##// END OF EJS Templates
Compile fix
Compile fix

File last commit:

r111:0d50fe03d2e8
r124:af6b508a43ab
Show More
mainwidget.cpp
379 lines | 13.1 KiB | text/x-c | CppLexer
#include "mainwidget.h"
#include "dataseriedialog.h"
#include "qchartseries.h"
#include "qpieseries.h"
#include <qxychartseries.h>
#include <barchartseries.h>
#include <QPushButton>
#include <QComboBox>
#include <QSpinBox>
#include <QCheckBox>
#include <QGridLayout>
#include <QHBoxLayout>
#include <QLabel>
#include <QSpacerItem>
#include <QMessageBox>
#include <cmath>
#include <QDebug>
#include <QStandardItemModel>
QTCOMMERCIALCHART_USE_NAMESPACE
MainWidget::MainWidget(QWidget *parent) :
QWidget(parent)
{
m_chartWidget = new QChartWidget(this);
// 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);
QCheckBox *zoomCheckBox = new QCheckBox("Drag'n drop Zoom");
connect(zoomCheckBox, SIGNAL(toggled(bool)), m_chartWidget, SLOT(setZoomEnabled(bool)));
zoomCheckBox->setChecked(true);
grid->addWidget(zoomCheckBox, grid->rowCount(), 0);
// 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);
// Another grid layout as a main layout
QGridLayout *mainLayout = new QGridLayout();
mainLayout->addLayout(grid, 0, 0);
// Init series type specific controls
initPieControls();
mainLayout->addLayout(m_pieLayout, 2, 0);
// Scatter series specific settings
// m_scatterLayout = new QGridLayout();
// m_scatterLayout->addWidget(new QLabel("scatter"), 0, 0);
// m_scatterLayout->setEnabled(false);
// mainLayout->addLayout(m_scatterLayout, 1, 0);
// Add layouts and the chart widget to the main layout
mainLayout->addWidget(m_chartWidget, 0, 1, 3, 1);
setLayout(mainLayout);
// force an update to test data
testDataChanged(0);
}
// 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("Vanilla");
chartTheme->addItem("Icy");
chartTheme->addItem("Grayscale");
chartTheme->addItem("Unnamed1");
connect(chartTheme, SIGNAL(currentIndexChanged(int)),
this, SLOT(changeChartTheme(int)));
grid->addWidget(new QLabel("Chart theme:"), 8, 0);
grid->addWidget(chartTheme, 8, 1);
}
void MainWidget::initPieControls()
{
// Pie series specific settings
// Pie size factory
QDoubleSpinBox *pieSizeSpin = new QDoubleSpinBox();
pieSizeSpin->setMinimum(LONG_MIN);
pieSizeSpin->setMaximum(LONG_MAX);
pieSizeSpin->setValue(1.0);
pieSizeSpin->setSingleStep(0.1);
connect(pieSizeSpin, SIGNAL(valueChanged(double)), this, SLOT(setPieSizeFactor(double)));
// Pie position
QComboBox *piePosCombo = new QComboBox(this);
piePosCombo->addItem("Maximized");
piePosCombo->addItem("Top left");
piePosCombo->addItem("Top right");
piePosCombo->addItem("Bottom left");
piePosCombo->addItem("Bottom right");
connect(piePosCombo, SIGNAL(currentIndexChanged(int)),
this, SLOT(setPiePosition(int)));
m_pieLayout = new QGridLayout();
m_pieLayout->setEnabled(false);
m_pieLayout->addWidget(new QLabel("Pie size factor"), 0, 0);
m_pieLayout->addWidget(pieSizeSpin, 0, 1);
m_pieLayout->addWidget(new QLabel("Pie position"), 1, 0);
m_pieLayout->addWidget(piePosCombo, 1, 1);
}
void MainWidget::addSeries()
{
DataSerieDialog dialog(m_defaultSeriesName, this);
connect(&dialog, SIGNAL(accepted(QString, QString)), this, SLOT(addSeries(QString, QString)));
dialog.exec();
}
void MainWidget::addSeries(QString series, QString data)
{
qDebug() << "addSeries: " << series << " data: " << data;
m_defaultSeriesName = series;
// TODO: a dedicated data class for storing x and y values
QList<qreal> x;
QList<qreal> y;
if (data == "linear") {
for (int i = 0; i < 20; i++) {
x.append(i);
y.append(i);
}
} else if (data == "linear, 1M") {
// 1 million data points from 0.0001 to 100
// TODO: What is the requirement? Should we be able to show this kind of data with
// reasonable performance, or can we expect the application developer to do "data mining"
// for us, so that the count of data points given to QtCommercial Chart is always
// reasonable?
for (qreal i = 0; i < 100; i += 0.0001) {
x.append(i);
y.append(20);
}
} else if (data == "SIN") {
for (int i = 0; i < 100; i++) {
x.append(i);
y.append(abs(sin(3.14159265358979 / 50 * i) * 100));
}
} else if (data == "SIN + random") {
for (qreal i = 0; i < 100; i += 0.1) {
x.append(i + (rand() % 5));
y.append(abs(sin(3.14159265358979 / 50 * i) * 100) + (rand() % 5));
}
} else {
// TODO: check if data has a valid file name
Q_ASSERT(false);
}
// TODO: color of the series
QChartSeries *newSeries = 0;
if (series == "Scatter") {
newSeries = m_chartWidget->createSeries(QChartSeries::SeriesTypeScatter);
Q_ASSERT(newSeries->setData(x, y));
} else if (series == "Pie") {
newSeries = m_chartWidget->createSeries(QChartSeries::SeriesTypePie);
Q_ASSERT(newSeries->setData(y));
} else if (series == "Line") {
// TODO: adding data to an existing line series does not give any visuals for some reason
// newSeries = m_chartWidget->createSeries(QChartSeries::SeriesTypeLine);
// QXYChartSeries *lineSeries = static_cast<QXYChartSeries *>(newSeries);
// lineSeries->setColor(Qt::blue);
// for (int i(0); i < x.count() && i < y.count(); i++) {
// lineSeries->add(x.at(i), y.at(i));
// }
//Q_ASSERT(newSeries->setData(x, y));
QXYChartSeries* series0 = QXYChartSeries::create();
for (int i(0); i < x.count() && i < y.count(); i++)
series0->add(x.at(i), y.at(i));
m_chartWidget->addSeries(series0);
newSeries = series0;
} else {
// TODO
}
// BarChart
if (series == "Bar") {
// This is the another way of creating series. Should we create test cases for both ways, if we support them?
qDebug() << "Bar chart series";
newSeries = QChartSeries::create(QChartSeries::SeriesTypeBar, this);
// Create some test data to chart
QStandardItemModel dataModel(2,10,this);
QModelIndex index;
index = dataModel.index(0,0);
// Series 1, items 6 to 9 missing.
dataModel.setData(dataModel.index(0,0),1);
dataModel.setData(dataModel.index(0,1),12);
dataModel.setData(dataModel.index(0,2),5);
dataModel.setData(dataModel.index(0,3),8);
dataModel.setData(dataModel.index(0,4),17);
dataModel.setData(dataModel.index(0,5),9);
// Series 2, some other items missing
dataModel.setData(dataModel.index(1,0),5);
dataModel.setData(dataModel.index(1,3),4);
dataModel.setData(dataModel.index(1,5),7);
dataModel.setData(dataModel.index(1,6),8);
dataModel.setData(dataModel.index(1,8),9);
dataModel.setData(dataModel.index(1,9),9);
newSeries->setData(&dataModel);
m_chartWidget->addSeries(newSeries);
}
setCurrentSeries(newSeries);
}
void MainWidget::setCurrentSeries(QChartSeries *series)
{
m_currentSeries = series;
switch (m_currentSeries->type()) {
case QChartSeries::SeriesTypeLine:
break;
case QChartSeries::SeriesTypeScatter:
break;
case QChartSeries::SeriesTypePie:
break;
case QChartSeries::SeriesTypeBar:
qDebug() << "setCurrentSeries (bar)";
break;
default:
Q_ASSERT(false);
break;
}
}
void MainWidget::testDataChanged(int itemIndex)
{
qDebug() << "testDataChanged: " << itemIndex;
// switch (itemIndex) {
// case 0: {
// QList<QChartDataPoint> data;
// for (int x = 0; x < 20; x++) {
// data.append(QChartDataPoint() << x << x / 2);
// }
// m_chartWidget->setData(data);
// break;
// }
// case 1: {
// QList<QChartDataPoint> data;
// for (int x = 0; x < 100; x++) {
// data.append(QChartDataPoint() << x - 200 << 2 * (uint(sin(3.14159/50*x)*80) % 100));
// }
// m_chartWidget->setData(data);
// break;
// }
// case 2: {
// QList<QChartDataPoint> data;
// for (int x = 0; x < 1000; x++) {
// data.append(QChartDataPoint() << x - 200 << 2 * (uint(sin(3.14159/50*x)*80) % 100) + (rand() % 100 * 0.2));
// data.append(QChartDataPoint() << x - 200 << 2 * (uint(sin(3.14159/50*x)*80) % 100) + (rand() % 100 * 0.2));
// data.append(QChartDataPoint() << x - 200 << 2 * (uint(sin(3.14159/50*x)*80) % 100) + (rand() % 100 * 0.2));
// }
// m_chartWidget->setData(data);
// break;
// }
// default:
// break;
// }
}
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;
m_chartWidget->setTheme((QChart::ChartThemeId) themeIndex);
}
void MainWidget::setPieSizeFactor(double size)
{
QPieSeries *pie = qobject_cast<QPieSeries *>(m_currentSeries);
if (pie)
pie->setSizeFactor(qreal(size));
}
void MainWidget::setPiePosition(int position)
{
QPieSeries *pie = qobject_cast<QPieSeries *>(m_currentSeries);
if (pie)
pie->setPosition((QPieSeries::PiePosition) position);
}