#include "tools/cabana/chartswidget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "selfdrive/ui/qt/util.h" // ChartsWidget ChartsWidget::ChartsWidget(QWidget *parent) : QWidget(parent) { QVBoxLayout *main_layout = new QVBoxLayout(this); // toolbar QToolBar *toolbar = new QToolBar(tr("Charts"), this); toolbar->setIconSize({16, 16}); QAction *new_plot_btn = toolbar->addAction(bootstrapPixmap("file-plus"), ""); new_plot_btn->setToolTip(tr("New Plot")); toolbar->addWidget(title_label = new QLabel()); title_label->setContentsMargins(0, 0, 12, 0); columns_cb = new QComboBox(this); columns_cb->addItems({"1", "2", "3", "4"}); toolbar->addWidget(new QLabel(tr("Columns:"))); toolbar->addWidget(columns_cb); QLabel *stretch_label = new QLabel(this); stretch_label->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Preferred); toolbar->addWidget(stretch_label); toolbar->addWidget(new QLabel(tr("Range:"))); toolbar->addWidget(range_lb = new QLabel(this)); range_slider = new QSlider(Qt::Horizontal, this); range_slider->setToolTip(tr("Set the chart range")); range_slider->setRange(1, settings.max_cached_minutes * 60); range_slider->setSingleStep(1); range_slider->setPageStep(60); // 1 min toolbar->addWidget(range_slider); toolbar->addWidget(zoom_range_lb = new QLabel()); reset_zoom_btn = toolbar->addAction(bootstrapPixmap("arrow-counterclockwise"), ""); reset_zoom_btn->setToolTip(tr("Reset zoom (drag on chart to zoom X-Axis)")); remove_all_btn = toolbar->addAction(bootstrapPixmap("x"), ""); remove_all_btn->setToolTip(tr("Remove all charts")); dock_btn = toolbar->addAction(""); main_layout->addWidget(toolbar); // charts QWidget *charts_container = new QWidget(this); QVBoxLayout *charts_main_layout = new QVBoxLayout(charts_container); charts_main_layout->setContentsMargins(0, 0, 0, 0); charts_main_layout->addLayout(charts_layout = new QGridLayout); charts_main_layout->addStretch(0); QScrollArea *charts_scroll = new QScrollArea(this); charts_scroll->setWidgetResizable(true); charts_scroll->setWidget(charts_container); charts_scroll->setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff); main_layout->addWidget(charts_scroll); align_charts_timer = new QTimer(this); align_charts_timer->setSingleShot(true); align_charts_timer->callOnTimeout(this, &ChartsWidget::alignCharts); // init settings use_dark_theme = QApplication::style()->standardPalette().color(QPalette::WindowText).value() > QApplication::style()->standardPalette().color(QPalette::Background).value(); column_count = std::clamp(settings.chart_column_count, 1, columns_cb->count()); max_chart_range = std::clamp(settings.chart_range, 1, settings.max_cached_minutes * 60); display_range = {0, max_chart_range}; columns_cb->setCurrentIndex(column_count - 1); range_slider->setValue(max_chart_range); updateToolBar(); QObject::connect(dbc(), &DBCManager::DBCFileChanged, this, &ChartsWidget::removeAll); QObject::connect(can, &AbstractStream::eventsMerged, this, &ChartsWidget::eventsMerged); QObject::connect(can, &AbstractStream::updated, this, &ChartsWidget::updateState); QObject::connect(range_slider, &QSlider::valueChanged, this, &ChartsWidget::setMaxChartRange); QObject::connect(new_plot_btn, &QAction::triggered, this, &ChartsWidget::newChart); QObject::connect(remove_all_btn, &QAction::triggered, this, &ChartsWidget::removeAll); QObject::connect(reset_zoom_btn, &QAction::triggered, this, &ChartsWidget::zoomReset); QObject::connect(columns_cb, SIGNAL(activated(int)), SLOT(setColumnCount(int))); QObject::connect(&settings, &Settings::changed, this, &ChartsWidget::settingChanged); QObject::connect(dock_btn, &QAction::triggered, [this]() { emit dock(!docking); docking = !docking; updateToolBar(); }); } void ChartsWidget::eventsMerged() { { assert(!can->liveStreaming()); QFutureSynchronizer future_synchronizer; const auto events = can->events(); for (auto c : charts) { future_synchronizer.addFuture(QtConcurrent::run(c, &ChartView::updateSeries, nullptr, events, true)); } } updateState(); } void ChartsWidget::zoomIn(double min, double max) { zoomed_range = {min, max}; is_zoomed = zoomed_range != display_range; updateToolBar(); updateState(); emit rangeChanged(min, max, is_zoomed); } void ChartsWidget::zoomReset() { zoomIn(display_range.first, display_range.second); } void ChartsWidget::updateState() { if (charts.isEmpty()) return; if (can->liveStreaming()) { // appends incoming events to the end of series const auto events = can->events(); for (auto c : charts) { c->updateSeries(nullptr, events, false); } } const double cur_sec = can->currentSec(); if (!is_zoomed) { double pos = (cur_sec - display_range.first) / max_chart_range; if (pos < 0 || pos > 0.8) { const double min_event_sec = (can->events()->front()->mono_time / (double)1e9) - can->routeStartTime(); display_range.first = std::floor(std::max(min_event_sec, cur_sec - max_chart_range * 0.2)); } display_range.second = std::floor(display_range.first + max_chart_range); } else if (cur_sec < zoomed_range.first || cur_sec >= zoomed_range.second) { // loop in zoommed range can->seekTo(zoomed_range.first); } setUpdatesEnabled(false); const auto &range = is_zoomed ? zoomed_range : display_range; for (auto c : charts) { c->updatePlot(cur_sec, range.first, range.second); } setUpdatesEnabled(true); } void ChartsWidget::setMaxChartRange(int value) { max_chart_range = settings.chart_range = value; double current_sec = can->currentSec(); const double min_event_sec = (can->events()->front()->mono_time / (double)1e9) - can->routeStartTime(); // keep current_sec's pos double pos = (current_sec - display_range.first) / (display_range.second - display_range.first); display_range.first = std::floor(std::max(min_event_sec, current_sec - max_chart_range * (1.0 - pos))); display_range.second = std::floor(display_range.first + max_chart_range); updateToolBar(); updateState(); } void ChartsWidget::updateToolBar() { range_lb->setText(QString(" %1:%2 ").arg(max_chart_range / 60, 2, 10, QLatin1Char('0')).arg(max_chart_range % 60, 2, 10, QLatin1Char('0'))); zoom_range_lb->setText(is_zoomed ? tr("Zooming: %1 - %2").arg(zoomed_range.first, 0, 'f', 2).arg(zoomed_range.second, 0, 'f', 2) : ""); title_label->setText(tr("Charts: %1").arg(charts.size())); dock_btn->setIcon(bootstrapPixmap(docking ? "arrow-up-right" : "arrow-down-left")); dock_btn->setToolTip(docking ? tr("Undock charts") : tr("Dock charts")); remove_all_btn->setEnabled(!charts.isEmpty()); reset_zoom_btn->setEnabled(is_zoomed); } void ChartsWidget::settingChanged() { range_slider->setRange(1, settings.max_cached_minutes * 60); for (auto c : charts) { c->setFixedHeight(settings.chart_height); } } ChartView *ChartsWidget::findChart(const QString &id, const Signal *sig) { for (auto c : charts) if (c->hasSeries(id, sig)) return c; return nullptr; } ChartView *ChartsWidget::createChart() { auto chart = new ChartView(this); chart->setFixedHeight(settings.chart_height); chart->setMinimumWidth(CHART_MIN_WIDTH); chart->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Fixed); chart->chart()->setTheme(use_dark_theme ? QChart::QChart::ChartThemeDark : QChart::ChartThemeLight); QObject::connect(chart, &ChartView::remove, [=]() { removeChart(chart); }); QObject::connect(chart, &ChartView::zoomIn, this, &ChartsWidget::zoomIn); QObject::connect(chart, &ChartView::zoomReset, this, &ChartsWidget::zoomReset); QObject::connect(chart, &ChartView::seriesRemoved, this, &ChartsWidget::seriesChanged); QObject::connect(chart, &ChartView::seriesAdded, this, &ChartsWidget::seriesChanged); QObject::connect(chart, &ChartView::axisYUpdated, [this]() { align_charts_timer->start(100); }); charts.push_back(chart); updateLayout(); return chart; } void ChartsWidget::showChart(const QString &id, const Signal *sig, bool show, bool merge) { setUpdatesEnabled(false); ChartView *chart = findChart(id, sig); if (show && !chart) { chart = merge && charts.size() > 0 ? charts.back() : createChart(); chart->addSeries(id, sig); updateState(); } else if (!show && chart) { chart->removeSeries(id, sig); } updateToolBar(); setUpdatesEnabled(true); } void ChartsWidget::setColumnCount(int n) { n = std::clamp(n + 1, 1, columns_cb->count()); if (column_count != n) { column_count = settings.chart_column_count = n; updateLayout(); } } void ChartsWidget::updateLayout() { int n = column_count; for (; n > 1; --n) { if ((n * (CHART_MIN_WIDTH + charts_layout->spacing())) < rect().width()) break; } for (int i = 0; i < charts.size(); ++i) { charts_layout->addWidget(charts[charts.size() - i - 1], i / n, i % n); } } void ChartsWidget::resizeEvent(QResizeEvent *event) { QWidget::resizeEvent(event); updateLayout(); } void ChartsWidget::newChart() { SeriesSelector dlg(this); if (dlg.exec() == QDialog::Accepted) { QList series_list = dlg.series(); if (!series_list.isEmpty()) { auto c = createChart(); c->addSeries(series_list); } } } void ChartsWidget::removeChart(ChartView *chart) { charts.removeOne(chart); chart->deleteLater(); updateToolBar(); alignCharts(); updateLayout(); emit seriesChanged(); } void ChartsWidget::removeAll() { for (auto c : charts) { c->deleteLater(); } charts.clear(); updateToolBar(); emit seriesChanged(); } void ChartsWidget::alignCharts() { int plot_left = 0; for (auto c : charts) { plot_left = qMax((qreal)plot_left, c->getYAsixLabelWidth()); } for (auto c : charts) { c->setPlotAreaLeftPosition(plot_left); } } bool ChartsWidget::eventFilter(QObject *obj, QEvent *event) { if (obj != this && event->type() == QEvent::Close) { emit dock_btn->triggered(); return true; } return false; } // ChartView ChartView::ChartView(QWidget *parent) : QChartView(nullptr, parent) { QChart *chart = new QChart(); chart->setBackgroundRoundness(0); axis_x = new QValueAxis(this); axis_y = new QValueAxis(this); chart->addAxis(axis_x, Qt::AlignBottom); chart->addAxis(axis_y, Qt::AlignLeft); chart->legend()->setShowToolTips(true); chart->layout()->setContentsMargins(0, 0, 0, 0); chart->setMargins({20, 11, 11, 11}); QToolButton *remove_btn = new QToolButton(); remove_btn->setIcon(bootstrapPixmap("x")); remove_btn->setAutoRaise(true); remove_btn->setToolTip(tr("Remove Chart")); close_btn_proxy = new QGraphicsProxyWidget(chart); close_btn_proxy->setWidget(remove_btn); close_btn_proxy->setZValue(chart->zValue() + 11); QToolButton *manage_btn = new QToolButton(); manage_btn->setIcon(bootstrapPixmap("gear")); manage_btn->setAutoRaise(true); manage_btn->setToolTip(tr("Manage series")); manage_btn_proxy = new QGraphicsProxyWidget(chart); manage_btn_proxy->setWidget(manage_btn); manage_btn_proxy->setZValue(chart->zValue() + 11); setChart(chart); setRenderHint(QPainter::Antialiasing); // TODO: enable zoomIn/seekTo in live streaming mode. setRubberBand(can->liveStreaming() ? QChartView::NoRubberBand : QChartView::HorizontalRubberBand); QObject::connect(dbc(), &DBCManager::signalRemoved, this, &ChartView::signalRemoved); QObject::connect(dbc(), &DBCManager::signalUpdated, this, &ChartView::signalUpdated); QObject::connect(dbc(), &DBCManager::msgRemoved, this, &ChartView::msgRemoved); QObject::connect(dbc(), &DBCManager::msgUpdated, this, &ChartView::msgUpdated); QObject::connect(remove_btn, &QToolButton::clicked, this, &ChartView::remove); QObject::connect(manage_btn, &QToolButton::clicked, this, &ChartView::manageSeries); } qreal ChartView::getYAsixLabelWidth() const { if (axis_y->max() <= axis_y->min() || axis_y->tickCount() <= 1) { return 0; } QFontMetrics fm(axis_y->labelsFont()); int n = qMax(int(-qFloor(std::log10((axis_y->max() - axis_y->min()) / (axis_y->tickCount() - 1)))), 0) + 1; return qMax(fm.width(QString::number(axis_y->min(), 'f', n)), fm.width(QString::number(axis_y->max(), 'f', n))) + 20; } void ChartView::setPlotAreaLeftPosition(int pos) { if (std::ceil(chart()->plotArea().left()) != pos) { const float left_margin = chart()->margins().left() + pos - chart()->plotArea().left(); chart()->setMargins(QMargins(left_margin, 11, 11, 11)); } } void ChartView::addSeries(const QString &msg_id, const Signal *sig) { QLineSeries *series = new QLineSeries(this); // TODO: Due to a bug in CameraWidget the camera frames // are drawn instead of the graphs on MacOS. Re-enable OpenGL when fixed #ifndef __APPLE__ series->setUseOpenGL(true); #endif chart()->addSeries(series); series->attachAxis(axis_x); series->attachAxis(axis_y); auto [source, address] = DBCManager::parseId(msg_id); sigs.push_back({.msg_id = msg_id, .address = address, .source = source, .sig = sig, .series = series}); updateTitle(); updateSeries(sig); emit seriesAdded(msg_id, sig); } void ChartView::removeSeries(const QString &msg_id, const Signal *sig) { auto it = std::find_if(sigs.begin(), sigs.end(), [&](auto &s) { return s.msg_id == msg_id && s.sig == sig; }); if (it != sigs.end()) { it = removeSeries(it); } } bool ChartView::hasSeries(const QString &msg_id, const Signal *sig) const { return std::any_of(sigs.begin(), sigs.end(), [&](auto &s) { return s.msg_id == msg_id && s.sig == sig; }); } QList::iterator ChartView::removeSeries(const QList::iterator &it) { chart()->removeSeries(it->series); it->series->deleteLater(); QString msg_id = it->msg_id; const Signal *sig = it->sig; auto ret = sigs.erase(it); emit seriesRemoved(msg_id, sig); if (!sigs.isEmpty()) { updateAxisY(); } else { emit remove(); } return ret; } void ChartView::signalUpdated(const Signal *sig) { if (std::any_of(sigs.begin(), sigs.end(), [=](auto &s) { return s.sig == sig; })) { updateTitle(); // TODO: don't update series if only name changed. updateSeries(sig); } } void ChartView::signalRemoved(const Signal *sig) { for (auto it = sigs.begin(); it != sigs.end(); /**/) { it = (it->sig == sig) ? removeSeries(it) : ++it; } } void ChartView::msgUpdated(uint32_t address) { if (std::any_of(sigs.begin(), sigs.end(), [=](auto &s) { return s.address == address; })) updateTitle(); } void ChartView::msgRemoved(uint32_t address) { for (auto it = sigs.begin(); it != sigs.end(); /**/) { it = (it->address == address) ? removeSeries(it) : ++it; } } void ChartView::addSeries(const QList &series_list) { for (auto &s : series_list) { if (auto m = dbc()->msg(s[0])) { auto it = m->sigs.find(s[2]); if (it != m->sigs.end() && !hasSeries(s[0], &(it->second))) { addSeries(s[0], &(it->second)); } } } } void ChartView::manageSeries() { SeriesSelector dlg(this); for (auto &s : sigs) { dlg.addSeries(s.msg_id, msgName(s.msg_id), QString::fromStdString(s.sig->name)); } int ret = dlg.exec(); if (ret == QDialog::Accepted) { QList series_list = dlg.series(); if (series_list.isEmpty()) { emit remove(); } else { addSeries(series_list); for (auto it = sigs.begin(); it != sigs.end(); /**/) { bool exists = std::any_of(series_list.cbegin(), series_list.cend(), [&](auto &s) { return s[0] == it->msg_id && s[2] == it->sig->name.c_str(); }); it = exists ? ++it : removeSeries(it); } } } } void ChartView::resizeEvent(QResizeEvent *event) { QChartView::resizeEvent(event); int x = event->size().width() - close_btn_proxy->size().width() - 11; close_btn_proxy->setPos(x, 8); manage_btn_proxy->setPos(x - manage_btn_proxy->size().width() - 5, 8); } void ChartView::updateTitle() { for (auto &s : sigs) { s.series->setName(QString("%1 %2 %3").arg(s.sig->name.c_str()).arg(msgName(s.msg_id)).arg(s.msg_id)); } } void ChartView::updatePlot(double cur, double min, double max) { cur_sec = cur; if (min != axis_x->min() || max != axis_x->max()) { axis_x->setRange(min, max); updateAxisY(); } // Show points when zoomed in enough for (auto &s : sigs) { auto begin = std::lower_bound(s.vals.begin(), s.vals.end(), axis_x->min(), [](auto &p, double x) { return p.x() < x; }); auto end = std::lower_bound(s.vals.begin(), s.vals.end(), axis_x->max(), [](auto &p, double x) { return p.x() < x; }); int num_points = std::max(end - begin, 1); int pixels_per_point = width() / num_points; s.series->setPointsVisible(pixels_per_point > 20); } scene()->invalidate({}, QGraphicsScene::ForegroundLayer); } void ChartView::updateSeries(const Signal *sig, const std::vector *events, bool clear) { events = events ? events : can->events(); for (auto &s : sigs) { if (!sig || s.sig == sig) { if (clear) { s.vals.clear(); s.vals.reserve(settings.max_cached_minutes * 60 * 100); // [n]seconds * 100hz s.last_value_mono_time = 0; } double route_start_time = can->routeStartTime(); Event begin_event(cereal::Event::Which::INIT_DATA, s.last_value_mono_time); auto begin = std::upper_bound(events->begin(), events->end(), &begin_event, Event::lessThan()); for (auto it = begin; it != events->end(); ++it) { if ((*it)->which == cereal::Event::Which::CAN) { for (const auto &c : (*it)->event.getCan()) { if (s.source == c.getSrc() && s.address == c.getAddress()) { auto dat = c.getDat(); double value = get_raw_value((uint8_t *)dat.begin(), dat.size(), *s.sig); double ts = ((*it)->mono_time / (double)1e9) - route_start_time; // seconds s.vals.push_back({ts, value}); } } } } if (events->size()) { s.last_value_mono_time = events->back()->mono_time; } s.series->replace(s.vals); updateAxisY(); } } } // auto zoom on yaxis void ChartView::updateAxisY() { if (sigs.isEmpty()) return; double min_y = std::numeric_limits::max(); double max_y = std::numeric_limits::lowest(); for (auto &s : sigs) { auto begin = std::lower_bound(s.vals.begin(), s.vals.end(), axis_x->min(), [](auto &p, double x) { return p.x() < x; }); for (auto it = begin; it != s.vals.end() && it->x() <= axis_x->max(); ++it) { if (it->y() < min_y) min_y = it->y(); if (it->y() > max_y) max_y = it->y(); } } if (min_y == std::numeric_limits::max()) min_y = 0; if (max_y == std::numeric_limits::lowest()) max_y = 0; if (std::abs(max_y - min_y) < 1e-3) { applyNiceNumbers(min_y - 1, max_y + 1); } else { double range = max_y - min_y; applyNiceNumbers(min_y - range * 0.05, max_y + range * 0.05); } emit axisYUpdated(); } void ChartView::applyNiceNumbers(qreal min, qreal max) { int tick_count = axis_y->tickCount(); qreal range = niceNumber((max - min), true); // range with ceiling qreal step = niceNumber(range / (tick_count - 1), false); min = qFloor(min / step); max = qCeil(max / step); tick_count = int(max - min) + 1; axis_y->setRange(min * step, max * step); axis_y->setTickCount(tick_count); axis_y->setLabelFormat("%.1f"); } // nice numbers can be expressed as form of 1*10^n, 2* 10^n or 5*10^n qreal ChartView::niceNumber(qreal x, bool ceiling) { qreal z = qPow(10, qFloor(std::log10(x))); //find corresponding number of the form of 10^n than is smaller than x qreal q = x / z; //q<10 && q>=1; if (ceiling) { if (q <= 1.0) q = 1; else if (q <= 2.0) q = 2; else if (q <= 5.0) q = 5; else q = 10; } else { if (q < 1.5) q = 1; else if (q < 3.0) q = 2; else if (q < 7.0) q = 5; else q = 10; } return q * z; } void ChartView::leaveEvent(QEvent *event) { track_pt = {0, 0}; scene()->update(); QChartView::leaveEvent(event); } void ChartView::mousePressEvent(QMouseEvent *event) { if (event->button() == Qt::LeftButton && !chart()->plotArea().contains(event->pos()) && !manage_btn_proxy->widget()->underMouse() && !close_btn_proxy->widget()->underMouse()) { QMimeData *mimeData = new QMimeData; mimeData->setData(mime_type, QByteArray::number((qulonglong)this)); QDrag *drag = new QDrag(this); drag->setMimeData(mimeData); drag->setPixmap(grab()); drag->setHotSpot(event->pos()); Qt::DropAction dropAction = drag->exec(Qt::CopyAction | Qt::MoveAction, Qt::MoveAction); if (dropAction == Qt::MoveAction) { return; } } else { QChartView::mousePressEvent(event); } } void ChartView::mouseReleaseEvent(QMouseEvent *event) { auto rubber = findChild(); if (event->button() == Qt::LeftButton && rubber && rubber->isVisible()) { rubber->hide(); QRectF rect = rubber->geometry().normalized(); double min = std::floor(chart()->mapToValue(rect.topLeft()).x() * 10.0) / 10.0; double max = std::floor(chart()->mapToValue(rect.bottomRight()).x() * 10.0) / 10.0; if (rubber->width() <= 0) { // no rubber dragged, seek to mouse position can->seekTo(min); } else if ((max - min) >= 0.5) { // zoom in if selected range is greater than 0.5s emit zoomIn(min, max); } event->accept(); } else if (!can->liveStreaming() && event->button() == Qt::RightButton) { emit zoomReset(); event->accept(); } else { QGraphicsView::mouseReleaseEvent(event); } } void ChartView::mouseMoveEvent(QMouseEvent *ev) { auto rubber = findChild(); bool is_zooming = rubber && rubber->isVisible(); const auto plot_area = chart()->plotArea(); track_pt = {0, 0}; if (!is_zooming && plot_area.contains(ev->pos())) { QStringList text_list; const double sec = chart()->mapToValue(ev->pos()).x(); for (auto &s : sigs) { QString value = "--"; // use reverse iterator to find last item <= sec. auto it = std::lower_bound(s.vals.rbegin(), s.vals.rend(), sec, [](auto &p, double x) { return p.x() > x; }); if (it != s.vals.rend() && it->x() >= axis_x->min()) { value = QString::number(it->y()); auto value_pos = chart()->mapToPosition(*it); if (value_pos.x() > track_pt.x()) track_pt = value_pos; } text_list.push_back(QString(" %1 : %2 ").arg(sigs.size() > 1 ? s.sig->name.c_str() : "Value").arg(value)); } if (track_pt.x() == 0) track_pt = ev->pos(); QString text = QString("
 Time: %1  
%2
") .arg(chart()->mapToValue(track_pt).x(), 0, 'f', 3) .arg(text_list.join("
")); QPoint pt((int)track_pt.x() + 20, plot_area.top() - 20); QToolTip::showText(mapToGlobal(pt), text, this, plot_area.toRect()); scene()->update(); } else { QToolTip::hideText(); } QChartView::mouseMoveEvent(ev); } void ChartView::dragMoveEvent(QDragMoveEvent *event) { if (event->mimeData()->hasFormat(mime_type)) { event->setDropAction(event->source() == this ? Qt::MoveAction : Qt::CopyAction); event->accept(); } else { event->ignore(); } } void ChartView::dropEvent(QDropEvent *event) { if (event->mimeData()->hasFormat(mime_type)) { if (event->source() == this) { event->setDropAction(Qt::MoveAction); event->accept(); } else { ChartView *source_chart = (ChartView *)event->source(); QList series; for (auto &s : source_chart->sigs) { series.push_back({s.msg_id, msgName(s.msg_id), QString::fromStdString(s.sig->name)}); } addSeries(series); emit source_chart->remove(); event->acceptProposedAction(); } } else { event->ignore(); } } void ChartView::drawForeground(QPainter *painter, const QRectF &rect) { qreal x = chart()->mapToPosition(QPointF{cur_sec, 0}).x(); x = std::clamp(x, chart()->plotArea().left(), chart()->plotArea().right()); qreal y1 = chart()->plotArea().top() - 2; qreal y2 = chart()->plotArea().bottom() + 2; painter->setPen(QPen(chart()->titleBrush().color(), 2)); painter->drawLine(QPointF{x, y1}, QPointF{x, y2}); if (!track_pt.isNull()) { painter->setPen(QPen(Qt::darkGray, 1, Qt::DashLine)); painter->drawLine(QPointF{track_pt.x(), y1}, QPointF{track_pt.x(), y2}); painter->setBrush(Qt::darkGray); painter->drawEllipse(track_pt, 5, 5); } } // SeriesSelector SeriesSelector::SeriesSelector(QWidget *parent) { setWindowTitle(tr("Manage Chart Series")); QHBoxLayout *contents_layout = new QHBoxLayout(); QVBoxLayout *left_layout = new QVBoxLayout(); left_layout->addWidget(new QLabel(tr("Select Signals:"))); msgs_combo = new QComboBox(this); msgs_combo->setEditable(true); msgs_combo->lineEdit()->setPlaceholderText(tr("Select Msg")); msgs_combo->setInsertPolicy(QComboBox::NoInsert); msgs_combo->completer()->setCompletionMode(QCompleter::PopupCompletion); msgs_combo->completer()->setFilterMode(Qt::MatchContains); left_layout->addWidget(msgs_combo); sig_list = new QListWidget(this); sig_list->setSortingEnabled(true); sig_list->setToolTip(tr("Double click on an item to add signal to chart")); left_layout->addWidget(sig_list); QVBoxLayout *right_layout = new QVBoxLayout(); right_layout->addWidget(new QLabel(tr("Chart Signals:"))); chart_series = new QListWidget(this); chart_series->setSortingEnabled(true); chart_series->setToolTip(tr("Double click on an item to remove signal from chart")); right_layout->addWidget(chart_series); contents_layout->addLayout(left_layout); contents_layout->addLayout(right_layout); auto buttonBox = new QDialogButtonBox(QDialogButtonBox::Ok | QDialogButtonBox::Cancel); QVBoxLayout *main_layout = new QVBoxLayout(this); main_layout->addLayout(contents_layout); main_layout->addWidget(buttonBox); for (auto it = can->can_msgs.cbegin(); it != can->can_msgs.cend(); ++it) { if (auto m = dbc()->msg(it.key())) { msgs_combo->addItem(QString("%1 (%2)").arg(m->name).arg(it.key()), it.key()); } } msgs_combo->model()->sort(0); QObject::connect(buttonBox, &QDialogButtonBox::accepted, this, &QDialog::accept); QObject::connect(buttonBox, &QDialogButtonBox::rejected, this, &QDialog::reject); QObject::connect(msgs_combo, SIGNAL(currentIndexChanged(int)), SLOT(msgSelected(int))); QObject::connect(sig_list, &QListWidget::itemDoubleClicked, this, &SeriesSelector::addSignal); QObject::connect(chart_series, &QListWidget::itemDoubleClicked, [](QListWidgetItem *item) { delete item; }); if (int index = msgs_combo->currentIndex(); index >= 0) { msgSelected(index); } } void SeriesSelector::msgSelected(int index) { QString msg_id = msgs_combo->itemData(index).toString(); sig_list->clear(); if (auto m = dbc()->msg(msg_id)) { for (auto &[name, s] : m->sigs) { QStringList data({msg_id, m->name, name}); QListWidgetItem *item = new QListWidgetItem(name, sig_list); item->setData(Qt::UserRole, data); sig_list->addItem(item); } } } void SeriesSelector::addSignal(QListWidgetItem *item) { QStringList data = item->data(Qt::UserRole).toStringList(); addSeries(data[0], data[1], data[2]); } void SeriesSelector::addSeries(const QString &id, const QString &msg_name, const QString &sig_name) { QStringList data({id, msg_name, sig_name}); for (int i = 0; i < chart_series->count(); ++i) { if (chart_series->item(i)->data(Qt::UserRole).toStringList() == data) { return; } } QListWidgetItem *new_item = new QListWidgetItem(chart_series); new_item->setData(Qt::UserRole, data); chart_series->addItem(new_item); QLabel *label = new QLabel(QString("%0 %1 %2").arg(data[2]).arg(data[1]).arg(data[0]), chart_series); label->setContentsMargins(5, 0, 5, 0); new_item->setSizeHint(label->sizeHint()); chart_series->setItemWidget(new_item, label); } QList SeriesSelector::series() { QList ret; for (int i = 0; i < chart_series->count(); ++i) { ret.push_back(chart_series->item(i)->data(Qt::UserRole).toStringList()); } return ret; }