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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/car/ford/fordcan.py

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from cereal import car
from selfdrive.car.ford.values import CANBUS
HUDControl = car.CarControl.HUDControl
def create_lka_command(packer, angle_deg: float, curvature: float):
"""
Creates a CAN message for the Ford LKAS Command.
This command can apply "Lane Keeping Aid" manoeuvres, which are subject to the PSCM lockout.
Frequency is 20Hz.
"""
values = {
"LkaDrvOvrrd_D_Rq": 0, # driver override level? [0|3]
"LkaActvStats_D2_Req": 0, # action [0|7]
"LaRefAng_No_Req": angle_deg, # angle [-102.4|102.3] degrees
"LaRampType_B_Req": 0, # Ramp speed: 0=Smooth, 1=Quick
"LaCurvature_No_Calc": curvature, # curvature [-0.01024|0.01023] 1/meter
"LdwActvStats_D_Req": 0, # LDW status [0|7]
"LdwActvIntns_D_Req": 0, # LDW intensity [0|3], shake alert strength
}
return packer.make_can_msg("Lane_Assist_Data1", CANBUS.main, values)
def create_tja_command(packer, lca_rq: int, ramp_type: int, precision: int, path_offset: float, path_angle: float, curvature_rate: float, curvature: float):
"""
Creates a CAN message for the Ford TJA/LCA Command.
This command can apply "Lane Centering" manoeuvres: continuous lane centering for traffic jam
assist and highway driving. It is not subject to the PSCM lockout.
Ford lane centering command uses a third order polynomial to describe the road centerline. The
polynomial is defined by the following coefficients:
c0: lateral offset between the vehicle and the centerline
c1: heading angle between the vehicle and the centerline
c2: curvature of the centerline
c3: rate of change of curvature of the centerline
As the PSCM combines this information with other sensor data, such as the vehicle's yaw rate and
speed, the steering angle cannot be easily controlled.
The PSCM should be configured to accept TJA/LCA commands before these commands will be processed.
This can be done using tools such as Forscan.
Frequency is 20Hz.
"""
values = {
"LatCtlRng_L_Max": 0, # Unknown [0|126] meter
"HandsOffCnfm_B_Rq": 0, # Unknown: 0=Inactive, 1=Active [0|1]
"LatCtl_D_Rq": lca_rq, # Mode: 0=None, 1=ContinuousPathFollowing, 2=InterventionLeft, 3=InterventionRight, 4-7=NotUsed [0|7]
"LatCtlRampType_D_Rq": ramp_type, # Ramp speed: 0=Slow, 1=Medium, 2=Fast, 3=Immediate [0|3]
"LatCtlPrecision_D_Rq": precision, # Precision: 0=Comfortable, 1=Precise, 2/3=NotUsed [0|3]
"LatCtlPathOffst_L_Actl": path_offset, # Path offset [-5.12|5.11] meter
"LatCtlPath_An_Actl": path_angle, # Path angle [-0.5|0.5235] radians
"LatCtlCurv_NoRate_Actl": curvature_rate, # Curvature rate [-0.001024|0.00102375] 1/meter^2
"LatCtlCurv_No_Actl": curvature, # Curvature [-0.02|0.02094] 1/meter
}
return packer.make_can_msg("LateralMotionControl", CANBUS.main, values)
def create_lkas_ui_command(packer, main_on: bool, enabled: bool, steer_alert: bool, hud_control, stock_values: dict):
"""
Creates a CAN message for the Ford IPC IPMA/LKAS status.
Show the LKAS status with the "driver assist" lines in the IPC.
Stock functionality is maintained by passing through unmodified signals.
Frequency is 1Hz.
"""
# LaActvStats_D_Dsply
# R Intvn Warn Supprs Avail No
# L
# Intvn 24 19 14 9 4
# Warn 23 18 13 8 3
# Supprs 22 17 12 7 2
# Avail 21 16 11 6 1
# No 20 15 10 5 0
#
# TODO: test suppress state
if enabled:
lines = 0 # NoLeft_NoRight
if hud_control.leftLaneDepart:
lines += 4
elif hud_control.leftLaneVisible:
lines += 1
if hud_control.rightLaneDepart:
lines += 20
elif hud_control.rightLaneVisible:
lines += 5
elif main_on:
lines = 0
else:
if hud_control.leftLaneDepart:
lines = 3 # WarnLeft_NoRight
elif hud_control.rightLaneDepart:
lines = 15 # NoLeft_WarnRight
else:
lines = 30 # LA_Off
# TODO: use level 1 for no sound when less severe?
hands_on_wheel_dsply = 2 if steer_alert else 0
values = {
**stock_values,
"LaActvStats_D_Dsply": lines, # LKAS status (lines) [0|31]
"LaHandsOff_D_Dsply": hands_on_wheel_dsply, # 0=HandsOn, 1=Level1 (w/o chime), 2=Level2 (w/ chime), 3=Suppressed
}
return packer.make_can_msg("IPMA_Data", CANBUS.main, values)
def create_acc_ui_command(packer, main_on: bool, enabled: bool, hud_control, stock_values: dict):
"""
Creates a CAN message for the Ford IPC adaptive cruise, forward collision warning and traffic jam
assist status.
Stock functionality is maintained by passing through unmodified signals.
Frequency is 20Hz.
"""
# Tja_D_Stat
if enabled:
if hud_control.leftLaneDepart:
status = 3 # ActiveInterventionLeft
elif hud_control.rightLaneDepart:
status = 4 # ActiveInterventionRight
else:
status = 2 # Active
elif main_on:
if hud_control.leftLaneDepart:
status = 5 # ActiveWarningLeft
elif hud_control.rightLaneDepart:
status = 6 # ActiveWarningRight
else:
status = 1 # Standby
else:
status = 0 # Off
values = {
**stock_values,
"Tja_D_Stat": status,
}
return packer.make_can_msg("ACCDATA_3", CANBUS.main, values)
def create_button_command(packer, stock_values: dict, cancel = False, resume = False, tja_toggle = False, bus: int = CANBUS.camera):
"""
Creates a CAN message for the Ford SCCM buttons/switches.
Includes cruise control buttons, turn lights and more.
"""
values = {
**stock_values,
"CcAslButtnCnclPress": 1 if cancel else 0, # CC cancel button
"CcAsllButtnResPress": 1 if resume else 0, # CC resume button
"TjaButtnOnOffPress": 1 if tja_toggle else 0, # TJA toggle button
}
return packer.make_can_msg("Steering_Data_FD1", bus, values)