ScatterPlotExample::ScatterPlotExample(WContainerWidget *parent): WContainerWidget(parent) { new WText(WString::tr("scatter plot 2"), this); WStandardItemModel *model = new WStandardItemModel(40, 2, this); model->setItemPrototype(new NumericItem()); model->setHeaderData(0, WString("X")); model->setHeaderData(1, WString("Y = sin(X)")); for (unsigned i = 0; i < 40; ++i) { double x = (static_cast<double>(i) - 20) / 4; model->setData(i, 0, x); model->setData(i, 1, sin(x)); } /* * Create the scatter plot. */ WCartesianChart *chart = new WCartesianChart(this); chart->setModel(model); // set the model chart->setXSeriesColumn(0); // set the column that holds the X data chart->setLegendEnabled(true); // enable the legend chart->setType(ScatterPlot); // set type to ScatterPlot // Typically, for mathematical functions, you want the axes to cross // at the 0 mark: chart->axis(XAxis).setLocation(ZeroValue); chart->axis(YAxis).setLocation(ZeroValue); // Automatically layout chart (space for axes, legend, ...) chart->setAutoLayoutEnabled(); // Add the curves WDataSeries s(1, CurveSeries); s.setShadow(WShadow(3, 3, WColor(0, 0, 0, 127), 3)); chart->addSeries(s); chart->resize(800, 300); // WPaintedWidget must be given explicit size chart->setMargin(10, Top | Bottom); // add margin vertically chart->setMargin(WLength::Auto, Left | Right); // center horizontally ChartConfig *config = new ChartConfig(chart, this); config->setValueFill(ZeroValueFill); }
WWidget *SysMon::Layout() { Div *container = new Div("SysMon", "container"); std::string htmlData; std::string file; if (m_cgiEnv->GetCurrentLanguage() == CgiEnv::Language::Fa) { file = "../templates/system-monitor-fa.wtml"; } else { file = "../templates/system-monitor.wtml"; } /// Read the template, otherwise return if (!CoreLib::FileSystem::Read(file, htmlData)) { return container; } /// Host Info m_pimpl->HostInfoDiv = new Div(container, "HostInfoDiv"); /// CPU Model m_pimpl->CpuUsageModel = new WStandardItemModel(60, 7, this); m_pimpl->CpuUsageModel->setHeaderData(0, tr("system-monitor-cpu-percents-user")); m_pimpl->CpuUsageModel->setHeaderData(1, tr("system-monitor-cpu-percents-kernel")); m_pimpl->CpuUsageModel->setHeaderData(2, tr("system-monitor-cpu-percents-idle")); m_pimpl->CpuUsageModel->setHeaderData(3, tr("system-monitor-cpu-percents-iowait")); m_pimpl->CpuUsageModel->setHeaderData(4, tr("system-monitor-cpu-percents-swap")); m_pimpl->CpuUsageModel->setHeaderData(5, tr("system-monitor-cpu-percents-nice")); m_pimpl->CpuUsageModel->setHeaderData(6, WString("-")); /// Memory Model m_pimpl->MemoryUsageModel = new WStandardItemModel(60, 5, this); m_pimpl->MemoryUsageModel->setHeaderData(0, tr("system-monitor-memory-stats-total")); m_pimpl->MemoryUsageModel->setHeaderData(1, tr("system-monitor-memory-stats-free")); m_pimpl->MemoryUsageModel->setHeaderData(2, tr("system-monitor-memory-stats-used")); m_pimpl->MemoryUsageModel->setHeaderData(3, tr("system-monitor-memory-stats-cache")); m_pimpl->MemoryUsageModel->setHeaderData(4, WString("-")); /// Swap Model m_pimpl->SwapUsageModel = new WStandardItemModel(60, 4, this); m_pimpl->SwapUsageModel->setHeaderData(0, tr("system-monitor-swap-stats-total")); m_pimpl->SwapUsageModel->setHeaderData(1, tr("system-monitor-swap-stats-used")); m_pimpl->SwapUsageModel->setHeaderData(2, tr("system-monitor-swap-stats-free")); m_pimpl->SwapUsageModel->setHeaderData(3, WString("-")); /// Virtual Memory Model m_pimpl->VirtualMemoryUsageModel = new WStandardItemModel(60, 4, this); m_pimpl->VirtualMemoryUsageModel->setHeaderData(0, tr("system-monitor-virtual-memory-stats-total")); m_pimpl->VirtualMemoryUsageModel->setHeaderData(1, tr("system-monitor-virtual-memory-stats-used")); m_pimpl->VirtualMemoryUsageModel->setHeaderData(2, tr("system-monitor-virtual-memory-stats-free")); m_pimpl->VirtualMemoryUsageModel->setHeaderData(3, WString("-")); /// CPU Graph WCartesianChart *cpuUsageChart = new WCartesianChart(); cpuUsageChart->setBackground(gray); cpuUsageChart->setModel(m_pimpl->CpuUsageModel); cpuUsageChart->setXSeriesColumn(m_pimpl->CpuUsageModel->columnCount() - 1); cpuUsageChart->setLegendEnabled(true); cpuUsageChart->setLegendLocation(LegendOutside, Right, AlignMiddle); cpuUsageChart->setType(ScatterPlot); cpuUsageChart->axis(XAxis).setScale(LinearScale); cpuUsageChart->axis(YAxis).setScale(LinearScale); cpuUsageChart->setPlotAreaPadding(120, Right); cpuUsageChart->setPlotAreaPadding(30, Top | Bottom); for (int i = 0; i < m_pimpl->CpuUsageModel->columnCount() - 1; ++i) { WDataSeries s(i, CurveSeries); s.setShadow(WShadow(3, 3, WColor(0, 0, 0, 127), 3)); cpuUsageChart->addSeries(s); } cpuUsageChart->resize(600, 330); cpuUsageChart->setMargin(10, Top | Bottom); cpuUsageChart->setMargin(WLength::Auto, Left | Right); /// Memory Graph WCartesianChart *memoryUsageChart = new WCartesianChart(); memoryUsageChart->setBackground(gray); memoryUsageChart->setModel(m_pimpl->MemoryUsageModel); memoryUsageChart->setXSeriesColumn(m_pimpl->MemoryUsageModel->columnCount() - 1); memoryUsageChart->setLegendEnabled(true); memoryUsageChart->setLegendLocation(LegendOutside, Right, AlignMiddle); memoryUsageChart->setType(ScatterPlot); memoryUsageChart->axis(XAxis).setScale(LinearScale); memoryUsageChart->axis(YAxis).setScale(LinearScale); memoryUsageChart->setPlotAreaPadding(220, Right); memoryUsageChart->setPlotAreaPadding(30, Top | Bottom); for (int i = 0; i < m_pimpl->MemoryUsageModel->columnCount() - 1; ++i) { WDataSeries s(i, CurveSeries); s.setShadow(WShadow(3, 3, WColor(0, 0, 0, 127), 3)); memoryUsageChart->addSeries(s); } memoryUsageChart->resize(600, 330); memoryUsageChart->setMargin(10, Top | Bottom); memoryUsageChart->setMargin(WLength::Auto, Left | Right); /// Swap Graph WCartesianChart *swapUsageChart = new WCartesianChart(); swapUsageChart->setBackground(gray); swapUsageChart->setModel(m_pimpl->SwapUsageModel); swapUsageChart->setXSeriesColumn(m_pimpl->SwapUsageModel->columnCount() - 1); swapUsageChart->setLegendEnabled(true); swapUsageChart->setLegendLocation(LegendOutside, Right, AlignMiddle); swapUsageChart->setType(ScatterPlot); swapUsageChart->axis(XAxis).setScale(LinearScale); swapUsageChart->axis(YAxis).setScale(LinearScale); swapUsageChart->setPlotAreaPadding(220, Right); swapUsageChart->setPlotAreaPadding(30, Top | Bottom); for (int i = 0; i < m_pimpl->SwapUsageModel->columnCount() - 1; ++i) { WDataSeries s(i, CurveSeries); s.setShadow(WShadow(3, 3, WColor(0, 0, 0, 127), 3)); swapUsageChart->addSeries(s); } swapUsageChart->resize(600, 330); swapUsageChart->setMargin(10, Top | Bottom); swapUsageChart->setMargin(WLength::Auto, Left | Right); /// Virtual Memory Graph WCartesianChart *virtualMemoryUsageChart = new WCartesianChart(); virtualMemoryUsageChart->setBackground(gray); virtualMemoryUsageChart->setModel(m_pimpl->VirtualMemoryUsageModel); virtualMemoryUsageChart->setXSeriesColumn(m_pimpl->VirtualMemoryUsageModel->columnCount() - 1); virtualMemoryUsageChart->setLegendEnabled(true); virtualMemoryUsageChart->setLegendLocation(LegendOutside, Right, AlignMiddle); virtualMemoryUsageChart->setType(ScatterPlot); virtualMemoryUsageChart->axis(XAxis).setScale(LinearScale); virtualMemoryUsageChart->axis(YAxis).setScale(LinearScale); virtualMemoryUsageChart->setPlotAreaPadding(220, Right); virtualMemoryUsageChart->setPlotAreaPadding(30, Top | Bottom); for (int i = 0; i < m_pimpl->VirtualMemoryUsageModel->columnCount() - 1; ++i) { WDataSeries s(i, CurveSeries); s.setShadow(WShadow(3, 3, WColor(0, 0, 0, 127), 3)); virtualMemoryUsageChart->addSeries(s); } virtualMemoryUsageChart->resize(600, 330); virtualMemoryUsageChart->setMargin(10, Top | Bottom); virtualMemoryUsageChart->setMargin(WLength::Auto, Left | Right); /// Disk Info m_pimpl->DiskInfoDiv = new Div(container, "DiskInfoDiv"); /// Net Info m_pimpl->NetworkInfoDiv = new Div(container, "NetworkInfoDiv"); /// Fill the template WTemplate *tmpl = new WTemplate(container); tmpl->setTemplateText(WString(htmlData), TextFormat::XHTMLUnsafeText); tmpl->bindWidget("host-info", m_pimpl->HostInfoDiv); tmpl->bindWidget("cpu-info", cpuUsageChart); tmpl->bindWidget("memory-info", memoryUsageChart); tmpl->bindWidget("swap-info", swapUsageChart); tmpl->bindWidget("virtual-memory-info", virtualMemoryUsageChart); tmpl->bindWidget("disk-info", m_pimpl->DiskInfoDiv); tmpl->bindWidget("network-info", m_pimpl->NetworkInfoDiv); tmpl->bindWidget("host-info-title", new WText(WString("<h4>{1}</h4>").arg(tr("system-monitor-host-info")))); tmpl->bindWidget("cpu-info-title", new WText(WString("<h4>{1}</h4>").arg(tr("system-monitor-cpu-percents")))); tmpl->bindWidget("memory-info-title", new WText(WString("<h4>{1}</h4>").arg(tr("system-monitor-memory-stats")))); tmpl->bindWidget("swap-info-title", new WText(WString("<h4>{1}</h4>").arg(tr("system-monitor-swap-stats")))); tmpl->bindWidget("virtual-memory-info-title", new WText(WString("<h4>{1}</h4>").arg(tr("system-monitor-virtual-memory-stats")))); tmpl->bindWidget("disk-info-title", new WText(WString("<h4>{1}</h4>").arg(tr("system-monitor-disk-io-stats")))); tmpl->bindWidget("network-info-title", new WText(WString("<h4>{1}</h4>").arg(tr("system-monitor-network-io-stats")))); return container; }
TimeSeriesExample::TimeSeriesExample(Wt::WContainerWidget *parent): WContainerWidget(parent) { new WText(WString::tr("scatter plot"), this); WAbstractItemModel *model = readCsvFile( WApplication::appRoot() + "timeseries.csv", this); if (!model) return; /* * Parses the first column as dates, to be able to use a date scale */ for (int i = 0; i < model->rowCount(); ++i) { WString s = asString(model->data(i, 0)); WDate d = WDate::fromString(s, "dd/MM/yy"); model->setData(i, 0, d); } // Show a view that allows editing of the model. WContainerWidget *w = new WContainerWidget(this); WTableView *table = new WTableView(w); table->setMargin(10, Top | Bottom); table->setMargin(WLength::Auto, Left | Right); table->setModel(model); table->setSortingEnabled(false); // Does not make much sense for time series table->setColumnResizeEnabled(true); table->setSelectionMode(NoSelection); table->setAlternatingRowColors(true); table->setColumnAlignment(0, AlignCenter); table->setHeaderAlignment(0, AlignCenter); table->setRowHeight(22); // Editing does not really work without Ajax, it would require an // additional button somewhere to confirm the edited value. if (WApplication::instance()->environment().ajax()) { table->resize(800, 20 + 5*22); table->setEditTriggers(WAbstractItemView::SingleClicked); } else { table->resize(800, 20 + 5*22 + 25); table->setEditTriggers(WAbstractItemView::NoEditTrigger); } WItemDelegate *delegate = new WItemDelegate(this); delegate->setTextFormat("%.1f"); table->setItemDelegate(delegate); table->setItemDelegateForColumn(0, new WItemDelegate(this)); table->setColumnWidth(0, 80); for (int i = 1; i < model->columnCount(); ++i) table->setColumnWidth(i, 90); /* * Create the scatter plot. */ WCartesianChart *chart = new WCartesianChart(this); //chart->setPreferredMethod(WPaintedWidget::PngImage); //chart->setBackground(gray); chart->setModel(model); // set the model chart->setXSeriesColumn(0); // set the column that holds the X data chart->setLegendEnabled(true); // enable the legend chart->setType(ScatterPlot); // set type to ScatterPlot chart->axis(XAxis).setScale(DateScale); // set scale of X axis to DateScale // Automatically layout chart (space for axes, legend, ...) chart->setAutoLayoutEnabled(); /* * Add first two columns as line series */ for (int i = 1; i < 3; ++i) { WDataSeries s(i, LineSeries); s.setShadow(WShadow(3, 3, WColor(0, 0, 0, 127), 3)); chart->addSeries(s); } chart->resize(800, 400); // WPaintedWidget must be given explicit size chart->setMargin(10, Top | Bottom); // add margin vertically chart->setMargin(WLength::Auto, Left | Right); // center horizontally new ChartConfig(chart, this); }