Files
StarPilot/selfdrive/ui/qt/onroad/annotated_camera.cc
T
2026-02-13 00:21:38 -07:00

209 lines
7.5 KiB
C++

#include "selfdrive/ui/qt/onroad/annotated_camera.h"
#include <QPainter>
#include <algorithm>
#include <cmath>
#include "common/swaglog.h"
#include "selfdrive/ui/qt/util.h"
// 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, parent) {
pm = std::make_unique<PubMaster>(std::vector<const char*>{"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);
// FrogPilot variables
personality_btn = new DrivingPersonalityButton(this);
personality_btn->setVisible(false);
screen_recorder = new ScreenRecorder(this);
screen_recorder->setVisible(false);
}
void AnnotatedCameraWidget::updateState(const UIState &s, const FrogPilotUIState &fs) {
// update engageability/experimental mode button
experimental_btn->updateState(s, fs);
dmon.updateState(s);
// FrogPilot variables
const SubMaster &sm = *(s.sm);
const cereal::CarState::Reader &carState = sm["carState"].getCarState();
frogpilot_nvg->experimentalButtonPosition = QPoint(experimental_btn->x(), experimental_btn->y());
bool onroad_distance_btn_enabled = frogpilot_nvg->dmIconPosition != QPoint(0, 0) && !frogpilot_nvg->hideBottomIcons && frogpilot_toggles.value("onroad_distance_button").toBool();
personality_btn->setVisible(onroad_distance_btn_enabled);
if (onroad_distance_btn_enabled) {
personality_btn->move(frogpilot_nvg->rightHandDM ? width() - UI_BORDER_SIZE - personality_btn->width() - (UI_BORDER_SIZE / 2) : UI_BORDER_SIZE, frogpilot_nvg->dmIconPosition.y() - personality_btn->height() / 2);
personality_btn->updateState(s, fs);
}
dmon.onroad_distance_btn_enabled = onroad_distance_btn_enabled;
screen_recorder->move(experimental_btn->x() - UI_BORDER_SIZE - btn_size, experimental_btn->y());
screen_recorder->setVisible(frogpilot_nvg->standstillDuration == 0 && !(frogpilot_nvg->signalStyle == "static" && carState.getRightBlinker()) && frogpilot_toggles.value("screen_recorder").toBool());
}
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]);
}
mat4 AnnotatedCameraWidget::calcFrameMatrix() {
// Project point at "infinity" to compute x and y offsets
// to ensure this ends up in the middle of the screen
// for narrow come and a little lower for wide cam.
// TODO: use proper perspective transform?
// Select intrinsic matrix and calibration based on camera type
auto *s = uiState();
bool wide_cam = active_stream_type == VISION_STREAM_WIDE_ROAD;
const auto &intrinsic_matrix = wide_cam ? ECAM_INTRINSIC_MATRIX : FCAM_INTRINSIC_MATRIX;
const auto &calibration = wide_cam ? s->scene.view_from_wide_calib : s->scene.view_from_calib;
// Compute the calibration transformation matrix
const auto calib_transform = intrinsic_matrix * calibration;
float zoom = wide_cam ? 2.0 : 1.1;
Eigen::Vector3f inf(1000., 0., 0.);
auto Kep = calib_transform * inf;
int w = width(), h = height();
float center_x = intrinsic_matrix(0, 2);
float center_y = intrinsic_matrix(1, 2);
float max_x_offset = center_x * zoom - w / 2 - 5;
float max_y_offset = center_y * zoom - h / 2 - 5;
float x_offset = std::clamp<float>((Kep.x() / Kep.z() - center_x) * zoom, -max_x_offset, max_x_offset);
float y_offset = std::clamp<float>((Kep.y() / Kep.z() - center_y) * zoom, -max_y_offset, max_y_offset);
// 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
Eigen::Matrix3f video_transform =(Eigen::Matrix3f() <<
zoom, 0.0f, (w / 2 - x_offset) - (center_x * zoom),
0.0f, zoom, (h / 2 - y_offset) - (center_y * zoom),
0.0f, 0.0f, 1.0f).finished();
model.setTransform(video_transform * calib_transform);
float zx = zoom * 2 * center_x / w;
float zy = zoom * 2 * center_y / h;
return mat4{{
zx, 0.0, 0.0, -x_offset / w * 2,
0.0, zy, 0.0, y_offset / h * 2,
0.0, 0.0, 1.0, 0.0,
0.0, 0.0, 0.0, 1.0,
}};
}
void AnnotatedCameraWidget::paintGL() {
}
void AnnotatedCameraWidget::paintEvent(QPaintEvent *event) {
UIState *s = uiState();
SubMaster &sm = *(s->sm);
const double start_draw_t = millis_since_boot();
QPainter painter(this);
// 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) {
float v_ego = sm["carState"].getCarState().getVEgo();
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 && sm["selfdriveState"].getSelfdriveState().getExperimentalMode() && frogpilot_toggles.value("camera_view").toInt() == 0;
}
CameraWidget::setStreamType(frogpilot_toggles.value("camera_view").toInt() == 1 ? VISION_STREAM_DRIVER :
frogpilot_toggles.value("camera_view").toInt() == 3 || wide_cam_requested ? VISION_STREAM_WIDE_ROAD :
VISION_STREAM_ROAD);
CameraWidget::setFrameId(sm["modelV2"].getModelV2().getFrameId());
painter.beginNativePainting();
CameraWidget::paintGL();
painter.endNativePainting();
}
painter.setRenderHint(QPainter::Antialiasing);
painter.setPen(Qt::NoPen);
// FrogPilot variables
dmon.frogpilot_nvg = frogpilot_nvg;
hud.frogpilot_nvg = frogpilot_nvg;
model.frogpilot_nvg = frogpilot_nvg;
experimental_btn->frogpilot_scene = frogpilot_scene;
model.frogpilot_scene = frogpilot_scene;
dmon.frogpilot_toggles = frogpilot_toggles;
experimental_btn->frogpilot_toggles = frogpilot_toggles;
hud.frogpilot_toggles = frogpilot_toggles;
model.frogpilot_toggles = frogpilot_toggles;
model.draw(painter, rect());
dmon.draw(painter, rect());
hud.updateState(*s);
hud.draw(painter, rect());
// FrogPilot variables
frogpilot_nvg->paintFrogPilotWidgets(painter, *s);
double cur_draw_t = millis_since_boot();
double dt = cur_draw_t - prev_draw_t;
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();
}