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108 lines
3.8 KiB
108 lines
3.8 KiB
import numpy as np
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from openpilot.selfdrive.controls.radard import RADAR_TO_CAMERA
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# Color palette used for rerun AnnotationContext
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rerunColorPalette = [(96, "red", (255, 0, 0)),
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(100, "pink", (255, 36, 0)),
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(124, "yellow", (255, 255, 0)),
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(230, "vibrantpink", (255, 36, 170)),
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(240, "orange", (255, 146, 0)),
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(255, "white", (255, 255, 255)),
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(110, "carColor", (255,0,127))]
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class UIParams:
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lidar_x, lidar_y, lidar_zoom = 384, 960, 6
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lidar_car_x, lidar_car_y = lidar_x / 2., lidar_y / 1.1
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car_hwidth = 1.7272 / 2 * lidar_zoom
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car_front = 2.6924 * lidar_zoom
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car_back = 1.8796 * lidar_zoom
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car_color = rerunColorPalette[6][0]
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UP = UIParams
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def to_topdown_pt(y, x):
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px, py = x * UP.lidar_zoom + UP.lidar_car_x, -y * UP.lidar_zoom + UP.lidar_car_y
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if px > 0 and py > 0 and px < UP.lidar_x and py < UP.lidar_y:
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return int(px), int(py)
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return -1, -1
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def draw_path(path, lid_overlay, lid_color=None):
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x, y = np.asarray(path.x), np.asarray(path.y)
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# draw lidar path point on lidar
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if lid_color is not None and lid_overlay is not None:
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for i in range(len(x)):
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px, py = to_topdown_pt(x[i], y[i])
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if px != -1:
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lid_overlay[px, py] = lid_color
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def plot_model(m, lid_overlay):
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if lid_overlay is None:
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return
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for lead in m.leadsV3:
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if lead.prob < 0.5:
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continue
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x, y = lead.x[0], lead.y[0]
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x_std = lead.xStd[0]
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x -= RADAR_TO_CAMERA
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_, py_top = to_topdown_pt(x + x_std, y)
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px, py_bottom = to_topdown_pt(x - x_std, y)
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lid_overlay[int(round(px - 4)):int(round(px + 4)), py_top:py_bottom] = rerunColorPalette[2][0]
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for path in m.laneLines:
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draw_path(path, lid_overlay, rerunColorPalette[2][0])
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for edge in m.roadEdges:
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draw_path(edge, lid_overlay, rerunColorPalette[0][0])
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draw_path(m.position, lid_overlay, rerunColorPalette[0][0])
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def plot_lead(rs, lid_overlay):
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for lead in [rs.leadOne, rs.leadTwo]:
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if not lead.status:
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continue
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x = lead.dRel
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px_left, py = to_topdown_pt(x, -10)
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px_right, _ = to_topdown_pt(x, 10)
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lid_overlay[px_left:px_right, py] = rerunColorPalette[0][0]
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def maybe_update_radar_points(lt, lid_overlay):
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ar_pts = []
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if lt is not None:
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ar_pts = {}
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for track in lt:
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ar_pts[track.trackId] = [track.dRel, track.yRel, track.vRel, track.aRel, track.oncoming, track.stationary]
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for ids, pt in ar_pts.items():
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# negative here since radar is left positive
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px, py = to_topdown_pt(pt[0], -pt[1])
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if px != -1:
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if pt[-1]:
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color = rerunColorPalette[4][0]
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elif pt[-2]:
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color = rerunColorPalette[3][0]
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else:
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color = rerunColorPalette[5][0]
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if int(ids) == 1:
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lid_overlay[px - 2:px + 2, py - 10:py + 10] = rerunColorPalette[1][0]
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else:
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lid_overlay[px - 2:px + 2, py - 2:py + 2] = color
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def get_blank_lid_overlay(UP):
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lid_overlay = np.zeros((UP.lidar_x, UP.lidar_y), 'uint8')
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# Draw the car.
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lid_overlay[int(round(UP.lidar_car_x - UP.car_hwidth)):int(
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round(UP.lidar_car_x + UP.car_hwidth)), int(round(UP.lidar_car_y -
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UP.car_front))] = UP.car_color
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lid_overlay[int(round(UP.lidar_car_x - UP.car_hwidth)):int(
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round(UP.lidar_car_x + UP.car_hwidth)), int(round(UP.lidar_car_y +
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UP.car_back))] = UP.car_color
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lid_overlay[int(round(UP.lidar_car_x - UP.car_hwidth)), int(
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round(UP.lidar_car_y - UP.car_front)):int(round(
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UP.lidar_car_y + UP.car_back))] = UP.car_color
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lid_overlay[int(round(UP.lidar_car_x + UP.car_hwidth)), int(
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round(UP.lidar_car_y - UP.car_front)):int(round(
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UP.lidar_car_y + UP.car_back))] = UP.car_color
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return lid_overlay
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