleFont() == value){
return;
}
QFont oldValue = value;
m_chart->setTitleFont(value);
if (!isLoading()) update();
notify("titleFont", oldValue, value);
}
AbstractChart::AbstractChart(ChartItem *chartItem)
:m_chartItem(chartItem)
{
m_designLabels<<QObject::tr("First")<<QObject::tr("Second")<<QObject::tr("Thrid");
}
QRectF AbstractChart::calcChartLegendRect(const QFont &font, const QRectF &parentRect, bool takeAllRect, qreal borderMargin, qreal titleOffset)
{
const QSizeF legendSize = calcChartLegendSize(font, parentRect.width() * 0.9);
qreal legendTopMargin = 0;
qreal legendBottomMargin = 0;
qreal legendLeftMargin = 0;
bool isVertical = true;
switch (m_chartItem->legendAlign()) {
case ChartItem::LegendAlignRightTop:
legendTopMargin = titleOffset + borderMargin;
legendBottomMargin = parentRect.height() - (legendSize.height() + titleOffset);
isVertical = true;
break;
case ChartItem::LegendAlignRightCenter:
legendTopMargin = titleOffset + (parentRect.height() - titleOffset - legendSize.height()) / 2;
legendBottomMargin = (parentRect.height() - titleOffset - legendSize.height()) / 2;
isVertical = true;
break;
case ChartItem::LegendAlignRightBottom:
legendTopMargin = parentRect.height() - (legendSize.height() + titleOffset);
legendBottomMargin = borderMargin;
isVertical = true;
break;
case ChartItem::LegendAlignBottomLeft:
legendLeftMargin = QFontMetrics(font).height() / 2;
isVertical = false;
break;
case ChartItem::LegendAlignBottomCenter:
legendLeftMargin = (parentRect.width() - legendSize.width()) / 2;
isVertical = false;
break;
case ChartItem::LegendAlignBottomRight:
legendLeftMargin = parentRect.width() - legendSize.width() - QFontMetrics(font).height() / 2;
isVertical = false;
break;
}
if (isVertical) {
qreal rightOffset = !takeAllRect ? ((legendSize.width() > parentRect.width() / 2 - borderMargin) ?
(parentRect.width() / 2) :
(parentRect.width() - legendSize.width())) : 0;
return parentRect.adjusted(
rightOffset,
(legendSize.height()>(parentRect.height()-titleOffset))?(titleOffset):(legendTopMargin),
-borderMargin,
(legendSize.height()>(parentRect.height()-titleOffset))?(0):(-legendBottomMargin)
);
} else {
const qreal verticalOffset = borderMargin * 2;
return parentRect.adjusted(
legendLeftMargin,
(parentRect.height()) - (legendSize.height() + verticalOffset),
-(parentRect.width() - (legendSize.width() + legendLeftMargin)),
-verticalOffset
);
}
}
QFont AbstractChart::titleFont()
{
return m_titleFont;
}
void AbstractChart::setTitleFont(const QFont &value)
{
m_titleFont = value;
}
void AbstractChart::prepareLegendToPaint(QRectF &legendRect, QPainter *painter)
{
QFont tmpFont = painter->font();
switch(m_chartItem->legendAlign()) {
case ChartItem::LegendAlignBottomLeft:
case ChartItem::LegendAlignBottomCenter:
case ChartItem::LegendAlignBottomRight: {
const qreal maxWidth = legendRect.width() * 0.95;
qreal legendWidth = std::accumulate(m_legendColumnWidths.cbegin(), m_legendColumnWidths.cend(), 0.0);
if (legendWidth < maxWidth) {
return;
}
while ( (legendWidth > maxWidth) && tmpFont.pixelSize() > 1) {
tmpFont.setPixelSize(tmpFont.pixelSize() - 1);
calcChartLegendSize(tmpFont, legendRect.width());
legendWidth = std::accumulate(m_legendColumnWidths.cbegin(), m_legendColumnWidths.cend(), 0.0);
}
painter->setFont(tmpFont);
break;
}
case ChartItem::LegendAlignRightTop:
case ChartItem::LegendAlignRightCenter:
case ChartItem::LegendAlignRightBottom:
QSizeF legendSize = calcChartLegendSize(tmpFont, legendRect.width());
if ((legendSize.height() <= legendRect.height() && legendSize.width() <= legendRect.width())) {
return;
}
while ((legendSize.height() > legendRect.height() || legendSize.width() > legendRect.width())
&& tmpFont.pixelSize() > 1)
{
tmpFont.setPixelSize(tmpFont.pixelSize() - 1);
legendSize = calcChartLegendSize(tmpFont, legendRect.width());
}
painter->setFont(tmpFont);
legendRect = calcChartLegendRect(tmpFont, legendRect, true, 0, 0);
break;
}
}
AbstractSeriesChart::AbstractSeriesChart(ChartItem *chartItem)
:AbstractChart(chartItem)
{
m_designValues[0] = 10;
m_designValues[1] = 35;
m_designValues[2] = 15;
m_designValues[3] = 5;
m_designValues[4] = 20;
m_designValues[5] = 10;
m_designValues[6] = 40;
m_designValues[7] = 20;
m_designValues[8] = 5;
}
qreal AbstractSeriesChart::maxValue()
{
return m_chartItem->yAxisData()->maxValue();
}
qreal AbstractSeriesChart::minValue()
{
return m_chartItem->yAxisData()->minValue();
}
AxisData &AbstractSeriesChart::xAxisData() const
{
return *m_chartItem->xAxisData();
}
AxisData &AbstractSeriesChart::yAxisData() const
{
return *m_chartItem->yAxisData();
}
void AbstractSeriesChart::updateMinAndMaxValues()
{
if (m_chartItem->itemMode() == DesignMode) {
m_chartItem->xAxisData()->updateForDesignMode();
m_chartItem->yAxisData()->updateForDesignMode();
return;
}
qreal maxYValue = 0;
qreal minYValue = 0;
qreal maxXValue = 0;
qreal minXValue = 0;
for (SeriesItem* series : m_chartItem->series()){
for (qreal value : series->data()->values()){
minYValue = std::min(minYValue, value);
maxYValue = std::max(maxYValue, value);
}
if (series->data()->xAxisValues().isEmpty()) {
// Grid plot starts from 0 on x axis so x range must be decresed by 1
const bool startingFromZero = m_chartItem->chartType() == ChartItem::GridLines;
const qreal valuesCount = this->valuesCount() - (startingFromZero ? 1 : 0);
minXValue = std::min(0.0, minXValue);
maxXValue = std::max(valuesCount, maxXValue);
} else {
for (qreal value : series->data()->xAxisValues()){
minXValue = std::min(value, minXValue);
maxXValue = std::max(value, maxXValue);
}
}
}
m_chartItem->xAxisData()->update(minXValue, maxXValue);
m_chartItem->yAxisData()->update(minYValue, maxYValue);
}
qreal AbstractSeriesChart::hPadding(QRectF chartRect)
{
return (chartRect.width() * 0.02);
}
qreal AbstractSeriesChart::vPadding(QRectF chartRect)
{
return (chartRect.height() * 0.02);
}
int AbstractSeriesChart::valuesCount()
{
if (m_chartItem->itemMode() == DesignMode) return 3;
return (m_chartItem->series().isEmpty()) ? 0 : m_chartItem->series().at(0)->data()->values().count();
}
int AbstractSeriesChart::seriesCount()
{
if (m_chartItem->itemMode() == DesignMode) return 3;
return m_chartItem->series().count();
}
QSizeF AbstractSeriesChart::calcChartLegendSize(const QFont &font, const qreal maxWidth)
{
QFontMetrics fm(font);
switch(m_chartItem->legendAlign()) {
case ChartItem::LegendAlignBottomLeft:
case ChartItem::LegendAlignBottomCenter:
case ChartItem::LegendAlignBottomRight: {
const qreal seriesCount = m_chartItem->series().isEmpty() ? m_designLabels.size() : m_chartItem->series().size();
const qreal indicatorWidth = fm.height() * 1.5;
m_legendColumnWidths.clear();
while (!calculateLegendColumnWidths(indicatorWidth, maxWidth, fm)) {
// Nothing to do here
}
if (m_legendColumnWidths.isEmpty()) {
m_legendColumnWidths.append(0);
}
const qreal columnCount = m_legendColumnWidths.size();
const qreal rowCount = std::ceil(seriesCount / columnCount);
QSizeF legendSize(std::accumulate(m_legendColumnWidths.cbegin(), m_legendColumnWidths.cend(), 0.0) + fm.height() / 2,
(rowCount + 1) * fm.height());
if (legendSize.width() > maxWidth) {
legendSize.setWidth(maxWidth);
}
return legendSize;
}
default: {
qreal cw = 0;
qreal maxWidth = 0;
if (m_chartItem->series().isEmpty()) {
foreach(QString label, m_designLabels){
cw += fm.height();
if (maxWidth<fm.boundingRect(label).width())
maxWidth = fm.boundingRect(label).width()+10;
}
} else {
foreach(SeriesItem* series, m_chartItem->series()){
cw += fm.height();
if (maxWidth<fm.boundingRect(series->name()).width())
maxWidth = fm.boundingRect(series->name()).width()+10;
}
}
cw += fm.height();
return QSizeF(maxWidth+fm.height()*2,cw);
}
}
return QSizeF();
}
bool AbstractSeriesChart::verticalLabels(QPainter* painter, QRectF labelsRect)
{
if (valuesCount() == 0) return false;
qreal hStep = (labelsRect.width() / valuesCount());
QFontMetrics fm = painter->fontMetrics();
foreach(QString label, m_chartItem->labels()){
if (fm.boundingRect(label).width() > hStep){
return true;
}
}
return false;
}
void AbstractSeriesChart::paintHorizontalLabels(QPainter *painter, QRectF labelsRect)
{
if (valuesCount() == 0) return;
painter->save();
qreal hStep = (labelsRect.width() / valuesCount());
if (!m_chartItem->labels().isEmpty()){
if (verticalLabels(painter, labelsRect)){
painter->rotate(270);
painter->translate( -(labelsRect.top()+labelsRect.height()), labelsRect.left() );
foreach (QString label, m_chartItem->labels()) {
painter->drawText(QRectF(QPoint(0,0),
QSize(labelsRect.height()-4, hStep)), Qt::AlignVCenter | Qt::AlignRight, label);
painter->translate(0,hStep);
}
painter->rotate(-270);
} else {
painter->translate( labelsRect.left(), labelsRect.top() );
foreach (QString label, m_chartItem->labels()) {
painter->drawText(QRectF(QPoint(0, 4),
QSize(hStep, labelsRect.height()-4)), Qt::AlignHCenter | Qt::AlignTop, label);
painter->translate(hStep, 0);
}
}
}
painter->restore();
}
void AbstractSeriesChart::paintVerticalLabels(QPainter *painter, QRectF labelsRect)
{
if (valuesCount() == 0) return;
painter->save();
painter->setFont(adaptLabelsFont(labelsRect.adjusted(0, 0, -hPadding(m_chartItem->rect()), 0),
painter->font()));
qreal vStep = (labelsRect.height() / valuesCount());
int curLabel = 0;
painter->translate(labelsRect.topLeft());
if (!m_chartItem->labels().isEmpty()){
foreach (QString label, m_chartItem->labels()) {
painter->drawText(QRectF(QPoint(0,vStep*curLabel),
QSize(labelsRect.width()-hPadding(m_chartItem->rect()),vStep)),
Qt::AlignVCenter | Qt::AlignRight | Qt::TextWordWrap,label);
curLabel++;
}
}
painter->restore();
}
void AbstractSeriesChart::paintHorizontalGrid(QPainter *painter, QRectF gridRect)
{
painter->save();
const AxisData &yAxisData = this->yAxisData();
const int segmentCount = yAxisData.segmentCount();
const int lineCount = segmentCount + 1;
painter->setRenderHint(QPainter::Antialiasing,false);
qreal hStep = (gridRect.width() - painter->fontMetrics().boundingRect(QString::number(maxValue())).width()) / segmentCount;
painter->setFont(adaptFont(hStep-4, painter->font(), yAxisData));
QPointF textPos;
if (m_chartItem->horizontalAxisOnTop()) {
textPos.setY(gridRect.top());
} else {
textPos.setY(gridRect.bottom() - painter->fontMetrics().height());
}
for (int i = 0 ; i < lineCount ; i++ ) {
const qreal x = gridRect.left() + hStep * i;
textPos.setX(x + 4);
painter->drawText(QRectF(textPos, QSizeF(hStep, painter->fontMetrics().height())),
axisLabel(i, yAxisData));
painter->drawLine(x, gridRect.bottom(), x, gridRect.top());
}
painter->restore();
}
void AbstractSeriesChart::paintVerticalGrid(QPainter *painter, QRectF gridRect)
{
const AxisData &yAxisData = this->yAxisData();
painter->setRenderHint(QPainter::Antialiasing,false);
const int segmentCount = yAxisData.segmentCount();
const int lineCount = segmentCount + 1;
qreal vStep = gridRect.height() / segmentCount;
const qreal valuesHMargin = this->valuesHMargin(painter);
const int fontHeight = painter->fontMetrics().height();
const int halfFontHeight = fontHeight / 2;
const qreal textPositionOffset = valuesHMargin * 0.2;
const QTextOption verticalTextOption(Qt::AlignRight);
for (int i = 0 ; i < lineCount ; i++ ) {
const qreal y = vStep * i;
painter->drawText(QRectF(gridRect.bottomLeft()-QPointF(textPositionOffset,y+halfFontHeight),
QSizeF(valuesHMargin,fontHeight)),
axisLabel(i, yAxisData),
verticalTextOption);
painter->drawLine(gridRect.bottomLeft()-QPointF(-valuesHMargin,y),
gridRect.bottomRight()-QPointF(0,y));
}
painter->setRenderHint(QPainter::Antialiasing,true);
}
void AbstractSeriesChart::paintGrid(QPainter *painter, QRectF gridRect)
{
painter->save();
const AxisData &yAxisData = this->yAxisData();
AxisData &xAxisData = this->xAxisData();
painter->setRenderHint(QPainter::Antialiasing,false);
const int xAxisSegmentCount = xAxisData.segmentCount();
const int xAxisLineCount = xAxisSegmentCount + 1;
const int yAxisSegmentCount = yAxisData.segmentCount();
const int yAxisLineCount = yAxisSegmentCount + 1;
const int fontHeight = painter->fontMetrics().height();
const int halfFontHeight = fontHeight / 2;
const QSizeF gridOffset = QSizeF(hPadding(gridRect), vPadding(gridRect));
const qreal valuesHMargin = this->valuesHMargin(painter);
const qreal vStep = gridRect.height() / yAxisSegmentCount;
const qreal hStep = (gridRect.width() - valuesHMargin - gridOffset.width()) / xAxisSegmentCount;
const qreal textPositionHOffset = valuesHMargin * 0.1;
// Vertical axis lines
const QTextOption verticalTextOption(Qt::AlignRight);
for (int i = 0 ; i < yAxisLineCount ; i++ ) {
const qreal y = vStep * i;
const bool drawFullLine = m_chartItem->gridChartLines() & ChartItem::HorizontalLine
|| i == 0 || i == xAxisSegmentCount;
painter->drawText(QRectF(gridRect.bottomLeft()-QPointF(textPositionHOffset, y + halfFontHeight),
QSizeF(valuesHMargin,fontHeight)),
axisLabel(i, yAxisData),
verticalTextOption);
QPointF lineEndPos = gridRect.bottomRight() - QPointF(0, y);
if (!drawFullLine) {
lineEndPos.setX(gridRect.left() + valuesHMargin + gridOffset.width());
}
painter->drawLine(gridRect.bottomLeft() - QPointF(-valuesHMargin, y), lineEndPos);
}
// Horizontal axis lines
for (int i = 0 ; i < xAxisLineCount ; i++) {
const qreal x = gridRect.left() + hStep * i + valuesHMargin + gridOffset.width();
const bool drawFullLine = m_chartItem->gridChartLines() & ChartItem::VerticalLine
|| i == 0 || i == xAxisSegmentCount;
const QString text = axisLabel(i, xAxisData);
if (m_chartItem->horizontalAxisOnTop()) {
painter->drawLine(x, gridRect.top() - gridOffset.height(),
x, (drawFullLine ? gridRect.bottom() : gridRect.top()));
painter->drawText(QRectF(x - painter->fontMetrics().width(text) / 2,
gridRect.top() - (fontHeight + gridOffset.height()),
hStep, fontHeight),
text);
} else {
painter->drawLine(x, gridRect.bottom() + gridOffset.height(),
x, (drawFullLine ? gridRect.top() : gridRect.bottom()));
painter->drawText(QRectF(x - painter->fontMetrics().width(text) / 2,
gridRect.bottom() + halfFontHeight * 0 + gridOffset.height(),
hStep, fontHeight),
text);
}
}
painter->restore();
}
void AbstractSeriesChart::drawSegment(QPainter *painter, QPoint startPoint, QPoint endPoint, QColor color)
{
int radius = m_chartItem->seriesLineWidth();
QPen pen(color);
pen.setWidth(radius);
painter->setPen(pen);
painter->drawLine(startPoint, endPoint);
if (!m_chartItem->drawPoints()) {
return;
}
QRect startPointRect(startPoint,startPoint);
QRect endPointRect(endPoint,endPoint);
painter->setBrush(color);
painter->drawEllipse(startPointRect.adjusted(radius,radius,-radius,-radius));
painter->drawEllipse(endPointRect.adjusted(radius,radius,-radius,-radius));
}
qreal AbstractSeriesChart::valuesHMargin(QPainter *painter)
{
qreal max = 0;
const AxisData &yAxisData = this->yAxisData();
const int offset = 4;
const int yAxisLineCount = yAxisData.segmentCount() + 1;
for (int i = 0 ; i < yAxisLineCount ; i++) {
const QString label = axisLabel(i, yAxisData);
max = std::max(max, (qreal)painter->fontMetrics().boundingRect(label).width()+offset);
}
return max;
}
qreal AbstractSeriesChart::valuesVMargin(QPainter *painter)
{
return painter->fontMetrics().height();
}
QFont AbstractSeriesChart::adaptLabelsFont(QRectF rect, QFont font)
{
QString maxWord;
QFontMetrics fm(font);
foreach(QString label, m_chartItem->labels()){
#if (QT_VERSION < QT_VERSION_CHECK(5, 15, 1))
foreach (QString currentWord, label.split(QRegExp("\\W+"))){
#else
foreach (QString currentWord, label.split(QRegularExpression("\\W+"))){
#endif
if (fm.boundingRect(maxWord).width() < fm.boundingRect(currentWord).width()) maxWord = currentWord;
}
}
qreal curWidth = fm.boundingRect(maxWord).width();
QFont tmpFont = font;
while (curWidth>rect.width() && tmpFont.pixelSize() > 1){
tmpFont.setPixelSize(tmpFont.pixelSize() - 1);
QFontMetricsF tmpFM(tmpFont);
curWidth = tmpFM.boundingRect(maxWord).width();
}
return tmpFont;
}
QFont AbstractSeriesChart::adaptFont(qreal width, QFont font, const AxisData &axisData)
{
QFont tmpFont = font;
const int axisLineCount = axisData.segmentCount() + 1;
QScopedPointer<QFontMetricsF> fm(new QFontMetricsF(tmpFont));
for (int i = 0 ; i < axisLineCount ; i++) {
QString strValue = axisLabel(i, axisData);
qreal curWidth = fm->boundingRect(strValue).width();
while (curWidth > width && tmpFont.pixelSize() > 1){
tmpFont.setPixelSize(tmpFont.pixelSize() - 1);
fm.reset(new QFontMetricsF(tmpFont));
curWidth = fm->boundingRect(strValue).width();
}
}
return tmpFont;
}
QString AbstractSeriesChart::axisLabel(int i, const AxisData &axisData)
{
const qreal min = axisData.rangeMin();
const qreal step = axisData.step();
qreal value = 0;
if (axisData.type() == AxisData::YAxis && axisData.reverseDirection() && min >= 0) {
value = min + (axisData.segmentCount() - i) * step;
} else {
value = min + i * step;
}
if (std::floor(step) == step) {
return QString::number(value);
}
// For float round numbers to small precision
return QString::number(round(value * 100.0) / 100.0);
}
bool AbstractSeriesChart::calculateLegendColumnWidths(qreal indicatorWidth, qreal maxWidth, const QFontMetrics &fm)
{
// This method is called in the loop, because to handle case when we get
// 3 small series names in first row and then in second row small name and long name.
// In this case we need to set maximum column count to 2 and iterate from the start to recalculate
// all the sizes
qreal currentRowWidth = 0;
int currentColumn = 0;
// During first iteration it is updated when moving to second row
// After first iteration some column width are already calculated and are set as max,
// because all rows need to have same column count (except last one)
int maxColumnCount = m_legendColumnWidths.size();
if (m_chartItem->series().isEmpty()) {
for (int i=0 ; i < m_designLabels.size() ; ++i) {
const qreal itemWidth = (qreal)(fm.boundingRect(m_designLabels[i]).width()) + indicatorWidth;
if (!calculateLegendSingleColumnWidth(currentRowWidth, currentColumn, maxColumnCount, itemWidth, maxWidth)) {
return false;
}
}
} else {
for (int i = 0 ; i < m_chartItem->series().size() ; ++i) {
SeriesItem* series = m_chartItem->series().at(i);
const qreal itemWidth = (qreal)(fm.boundingRect(series->name()).width()) + indicatorWidth;
if (!calculateLegendSingleColumnWidth(currentRowWidth, currentColumn, maxColumnCount, itemWidth, maxWidth)) {
return false;
}
}
}
return true;
}
bool AbstractSeriesChart::calculateLegendSingleColumnWidth(qreal &currentRowWidth, int &currentColumn, int &maxColumnCount,
const qreal itemWidth, const qreal maxRowWidth)
{
const bool maxColumnCountDefined = maxColumnCount > 0;
// Check if there is enough space for current item in the row
const bool isEnoughSpaceInRowForItem = currentRowWidth + itemWidth > maxRowWidth;
// Check if it is last column already
const bool lastColumnReached = (maxColumnCountDefined && currentColumn >= maxColumnCount);
if (isEnoughSpaceInRowForItem || lastColumnReached) {
// Move to next row
currentColumn = 0;
// Set column count when moving to second row (next rows cannot have more columns)
if (!maxColumnCountDefined) {
maxColumnCount = currentColumn + 1;
}
currentRowWidth = itemWidth;
} else {
// Add next column in the row
currentRowWidth += itemWidth;
}
// Add new column or update already existing column width
if (currentColumn >= m_legendColumnWidths.size()) {
// Append new column
m_legendColumnWidths.append(itemWidth);
} else if (m_legendColumnWidths.at(currentColumn) < itemWidth) {
// Update size if item in column is bigger than items in same column in previous rows
m_legendColumnWidths[currentColumn] = itemWidth;
// After any updating column size we must recheck if all columns fit in the max row width
qreal rowWidth = itemWidth;
for (int c = 1 ; c < m_legendColumnWidths.size() ; c++) {
rowWidth += m_legendColumnWidths.at(c);
// When column widths exceed max row width remove columns at the end
if (rowWidth > maxRowWidth) {
m_legendColumnWidths.remove(c, m_legendColumnWidths.size() - c);
break;
}
}
// Return back and re-iterate from start to make sure everything fits
return false;
}
++currentColumn;
return true;
}
QVector<qreal> AbstractChart::legendColumnWidths() const
{
return m_legendColumnWidths;
}
void AbstractBarChart::paintChartLegend(QPainter *painter, QRectF legendRect)
{
prepareLegendToPaint(legendRect, painter);
painter->setPen(Qt::black);
painter->setRenderHint(QPainter::Antialiasing,false);
if (m_chartItem->drawLegendBorder())
painter->drawRect(legendRect);
painter->setRenderHint(QPainter::Antialiasing,true);
const qreal halfFontSize = painter->fontMetrics().height() / 2;
int indicatorSize = halfFontSize;
const QRectF indicatorsRect = legendRect.adjusted(halfFontSize, halfFontSize, 0, 0);
bool isHorizontal = false;
switch(m_chartItem->legendAlign()) {
case ChartItem::LegendAlignBottomLeft:
case ChartItem::LegendAlignBottomCenter:
case ChartItem::LegendAlignBottomRight:
isHorizontal = true;
break;
default:
isHorizontal = false;
break;
}
if (!m_chartItem->series().isEmpty()){
for (int i = 0 ; i < m_chartItem->series().size() ; ++i) {
SeriesItem* series = m_chartItem->series().at(i);
if (isHorizontal) {
drawHorizontalLegendItem(painter, i, series->name(), indicatorSize, indicatorsRect, series->color());
} else {
drawVerticalLegendItem(painter, i, series->name(), indicatorSize, indicatorsRect, series->color());
}
}
} else if (m_chartItem->itemMode() == DesignMode) {
for (int i = 0 ; i < m_designLabels.size() ; ++i){
if (isHorizontal) {
drawHorizontalLegendItem(painter, i, m_designLabels.at(i), indicatorSize, indicatorsRect, color_map[i]);
} else {
drawVerticalLegendItem(painter, i, m_designLabels.at(i), indicatorSize, indicatorsRect, color_map[i]);
}
}
}
}
QRectF AbstractBarChart::verticalLabelsRect(QPainter *painter, QRectF labelsRect)
{
qreal maxWidth = 0;
foreach (QString label, m_chartItem->labels()) {
if (painter->fontMetrics().boundingRect(label).width()>maxWidth)
maxWidth = painter->fontMetrics().boundingRect(label).width();
}
if (maxWidth + hPadding(m_chartItem->rect()) * 2 < labelsRect.width())
return labelsRect;
else
return labelsRect.adjusted(0, 0, -(labelsRect.width() - (maxWidth + hPadding(m_chartItem->rect()) * 2)), 0);
}
QRectF AbstractBarChart::horizontalLabelsRect(QPainter *painter, QRectF labelsRect)
{
qreal maxWidth = 0;
foreach (QString label, m_chartItem->labels()) {
if (painter->fontMetrics().boundingRect(label).width()>maxWidth)
maxWidth = painter->fontMetrics().boundingRect(label).width();
}
if ((maxWidth + vPadding(m_chartItem->rect()) < labelsRect.height()) || !verticalLabels(painter, labelsRect))
return labelsRect;
else
return labelsRect.adjusted(0, (labelsRect.height() - maxWidth), 0, 0);
}
void AbstractBarChart::drawVerticalLegendItem(QPainter *painter, int i, const QString &text, int indicatorSize,
const QRectF &indicatorsRect, const QColor &indicatorColor)
{
const qreal y = i * painter->fontMetrics().height();
painter->drawText(indicatorsRect.adjusted(indicatorSize+indicatorSize * 1.5, y, 0, 0),text);
switch(m_chartItem->legendStyle()) {
case ChartItem::LegendPoints: {
painter->setBrush(indicatorColor);
painter->drawEllipse(
indicatorsRect.adjusted(
0,
y+indicatorSize/2,
-(indicatorsRect.width()-indicatorSize),
-(indicatorsRect.height()-(y+indicatorSize+indicatorSize/2))
)
);
break;
}
case ChartItem::LegendLines: {
const QPen tmpPen = painter->pen();
QPen indicatorPen(indicatorColor);
indicatorPen.setWidth(4);
painter->setPen(indicatorPen);
const QPointF linePos = QPointF(indicatorsRect.left(), indicatorsRect.top() + y + painter->fontMetrics().height()/2);
painter->drawLine(linePos, linePos + QPointF(indicatorSize, 0));
painter->setPen(tmpPen);
break;
}
}
}
void AbstractBarChart::drawHorizontalLegendItem(QPainter *painter, int i, const QString &text,
int indicatorSize, const QRectF &indicatorsRect, const QColor &indicatorColor)
{
const QVector<qreal> &columnWidths = legendColumnWidths();
if (columnWidths.isEmpty())
return;
const int column = i % columnWidths.size();
const int row = std::floor(i / columnWidths.size());
const qreal halfTextSize = painter->fontMetrics().height() / 2;
const qreal x = indicatorsRect.x() + std::accumulate(columnWidths.cbegin(), columnWidths.cbegin() + column, 0.0);
const qreal y = indicatorsRect.y() + (row + 1) * painter->fontMetrics().height();
painter->drawText(QPointF(x + indicatorSize * 1.5, y), text);
switch(m_chartItem->legendStyle()) {
case ChartItem::LegendPoints: {
painter->setBrush(indicatorColor);
painter->drawEllipse(x, y - halfTextSize, indicatorSize, indicatorSize);
break;
}
case ChartItem::LegendLines: {
const QPen tmpPen = painter->pen();
QPen indicatorPen(indicatorColor);
indicatorPen.setWidth(4);
painter->setPen(indicatorPen);
painter->drawLine(x, y - halfTextSize * 0.7, x + indicatorSize, y - halfTextSize * 0.7);
painter->setPen(tmpPen);
break;
}
}
}
} // namespace LimeReport