openpilot_comma/selfdrive/car/__init__.py

# functions common among cars
from common.numpy_fast import clip

# kg of standard extra cargo to count for drive, gas, etc...
STD_CARGO_KG = 136.


def gen_empty_fingerprint():
  return {i: {} for i in range(0, 4)}


# FIXME: hardcoding honda civic 2016 touring params so they can be used to
# scale unknown params for other cars
class CivicParams:
  MASS = 1326. + STD_CARGO_KG
  WHEELBASE = 2.70
  CENTER_TO_FRONT = WHEELBASE * 0.4
  CENTER_TO_REAR = WHEELBASE - CENTER_TO_FRONT
  ROTATIONAL_INERTIA = 2500
  TIRE_STIFFNESS_FRONT = 192150
  TIRE_STIFFNESS_REAR = 202500


# TODO: get actual value, for now starting with reasonable value for
# civic and scaling by mass and wheelbase
def scale_rot_inertia(mass, wheelbase):
  return CivicParams.ROTATIONAL_INERTIA * mass * wheelbase ** 2 / (CivicParams.MASS * CivicParams.WHEELBASE ** 2)


# TODO: start from empirically derived lateral slip stiffness for the civic and scale by
# mass and CG position, so all cars will have approximately similar dyn behaviors
def scale_tire_stiffness(mass, wheelbase, center_to_front, tire_stiffness_factor=1.0):
  center_to_rear = wheelbase - center_to_front
  tire_stiffness_front = (CivicParams.TIRE_STIFFNESS_FRONT * tire_stiffness_factor) * mass / CivicParams.MASS * \
                         (center_to_rear / wheelbase) / (CivicParams.CENTER_TO_REAR / CivicParams.WHEELBASE)

  tire_stiffness_rear = (CivicParams.TIRE_STIFFNESS_REAR * tire_stiffness_factor) * mass / CivicParams.MASS * \
                        (center_to_front / wheelbase) / (CivicParams.CENTER_TO_FRONT / CivicParams.WHEELBASE)

  return tire_stiffness_front, tire_stiffness_rear


def dbc_dict(pt_dbc, radar_dbc, chassis_dbc=None, body_dbc=None):
  return {'pt': pt_dbc, 'radar': radar_dbc, 'chassis': chassis_dbc, 'body': body_dbc}


def apply_std_steer_torque_limits(apply_torque, apply_torque_last, driver_torque, LIMITS):

  # limits due to driver torque
  driver_max_torque = LIMITS.STEER_MAX + (LIMITS.STEER_DRIVER_ALLOWANCE + driver_torque * LIMITS.STEER_DRIVER_FACTOR) * LIMITS.STEER_DRIVER_MULTIPLIER
  driver_min_torque = -LIMITS.STEER_MAX + (-LIMITS.STEER_DRIVER_ALLOWANCE + driver_torque * LIMITS.STEER_DRIVER_FACTOR) * LIMITS.STEER_DRIVER_MULTIPLIER
  max_steer_allowed = max(min(LIMITS.STEER_MAX, driver_max_torque), 0)
  min_steer_allowed = min(max(-LIMITS.STEER_MAX, driver_min_torque), 0)
  apply_torque = clip(apply_torque, min_steer_allowed, max_steer_allowed)

  # slow rate if steer torque increases in magnitude
  if apply_torque_last > 0:
    apply_torque = clip(apply_torque, max(apply_torque_last - LIMITS.STEER_DELTA_DOWN, -LIMITS.STEER_DELTA_UP),
                        apply_torque_last + LIMITS.STEER_DELTA_UP)
  else:
    apply_torque = clip(apply_torque, apply_torque_last - LIMITS.STEER_DELTA_UP,
                        min(apply_torque_last + LIMITS.STEER_DELTA_DOWN, LIMITS.STEER_DELTA_UP))

  return int(round(float(apply_torque)))


def apply_toyota_steer_torque_limits(apply_torque, apply_torque_last, motor_torque, LIMITS):
  # limits due to comparison of commanded torque VS motor reported torque
  max_lim = min(max(motor_torque + LIMITS.STEER_ERROR_MAX, LIMITS.STEER_ERROR_MAX), LIMITS.STEER_MAX)
  min_lim = max(min(motor_torque - LIMITS.STEER_ERROR_MAX, -LIMITS.STEER_ERROR_MAX), -LIMITS.STEER_MAX)

  apply_torque = clip(apply_torque, min_lim, max_lim)

  # slow rate if steer torque increases in magnitude
  if apply_torque_last > 0:
    apply_torque = clip(apply_torque,
                        max(apply_torque_last - LIMITS.STEER_DELTA_DOWN, -LIMITS.STEER_DELTA_UP),
                        apply_torque_last + LIMITS.STEER_DELTA_UP)
  else:
    apply_torque = clip(apply_torque,
                        apply_torque_last - LIMITS.STEER_DELTA_UP,
                        min(apply_torque_last + LIMITS.STEER_DELTA_DOWN, LIMITS.STEER_DELTA_UP))

  return int(round(float(apply_torque)))


def crc8_pedal(data):
  crc = 0xFF    # standard init value
  poly = 0xD5   # standard crc8: x8+x7+x6+x4+x2+1
  size = len(data)
  for i in range(size - 1, -1, -1):
    crc ^= data[i]
    for _ in range(8):
      if ((crc & 0x80) != 0):
        crc = ((crc << 1) ^ poly) & 0xFF
      else:
        crc <<= 1
  return crc


def create_gas_command(packer, gas_amount, idx):
  # Common gas pedal msg generator
  enable = gas_amount > 0.001

  values = {
    "ENABLE": enable,
    "COUNTER_PEDAL": idx & 0xF,
  }

  if enable:
    values["GAS_COMMAND"] = gas_amount * 255.
    values["GAS_COMMAND2"] = gas_amount * 255.

  dat = packer.make_can_msg("GAS_COMMAND", 0, values)[2]

  checksum = crc8_pedal(dat[:-1])
  values["CHECKSUM_PEDAL"] = checksum

  return packer.make_can_msg("GAS_COMMAND", 0, values)


def make_can_msg(addr, dat, bus):
  return [addr, 0, dat, bus]
selfdrive/car 5 years ago			`# functions common among cars`
			`from common.numpy_fast import clip`

			`# kg of standard extra cargo to count for drive, gas, etc...`
			`STD_CARGO_KG = 136.`

Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago
selfdrive/car 5 years ago			`def gen_empty_fingerprint():`
			`return {i: {} for i in range(0, 4)}`

Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago
selfdrive/car 5 years ago			`# FIXME: hardcoding honda civic 2016 touring params so they can be used to`
			`# scale unknown params for other cars`
			`class CivicParams:`
			`MASS = 1326. + STD_CARGO_KG`
			`WHEELBASE = 2.70`
			`CENTER_TO_FRONT = WHEELBASE * 0.4`
			`CENTER_TO_REAR = WHEELBASE - CENTER_TO_FRONT`
			`ROTATIONAL_INERTIA = 2500`
			`TIRE_STIFFNESS_FRONT = 192150`
			`TIRE_STIFFNESS_REAR = 202500`

Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago
selfdrive/car 5 years ago			`# TODO: get actual value, for now starting with reasonable value for`
			`# civic and scaling by mass and wheelbase`
			`def scale_rot_inertia(mass, wheelbase):`
			`return CivicParams.ROTATIONAL_INERTIA * mass * wheelbase ** 2 / (CivicParams.MASS * CivicParams.WHEELBASE ** 2)`

Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago
selfdrive/car 5 years ago			`# TODO: start from empirically derived lateral slip stiffness for the civic and scale by`
			`# mass and CG position, so all cars will have approximately similar dyn behaviors`
			`def scale_tire_stiffness(mass, wheelbase, center_to_front, tire_stiffness_factor=1.0):`
			`center_to_rear = wheelbase - center_to_front`
			`tire_stiffness_front = (CivicParams.TIRE_STIFFNESS_FRONT * tire_stiffness_factor) * mass / CivicParams.MASS * \`
			`(center_to_rear / wheelbase) / (CivicParams.CENTER_TO_REAR / CivicParams.WHEELBASE)`

			`tire_stiffness_rear = (CivicParams.TIRE_STIFFNESS_REAR * tire_stiffness_factor) * mass / CivicParams.MASS * \`
			`(center_to_front / wheelbase) / (CivicParams.CENTER_TO_FRONT / CivicParams.WHEELBASE)`

			`return tire_stiffness_front, tire_stiffness_rear`

Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago
Honda CRV BSM alert from B-CAN (#1867) 5 years ago			`def dbc_dict(pt_dbc, radar_dbc, chassis_dbc=None, body_dbc=None):`
			`return {'pt': pt_dbc, 'radar': radar_dbc, 'chassis': chassis_dbc, 'body': body_dbc}`
selfdrive/car 5 years ago

			`def apply_std_steer_torque_limits(apply_torque, apply_torque_last, driver_torque, LIMITS):`

			`# limits due to driver torque`
			`driver_max_torque = LIMITS.STEER_MAX + (LIMITS.STEER_DRIVER_ALLOWANCE + driver_torque * LIMITS.STEER_DRIVER_FACTOR) * LIMITS.STEER_DRIVER_MULTIPLIER`
			`driver_min_torque = -LIMITS.STEER_MAX + (-LIMITS.STEER_DRIVER_ALLOWANCE + driver_torque * LIMITS.STEER_DRIVER_FACTOR) * LIMITS.STEER_DRIVER_MULTIPLIER`
			`max_steer_allowed = max(min(LIMITS.STEER_MAX, driver_max_torque), 0)`
			`min_steer_allowed = min(max(-LIMITS.STEER_MAX, driver_min_torque), 0)`
			`apply_torque = clip(apply_torque, min_steer_allowed, max_steer_allowed)`

			`# slow rate if steer torque increases in magnitude`
			`if apply_torque_last > 0:`
			`apply_torque = clip(apply_torque, max(apply_torque_last - LIMITS.STEER_DELTA_DOWN, -LIMITS.STEER_DELTA_UP),`
Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago			`apply_torque_last + LIMITS.STEER_DELTA_UP)`
selfdrive/car 5 years ago			`else:`
			`apply_torque = clip(apply_torque, apply_torque_last - LIMITS.STEER_DELTA_UP,`
Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago			`min(apply_torque_last + LIMITS.STEER_DELTA_DOWN, LIMITS.STEER_DELTA_UP))`
selfdrive/car 5 years ago
			`return int(round(float(apply_torque)))`


			`def apply_toyota_steer_torque_limits(apply_torque, apply_torque_last, motor_torque, LIMITS):`
			`# limits due to comparison of commanded torque VS motor reported torque`
			`max_lim = min(max(motor_torque + LIMITS.STEER_ERROR_MAX, LIMITS.STEER_ERROR_MAX), LIMITS.STEER_MAX)`
			`min_lim = max(min(motor_torque - LIMITS.STEER_ERROR_MAX, -LIMITS.STEER_ERROR_MAX), -LIMITS.STEER_MAX)`

			`apply_torque = clip(apply_torque, min_lim, max_lim)`

			`# slow rate if steer torque increases in magnitude`
			`if apply_torque_last > 0:`
			`apply_torque = clip(apply_torque,`
			`max(apply_torque_last - LIMITS.STEER_DELTA_DOWN, -LIMITS.STEER_DELTA_UP),`
			`apply_torque_last + LIMITS.STEER_DELTA_UP)`
			`else:`
			`apply_torque = clip(apply_torque,`
			`apply_torque_last - LIMITS.STEER_DELTA_UP,`
			`min(apply_torque_last + LIMITS.STEER_DELTA_DOWN, LIMITS.STEER_DELTA_UP))`

			`return int(round(float(apply_torque)))`


			`def crc8_pedal(data):`
			`crc = 0xFF # standard init value`
			`poly = 0xD5 # standard crc8: x8+x7+x6+x4+x2+1`
			`size = len(data)`
Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago			`for i in range(size - 1, -1, -1):`
selfdrive/car 5 years ago			`crc ^= data[i]`
Make pylint more strict (#1626) * make pylint more strict * cleanup in progress * done cleaning up * no opendbc 5 years ago			`for _ in range(8):`
selfdrive/car 5 years ago			`if ((crc & 0x80) != 0):`
			`crc = ((crc << 1) ^ poly) & 0xFF`
			`else:`
			`crc <<= 1`
			`return crc`


			`def create_gas_command(packer, gas_amount, idx):`
			`# Common gas pedal msg generator`
			`enable = gas_amount > 0.001`

			`values = {`
			`"ENABLE": enable,`
			`"COUNTER_PEDAL": idx & 0xF,`
			`}`

			`if enable:`
			`values["GAS_COMMAND"] = gas_amount * 255.`
			`values["GAS_COMMAND2"] = gas_amount * 255.`

			`dat = packer.make_can_msg("GAS_COMMAND", 0, values)[2]`

			`checksum = crc8_pedal(dat[:-1])`
			`values["CHECKSUM_PEDAL"] = checksum`

			`return packer.make_can_msg("GAS_COMMAND", 0, values)`


			`def make_can_msg(addr, dat, bus):`
			`return [addr, 0, dat, bus]`