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openpilot is an open source driver assistance system. openpilot performs the functions of Automated Lane Centering and Adaptive Cruise Control for over 200 supported car makes and models.
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openpilot_comma/selfdrive/locationd/calibrationd.py

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#!/usr/bin/env python3
import os
import copy
import json
import numpy as np
import cereal.messaging as messaging
from selfdrive.config import Conversions as CV
from selfdrive.locationd.calibration_helpers import Calibration
from selfdrive.swaglog import cloudlog
from common.params import Params, put_nonblocking
from common.transformations.model import model_height
from common.transformations.camera import view_frame_from_device_frame, get_view_frame_from_road_frame, \
get_calib_from_vp, vp_from_rpy, H, W, FOCAL
MIN_SPEED_FILTER = 15 * CV.MPH_TO_MS
MAX_VEL_ANGLE_STD = np.radians(0.25)
MAX_YAW_RATE_FILTER = np.radians(2) # per second
# This is all 20Hz, blocks needed for efficiency
BLOCK_SIZE = 100
INPUTS_NEEDED = 5 # allow to update VP every so many frames
INPUTS_WANTED = 50 # We want a little bit more than we need for stability
WRITE_CYCLES = 10 # write every 1000 cycles
VP_INIT = np.array([W/2., H/2.])
# These values are needed to accomodate biggest modelframe
VP_VALIDITY_CORNERS = np.array([[W//2 - 63, 300], [W//2 + 63, 520]])
DEBUG = os.getenv("DEBUG") is not None
def is_calibration_valid(vp):
return vp[0] > VP_VALIDITY_CORNERS[0, 0] and vp[0] < VP_VALIDITY_CORNERS[1, 0] and \
vp[1] > VP_VALIDITY_CORNERS[0, 1] and vp[1] < VP_VALIDITY_CORNERS[1, 1]
def sanity_clip(vp):
if np.isnan(vp).any():
vp = VP_INIT
return np.array([np.clip(vp[0], VP_VALIDITY_CORNERS[0, 0] - 5, VP_VALIDITY_CORNERS[1, 0] + 5),
np.clip(vp[1], VP_VALIDITY_CORNERS[0, 1] - 5, VP_VALIDITY_CORNERS[1, 1] + 5)])
def intrinsics_from_vp(vp):
return np.array([
[FOCAL, 0., vp[0]],
[ 0., FOCAL, vp[1]],
[ 0., 0., 1.]])
class Calibrator():
def __init__(self, param_put=False):
self.param_put = param_put
self.vp = copy.copy(VP_INIT)
self.vps = np.zeros((INPUTS_WANTED, 2))
self.idx = 0
self.block_idx = 0
self.valid_blocks = 0
self.cal_status = Calibration.UNCALIBRATED
self.just_calibrated = False
self.v_ego = 0
# Read calibration
if param_put:
calibration_params = Params().get("CalibrationParams")
else:
calibration_params = None
if calibration_params:
try:
calibration_params = json.loads(calibration_params)
self.vp = vp_from_rpy(calibration_params["calib_radians"])
if not np.isfinite(self.vp).all():
self.vp = copy.copy(VP_INIT)
self.vps = np.tile(self.vp, (INPUTS_WANTED, 1))
self.valid_blocks = calibration_params['valid_blocks']
if not np.isfinite(self.valid_blocks) or self.valid_blocks < 0:
self.valid_blocks = 0
self.update_status()
except Exception:
cloudlog.exception("CalibrationParams file found but error encountered")
def update_status(self):
start_status = self.cal_status
if self.valid_blocks < INPUTS_NEEDED:
self.cal_status = Calibration.UNCALIBRATED
else:
self.cal_status = Calibration.CALIBRATED if is_calibration_valid(self.vp) else Calibration.INVALID
end_status = self.cal_status
self.just_calibrated = False
if start_status == Calibration.UNCALIBRATED and end_status != Calibration.UNCALIBRATED:
self.just_calibrated = True
def handle_v_ego(self, v_ego):
self.v_ego = v_ego
def handle_cam_odom(self, trans, rot, trans_std, rot_std):
straight_and_fast = ((self.v_ego > MIN_SPEED_FILTER) and (trans[0] > MIN_SPEED_FILTER) and (abs(rot[2]) < MAX_YAW_RATE_FILTER))
certain_if_calib = ((np.arctan2(trans_std[1], trans[0]) < MAX_VEL_ANGLE_STD) or
(self.valid_blocks < INPUTS_NEEDED))
if straight_and_fast and certain_if_calib:
# intrinsics are not eon intrinsics, since this is calibrated frame
intrinsics = intrinsics_from_vp(self.vp)
new_vp = intrinsics.dot(view_frame_from_device_frame.dot(trans))
new_vp = new_vp[:2]/new_vp[2]
new_vp = sanity_clip(new_vp)
self.vps[self.block_idx] = (self.idx*self.vps[self.block_idx] + (BLOCK_SIZE - self.idx) * new_vp) / float(BLOCK_SIZE)
self.idx = (self.idx + 1) % BLOCK_SIZE
if self.idx == 0:
self.block_idx += 1
self.valid_blocks = max(self.block_idx, self.valid_blocks)
self.block_idx = self.block_idx % INPUTS_WANTED
if self.valid_blocks > 0:
self.vp = np.mean(self.vps[:self.valid_blocks], axis=0)
self.update_status()
if self.param_put and ((self.idx == 0 and self.block_idx == 0) or self.just_calibrated):
calib = get_calib_from_vp(self.vp)
cal_params = {"calib_radians": list(calib),
"valid_blocks": self.valid_blocks}
put_nonblocking("CalibrationParams", json.dumps(cal_params).encode('utf8'))
return new_vp
else:
return None
def send_data(self, pm):
calib = get_calib_from_vp(self.vp)
if self.valid_blocks > 0:
max_vp_calib = np.array(get_calib_from_vp(np.max(self.vps[:self.valid_blocks], axis=0)))
min_vp_calib = np.array(get_calib_from_vp(np.min(self.vps[:self.valid_blocks], axis=0)))
calib_spread = np.abs(max_vp_calib - min_vp_calib)
else:
calib_spread = np.zeros(3)
extrinsic_matrix = get_view_frame_from_road_frame(0, calib[1], calib[2], model_height)
cal_send = messaging.new_message('liveCalibration')
cal_send.liveCalibration.validBlocks = self.valid_blocks
cal_send.liveCalibration.calStatus = self.cal_status
cal_send.liveCalibration.calPerc = min(100 * (self.valid_blocks * BLOCK_SIZE + self.idx) // (INPUTS_NEEDED * BLOCK_SIZE), 100)
cal_send.liveCalibration.extrinsicMatrix = [float(x) for x in extrinsic_matrix.flatten()]
cal_send.liveCalibration.rpyCalib = [float(x) for x in calib]
cal_send.liveCalibration.rpyCalibSpread = [float(x) for x in calib_spread]
pm.send('liveCalibration', cal_send)
def calibrationd_thread(sm=None, pm=None):
if sm is None:
sm = messaging.SubMaster(['cameraOdometry', 'carState'])
if pm is None:
pm = messaging.PubMaster(['liveCalibration'])
calibrator = Calibrator(param_put=True)
send_counter = 0
while 1:
sm.update(wait_for="cameraOdometry")
# if no inputs still publish calibration
if not sm.updated['carState'] and not sm.updated['cameraOdometry']:
calibrator.send_data(pm)
continue
if sm.updated['carState']:
calibrator.handle_v_ego(sm['carState'].vEgo)
if sm.updated['cameraOdometry']:
new_vp = calibrator.handle_cam_odom(sm['cameraOdometry'].trans,
sm['cameraOdometry'].rot,
sm['cameraOdometry'].transStd,
sm['cameraOdometry'].rotStd)
if send_counter % 5 == 0:
calibrator.send_data(pm)
send_counter += 1
if DEBUG and new_vp is not None:
print('got new vp', new_vp)
def main(sm=None, pm=None):
calibrationd_thread(sm, pm)
if __name__ == "__main__":
main()