#include "selfdrive/ui/qt/onroad.h" #include #include #include #include #include #include #include #include #include "common/swaglog.h" #include "common/timing.h" #include "selfdrive/ui/qt/util.h" #ifdef ENABLE_MAPS #include "selfdrive/ui/qt/maps/map_helpers.h" #include "selfdrive/ui/qt/maps/map_panel.h" #endif static void drawIcon(QPainter &p, const QPoint ¢er, const QPixmap &img, const QBrush &bg, float opacity) { p.setRenderHint(QPainter::Antialiasing); p.setOpacity(1.0); // bg dictates opacity of ellipse p.setPen(Qt::NoPen); p.setBrush(bg); p.drawEllipse(center, btn_size / 2, btn_size / 2); p.setOpacity(opacity); p.drawPixmap(center - QPoint(img.width() / 2, img.height() / 2), img); p.setOpacity(1.0); } OnroadWindow::OnroadWindow(QWidget *parent) : QWidget(parent), scene(uiState()->scene) { QVBoxLayout *main_layout = new QVBoxLayout(this); main_layout->setMargin(UI_BORDER_SIZE); QStackedLayout *stacked_layout = new QStackedLayout; stacked_layout->setStackingMode(QStackedLayout::StackAll); main_layout->addLayout(stacked_layout); nvg = new AnnotatedCameraWidget(VISION_STREAM_ROAD, this); QWidget * split_wrapper = new QWidget; split = new QHBoxLayout(split_wrapper); split->setContentsMargins(0, 0, 0, 0); split->setSpacing(0); split->addWidget(nvg); if (getenv("DUAL_CAMERA_VIEW")) { CameraWidget *arCam = new CameraWidget("camerad", VISION_STREAM_ROAD, true, this); split->insertWidget(0, arCam); } if (getenv("MAP_RENDER_VIEW")) { CameraWidget *map_render = new CameraWidget("navd", VISION_STREAM_MAP, false, this); split->insertWidget(0, map_render); } stacked_layout->addWidget(split_wrapper); alerts = new OnroadAlerts(this); alerts->setAttribute(Qt::WA_TransparentForMouseEvents, true); stacked_layout->addWidget(alerts); // setup stacking order alerts->raise(); setAttribute(Qt::WA_OpaquePaintEvent); QObject::connect(uiState(), &UIState::uiUpdate, this, &OnroadWindow::updateState); QObject::connect(uiState(), &UIState::offroadTransition, this, &OnroadWindow::offroadTransition); QObject::connect(uiState(), &UIState::primeChanged, this, &OnroadWindow::primeChanged); QObject::connect(&clickTimer, &QTimer::timeout, this, [this]() { clickTimer.stop(); QMouseEvent *event = new QMouseEvent(QEvent::MouseButtonPress, timeoutPoint, Qt::LeftButton, Qt::LeftButton, Qt::NoModifier); QApplication::postEvent(this, event); }); } void OnroadWindow::updateState(const UIState &s) { if (!s.scene.started) { return; } QColor bgColor = bg_colors[s.status]; Alert alert = Alert::get(*(s.sm), s.scene.started_frame); alerts->updateAlert(alert); if (s.scene.map_on_left) { split->setDirection(QBoxLayout::LeftToRight); } else { split->setDirection(QBoxLayout::RightToLeft); } nvg->updateState(s); if (bg != bgColor) { // repaint border bg = bgColor; update(); } } void OnroadWindow::mousePressEvent(QMouseEvent* e) { // FrogPilot clickable widgets QSize size = this->size(); QRect leftRect(0, 0, size.width() / 2, size.height()); QRect rightRect = leftRect.translated(size.width() / 2, 0); bool isLeftSideClicked = leftRect.contains(e->pos()) && scene.speed_limit_changed; bool isRightSideClicked = rightRect.contains(e->pos()) && scene.speed_limit_changed; QRect maxSpeedRect(7, 25, 225, 225); bool isMaxSpeedClicked = maxSpeedRect.contains(e->pos()) && scene.reverse_cruise_ui; QRect speedLimitRect(7, 250, 225, 225); bool isSpeedLimitClicked = speedLimitRect.contains(e->pos()) && scene.show_slc_offset_ui; if (isLeftSideClicked || isRightSideClicked) { bool slcConfirmed = isLeftSideClicked && !scene.right_hand_drive || isRightSideClicked && scene.right_hand_drive; paramsMemory.putBoolNonBlocking("SLCConfirmed", slcConfirmed); paramsMemory.putBoolNonBlocking("SLCConfirmedPressed", true); return; } if (isMaxSpeedClicked) { bool currentReverseCruise = scene.reverse_cruise; uiState()->scene.reverse_cruise = !currentReverseCruise; params.putBoolNonBlocking("ReverseCruise", !currentReverseCruise); updateFrogPilotToggles(); return; } if (isSpeedLimitClicked) { bool currentShowSLCOffset = scene.show_slc_offset; scene.show_slc_offset = !currentShowSLCOffset; params.putBoolNonBlocking("ShowSLCOffset", !currentShowSLCOffset); return; } if (scene.experimental_mode_via_screen && e->pos() != timeoutPoint) { if (clickTimer.isActive()) { clickTimer.stop(); if (scene.conditional_experimental) { int override_value = (scene.conditional_status >= 1 && scene.conditional_status <= 6) ? 0 : (scene.conditional_status >= 7 ? 5 : 6); paramsMemory.putIntNonBlocking("CEStatus", override_value); } else { bool experimentalMode = params.getBool("ExperimentalMode"); params.putBoolNonBlocking("ExperimentalMode", !experimentalMode); } } else { clickTimer.start(500); } return; } #ifdef ENABLE_MAPS if (map != nullptr) { // Switch between map and sidebar when using navigate on openpilot bool sidebarVisible = geometry().x() > 0; bool show_map = uiState()->scene.navigate_on_openpilot ? sidebarVisible : !sidebarVisible; map->setVisible(show_map && !map->isVisible()); } #endif // propagation event to parent(HomeWindow) QWidget::mousePressEvent(e); } void OnroadWindow::offroadTransition(bool offroad) { #ifdef ENABLE_MAPS if (!offroad) { if (map == nullptr && (uiState()->hasPrime() || !MAPBOX_TOKEN.isEmpty())) { auto m = new MapPanel(get_mapbox_settings()); map = m; QObject::connect(m, &MapPanel::mapPanelRequested, this, &OnroadWindow::mapPanelRequested); QObject::connect(nvg->map_settings_btn, &MapSettingsButton::clicked, m, &MapPanel::toggleMapSettings); QObject::connect(nvg->map_settings_btn_bottom, &MapSettingsButton::clicked, m, &MapPanel::toggleMapSettings); nvg->map_settings_btn->setEnabled(true); m->setFixedWidth(topWidget(this)->width() / 2 - UI_BORDER_SIZE); split->insertWidget(0, m); // hidden by default, made visible when navRoute is published m->setVisible(false); } } #endif alerts->updateAlert({}); } void OnroadWindow::primeChanged(bool prime) { #ifdef ENABLE_MAPS if (map && (!prime && MAPBOX_TOKEN.isEmpty())) { nvg->map_settings_btn->setEnabled(false); nvg->map_settings_btn->setVisible(false); map->deleteLater(); map = nullptr; } #endif } void OnroadWindow::paintEvent(QPaintEvent *event) { UIState *s = uiState(); SubMaster &sm = *(s->sm); QPainter p(this); p.fillRect(rect(), QColor(bg.red(), bg.green(), bg.blue(), 255)); } // ***** onroad widgets ***** // OnroadAlerts void OnroadAlerts::updateAlert(const Alert &a) { if (!alert.equal(a)) { alert = a; update(); } } void OnroadAlerts::paintEvent(QPaintEvent *event) { if (alert.size == cereal::ControlsState::AlertSize::NONE) { return; } static std::map alert_heights = { {cereal::ControlsState::AlertSize::SMALL, 271}, {cereal::ControlsState::AlertSize::MID, 420}, {cereal::ControlsState::AlertSize::FULL, height()}, }; int h = alert_heights[alert.size]; int margin = 40; int radius = 30; int offset = scene.show_aol_status_bar || scene.show_cem_status_bar ? 25 : 0; if (alert.size == cereal::ControlsState::AlertSize::FULL) { margin = 0; radius = 0; offset = 0; } QRect r = QRect(0 + margin, height() - h + margin - offset, width() - margin*2, h - margin*2); QPainter p(this); // draw background + gradient p.setPen(Qt::NoPen); p.setCompositionMode(QPainter::CompositionMode_SourceOver); p.setBrush(QBrush(alert_colors[alert.status])); p.drawRoundedRect(r, radius, radius); QLinearGradient g(0, r.y(), 0, r.bottom()); g.setColorAt(0, QColor::fromRgbF(0, 0, 0, 0.05)); g.setColorAt(1, QColor::fromRgbF(0, 0, 0, 0.35)); p.setCompositionMode(QPainter::CompositionMode_DestinationOver); p.setBrush(QBrush(g)); p.drawRoundedRect(r, radius, radius); p.setCompositionMode(QPainter::CompositionMode_SourceOver); // text const QPoint c = r.center(); p.setPen(QColor(0xff, 0xff, 0xff)); p.setRenderHint(QPainter::TextAntialiasing); if (alert.size == cereal::ControlsState::AlertSize::SMALL) { p.setFont(InterFont(74, QFont::DemiBold)); p.drawText(r, Qt::AlignCenter, alert.text1); } else if (alert.size == cereal::ControlsState::AlertSize::MID) { p.setFont(InterFont(88, QFont::Bold)); p.drawText(QRect(0, c.y() - 125, width(), 150), Qt::AlignHCenter | Qt::AlignTop, alert.text1); p.setFont(InterFont(66)); p.drawText(QRect(0, c.y() + 21, width(), 90), Qt::AlignHCenter, alert.text2); } else if (alert.size == cereal::ControlsState::AlertSize::FULL) { bool l = alert.text1.length() > 15; p.setFont(InterFont(l ? 132 : 177, QFont::Bold)); p.drawText(QRect(0, r.y() + (l ? 240 : 270), width(), 600), Qt::AlignHCenter | Qt::TextWordWrap, alert.text1); p.setFont(InterFont(88)); p.drawText(QRect(0, r.height() - (l ? 361 : 420), width(), 300), Qt::AlignHCenter | Qt::TextWordWrap, alert.text2); } } // ExperimentalButton ExperimentalButton::ExperimentalButton(QWidget *parent) : experimental_mode(false), engageable(false), QPushButton(parent), scene(uiState()->scene) { setFixedSize(btn_size, btn_size); engage_img = loadPixmap("../assets/img_chffr_wheel.png", {img_size, img_size}); experimental_img = loadPixmap("../assets/img_experimental.svg", {img_size, img_size}); QObject::connect(this, &QPushButton::clicked, this, &ExperimentalButton::changeMode); } void ExperimentalButton::changeMode() { const auto cp = (*uiState()->sm)["carParams"].getCarParams(); bool can_change = hasLongitudinalControl(cp) && params.getBool("ExperimentalModeConfirmed"); if (can_change) { if (scene.conditional_experimental) { int override_value = (scene.conditional_status >= 1 && scene.conditional_status <= 6) ? 0 : scene.conditional_status >= 7 ? 5 : 6; paramsMemory.putIntNonBlocking("CEStatus", override_value); } else { params.putBool("ExperimentalMode", !experimental_mode); } } } void ExperimentalButton::updateState(const UIState &s) { const auto cs = (*s.sm)["controlsState"].getControlsState(); bool eng = cs.getEngageable() || cs.getEnabled() || scene.always_on_lateral_active; if ((cs.getExperimentalMode() != experimental_mode) || (eng != engageable)) { engageable = eng; experimental_mode = cs.getExperimentalMode(); update(); } } void ExperimentalButton::paintEvent(QPaintEvent *event) { QPainter p(this); QPixmap img = experimental_mode ? experimental_img : engage_img; drawIcon(p, QPoint(btn_size / 2, btn_size / 2), img, QColor(0, 0, 0, 166), (isDown() || !engageable) ? 0.6 : 1.0); } // MapSettingsButton MapSettingsButton::MapSettingsButton(QWidget *parent) : QPushButton(parent) { setFixedSize(btn_size, btn_size + 20); settings_img = loadPixmap("../assets/navigation/icon_directions_outlined.svg", {img_size, img_size}); // hidden by default, made visible if map is created (has prime or mapbox token) setVisible(false); setEnabled(false); } void MapSettingsButton::paintEvent(QPaintEvent *event) { QPainter p(this); drawIcon(p, QPoint(btn_size / 2, btn_size / 2), settings_img, QColor(0, 0, 0, 166), isDown() ? 0.6 : 1.0); } // Window that shows camera view and variety of info drawn on top AnnotatedCameraWidget::AnnotatedCameraWidget(VisionStreamType type, QWidget* parent) : fps_filter(UI_FREQ, 3, 1. / UI_FREQ), CameraWidget("camerad", type, true, parent), scene(uiState()->scene) { pm = std::make_unique>({"uiDebug"}); main_layout = new QVBoxLayout(this); main_layout->setMargin(UI_BORDER_SIZE); main_layout->setSpacing(0); experimental_btn = new ExperimentalButton(this); main_layout->addWidget(experimental_btn, 0, Qt::AlignTop | Qt::AlignRight); map_settings_btn = new MapSettingsButton(this); main_layout->addWidget(map_settings_btn, 0, Qt::AlignBottom | Qt::AlignRight); dm_img = loadPixmap("../assets/img_driver_face.png", {img_size + 5, img_size + 5}); // Initialize FrogPilot widgets initializeFrogPilotWidgets(); } void AnnotatedCameraWidget::updateState(const UIState &s) { const int SET_SPEED_NA = 255; const SubMaster &sm = *(s.sm); const bool cs_alive = sm.alive("controlsState"); const bool nav_alive = sm.alive("navInstruction") && sm["navInstruction"].getValid(); const auto cs = sm["controlsState"].getControlsState(); const auto car_state = sm["carState"].getCarState(); const auto nav_instruction = sm["navInstruction"].getNavInstruction(); // Handle older routes where vCruiseCluster is not set float v_cruise = cs.getVCruiseCluster() == 0.0 ? cs.getVCruise() : cs.getVCruiseCluster(); setSpeed = cs_alive ? v_cruise : SET_SPEED_NA; is_cruise_set = setSpeed > 0 && (int)setSpeed != SET_SPEED_NA; if (is_cruise_set && !s.scene.is_metric) { setSpeed *= KM_TO_MILE; } // Handle older routes where vEgoCluster is not set v_ego_cluster_seen = v_ego_cluster_seen || car_state.getVEgoCluster() != 0.0; float v_ego = v_ego_cluster_seen ? car_state.getVEgoCluster() : car_state.getVEgo(); speed = cs_alive ? std::max(0.0, v_ego) : 0.0; speed *= s.scene.is_metric ? MS_TO_KPH : MS_TO_MPH; auto speed_limit_sign = nav_instruction.getSpeedLimitSign(); speedLimit = slcOverridden ? scene.speed_limit_overridden_speed : speedLimitController ? scene.speed_limit : nav_alive ? nav_instruction.getSpeedLimit() : 0.0; speedLimit *= (s.scene.is_metric ? MS_TO_KPH : MS_TO_MPH); if (speedLimitController && !slcOverridden) { speedLimit = speedLimit - (showSLCOffset ? slcSpeedLimitOffset : 0); } has_us_speed_limit = (nav_alive && speed_limit_sign == cereal::NavInstruction::SpeedLimitSign::MUTCD) || (speedLimitController && !useViennaSLCSign); has_eu_speed_limit = (nav_alive && speed_limit_sign == cereal::NavInstruction::SpeedLimitSign::VIENNA) && !(speedLimitController && !useViennaSLCSign) || (speedLimitController && useViennaSLCSign); is_metric = s.scene.is_metric; speedUnit = s.scene.is_metric ? tr("km/h") : tr("mph"); hideBottomIcons = (cs.getAlertSize() != cereal::ControlsState::AlertSize::NONE); status = s.status; // update engageability/experimental mode button experimental_btn->updateState(s); // update DM icon auto dm_state = sm["driverMonitoringState"].getDriverMonitoringState(); dmActive = dm_state.getIsActiveMode(); rightHandDM = dm_state.getIsRHD(); // DM icon transition dm_fade_state = std::clamp(dm_fade_state+0.2*(0.5-dmActive), 0.0, 1.0); // hide map settings button for alerts and flip for right hand DM if (map_settings_btn->isEnabled()) { map_settings_btn->setVisible(!hideBottomIcons && compass); main_layout->setAlignment(map_settings_btn, (rightHandDM ? Qt::AlignLeft : Qt::AlignRight) | Qt::AlignTop); } // Update FrogPilot widgets updateFrogPilotWidgets(); } void AnnotatedCameraWidget::drawHud(QPainter &p) { p.save(); // Header gradient QLinearGradient bg(0, UI_HEADER_HEIGHT - (UI_HEADER_HEIGHT / 2.5), 0, UI_HEADER_HEIGHT); bg.setColorAt(0, QColor::fromRgbF(0, 0, 0, 0.45)); bg.setColorAt(1, QColor::fromRgbF(0, 0, 0, 0)); p.fillRect(0, 0, width(), UI_HEADER_HEIGHT, bg); QString speedLimitStr = (speedLimit > 1) ? QString::number(std::nearbyint(speedLimit)) : "–"; QString speedLimitOffsetStr = slcSpeedLimitOffset == 0 ? "–" : QString::number(slcSpeedLimitOffset, 'f', 0).prepend(slcSpeedLimitOffset > 0 ? "+" : ""); QString speedStr = QString::number(std::nearbyint(speed)); QString setSpeedStr = is_cruise_set ? QString::number(std::nearbyint(setSpeed - cruiseAdjustment)) : "–"; // Draw outer box + border to contain set speed and speed limit const int sign_margin = 12; const int us_sign_height = 186; const int eu_sign_size = 176; const QSize default_size = {172, 204}; QSize set_speed_size = default_size; if (is_metric || has_eu_speed_limit) set_speed_size.rwidth() = 200; if (has_us_speed_limit && speedLimitStr.size() >= 3) set_speed_size.rwidth() = 223; if (has_us_speed_limit) set_speed_size.rheight() += us_sign_height + sign_margin; else if (has_eu_speed_limit) set_speed_size.rheight() += eu_sign_size + sign_margin; int top_radius = 32; int bottom_radius = has_eu_speed_limit ? 100 : 32; QRect set_speed_rect(QPoint(60 + (default_size.width() - set_speed_size.width()) / 2, 45), set_speed_size); if (is_cruise_set && cruiseAdjustment != 0) { float transition = qBound(0.0f, 4.0f * (cruiseAdjustment / setSpeed), 1.0f); QColor min = whiteColor(75); QColor max = vtscControllingCurve ? redColor() : greenColor(); p.setPen(QPen(QColor::fromRgbF( min.redF() + transition * (max.redF() - min.redF()), min.greenF() + transition * (max.greenF() - min.greenF()), min.blueF() + transition * (max.blueF() - min.blueF()) ), 10)); } else if (trafficModeActive) { p.setPen(QPen(redColor(), 10)); } else if (scene.reverse_cruise) { p.setPen(QPen(blueColor(), 6)); } else { p.setPen(QPen(whiteColor(75), 6)); } p.setBrush(blackColor(166)); drawRoundedRect(p, set_speed_rect, top_radius, top_radius, bottom_radius, bottom_radius); // Draw MAX QColor max_color = QColor(0x80, 0xd8, 0xa6, 0xff); QColor set_speed_color = whiteColor(); if (is_cruise_set) { if (status == STATUS_DISENGAGED) { max_color = whiteColor(); } else if (status == STATUS_OVERRIDE) { max_color = QColor(0x91, 0x9b, 0x95, 0xff); } else if (speedLimit > 0) { auto interp_color = [=](QColor c1, QColor c2, QColor c3) { return speedLimit > 0 ? interpColor(setSpeed, {speedLimit + 5, speedLimit + 15, speedLimit + 25}, {c1, c2, c3}) : c1; }; max_color = interp_color(max_color, QColor(0xff, 0xe4, 0xbf), QColor(0xff, 0xbf, 0xbf)); set_speed_color = interp_color(set_speed_color, QColor(0xff, 0x95, 0x00), QColor(0xff, 0x00, 0x00)); } } else { max_color = QColor(0xa6, 0xa6, 0xa6, 0xff); set_speed_color = QColor(0x72, 0x72, 0x72, 0xff); } p.setFont(InterFont(40, QFont::DemiBold)); p.setPen(max_color); p.drawText(set_speed_rect.adjusted(0, 27, 0, 0), Qt::AlignTop | Qt::AlignHCenter, tr("MAX")); p.setFont(InterFont(90, QFont::Bold)); p.setPen(set_speed_color); p.drawText(set_speed_rect.adjusted(0, 77, 0, 0), Qt::AlignTop | Qt::AlignHCenter, setSpeedStr); const QRect sign_rect = set_speed_rect.adjusted(sign_margin, default_size.height(), -sign_margin, -sign_margin); // US/Canada (MUTCD style) sign if (has_us_speed_limit) { p.setPen(Qt::NoPen); p.setBrush(whiteColor()); p.drawRoundedRect(sign_rect, 24, 24); p.setPen(QPen(blackColor(), 6)); p.drawRoundedRect(sign_rect.adjusted(9, 9, -9, -9), 16, 16); p.save(); p.setOpacity(slcOverridden ? 0.25 : 1.0); if (speedLimitController && showSLCOffset && !slcOverridden) { p.setFont(InterFont(28, QFont::DemiBold)); p.drawText(sign_rect.adjusted(0, 22, 0, 0), Qt::AlignTop | Qt::AlignHCenter, tr("LIMIT")); p.setFont(InterFont(70, QFont::Bold)); p.drawText(sign_rect.adjusted(0, 51, 0, 0), Qt::AlignTop | Qt::AlignHCenter, speedLimitStr); p.setFont(InterFont(50, QFont::DemiBold)); p.drawText(sign_rect.adjusted(0, 120, 0, 0), Qt::AlignTop | Qt::AlignHCenter, speedLimitOffsetStr); } else { p.setFont(InterFont(28, QFont::DemiBold)); p.drawText(sign_rect.adjusted(0, 22, 0, 0), Qt::AlignTop | Qt::AlignHCenter, tr("SPEED")); p.drawText(sign_rect.adjusted(0, 51, 0, 0), Qt::AlignTop | Qt::AlignHCenter, tr("LIMIT")); p.setFont(InterFont(70, QFont::Bold)); p.drawText(sign_rect.adjusted(0, 85, 0, 0), Qt::AlignTop | Qt::AlignHCenter, speedLimitStr); } p.restore(); } // EU (Vienna style) sign if (has_eu_speed_limit) { p.setPen(Qt::NoPen); p.setBrush(whiteColor()); p.drawEllipse(sign_rect); p.setPen(QPen(Qt::red, 20)); p.drawEllipse(sign_rect.adjusted(16, 16, -16, -16)); p.save(); p.setOpacity(slcOverridden ? 0.25 : 1.0); p.setPen(blackColor()); if (showSLCOffset) { p.setFont(InterFont((speedLimitStr.size() >= 3) ? 60 : 70, QFont::Bold)); p.drawText(sign_rect.adjusted(0, -25, 0, 0), Qt::AlignCenter, speedLimitStr); p.setFont(InterFont(40, QFont::DemiBold)); p.drawText(sign_rect.adjusted(0, 100, 0, 0), Qt::AlignTop | Qt::AlignHCenter, speedLimitOffsetStr); } else { p.setFont(InterFont((speedLimitStr.size() >= 3) ? 60 : 70, QFont::Bold)); p.drawText(sign_rect, Qt::AlignCenter, speedLimitStr); } p.restore(); } // current speed p.setFont(InterFont(176, QFont::Bold)); drawText(p, rect().center().x(), 210, speedStr); p.setFont(InterFont(66)); drawText(p, rect().center().x(), 290, speedUnit, 200); p.restore(); // Draw FrogPilot widgets paintFrogPilotWidgets(p); } void AnnotatedCameraWidget::drawText(QPainter &p, int x, int y, const QString &text, int alpha) { QRect real_rect = p.fontMetrics().boundingRect(text); real_rect.moveCenter({x, y - real_rect.height() / 2}); p.setPen(QColor(0xff, 0xff, 0xff, alpha)); p.drawText(real_rect.x(), real_rect.bottom(), text); } void AnnotatedCameraWidget::initializeGL() { CameraWidget::initializeGL(); qInfo() << "OpenGL version:" << QString((const char*)glGetString(GL_VERSION)); qInfo() << "OpenGL vendor:" << QString((const char*)glGetString(GL_VENDOR)); qInfo() << "OpenGL renderer:" << QString((const char*)glGetString(GL_RENDERER)); qInfo() << "OpenGL language version:" << QString((const char*)glGetString(GL_SHADING_LANGUAGE_VERSION)); prev_draw_t = millis_since_boot(); setBackgroundColor(bg_colors[STATUS_DISENGAGED]); } void AnnotatedCameraWidget::updateFrameMat() { CameraWidget::updateFrameMat(); UIState *s = uiState(); int w = width(), h = height(); s->fb_w = w; s->fb_h = h; // Apply transformation such that video pixel coordinates match video // 1) Put (0, 0) in the middle of the video // 2) Apply same scaling as video // 3) Put (0, 0) in top left corner of video s->car_space_transform.reset(); s->car_space_transform.translate(w / 2 - x_offset, h / 2 - y_offset) .scale(zoom, zoom) .translate(-intrinsic_matrix.v[2], -intrinsic_matrix.v[5]); } void AnnotatedCameraWidget::drawLaneLines(QPainter &painter, const UIState *s) { painter.save(); SubMaster &sm = *(s->sm); // lanelines for (int i = 0; i < std::size(scene.lane_line_vertices); ++i) { painter.setBrush(QColor::fromRgbF(1.0, 1.0, 1.0, std::clamp(scene.lane_line_probs[i], 0.0, 0.7))); painter.drawPolygon(scene.lane_line_vertices[i]); } // road edges for (int i = 0; i < std::size(scene.road_edge_vertices); ++i) { painter.setBrush(QColor::fromRgbF(1.0, 0, 0, std::clamp(1.0 - scene.road_edge_stds[i], 0.0, 1.0))); painter.drawPolygon(scene.road_edge_vertices[i]); } // paint path QLinearGradient bg(0, height(), 0, 0); if (experimentalMode) { // The first half of track_vertices are the points for the right side of the path // and the indices match the positions of accel from uiPlan const auto &acceleration = sm["uiPlan"].getUiPlan().getAccel(); const int max_len = std::min(scene.track_vertices.length() / 2, acceleration.size()); for (int i = 0; i < max_len; ++i) { // Some points are out of frame if (scene.track_vertices[i].y() < 0 || scene.track_vertices[i].y() > height()) continue; // Flip so 0 is bottom of frame float lin_grad_point = (height() - scene.track_vertices[i].y()) / height(); // speed up: 120, slow down: 0 float path_hue = fmax(fmin(60 + acceleration[i] * 35, 120), 0); // FIXME: painter.drawPolygon can be slow if hue is not rounded path_hue = int(path_hue * 100 + 0.5) / 100; float saturation = fmin(fabs(acceleration[i] * 1.5), 1); float lightness = util::map_val(saturation, 0.0f, 1.0f, 0.95f, 0.62f); // lighter when grey float alpha = util::map_val(lin_grad_point, 0.75f / 2.f, 0.75f, 0.4f, 0.0f); // matches previous alpha fade bg.setColorAt(lin_grad_point, QColor::fromHslF(path_hue / 360., saturation, lightness, alpha)); // Skip a point, unless next is last i += (i + 2) < max_len ? 1 : 0; } } else { bg.setColorAt(0.0, QColor::fromHslF(148 / 360., 0.94, 0.51, 0.4)); bg.setColorAt(0.5, QColor::fromHslF(112 / 360., 1.0, 0.68, 0.35)); bg.setColorAt(1.0, QColor::fromHslF(112 / 360., 1.0, 0.68, 0.0)); } painter.setBrush(bg); painter.drawPolygon(scene.track_vertices); painter.restore(); } void AnnotatedCameraWidget::drawDriverState(QPainter &painter, const UIState *s) { painter.save(); // base icon int offset = UI_BORDER_SIZE + btn_size / 2; int x = rightHandDM ? width() - offset : offset; x += onroadDistanceButton ? 250 : 0; offset += showAlwaysOnLateralStatusBar || showConditionalExperimentalStatusBar ? 25 : 0; int y = height() - offset; float opacity = dmActive ? 0.65 : 0.2; drawIcon(painter, QPoint(x, y), dm_img, blackColor(70), opacity); // face QPointF face_kpts_draw[std::size(default_face_kpts_3d)]; float kp; for (int i = 0; i < std::size(default_face_kpts_3d); ++i) { kp = (scene.face_kpts_draw[i].v[2] - 8) / 120 + 1.0; face_kpts_draw[i] = QPointF(scene.face_kpts_draw[i].v[0] * kp + x, scene.face_kpts_draw[i].v[1] * kp + y); } painter.setPen(QPen(QColor::fromRgbF(1.0, 1.0, 1.0, opacity), 5.2, Qt::SolidLine, Qt::RoundCap)); painter.drawPolyline(face_kpts_draw, std::size(default_face_kpts_3d)); // tracking arcs const int arc_l = 133; const float arc_t_default = 6.7; const float arc_t_extend = 12.0; QColor arc_color = QColor::fromRgbF(0.545 - 0.445 * s->engaged(), 0.545 + 0.4 * s->engaged(), 0.545 - 0.285 * s->engaged(), 0.4 * (1.0 - dm_fade_state)); float delta_x = -scene.driver_pose_sins[1] * arc_l / 2; float delta_y = -scene.driver_pose_sins[0] * arc_l / 2; painter.setPen(QPen(arc_color, arc_t_default+arc_t_extend*fmin(1.0, scene.driver_pose_diff[1] * 5.0), Qt::SolidLine, Qt::RoundCap)); painter.drawArc(QRectF(std::fmin(x + delta_x, x), y - arc_l / 2, fabs(delta_x), arc_l), (scene.driver_pose_sins[1]>0 ? 90 : -90) * 16, 180 * 16); painter.setPen(QPen(arc_color, arc_t_default+arc_t_extend*fmin(1.0, scene.driver_pose_diff[0] * 5.0), Qt::SolidLine, Qt::RoundCap)); painter.drawArc(QRectF(x - arc_l / 2, std::fmin(y + delta_y, y), arc_l, fabs(delta_y)), (scene.driver_pose_sins[0]>0 ? 0 : 180) * 16, 180 * 16); painter.restore(); } void AnnotatedCameraWidget::drawLead(QPainter &painter, const cereal::ModelDataV2::LeadDataV3::Reader &lead_data, const QPointF &vd, const float v_ego) { painter.save(); const float speedBuff = 10.; const float leadBuff = 40.; const float d_rel = lead_data.getX()[0]; const float v_rel = lead_data.getV()[0] - v_ego; float fillAlpha = 0; if (d_rel < leadBuff) { fillAlpha = 255 * (1.0 - (d_rel / leadBuff)); if (v_rel < 0) { fillAlpha += 255 * (-1 * (v_rel / speedBuff)); } fillAlpha = (int)(fmin(fillAlpha, 255)); } float sz = std::clamp((25 * 30) / (d_rel / 3 + 30), 15.0f, 30.0f) * 2.35; float x = std::clamp((float)vd.x(), 0.f, width() - sz / 2); float y = std::fmin(height() - sz * .6, (float)vd.y()); float g_xo = sz / 5; float g_yo = sz / 10; QPointF glow[] = {{x + (sz * 1.35) + g_xo, y + sz + g_yo}, {x, y - g_yo}, {x - (sz * 1.35) - g_xo, y + sz + g_yo}}; painter.setBrush(QColor(218, 202, 37, 255)); painter.drawPolygon(glow, std::size(glow)); // chevron QPointF chevron[] = {{x + (sz * 1.25), y + sz}, {x, y}, {x - (sz * 1.25), y + sz}}; painter.setBrush(redColor(fillAlpha)); painter.drawPolygon(chevron, std::size(chevron)); painter.restore(); } void AnnotatedCameraWidget::paintGL() { UIState *s = uiState(); SubMaster &sm = *(s->sm); const double start_draw_t = millis_since_boot(); const cereal::ModelDataV2::Reader &model = sm["modelV2"].getModelV2(); const float v_ego = sm["carState"].getCarState().getVEgo(); // draw camera frame { std::lock_guard lk(frame_lock); if (frames.empty()) { if (skip_frame_count > 0) { skip_frame_count--; qDebug() << "skipping frame, not ready"; return; } } else { // skip drawing up to this many frames if we're // missing camera frames. this smooths out the // transitions from the narrow and wide cameras skip_frame_count = 5; } // Wide or narrow cam dependent on speed bool has_wide_cam = available_streams.count(VISION_STREAM_WIDE_ROAD); if (has_wide_cam) { if ((v_ego < 10) || available_streams.size() == 1) { wide_cam_requested = true; } else if (v_ego > 15) { wide_cam_requested = false; } wide_cam_requested = wide_cam_requested && experimentalMode; // for replay of old routes, never go to widecam wide_cam_requested = wide_cam_requested && s->scene.calibration_wide_valid; } CameraWidget::setStreamType(wide_cam_requested ? VISION_STREAM_WIDE_ROAD : VISION_STREAM_ROAD); s->scene.wide_cam = CameraWidget::getStreamType() == VISION_STREAM_WIDE_ROAD; if (s->scene.calibration_valid) { auto calib = s->scene.wide_cam ? s->scene.view_from_wide_calib : s->scene.view_from_calib; CameraWidget::updateCalibration(calib); } else { CameraWidget::updateCalibration(DEFAULT_CALIBRATION); } CameraWidget::setFrameId(model.getFrameId()); CameraWidget::paintGL(); } QPainter painter(this); painter.setRenderHint(QPainter::Antialiasing); painter.setPen(Qt::NoPen); if (s->scene.world_objects_visible) { update_model(s, model, sm["uiPlan"].getUiPlan()); drawLaneLines(painter, s); if (s->scene.longitudinal_control && sm.rcv_frame("modelV2") > s->scene.started_frame) { update_leads(s, model); float prev_drel = -1; for (int i = 0; i < model.getLeadsV3().size() && i < 2; i++) { const auto &lead = model.getLeadsV3()[i]; auto lead_drel = lead.getX()[0]; if (lead.getProb() > scene.lead_detection_threshold && (prev_drel < 0 || std::abs(lead_drel - prev_drel) > 3.0)) { drawLead(painter, lead, s->scene.lead_vertices[i], v_ego); } prev_drel = lead_drel; } } } // DMoji if (!hideBottomIcons && (sm.rcv_frame("driverStateV2") > s->scene.started_frame)) { update_dmonitoring(s, sm["driverStateV2"].getDriverStateV2(), dm_fade_state, rightHandDM); drawDriverState(painter, s); } drawHud(painter); double cur_draw_t = millis_since_boot(); double dt = cur_draw_t - prev_draw_t; double fps = fps_filter.update(1. / dt * 1000); if (fps < 15) { LOGW("slow frame rate: %.2f fps", fps); } prev_draw_t = cur_draw_t; // publish debug msg MessageBuilder msg; auto m = msg.initEvent().initUiDebug(); m.setDrawTimeMillis(cur_draw_t - start_draw_t); pm->send("uiDebug", msg); } void AnnotatedCameraWidget::showEvent(QShowEvent *event) { CameraWidget::showEvent(event); ui_update_params(uiState()); prev_draw_t = millis_since_boot(); } // FrogPilot widgets void AnnotatedCameraWidget::initializeFrogPilotWidgets() { bottom_layout = new QHBoxLayout(); distance_btn = new DistanceButton(this); bottom_layout->addWidget(distance_btn); QSpacerItem *spacer = new QSpacerItem(0, 0, QSizePolicy::Expanding, QSizePolicy::Minimum); bottom_layout->addItem(spacer); compass_img = new Compass(this); bottom_layout->addWidget(compass_img); map_settings_btn_bottom = new MapSettingsButton(this); bottom_layout->addWidget(map_settings_btn_bottom); main_layout->addLayout(bottom_layout); } void AnnotatedCameraWidget::updateFrogPilotWidgets() { if (is_metric) { accelerationUnit = tr(" m/s²"); leadDistanceUnit = tr(mapOpen ? "m" : "meters"); leadSpeedUnit = tr("kph"); accelerationConversion = 1.0f; distanceConversion = 1.0f; speedConversion = MS_TO_KPH; } else { accelerationUnit = tr(" ft/s²"); leadDistanceUnit = tr(mapOpen ? "ft" : "feet"); leadSpeedUnit = tr("mph"); accelerationConversion = METER_TO_FOOT; distanceConversion = METER_TO_FOOT; speedConversion = MS_TO_MPH; } alertSize = scene.alert_size; alwaysOnLateralActive = scene.always_on_lateral_active; showAlwaysOnLateralStatusBar = scene.show_aol_status_bar; compass = scene.compass; conditionalStatus = scene.conditional_status; showConditionalExperimentalStatusBar = scene.show_cem_status_bar; bool disableSmoothing = vtscControllingCurve ? scene.disable_smoothing_vtsc : scene.disable_smoothing_mtsc; cruiseAdjustment = disableSmoothing || !is_cruise_set ? fmax(setSpeed - scene.adjusted_cruise, 0) : fmax(0.25 * (setSpeed - scene.adjusted_cruise) + 0.75 * cruiseAdjustment - 1, 0); vtscControllingCurve = scene.vtsc_controlling_curve; experimentalMode = scene.experimental_mode; mapOpen = scene.map_open; onroadDistanceButton = scene.onroad_distance_button; speedLimitController = scene.speed_limit_controller; showSLCOffset = speedLimitController && scene.show_slc_offset; slcOverridden = speedLimitController && scene.speed_limit_overridden; slcSpeedLimitOffset = scene.speed_limit_offset * (is_metric ? MS_TO_KPH : MS_TO_MPH); useViennaSLCSign = scene.use_vienna_slc_sign; trafficModeActive = scene.traffic_mode_active; } void AnnotatedCameraWidget::paintFrogPilotWidgets(QPainter &p) { if (showAlwaysOnLateralStatusBar || showConditionalExperimentalStatusBar) { drawStatusBar(p); } if (scene.speed_limit_changed) { drawSLCConfirmation(p); } bool enableCompass = compass && !hideBottomIcons; compass_img->setVisible(enableCompass); if (enableCompass) { compass_img->updateState(); bottom_layout->setAlignment(compass_img, (rightHandDM ? Qt::AlignLeft : Qt::AlignRight)); } bool enableDistanceButton = onroadDistanceButton && !hideBottomIcons; distance_btn->setVisible(enableDistanceButton); if (enableDistanceButton) { distance_btn->updateState(); bottom_layout->setAlignment(distance_btn, (rightHandDM ? Qt::AlignRight : Qt::AlignLeft)); } map_settings_btn_bottom->setEnabled(map_settings_btn->isEnabled()); if (map_settings_btn_bottom->isEnabled()) { map_settings_btn_bottom->setVisible(!hideBottomIcons && !compass); bottom_layout->setAlignment(map_settings_btn_bottom, rightHandDM ? Qt::AlignLeft : Qt::AlignRight); } } Compass::Compass(QWidget *parent) : QWidget(parent), scene(uiState()->scene) { setFixedSize(btn_size * 1.5, btn_size * 1.5); compassSize = btn_size; circleOffset = compassSize / 2; degreeLabelOffset = circleOffset + 25; innerCompass = compassSize / 2; x = (btn_size * 1.5) / 2 + 20; y = (btn_size * 1.5) / 2; compassInnerImg = loadPixmap("../frogpilot/assets/other_images/compass_inner.png", QSize(compassSize / 1.75, compassSize / 1.75)); staticElements = QPixmap(size()); staticElements.fill(Qt::transparent); QPainter p(&staticElements); p.setRenderHints(QPainter::Antialiasing | QPainter::TextAntialiasing); QPen whitePen(Qt::white, 2); p.setPen(whitePen); p.setOpacity(1.0); p.setBrush(QColor(0, 0, 0, 100)); p.drawEllipse(x - circleOffset, y - circleOffset, circleOffset * 2, circleOffset * 2); p.setBrush(Qt::NoBrush); p.drawEllipse(x - (innerCompass + 5), y - (innerCompass + 5), (innerCompass + 5) * 2, (innerCompass + 5) * 2); p.drawEllipse(x - degreeLabelOffset, y - degreeLabelOffset, degreeLabelOffset * 2, degreeLabelOffset * 2); QPainterPath outerCircle, innerCircle; outerCircle.addEllipse(x - degreeLabelOffset, y - degreeLabelOffset, degreeLabelOffset * 2, degreeLabelOffset * 2); innerCircle.addEllipse(x - circleOffset, y - circleOffset, compassSize, compassSize); p.fillPath(outerCircle.subtracted(innerCircle), Qt::black); } void Compass::updateState() { if (bearingDeg != scene.bearing_deg) { update(); bearingDeg = scene.bearing_deg; } } void Compass::paintEvent(QPaintEvent *event) { QPainter p(this); p.setRenderHints(QPainter::Antialiasing | QPainter::TextAntialiasing); bearingDeg = fmod(bearingDeg, 360); if (bearingDeg < 0) { bearingDeg += 360; } p.drawPixmap(0, 0, staticElements); p.translate(x, y); p.rotate(bearingDeg); p.drawPixmap(-compassInnerImg.width() / 2, -compassInnerImg.height() / 2, compassInnerImg); p.rotate(-bearingDeg); p.translate(-x, -y); QFont font = InterFont(10, QFont::Normal); for (int i = 0; i < 360; i += 15) { bool isBold = abs(i - bearingDeg) <= 7; font.setWeight(isBold ? QFont::Bold : QFont::Normal); p.setFont(font); p.setPen(QPen(Qt::white, i % 90 == 0 ? 2 : 1)); p.save(); p.translate(x, y); p.rotate(i); p.drawLine(0, -(compassSize / 2 - (i % 90 == 0 ? 12 : 8)), 0, -(compassSize / 2)); p.translate(0, -(compassSize / 2 + 12)); p.rotate(-i); p.drawText(QRect(-20, -10, 40, 20), Qt::AlignCenter, QString::number(i)); p.restore(); } p.setFont(InterFont(20, QFont::Bold)); std::map, int, QColor>> directionInfo = { {"N", {{292.5, 67.5}, Qt::AlignTop | Qt::AlignHCenter, Qt::white}}, {"E", {{22.5, 157.5}, Qt::AlignRight | Qt::AlignVCenter, Qt::white}}, {"S", {{112.5, 247.5}, Qt::AlignBottom | Qt::AlignHCenter, Qt::white}}, {"W", {{202.5, 337.5}, Qt::AlignLeft | Qt::AlignVCenter, Qt::white}} }; int directionOffset = 20; for (auto &item : directionInfo) { QString direction = item.first; auto &[range, alignmentFlag, color] = item.second; auto &[minRange, maxRange] = range; QRect textRect(x - innerCompass + directionOffset, y - innerCompass + directionOffset, innerCompass * 2 - 2 * directionOffset, innerCompass * 2 - 2 * directionOffset); bool isInRange = false; if (minRange > maxRange) { isInRange = bearingDeg >= minRange || bearingDeg <= maxRange; } else { isInRange = bearingDeg >= minRange && bearingDeg <= maxRange; } p.setOpacity(isInRange ? 1.0 : 0.2); p.setPen(QPen(color)); p.drawText(textRect, alignmentFlag, direction); } } DistanceButton::DistanceButton(QWidget *parent) : QPushButton(parent), scene(uiState()->scene) { setFixedSize(btn_size * 1.5, btn_size * 1.5); profile_data = { {QPixmap("../frogpilot/assets/other_images/traffic.png"), "Traffic"}, {QPixmap("../frogpilot/assets/other_images/aggressive.png"), "Aggressive"}, {QPixmap("../frogpilot/assets/other_images/standard.png"), "Standard"}, {QPixmap("../frogpilot/assets/other_images/relaxed.png"), "Relaxed"} }; profile_data_kaofui = { {QPixmap("../frogpilot/assets/other_images/traffic_kaofui.png"), "Traffic"}, {QPixmap("../frogpilot/assets/other_images/aggressive_kaofui.png"), "Aggressive"}, {QPixmap("../frogpilot/assets/other_images/standard_kaofui.png"), "Standard"}, {QPixmap("../frogpilot/assets/other_images/relaxed_kaofui.png"), "Relaxed"} }; transitionTimer.start(); connect(this, &QPushButton::pressed, this, &DistanceButton::buttonPressed); connect(this, &QPushButton::released, this, &DistanceButton::buttonReleased); } void DistanceButton::buttonPressed() { paramsMemory.putBool("OnroadDistanceButtonPressed", true); } void DistanceButton::buttonReleased() { paramsMemory.putBool("OnroadDistanceButtonPressed", false); } void DistanceButton::updateState() { bool stateChanged = (trafficModeActive != scene.traffic_mode_active) || (personality != static_cast(scene.personality) && !trafficModeActive); if (stateChanged) { transitionTimer.restart(); } personality = static_cast(scene.personality); trafficModeActive = scene.traffic_mode_active; } void DistanceButton::paintEvent(QPaintEvent *event) { QPainter p(this); p.setRenderHints(QPainter::Antialiasing | QPainter::TextAntialiasing); constexpr qreal fadeDuration = 1000.0; constexpr qreal textDuration = 3000.0; int elapsed = transitionTimer.elapsed(); qreal textOpacity = qBound(0.0, 1.0 - ((elapsed - textDuration) / fadeDuration), 1.0); qreal imageOpacity = qBound(0.0, (elapsed - textDuration) / fadeDuration, 1.0); int profile = trafficModeActive ? 0 : personality + 1; auto &[profileImage, profileText] = scene.use_kaofui_icons ? profile_data_kaofui[profile] : profile_data[profile]; if (textOpacity > 0.0) { p.setOpacity(textOpacity); p.setFont(InterFont(40, QFont::Bold)); p.setPen(Qt::white); QRect textRect(-25, 0, width(), height() + 95); p.drawText(textRect, Qt::AlignCenter, profileText); } if (imageOpacity > 0.0) { drawIcon(p, QPoint((btn_size / 2) * 1.25, btn_size / 2 + 95), profileImage, Qt::transparent, imageOpacity); } } void AnnotatedCameraWidget::drawSLCConfirmation(QPainter &p) { p.save(); QSize size = this->size(); QRect leftRect(0, 0, size.width() / 2, size.height()); QRect rightRect = leftRect.translated(size.width() / 2, 0); p.setOpacity(0.5); p.fillRect(leftRect, rightHandDM ? redColor() : greenColor()); p.fillRect(rightRect, rightHandDM ? greenColor() : redColor()); p.setOpacity(1.0); p.setFont(InterFont(75, QFont::Bold)); p.setPen(Qt::white); QString unitText = is_metric ? tr("kph") : tr("mph"); QString speedText = QString::number(std::nearbyint(scene.unconfirmed_speed_limit * (is_metric ? MS_TO_KPH : MS_TO_MPH))) + " " + unitText; QString confirmText = tr("Confirm speed limit\n") + speedText; QString ignoreText = tr("Ignore speed limit\n") + speedText; QRect textLeftRect = QRect(leftRect.left(), leftRect.top() + leftRect.height() / 2 - 225, leftRect.width(), leftRect.height() / 2); QRect textRightRect = QRect(rightRect.left(), rightRect.top() + rightRect.height() / 2 - 225, rightRect.width(), rightRect.height() / 2); p.drawText(textLeftRect, Qt::AlignCenter, rightHandDM ? ignoreText : confirmText); p.drawText(textRightRect, Qt::AlignCenter, rightHandDM ? confirmText : ignoreText); p.restore(); } void AnnotatedCameraWidget::drawStatusBar(QPainter &p) { p.save(); static bool displayStatusText = false; constexpr qreal fadeDuration = 1500.0; constexpr qreal textDuration = 5000.0; static QElapsedTimer timer; static QString lastShownStatus; QString newStatus; QRect currentRect = rect(); QRect statusBarRect(currentRect.left() - 1, currentRect.bottom() - 50, currentRect.width() + 2, 100); p.setBrush(QColor(0, 0, 0, 150)); p.setOpacity(1.0); p.drawRoundedRect(statusBarRect, 30, 30); std::map conditionalStatusMap = { {0, tr("Conditional Experimental Mode ready")}, {1, tr("Conditional Experimental overridden")}, {2, tr("Experimental Mode manually activated")}, {3, tr("Conditional Experimental overridden")}, {4, tr("Experimental Mode manually activated")}, {5, tr("Conditional Experimental overridden")}, {6, tr("Experimental Mode manually activated")}, {7, tr("Experimental Mode activated for") + (mapOpen ? tr(" intersection") : tr(" upcoming intersection"))}, {8, tr("Experimental Mode activated for") + (mapOpen ? tr(" turn") : tr(" upcoming turn"))}, {9, tr("Experimental Mode activated due to") + (mapOpen ? tr(" SLC") : tr(" no speed limit set"))}, {10, tr("Experimental Mode activated due to") + (mapOpen ? tr(" speed") : tr(" speed being less than ") + QString::number(scene.conditional_speed_lead) + (is_metric ? tr(" kph") : tr(" mph")))}, {11, tr("Experimental Mode activated due to") + (mapOpen ? tr(" speed") : tr(" speed being less than ") + QString::number(scene.conditional_speed) + (is_metric ? tr(" kph") : tr(" mph")))}, {12, tr("Experimental Mode activated for stopped lead")}, {13, tr("Experimental Mode activated for slower lead")}, {14, tr("Experimental Mode activated for turn") + (mapOpen ? "" : tr(" / lane change"))}, {15, tr("Experimental Mode activated for curve")}, {16, tr("Experimental Mode activated for stop") + (mapOpen ? "" : tr(" sign / stop light"))}, }; if (alwaysOnLateralActive && showAlwaysOnLateralStatusBar) { newStatus = tr("Always On Lateral active") + (mapOpen ? "" : tr(". Press the \"Cruise Control\" button to disable")); } else if (showConditionalExperimentalStatusBar) { newStatus = conditionalStatusMap[status != STATUS_DISENGAGED ? conditionalStatus : 0]; } QString distanceSuffix = tr(". Long press the \"distance\" button to revert"); QString lkasSuffix = tr(". Double press the \"LKAS\" button to revert"); QString screenSuffix = tr(". Double tap the screen to revert"); if (!alwaysOnLateralActive && !mapOpen && status != STATUS_DISENGAGED && !newStatus.isEmpty()) { if (conditionalStatus == 1 || conditionalStatus == 2) { newStatus += distanceSuffix; } else if (conditionalStatus == 3 || conditionalStatus == 4) { newStatus += lkasSuffix; } else if (conditionalStatus == 5 || conditionalStatus == 6) { newStatus += screenSuffix; } } if (newStatus != lastShownStatus) { displayStatusText = true; lastShownStatus = newStatus; timer.restart(); } else if (displayStatusText && timer.hasExpired(textDuration + fadeDuration)) { displayStatusText = false; } p.setFont(InterFont(40, QFont::Bold)); p.setPen(Qt::white); p.setRenderHint(QPainter::TextAntialiasing); static qreal statusTextOpacity; int elapsed = timer.elapsed(); if (displayStatusText) { statusTextOpacity = qBound(0.0, 1.0 - (elapsed - textDuration) / fadeDuration, 1.0); } p.setOpacity(statusTextOpacity); QRect textRect = p.fontMetrics().boundingRect(statusBarRect, Qt::AlignCenter | Qt::TextWordWrap, newStatus); textRect.moveBottom(statusBarRect.bottom() - 50); p.drawText(textRect, Qt::AlignCenter | Qt::TextWordWrap, newStatus); p.restore(); }