from cereal import car
from opendbc . can . packer import CANPacker
from openpilot . common . numpy_fast import clip
from openpilot . selfdrive . car import apply_std_steer_angle_limits
from openpilot . selfdrive . car . ford import fordcan
from openpilot . selfdrive . car . ford . values import CarControllerParams , FordFlags
from openpilot . selfdrive . car . interfaces import CarControllerBase
from openpilot . selfdrive . controls . lib . drive_helpers import V_CRUISE_MAX
LongCtrlState = car . CarControl . Actuators . LongControlState
VisualAlert = car . CarControl . HUDControl . VisualAlert
def apply_ford_curvature_limits ( apply_curvature , apply_curvature_last , current_curvature , v_ego_raw ) :
# No blending at low speed due to lack of torque wind-up and inaccurate current curvature
if v_ego_raw > 9 :
apply_curvature = clip ( apply_curvature , current_curvature - CarControllerParams . CURVATURE_ERROR ,
current_curvature + CarControllerParams . CURVATURE_ERROR )
# Curvature rate limit after driver torque limit
apply_curvature = apply_std_steer_angle_limits ( apply_curvature , apply_curvature_last , v_ego_raw , CarControllerParams )
return clip ( apply_curvature , - CarControllerParams . CURVATURE_MAX , CarControllerParams . CURVATURE_MAX )
class CarController ( CarControllerBase ) :
def __init__ ( self , dbc_name , CP , VM ) :
self . CP = CP
self . VM = VM
self . packer = CANPacker ( dbc_name )
self . CAN = fordcan . CanBus ( CP )
self . frame = 0
self . apply_curvature_last = 0
self . main_on_last = False
self . lkas_enabled_last = False
self . steer_alert_last = False
self . lead_distance_bars_last = None
def update ( self , CC , CS , now_nanos ) :
can_sends = [ ]
actuators = CC . actuators
hud_control = CC . hudControl
main_on = CS . out . cruiseState . available
steer_alert = hud_control . visualAlert in ( VisualAlert . steerRequired , VisualAlert . ldw )
fcw_alert = hud_control . visualAlert == VisualAlert . fcw
### acc buttons ###
if CC . cruiseControl . cancel :
can_sends . append ( fordcan . create_button_msg ( self . packer , self . CAN . camera , CS . buttons_stock_values , cancel = True ) )
can_sends . append ( fordcan . create_button_msg ( self . packer , self . CAN . main , CS . buttons_stock_values , cancel = True ) )
elif CC . cruiseControl . resume and ( self . frame % CarControllerParams . BUTTONS_STEP ) == 0 :
can_sends . append ( fordcan . create_button_msg ( self . packer , self . CAN . camera , CS . buttons_stock_values , resume = True ) )
can_sends . append ( fordcan . create_button_msg ( self . packer , self . CAN . main , CS . buttons_stock_values , resume = True ) )
# if stock lane centering isn't off, send a button press to toggle it off
# the stock system checks for steering pressed, and eventually disengages cruise control
elif CS . acc_tja_status_stock_values [ " Tja_D_Stat " ] != 0 and ( self . frame % CarControllerParams . ACC_UI_STEP ) == 0 :
can_sends . append ( fordcan . create_button_msg ( self . packer , self . CAN . camera , CS . buttons_stock_values , tja_toggle = True ) )
### lateral control ###
# send steer msg at 20Hz
if ( self . frame % CarControllerParams . STEER_STEP ) == 0 :
if CC . latActive :
# apply rate limits, curvature error limit, and clip to signal range
current_curvature = - CS . out . yawRate / max ( CS . out . vEgoRaw , 0.1 )
apply_curvature = apply_ford_curvature_limits ( actuators . curvature , self . apply_curvature_last , current_curvature , CS . out . vEgoRaw )
else :
apply_curvature = 0.
self . apply_curvature_last = apply_curvature
if self . CP . flags & FordFlags . CANFD :
# TODO: extended mode
mode = 1 if CC . latActive else 0
counter = ( self . frame / / CarControllerParams . STEER_STEP ) % 0x10
can_sends . append ( fordcan . create_lat_ctl2_msg ( self . packer , self . CAN , mode , 0. , 0. , - apply_curvature , 0. , counter ) )
else :
can_sends . append ( fordcan . create_lat_ctl_msg ( self . packer , self . CAN , CC . latActive , 0. , 0. , - apply_curvature , 0. ) )
# send lka msg at 33Hz
if ( self . frame % CarControllerParams . LKA_STEP ) == 0 :
can_sends . append ( fordcan . create_lka_msg ( self . packer , self . CAN ) )
### longitudinal control ###
# send acc msg at 50Hz
if self . CP . openpilotLongitudinalControl and ( self . frame % CarControllerParams . ACC_CONTROL_STEP ) == 0 :
# Both gas and accel are in m/s^2, accel is used solely for braking
accel = clip ( actuators . accel , CarControllerParams . ACCEL_MIN , CarControllerParams . ACCEL_MAX )
gas = accel
if not CC . longActive or gas < CarControllerParams . MIN_GAS :
gas = CarControllerParams . INACTIVE_GAS
stopping = CC . actuators . longControlState == LongCtrlState . stopping
can_sends . append ( fordcan . create_acc_msg ( self . packer , self . CAN , CC . longActive , gas , accel , stopping , v_ego_kph = V_CRUISE_MAX ) )
### ui ###
send_ui = ( self . main_on_last != main_on ) or ( self . lkas_enabled_last != CC . latActive ) or ( self . steer_alert_last != steer_alert )
# send lkas ui msg at 1Hz or if ui state changes
if ( self . frame % CarControllerParams . LKAS_UI_STEP ) == 0 or send_ui :
can_sends . append ( fordcan . create_lkas_ui_msg ( self . packer , self . CAN , main_on , CC . latActive , steer_alert , hud_control , CS . lkas_status_stock_values ) )
# send acc ui msg at 5Hz or if ui state changes
if hud_control . leadDistanceBars != self . lead_distance_bars_last :
send_ui = True
if ( self . frame % CarControllerParams . ACC_UI_STEP ) == 0 or send_ui :
can_sends . append ( fordcan . create_acc_ui_msg ( self . packer , self . CAN , self . CP , main_on , CC . latActive ,
fcw_alert , CS . out . cruiseState . standstill , hud_control ,
CS . acc_tja_status_stock_values ) )
self . main_on_last = main_on
self . lkas_enabled_last = CC . latActive
self . steer_alert_last = steer_alert
self . lead_distance_bars_last = hud_control . leadDistanceBars
new_actuators = actuators . as_builder ( )
new_actuators . curvature = self . apply_curvature_last
self . frame + = 1
return new_actuators , can_sends
