/**************************************************************************** ** ** Copyright (C) 2015 The Qt Company Ltd ** All rights reserved. ** For any questions to The Qt Company, please use contact form at http://qt.io ** ** This file is part of the Qt Charts module. ** ** Licensees holding valid commercial license for Qt may use this file in ** accordance with the Qt License Agreement provided with the Software ** or, alternatively, in accordance with the terms contained in a written ** agreement between you and The Qt Company. ** ** If you have questions regarding the use of this file, please use ** contact form at http://qt.io ** ****************************************************************************/ #include "mainwidget.h" #include "dataseriedialog.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include QT_CHARTS_USE_NAMESPACE MainWidget::MainWidget(QWidget *parent) : QWidget(parent), m_addSerieDialog(0), m_chart(0) { m_chart = new QChart(); // Grid layout for the controls for configuring the chart widget QGridLayout *grid = new QGridLayout(); QPushButton *addSeriesButton = new QPushButton("Add series"); connect(addSeriesButton, SIGNAL(clicked()), this, SLOT(addSeries())); grid->addWidget(addSeriesButton, 0, 1); initBackroundCombo(grid); initScaleControls(grid); initThemeCombo(grid); initCheckboxes(grid); // add row with empty label to make all the other rows static grid->addWidget(new QLabel(""), grid->rowCount(), 0); grid->setRowStretch(grid->rowCount() - 1, 1); // Create chart view with the chart m_chartView = new QChartView(m_chart, this); m_chartView->setRubberBand(QChartView::HorizontalRubberBand); // Another grid layout as a main layout QGridLayout *mainLayout = new QGridLayout(); mainLayout->addLayout(grid, 0, 0); mainLayout->addWidget(m_chartView, 0, 1, 3, 1); setLayout(mainLayout); } // Combo box for selecting the chart's background void MainWidget::initBackroundCombo(QGridLayout *grid) { QComboBox *backgroundCombo = new QComboBox(this); backgroundCombo->addItem("Color"); backgroundCombo->addItem("Gradient"); backgroundCombo->addItem("Image"); connect(backgroundCombo, SIGNAL(currentIndexChanged(int)), this, SLOT(backgroundChanged(int))); grid->addWidget(new QLabel("Background:"), grid->rowCount(), 0); grid->addWidget(backgroundCombo, grid->rowCount() - 1, 1); } // Scale related controls (auto-scale vs. manual min-max values) void MainWidget::initScaleControls(QGridLayout *grid) { m_autoScaleCheck = new QCheckBox("Automatic scaling"); connect(m_autoScaleCheck, SIGNAL(stateChanged(int)), this, SLOT(autoScaleChanged(int))); // Allow setting also non-sense values (like -2147483648 and 2147483647) m_xMinSpin = new QSpinBox(); m_xMinSpin->setMinimum(INT_MIN); m_xMinSpin->setMaximum(INT_MAX); m_xMinSpin->setValue(0); connect(m_xMinSpin, SIGNAL(valueChanged(int)), this, SLOT(xMinChanged(int))); m_xMaxSpin = new QSpinBox(); m_xMaxSpin->setMinimum(INT_MIN); m_xMaxSpin->setMaximum(INT_MAX); m_xMaxSpin->setValue(10); connect(m_xMaxSpin, SIGNAL(valueChanged(int)), this, SLOT(xMaxChanged(int))); m_yMinSpin = new QSpinBox(); m_yMinSpin->setMinimum(INT_MIN); m_yMinSpin->setMaximum(INT_MAX); m_yMinSpin->setValue(0); connect(m_yMinSpin, SIGNAL(valueChanged(int)), this, SLOT(yMinChanged(int))); m_yMaxSpin = new QSpinBox(); m_yMaxSpin->setMinimum(INT_MIN); m_yMaxSpin->setMaximum(INT_MAX); m_yMaxSpin->setValue(10); connect(m_yMaxSpin, SIGNAL(valueChanged(int)), this, SLOT(yMaxChanged(int))); grid->addWidget(m_autoScaleCheck, grid->rowCount(), 0); grid->addWidget(new QLabel("x min:"), grid->rowCount(), 0); grid->addWidget(m_xMinSpin, grid->rowCount() - 1, 1); grid->addWidget(new QLabel("x max:"), grid->rowCount(), 0); grid->addWidget(m_xMaxSpin, grid->rowCount() - 1, 1); grid->addWidget(new QLabel("y min:"), grid->rowCount(), 0); grid->addWidget(m_yMinSpin, grid->rowCount() - 1, 1); grid->addWidget(new QLabel("y max:"), grid->rowCount(), 0); grid->addWidget(m_yMaxSpin, grid->rowCount() - 1, 1); m_autoScaleCheck->setChecked(true); } // Combo box for selecting theme void MainWidget::initThemeCombo(QGridLayout *grid) { QComboBox *chartTheme = new QComboBox(); chartTheme->addItem("Default"); chartTheme->addItem("Light"); chartTheme->addItem("Blue Cerulean"); chartTheme->addItem("Dark"); chartTheme->addItem("Brown Sand"); chartTheme->addItem("Blue NCS"); chartTheme->addItem("High Contrast"); chartTheme->addItem("Blue Icy"); chartTheme->addItem("Qt"); connect(chartTheme, SIGNAL(currentIndexChanged(int)), this, SLOT(changeChartTheme(int))); grid->addWidget(new QLabel("Chart theme:"), 8, 0); grid->addWidget(chartTheme, 8, 1); } // Different check boxes for customizing chart void MainWidget::initCheckboxes(QGridLayout *grid) { // TODO: setZoomEnabled slot has been removed from QChartView -> Re-implement zoom on/off QCheckBox *zoomCheckBox = new QCheckBox("Drag'n drop Zoom"); // connect(zoomCheckBox, SIGNAL(toggled(bool)), m_chartView, SLOT(setZoomEnabled(bool))); zoomCheckBox->setChecked(true); grid->addWidget(zoomCheckBox, grid->rowCount(), 0); QCheckBox *aliasCheckBox = new QCheckBox("Anti-alias"); connect(aliasCheckBox, SIGNAL(toggled(bool)), this, SLOT(antiAliasToggled(bool))); aliasCheckBox->setChecked(false); grid->addWidget(aliasCheckBox, grid->rowCount(), 0); QCheckBox *openGLCheckBox = new QCheckBox("Use QOpenGLWidget"); connect(openGLCheckBox, SIGNAL(toggled(bool)), this, SLOT(openGLToggled(bool))); openGLCheckBox->setChecked(false); grid->addWidget(openGLCheckBox, grid->rowCount(), 0); } void MainWidget::antiAliasToggled(bool enabled) { m_chartView->setRenderHint(QPainter::Antialiasing, enabled); } void MainWidget::openGLToggled(bool enabled) { if (enabled) { QSurfaceFormat f = QSurfaceFormat::defaultFormat(); f.setSamples(4); QSurfaceFormat::setDefaultFormat(f); QOpenGLWidget *g = new QOpenGLWidget(); m_chartView->setViewport(g); } else { m_chartView->setViewport(0); } } void MainWidget::addSeries() { if (!m_addSerieDialog) { m_addSerieDialog = new DataSerieDialog(this); connect(m_addSerieDialog, SIGNAL(accepted(QString,int,int,QString,bool)), this, SLOT(addSeries(QString,int,int,QString,bool))); } m_addSerieDialog->exec(); } QList MainWidget::generateTestData(int columnCount, int rowCount, QString dataCharacteristics) { QList testData; for (int j(0); j < columnCount; j++) { QList newColumn; for (int i(0); i < rowCount; i++) { if (dataCharacteristics == "Sin") { newColumn.append(abs(sin(3.14159265358979 / 50 * i) * 100)); } else if (dataCharacteristics == "Sin + random") { newColumn.append(abs(sin(3.14159265358979 / 50 * i) * 100) + (rand() % 5)); } else if (dataCharacteristics == "Random") { newColumn.append(rand() % 10 + (qreal) rand() / (qreal) RAND_MAX); } else if (dataCharacteristics == "Linear") { //newColumn.append(i * (j + 1.0)); // TODO: temporary hack to make pie work; prevent zero values: newColumn.append(i * (j + 1.0) + 0.1); } else { // "constant" newColumn.append((j + 1.0)); } } testData.append(newColumn); } return testData; } QStringList MainWidget::generateLabels(int count) { QStringList result; for (int i(0); i < count; i++) result.append("label" + QString::number(i)); return result; } void MainWidget::addSeries(QString seriesName, int columnCount, int rowCount, QString dataCharacteristics, bool labelsEnabled) { qDebug() << "addSeries: " << seriesName << " columnCount: " << columnCount << " rowCount: " << rowCount << " dataCharacteristics: " << dataCharacteristics << " labels enabled: " << labelsEnabled; m_defaultSeriesName = seriesName; QList data = generateTestData(columnCount, rowCount, dataCharacteristics); // Line series and scatter series use similar data if (seriesName == "Line") { for (int j(0); j < data.count(); j ++) { QList column = data.at(j); QLineSeries *series = new QLineSeries(); series->setName("line" + QString::number(j)); for (int i(0); i < column.count(); i++) series->append(i, column.at(i)); m_chart->addSeries(series); } } else if (seriesName == "Area") { // TODO: lower series for the area? for (int j(0); j < data.count(); j ++) { QList column = data.at(j); QLineSeries *lineSeries = new QLineSeries(); for (int i(0); i < column.count(); i++) lineSeries->append(i, column.at(i)); QAreaSeries *areaSeries = new QAreaSeries(lineSeries); areaSeries->setName("area" + QString::number(j)); m_chart->addSeries(areaSeries); } } else if (seriesName == "Scatter") { for (int j(0); j < data.count(); j++) { QList column = data.at(j); QScatterSeries *series = new QScatterSeries(); series->setName("scatter" + QString::number(j)); for (int i(0); i < column.count(); i++) series->append(i, column.at(i)); m_chart->addSeries(series); } } else if (seriesName == "Pie") { QStringList labels = generateLabels(rowCount); for (int j(0); j < data.count(); j++) { QPieSeries *series = new QPieSeries(); QList column = data.at(j); for (int i(0); i < column.count(); i++) series->append(labels.at(i), column.at(i)); m_chart->addSeries(series); } } else if (seriesName == "Bar" || seriesName == "Stacked bar" || seriesName == "Percent bar") { QStringList category; QStringList labels = generateLabels(rowCount); foreach (QString label, labels) category << label; QAbstractBarSeries* series = 0; if (seriesName == "Bar") { series = new QBarSeries(this); QBarCategoryAxis* axis = new QBarCategoryAxis(); axis->append(category); m_chart->setAxisX(axis,series); } else if (seriesName == "Stacked bar") { series = new QStackedBarSeries(this); QBarCategoryAxis* axis = new QBarCategoryAxis(); axis->append(category); m_chart->setAxisX(axis,series); } else { series = new QPercentBarSeries(this); QBarCategoryAxis* axis = new QBarCategoryAxis(); axis->append(category); m_chart->setAxisX(axis,series); } for (int j(0); j < data.count(); j++) { QList column = data.at(j); QBarSet *set = new QBarSet("set" + QString::number(j)); for (int i(0); i < column.count(); i++) *set << column.at(i); series->append(set); } m_chart->addSeries(series); } else if (seriesName == "Spline") { for (int j(0); j < data.count(); j ++) { QList column = data.at(j); QSplineSeries *series = new QSplineSeries(); series->setName("spline" + QString::number(j)); for (int i(0); i < column.count(); i++) series->append(i, column.at(i)); m_chart->addSeries(series); } } m_chart->createDefaultAxes(); } void MainWidget::backgroundChanged(int itemIndex) { qDebug() << "backgroundChanged: " << itemIndex; } void MainWidget::autoScaleChanged(int value) { if (value) { // TODO: enable auto scaling } else { // TODO: set scaling manually (and disable auto scaling) } m_xMinSpin->setEnabled(!value); m_xMaxSpin->setEnabled(!value); m_yMinSpin->setEnabled(!value); m_yMaxSpin->setEnabled(!value); } void MainWidget::xMinChanged(int value) { qDebug() << "xMinChanged: " << value; } void MainWidget::xMaxChanged(int value) { qDebug() << "xMaxChanged: " << value; } void MainWidget::yMinChanged(int value) { qDebug() << "yMinChanged: " << value; } void MainWidget::yMaxChanged(int value) { qDebug() << "yMaxChanged: " << value; } void MainWidget::changeChartTheme(int themeIndex) { qDebug() << "changeChartTheme: " << themeIndex; if (themeIndex == 0) m_chart->setTheme(QChart::ChartThemeLight); else m_chart->setTheme((QChart::ChartTheme) (themeIndex - 1)); }