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Tooltip for spectrograms (3)...
Tooltip for spectrograms (3) Retrieves value of the colormap

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VisualizationGraphRenderingDelegate.cpp
325 lines | 11.6 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");
/// 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 = dynamic_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);
}
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();
}