##// END OF EJS Templates
Sets the name of the plugin for products and components...
Sets the name of the plugin for products and components Since there is only one common root in the data source widget, it is no longer possible to retrieve on the fly the name of the plugin in which a component or product is located. This name is therefore attached to their creation.

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VisualizationGraphRenderingDelegate.cpp
331 lines | 11.9 KiB | text/x-c | CppLexer
/ gui / src / Visualization / VisualizationGraphRenderingDelegate.cpp
#include "Visualization/VisualizationGraphRenderingDelegate.h"
#include "Visualization/AxisRenderingUtils.h"
#include "Visualization/ColorScaleEditor.h"
#include "Visualization/PlottablesRenderingUtils.h"
#include "Visualization/SqpColorScale.h"
#include "Visualization/VisualizationGraphWidget.h"
#include "Visualization/qcustomplot.h"
#include <Common/DateUtils.h>
#include <Data/IDataSeries.h>
#include <SqpApplication.h>
namespace {
/// Name of the axes layer in QCustomPlot
const auto AXES_LAYER = QStringLiteral("axes");
/// Icon used to show x-axis properties
const auto HIDE_AXIS_ICON_PATH = QStringLiteral(":/icones/down.png");
/// Name of the overlay layer in QCustomPlot
const auto OVERLAY_LAYER = QStringLiteral("overlay");
/// Pixmap used to show x-axis properties
const auto SHOW_AXIS_ICON_PATH = QStringLiteral(":/icones/up.png");
/// Tooltip format for graphs
const auto GRAPH_TOOLTIP_FORMAT = QStringLiteral("key: %1\nvalue: %2");
/// Tooltip format for colormaps
const auto COLORMAP_TOOLTIP_FORMAT = QStringLiteral("x: %1\ny: %2\nvalue: %3");
/// Offset used to shift the tooltip of the mouse
const auto TOOLTIP_OFFSET = QPoint{20, 20};
/// Tooltip display rectangle (the tooltip is hidden when the mouse leaves this rectangle)
const auto TOOLTIP_RECT = QRect{10, 10, 10, 10};
/// Timeout after which the tooltip is displayed
const auto TOOLTIP_TIMEOUT = 500;
void initPointTracerStyle(QCPItemTracer &tracer) noexcept
{
tracer.setInterpolating(false);
tracer.setStyle(QCPItemTracer::tsCircle);
tracer.setSize(3);
tracer.setPen(QPen(Qt::black));
tracer.setBrush(Qt::black);
}
QPixmap pixmap(const QString &iconPath) noexcept
{
return QIcon{iconPath}.pixmap(QSize{16, 16});
}
void initClosePixmapStyle(QCPItemPixmap &pixmap) noexcept
{
// Icon
pixmap.setPixmap(
sqpApp->style()->standardIcon(QStyle::SP_TitleBarCloseButton).pixmap(QSize{16, 16}));
// Position
pixmap.topLeft->setType(QCPItemPosition::ptAxisRectRatio);
pixmap.topLeft->setCoords(1, 0);
pixmap.setClipToAxisRect(false);
// Can be selected
pixmap.setSelectable(true);
}
void initXAxisPixmapStyle(QCPItemPixmap &itemPixmap) noexcept
{
// Icon
itemPixmap.setPixmap(pixmap(HIDE_AXIS_ICON_PATH));
// Position
itemPixmap.topLeft->setType(QCPItemPosition::ptAxisRectRatio);
itemPixmap.topLeft->setCoords(0, 1);
itemPixmap.setClipToAxisRect(false);
// Can be selected
itemPixmap.setSelectable(true);
}
void initTitleTextStyle(QCPItemText &text) noexcept
{
// Font and background styles
text.setColor(Qt::gray);
text.setBrush(Qt::white);
// Position
text.setPositionAlignment(Qt::AlignTop | Qt::AlignLeft);
text.position->setType(QCPItemPosition::ptAxisRectRatio);
text.position->setCoords(0.5, 0);
}
/**
* Returns the cell index (x or y) of a colormap according to the coordinate passed in parameter.
* This method handles the fact that a colormap axis can be logarithmic or linear.
* @param colormap the colormap for which to calculate the index
* @param coord the coord to convert to cell index
* @param xCoord calculates the x index if true, calculates y index if false
* @return the cell index
*/
int colorMapCellIndex(const QCPColorMap &colormap, double coord, bool xCoord)
{
// Determines the axis of the colormap according to xCoord, and whether it is logarithmic or not
auto isLogarithmic = (xCoord ? colormap.keyAxis() : colormap.valueAxis())->scaleType()
== QCPAxis::stLogarithmic;
if (isLogarithmic) {
// For a logarithmic axis we can't use the conversion method of colormap, so we calculate
// the index manually based on the position of the coordinate on the axis
// Gets the axis range and the number of values between range bounds to calculate the step
// between each value of the range
auto range = xCoord ? colormap.data()->keyRange() : colormap.data()->valueRange();
auto nbValues = (xCoord ? colormap.data()->keySize() : colormap.data()->valueSize()) - 1;
auto valueStep
= (std::log10(range.upper) - std::log10(range.lower)) / static_cast<double>(nbValues);
// According to the coord position, calculates the closest index in the range
return std::round((std::log10(coord) - std::log10(range.lower)) / valueStep);
}
else {
// For a linear axis, we use the conversion method of colormap
int index;
if (xCoord) {
colormap.data()->coordToCell(coord, 0., &index, nullptr);
}
else {
colormap.data()->coordToCell(0., coord, nullptr, &index);
}
return index;
}
}
} // namespace
struct VisualizationGraphRenderingDelegate::VisualizationGraphRenderingDelegatePrivate {
explicit VisualizationGraphRenderingDelegatePrivate(VisualizationGraphWidget &graphWidget)
: m_Plot{graphWidget.plot()},
m_PointTracer{new QCPItemTracer{&m_Plot}},
m_TracerTimer{},
m_ClosePixmap{new QCPItemPixmap{&m_Plot}},
m_TitleText{new QCPItemText{&m_Plot}},
m_XAxisPixmap{new QCPItemPixmap{&m_Plot}},
m_ShowXAxis{true},
m_XAxisLabel{},
m_ColorScale{SqpColorScale{m_Plot}}
{
initPointTracerStyle(*m_PointTracer);
m_TracerTimer.setInterval(TOOLTIP_TIMEOUT);
m_TracerTimer.setSingleShot(true);
// Inits "close button" in plot overlay
m_ClosePixmap->setLayer(OVERLAY_LAYER);
initClosePixmapStyle(*m_ClosePixmap);
// Connects pixmap selection to graph widget closing
QObject::connect(m_ClosePixmap, &QCPItemPixmap::selectionChanged,
[&graphWidget](bool selected) {
if (selected) {
graphWidget.close();
}
});
// Inits graph name in plot overlay
m_TitleText->setLayer(OVERLAY_LAYER);
m_TitleText->setText(graphWidget.name());
initTitleTextStyle(*m_TitleText);
// Inits "show x-axis button" in plot overlay
m_XAxisPixmap->setLayer(OVERLAY_LAYER);
initXAxisPixmapStyle(*m_XAxisPixmap);
// Connects pixmap selection to graph x-axis showing/hiding
QObject::connect(m_XAxisPixmap, &QCPItemPixmap::selectionChanged, [this]() {
if (m_XAxisPixmap->selected()) {
// Changes the selection state and refreshes the x-axis
m_ShowXAxis = !m_ShowXAxis;
updateXAxisState();
m_Plot.layer(AXES_LAYER)->replot();
// Deselects the x-axis pixmap and updates icon
m_XAxisPixmap->setSelected(false);
m_XAxisPixmap->setPixmap(
pixmap(m_ShowXAxis ? HIDE_AXIS_ICON_PATH : SHOW_AXIS_ICON_PATH));
m_Plot.layer(OVERLAY_LAYER)->replot();
}
});
}
/// Updates state of x-axis according to the current selection of x-axis pixmap
/// @remarks the method doesn't call plot refresh
void updateXAxisState() noexcept
{
m_Plot.xAxis->setTickLabels(m_ShowXAxis);
m_Plot.xAxis->setLabel(m_ShowXAxis ? m_XAxisLabel : QString{});
}
QCustomPlot &m_Plot;
QCPItemTracer *m_PointTracer;
QTimer m_TracerTimer;
QCPItemPixmap *m_ClosePixmap; /// Graph's close button
QCPItemText *m_TitleText; /// Graph's title
QCPItemPixmap *m_XAxisPixmap;
bool m_ShowXAxis; /// X-axis properties are shown or hidden
QString m_XAxisLabel;
SqpColorScale m_ColorScale; /// Color scale used for some types of graphs (as spectrograms)
};
VisualizationGraphRenderingDelegate::VisualizationGraphRenderingDelegate(
VisualizationGraphWidget &graphWidget)
: impl{spimpl::make_unique_impl<VisualizationGraphRenderingDelegatePrivate>(graphWidget)}
{
}
void VisualizationGraphRenderingDelegate::onMouseDoubleClick(QMouseEvent *event) noexcept
{
// Opens color scale editor if color scale is double clicked
auto colorScale = static_cast<QCPColorScale *>(impl->m_Plot.layoutElementAt(event->pos()));
if (impl->m_ColorScale.m_Scale == colorScale) {
if (ColorScaleEditor{impl->m_ColorScale}.exec() == QDialog::Accepted) {
impl->m_Plot.replot();
}
}
}
void VisualizationGraphRenderingDelegate::onMouseMove(QMouseEvent *event) noexcept
{
// Cancels pending refresh
impl->m_TracerTimer.disconnect();
// Reinits tracers
impl->m_PointTracer->setGraph(nullptr);
impl->m_PointTracer->setVisible(false);
impl->m_Plot.replot();
QString tooltip{};
// Gets the graph under the mouse position
auto eventPos = event->pos();
if (auto graph = qobject_cast<QCPGraph *>(impl->m_Plot.plottableAt(eventPos))) {
auto mouseKey = graph->keyAxis()->pixelToCoord(eventPos.x());
auto graphData = graph->data();
// Gets the closest data point to the mouse
auto graphDataIt = graphData->findBegin(mouseKey);
if (graphDataIt != graphData->constEnd()) {
// Sets tooltip
auto key = formatValue(graphDataIt->key, *graph->keyAxis());
auto value = formatValue(graphDataIt->value, *graph->valueAxis());
tooltip = GRAPH_TOOLTIP_FORMAT.arg(key, value);
// Displays point tracer
impl->m_PointTracer->setGraph(graph);
impl->m_PointTracer->setGraphKey(graphDataIt->key);
impl->m_PointTracer->setLayer(
impl->m_Plot.layer("main")); // Tracer is set on top of the plot's main layer
impl->m_PointTracer->setVisible(true);
impl->m_Plot.replot();
}
}
else if (auto colorMap = qobject_cast<QCPColorMap *>(impl->m_Plot.plottableAt(eventPos))) {
// Gets x and y coords
auto x = colorMap->keyAxis()->pixelToCoord(eventPos.x());
auto y = colorMap->valueAxis()->pixelToCoord(eventPos.y());
// Calculates x and y cell indexes, and retrieves the underlying value
auto xCellIndex = colorMapCellIndex(*colorMap, x, true);
auto yCellIndex = colorMapCellIndex(*colorMap, y, false);
auto value = colorMap->data()->cell(xCellIndex, yCellIndex);
// Sets tooltips
tooltip = COLORMAP_TOOLTIP_FORMAT.arg(formatValue(x, *colorMap->keyAxis()),
formatValue(y, *colorMap->valueAxis()),
formatValue(value, *colorMap->colorScale()->axis()));
}
if (!tooltip.isEmpty()) {
// Starts timer to show tooltip after timeout
auto showTooltip = [tooltip, eventPos, this]() {
QToolTip::showText(impl->m_Plot.mapToGlobal(eventPos) + TOOLTIP_OFFSET, tooltip,
&impl->m_Plot, TOOLTIP_RECT);
};
QObject::connect(&impl->m_TracerTimer, &QTimer::timeout, showTooltip);
impl->m_TracerTimer.start();
}
}
void VisualizationGraphRenderingDelegate::onPlotUpdated() noexcept
{
// Updates color scale bounds
impl->m_ColorScale.updateDataRange();
impl->m_Plot.replot();
}
void VisualizationGraphRenderingDelegate::setAxesProperties(
std::shared_ptr<IDataSeries> dataSeries) noexcept
{
// Stores x-axis label to be able to retrieve it when x-axis pixmap is unselected
impl->m_XAxisLabel = dataSeries->xAxisUnit().m_Name;
auto axisHelper = IAxisHelperFactory::create(dataSeries);
axisHelper->setProperties(impl->m_Plot, impl->m_ColorScale);
// Updates x-axis state
impl->updateXAxisState();
impl->m_Plot.layer(AXES_LAYER)->replot();
}
void VisualizationGraphRenderingDelegate::setPlottablesProperties(
std::shared_ptr<IDataSeries> dataSeries, PlottablesMap &plottables) noexcept
{
auto plottablesHelper = IPlottablesHelperFactory::create(dataSeries);
plottablesHelper->setProperties(plottables);
}
void VisualizationGraphRenderingDelegate::showGraphOverlay(bool show) noexcept
{
auto overlay = impl->m_Plot.layer(OVERLAY_LAYER);
overlay->setVisible(show);
overlay->replot();
}