#include "Sub.h" #include /* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* * ArduSub parameter definitions * */ const AP_Param::Info Sub::var_info[] = { // @Param: SURFACE_DEPTH // @DisplayName: Depth reading at surface // @Description: The depth the external pressure sensor will read when the vehicle is considered at the surface (in centimeters) // @Units: cm // @Range: -100 0 // @User: Standard GSCALAR(surface_depth, "SURFACE_DEPTH", SURFACE_DEPTH_DEFAULT), // @Param: FORMAT_VERSION // @DisplayName: Eeprom format version number // @Description: This value is incremented when changes are made to the eeprom format // @User: Advanced GSCALAR(format_version, "FORMAT_VERSION", 0), // @Param: SYSID_THISMAV // @DisplayName: MAVLink system ID of this vehicle // @Description: Allows setting an individual MAVLink system id for this vehicle to distinguish it from others on the same network // @Range: 1 255 // @User: Advanced GSCALAR(sysid_this_mav, "SYSID_THISMAV", MAV_SYSTEM_ID), // @Param: SYSID_MYGCS // @DisplayName: My ground station number // @Description: Allows restricting radio overrides to only come from my ground station // @Range: 1 255 // @Increment: 1 // @User: Advanced GSCALAR(sysid_my_gcs, "SYSID_MYGCS", 255), // @Param: PILOT_THR_FILT // @DisplayName: Throttle filter cutoff // @Description: Throttle filter cutoff (Hz) - active whenever altitude control is inactive - 0 to disable // @User: Advanced // @Units: Hz // @Range: 0 10 // @Increment: .5 GSCALAR(throttle_filt, "PILOT_THR_FILT", 0), // AP_SerialManager was here // @Param: GCS_PID_MASK // @DisplayName: GCS PID tuning mask // @Description: bitmask of PIDs to send MAVLink PID_TUNING messages for // @User: Advanced // @Bitmask: 0:Roll,1:Pitch,2:Yaw GSCALAR(gcs_pid_mask, "GCS_PID_MASK", 0), // @Param: FS_GCS_ENABLE // @DisplayName: Ground Station Failsafe Enable // @Description: Controls what action to take when GCS heartbeat is lost. // @Values: 0:Disabled,1:Warn only,2:Disarm,3:Enter depth hold mode,4:Enter surface mode // @User: Standard GSCALAR(failsafe_gcs, "FS_GCS_ENABLE", FS_GCS_DISARM), // @Param: FS_LEAK_ENABLE // @DisplayName: Leak Failsafe Enable // @Description: Controls what action to take if a leak is detected. // @Values: 0:Disabled,1:Warn only,2:Enter surface mode // @User: Standard GSCALAR(failsafe_leak, "FS_LEAK_ENABLE", FS_LEAK_WARN_ONLY), // @Param: FS_PRESS_ENABLE // @DisplayName: Internal Pressure Failsafe Enable // @Description: Controls what action to take if internal pressure exceeds FS_PRESS_MAX parameter. // @Values: 0:Disabled,1:Warn only // @User: Standard GSCALAR(failsafe_pressure, "FS_PRESS_ENABLE", FS_PRESS_DISABLED), // @Param: FS_TEMP_ENABLE // @DisplayName: Internal Temperature Failsafe Enable // @Description: Controls what action to take if internal temperature exceeds FS_TEMP_MAX parameter. // @Values: 0:Disabled,1:Warn only // @User: Standard GSCALAR(failsafe_temperature, "FS_TEMP_ENABLE", FS_TEMP_DISABLED), // @Param: FS_PRESS_MAX // @DisplayName: Internal Pressure Failsafe Threshold // @Description: The maximum internal pressure allowed before triggering failsafe. Failsafe action is determined by FS_PRESS_ENABLE parameter // @Units: Pa // @User: Standard GSCALAR(failsafe_pressure_max, "FS_PRESS_MAX", FS_PRESS_MAX_DEFAULT), // @Param: FS_TEMP_MAX // @DisplayName: Internal Temperature Failsafe Threshold // @Description: The maximum internal temperature allowed before triggering failsafe. Failsafe action is determined by FS_TEMP_ENABLE parameter. // @Units: degC // @User: Standard GSCALAR(failsafe_temperature_max, "FS_TEMP_MAX", FS_TEMP_MAX_DEFAULT), // @Param: FS_TERRAIN_ENAB // @DisplayName: Terrain Failsafe Enable // @Description: Controls what action to take if terrain information is lost during AUTO mode // @Values: 0:Disarm, 1:Hold Position, 2:Surface // @User: Standard GSCALAR(failsafe_terrain, "FS_TERRAIN_ENAB", FS_TERRAIN_DISARM), // @Param: FS_PILOT_INPUT // @DisplayName: Pilot input failsafe action // @Description: Controls what action to take if no pilot input has been received after the timeout period specified by the FS_PILOT_TIMEOUT parameter // @Values: 0:Disabled, 1:Warn Only, 2:Disarm // @User: Standard GSCALAR(failsafe_pilot_input, "FS_PILOT_INPUT", FS_PILOT_INPUT_DISARM), // @Param: FS_PILOT_TIMEOUT // @DisplayName: Timeout for activation of pilot input failsafe // @Description: Controls the maximum interval between received pilot inputs before the failsafe action is triggered // @Units: s // @Range: 0.1 3.0 // @User: Standard GSCALAR(failsafe_pilot_input_timeout, "FS_PILOT_TIMEOUT", 3.0f), // @Param: XTRACK_ANG_LIM // @DisplayName: Crosstrack correction angle limit // @Description: Maximum allowed angle (in degrees) between current track and desired heading during waypoint navigation // @Range: 10 90 // @User: Standard GSCALAR(xtrack_angle_limit,"XTRACK_ANG_LIM", 45), // @Param: WP_YAW_BEHAVIOR // @DisplayName: Yaw behaviour during missions // @Description: Determines how the autopilot controls the yaw during missions and RTL // @Values: 0:Never change yaw, 1:Face next waypoint, 2:Face next waypoint except RTL, 3:Face along GPS course, 4:Correct crosstrack error // @User: Standard GSCALAR(wp_yaw_behavior, "WP_YAW_BEHAVIOR", WP_YAW_BEHAVIOR_DEFAULT), // @Param: PILOT_SPEED_UP // @DisplayName: Pilot maximum vertical ascending speed // @Description: The maximum vertical ascending velocity the pilot may request in cm/s // @Units: cm/s // @Range: 50 500 // @Increment: 10 // @User: Standard GSCALAR(pilot_speed_up, "PILOT_SPEED_UP", PILOT_VELZ_MAX), // @Param: PILOT_SPEED_DN // @DisplayName: Pilot maximum vertical descending speed // @Description: The maximum vertical descending velocity the pilot may request in cm/s // @Units: cm/s // @Range: 50 500 // @Increment: 10 // @User: Standard GSCALAR(pilot_speed_dn, "PILOT_SPEED_DN", 0), // @Param: PILOT_ACCEL_Z // @DisplayName: Pilot vertical acceleration // @Description: The vertical acceleration used when pilot is controlling the altitude // @Units: cm/s/s // @Range: 50 500 // @Increment: 10 // @User: Standard GSCALAR(pilot_accel_z, "PILOT_ACCEL_Z", PILOT_ACCEL_Z_DEFAULT), // @Param: THR_DZ // @DisplayName: Throttle deadzone // @Description: The PWM deadzone in microseconds above and below mid throttle. Used in AltHold, Loiter, PosHold flight modes // @User: Standard // @Range: 0 300 // @Units: PWM // @Increment: 1 GSCALAR(throttle_deadzone, "THR_DZ", THR_DZ_DEFAULT), // @Param: LOG_BITMASK // @DisplayName: Log bitmask // @Description: 4 byte bitmap of log types to enable // @Bitmask: 0:ATTITUDE_FAST,1:ATTITUDE_MED,2:GPS,3:PM,4:CTUN,5:NTUN,6:RCIN,7:IMU,8:CMD,9:CURRENT,10:RCOUT,11:OPTFLOW,12:PID,13:COMPASS,14:INAV,15:CAMERA,17:MOTBATT,18:IMU_FAST,19:IMU_RAW // @User: Standard GSCALAR(log_bitmask, "LOG_BITMASK", DEFAULT_LOG_BITMASK), // @Param: ANGLE_MAX // @DisplayName: Angle Max // @Description: Maximum lean angle in all flight modes // @Units: cdeg // @Increment: 10 // @Range: 1000 8000 // @User: Advanced ASCALAR(angle_max, "ANGLE_MAX", DEFAULT_ANGLE_MAX), // @Param: FS_EKF_ACTION // @DisplayName: EKF Failsafe Action // @Description: Controls the action that will be taken when an EKF failsafe is invoked // @Values: 0:Disabled, 1:Warn only, 2:Disarm // @User: Advanced GSCALAR(fs_ekf_action, "FS_EKF_ACTION", FS_EKF_ACTION_DEFAULT), // @Param: FS_EKF_THRESH // @DisplayName: EKF failsafe variance threshold // @Description: Allows setting the maximum acceptable compass and velocity variance // @Values: 0.6:Strict, 0.8:Default, 1.0:Relaxed // @User: Advanced GSCALAR(fs_ekf_thresh, "FS_EKF_THRESH", FS_EKF_THRESHOLD_DEFAULT), // @Param: FS_CRASH_CHECK // @DisplayName: Crash check enable // @Description: This enables automatic crash checking. When enabled the motors will disarm if a crash is detected. // @Values: 0:Disabled,1:Warn only,2:Disarm // @User: Advanced GSCALAR(fs_crash_check, "FS_CRASH_CHECK", FS_CRASH_DISABLED), // @Param: JS_GAIN_DEFAULT // @DisplayName: Default gain at boot // @Description: Default gain at boot, must be in range [JS_GAIN_MIN , JS_GAIN_MAX]. Current gain value is accessible via NAMED_VALUE_FLOAT MAVLink message with name 'PilotGain'. // @User: Standard // @Range: 0.1 1.0 GSCALAR(gain_default, "JS_GAIN_DEFAULT", 0.5), // @Param: JS_GAIN_MAX // @DisplayName: Maximum joystick gain // @Description: Maximum joystick gain // @User: Standard // @Range: 0.2 1.0 GSCALAR(maxGain, "JS_GAIN_MAX", 1.0), // @Param: JS_GAIN_MIN // @DisplayName: Minimum joystick gain // @Description: Minimum joystick gain // @User: Standard // @Range: 0.1 0.8 GSCALAR(minGain, "JS_GAIN_MIN", 0.25), // @Param: JS_GAIN_STEPS // @DisplayName: Gain steps // @Description: Controls the number of steps between minimum and maximum joystick gain when the gain is adjusted using buttons. Set to 1 to always use JS_GAIN_DEFAULT. // @User: Standard // @Range: 1 10 GSCALAR(numGainSettings, "JS_GAIN_STEPS", 4), // @Param: JS_LIGHTS_STEPS // @DisplayName: Lights brightness steps // @Description: Number of steps in brightness between minimum and maximum brightness // @User: Standard // @Range: 1 10 // @Units: PWM GSCALAR(lights_steps, "JS_LIGHTS_STEPS", 8), // @Param: JS_THR_GAIN // @DisplayName: Throttle gain scalar // @Description: Scalar for gain on the throttle channel. Gets scaled with the current JS gain // @User: Standard // @Range: 0.5 4.0 GSCALAR(throttle_gain, "JS_THR_GAIN", 1.0f), // @Param: FRAME_CONFIG // @DisplayName: Frame configuration // @Description: Set this parameter according to your vehicle/motor configuration // @User: Standard // @RebootRequired: True // @Values: 0:BlueROV1, 1:Vectored, 2:Vectored_6DOF, 3:Vectored_6DOF_90, 4:SimpleROV-3, 5:SimpleROV-4, 6:SimpleROV-5, 7:Custom GSCALAR(frame_configuration, "FRAME_CONFIG", AP_Motors6DOF::SUB_FRAME_VECTORED), // @Group: BTN0_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_0, "BTN0_", JSButton), // @Group: BTN1_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_1, "BTN1_", JSButton), // @Group: BTN2_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_2, "BTN2_", JSButton), // @Group: BTN3_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_3, "BTN3_", JSButton), // @Group: BTN4_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_4, "BTN4_", JSButton), // @Group: BTN5_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_5, "BTN5_", JSButton), // @Group: BTN6_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_6, "BTN6_", JSButton), // @Group: BTN7_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_7, "BTN7_", JSButton), // @Group: BTN8_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_8, "BTN8_", JSButton), // @Group: BTN9_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_9, "BTN9_", JSButton), // @Group: BTN10_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_10, "BTN10_", JSButton), // @Group: BTN11_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_11, "BTN11_", JSButton), // @Group: BTN12_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_12, "BTN12_", JSButton), // @Group: BTN13_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_13, "BTN13_", JSButton), // @Group: BTN14_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_14, "BTN14_", JSButton), // @Group: BTN15_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_15, "BTN15_", JSButton), // @Group: BTN16_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_16, "BTN16_", JSButton), // @Group: BTN17_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_17, "BTN17_", JSButton), // @Group: BTN18_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_18, "BTN18_", JSButton), // @Group: BTN19_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_19, "BTN19_", JSButton), // @Group: BTN20_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_20, "BTN20_", JSButton), // @Group: BTN21_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_21, "BTN21_", JSButton), // @Group: BTN22_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_22, "BTN22_", JSButton), // @Group: BTN23_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_23, "BTN23_", JSButton), // @Group: BTN24_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_24, "BTN24_", JSButton), // @Group: BTN25_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_25, "BTN25_", JSButton), // @Group: BTN26_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_26, "BTN26_", JSButton), // @Group: BTN27_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_27, "BTN27_", JSButton), // @Group: BTN28_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_28, "BTN28_", JSButton), // @Group: BTN29_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_29, "BTN29_", JSButton), // @Group: BTN30_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_30, "BTN30_", JSButton), // @Group: BTN31_ // @Path: ../libraries/AP_JSButton/AP_JSButton.cpp GGROUP(jbtn_31, "BTN31_", JSButton), // @Param: RC_SPEED // @DisplayName: ESC Update Speed // @Description: This is the speed in Hertz that your ESCs will receive updates // @Units: Hz // @Range: 50 490 // @Increment: 1 // @User: Advanced GSCALAR(rc_speed, "RC_SPEED", RC_SPEED_DEFAULT), // @Param: ACRO_RP_P // @DisplayName: Acro Roll and Pitch P gain // @Description: Converts pilot roll and pitch into a desired rate of rotation in ACRO and SPORT mode. Higher values mean faster rate of rotation. // @Range: 1 10 // @User: Standard GSCALAR(acro_rp_p, "ACRO_RP_P", ACRO_RP_P), // @Param: ACRO_YAW_P // @DisplayName: Acro Yaw P gain // @Description: Converts pilot yaw input into a desired rate of rotation. Higher values mean faster rate of rotation. // @Range: 1 10 // @User: Standard GSCALAR(acro_yaw_p, "ACRO_YAW_P", ACRO_YAW_P), // @Param: ACRO_BAL_ROLL // @DisplayName: Acro Balance Roll // @Description: rate at which roll angle returns to level in acro mode. A higher value causes the vehicle to return to level faster. // @Range: 0 3 // @Increment: 0.1 // @User: Advanced GSCALAR(acro_balance_roll, "ACRO_BAL_ROLL", ACRO_BALANCE_ROLL), // @Param: ACRO_BAL_PITCH // @DisplayName: Acro Balance Pitch // @Description: rate at which pitch angle returns to level in acro mode. A higher value causes the vehicle to return to level faster. // @Range: 0 3 // @Increment: 0.1 // @User: Advanced GSCALAR(acro_balance_pitch, "ACRO_BAL_PITCH", ACRO_BALANCE_PITCH), // @Param: ACRO_TRAINER // @DisplayName: Acro Trainer // @Description: Type of trainer used in acro mode // @Values: 0:Disabled,1:Leveling,2:Leveling and Limited // @User: Advanced GSCALAR(acro_trainer, "ACRO_TRAINER", ACRO_TRAINER_LIMITED), // @Param: ACRO_EXPO // @DisplayName: Acro Expo // @Description: Acro roll/pitch Expo to allow faster rotation when stick at edges // @Values: 0:Disabled,0.1:Very Low,0.2:Low,0.3:Medium,0.4:High,0.5:Very High // @User: Advanced GSCALAR(acro_expo, "ACRO_EXPO", ACRO_EXPO_DEFAULT), // variables not in the g class which contain EEPROM saved variables #if AP_CAMERA_ENABLED // @Group: CAM // @Path: ../libraries/AP_Camera/AP_Camera.cpp GOBJECT(camera, "CAM", AP_Camera), #endif #if AP_RELAY_ENABLED // @Group: RELAY // @Path: ../libraries/AP_Relay/AP_Relay.cpp GOBJECT(relay, "RELAY", AP_Relay), #endif // @Group: COMPASS_ // @Path: ../libraries/AP_Compass/AP_Compass.cpp GOBJECT(compass, "COMPASS_", Compass), // @Group: INS // @Path: ../libraries/AP_InertialSensor/AP_InertialSensor.cpp GOBJECT(ins, "INS", AP_InertialSensor), // @Group: WPNAV_ // @Path: ../libraries/AC_WPNav/AC_WPNav.cpp GOBJECT(wp_nav, "WPNAV_", AC_WPNav), // @Group: LOIT_ // @Path: ../libraries/AC_WPNav/AC_Loiter.cpp GOBJECT(loiter_nav, "LOIT_", AC_Loiter), #if CIRCLE_NAV_ENABLED == ENABLED // @Group: CIRCLE_ // @Path: ../libraries/AC_WPNav/AC_Circle.cpp GOBJECT(circle_nav, "CIRCLE_", AC_Circle), #endif // @Group: ATC_ // @Path: ../libraries/AC_AttitudeControl/AC_AttitudeControl.cpp,../libraries/AC_AttitudeControl/AC_AttitudeControl_Sub.cpp GOBJECT(attitude_control, "ATC_", AC_AttitudeControl_Sub), // @Group: PSC // @Path: ../libraries/AC_AttitudeControl/AC_PosControl.cpp GOBJECT(pos_control, "PSC", AC_PosControl), // @Group: SR0_ // @Path: GCS_Mavlink.cpp GOBJECTN(_gcs.chan_parameters[0], gcs0, "SR0_", GCS_MAVLINK_Parameters), #if MAVLINK_COMM_NUM_BUFFERS >= 2 // @Group: SR1_ // @Path: GCS_Mavlink.cpp GOBJECTN(_gcs.chan_parameters[1], gcs1, "SR1_", GCS_MAVLINK_Parameters), #endif #if MAVLINK_COMM_NUM_BUFFERS >= 3 // @Group: SR2_ // @Path: GCS_Mavlink.cpp GOBJECTN(_gcs.chan_parameters[2], gcs2, "SR2_", GCS_MAVLINK_Parameters), #endif #if MAVLINK_COMM_NUM_BUFFERS >= 4 // @Group: SR3_ // @Path: GCS_Mavlink.cpp GOBJECTN(_gcs.chan_parameters[3], gcs3, "SR3_", GCS_MAVLINK_Parameters), #endif #if MAVLINK_COMM_NUM_BUFFERS >= 5 // @Group: SR4_ // @Path: GCS_Mavlink.cpp GOBJECTN(_gcs.chan_parameters[4], gcs4, "SR4_", GCS_MAVLINK_Parameters), #endif #if MAVLINK_COMM_NUM_BUFFERS >= 6 // @Group: SR5_ // @Path: GCS_Mavlink.cpp GOBJECTN(_gcs.chan_parameters[5], gcs5, "SR5_", GCS_MAVLINK_Parameters), #endif #if MAVLINK_COMM_NUM_BUFFERS >= 7 // @Group: SR6_ // @Path: GCS_Mavlink.cpp GOBJECTN(_gcs.chan_parameters[6], gcs6, "SR6_", GCS_MAVLINK_Parameters), #endif // @Group: AHRS_ // @Path: ../libraries/AP_AHRS/AP_AHRS.cpp GOBJECT(ahrs, "AHRS_", AP_AHRS), #if HAL_MOUNT_ENABLED // @Group: MNT // @Path: ../libraries/AP_Mount/AP_Mount.cpp GOBJECT(camera_mount, "MNT", AP_Mount), #endif // @Group: BATT // @Path: ../libraries/AP_BattMonitor/AP_BattMonitor.cpp GOBJECT(battery, "BATT", AP_BattMonitor), // @Group: ARMING_ // @Path: AP_Arming_Sub.cpp,../libraries/AP_Arming/AP_Arming.cpp GOBJECT(arming, "ARMING_", AP_Arming_Sub), // @Group: BRD_ // @Path: ../libraries/AP_BoardConfig/AP_BoardConfig.cpp GOBJECT(BoardConfig, "BRD_", AP_BoardConfig), #if HAL_MAX_CAN_PROTOCOL_DRIVERS // @Group: CAN_ // @Path: ../libraries/AP_CANManager/AP_CANManager.cpp GOBJECT(can_mgr, "CAN_", AP_CANManager), #endif #if AP_SIM_ENABLED // @Group: SIM_ // @Path: ../libraries/SITL/SITL.cpp GOBJECT(sitl, "SIM_", SITL::SIM), #endif // @Group: BARO // @Path: ../libraries/AP_Baro/AP_Baro.cpp GOBJECT(barometer, "BARO", AP_Baro), // GPS driver // @Group: GPS // @Path: ../libraries/AP_GPS/AP_GPS.cpp GOBJECT(gps, "GPS", AP_GPS), // Leak detector // @Group: LEAK // @Path: ../libraries/AP_LeakDetector/AP_LeakDetector.cpp GOBJECT(leak_detector, "LEAK", AP_LeakDetector), // @Group: SCHED_ // @Path: ../libraries/AP_Scheduler/AP_Scheduler.cpp GOBJECT(scheduler, "SCHED_", AP_Scheduler), #if AVOIDANCE_ENABLED == ENABLED // @Group: AVOID_ // @Path: ../libraries/AC_Avoidance/AC_Avoid.cpp GOBJECT(avoid, "AVOID_", AC_Avoid), #endif #if HAL_RALLY_ENABLED // @Group: RALLY_ // @Path: ../libraries/AP_Rally/AP_Rally.cpp GOBJECT(rally, "RALLY_", AP_Rally), #endif // @Group: MOT_ // @Path: ../libraries/AP_Motors/AP_Motors6DOF.cpp,../libraries/AP_Motors/AP_MotorsMulticopter.cpp GOBJECT(motors, "MOT_", AP_Motors6DOF), #if RCMAP_ENABLED == ENABLED // @Group: RCMAP_ // @Path: ../libraries/AP_RCMapper/AP_RCMapper.cpp GOBJECT(rcmap, "RCMAP_", RCMapper), #endif #if HAL_NAVEKF2_AVAILABLE // @Group: EK2_ // @Path: ../libraries/AP_NavEKF2/AP_NavEKF2.cpp GOBJECTN(ahrs.EKF2, NavEKF2, "EK2_", NavEKF2), #endif #if HAL_NAVEKF3_AVAILABLE // @Group: EK3_ // @Path: ../libraries/AP_NavEKF3/AP_NavEKF3.cpp GOBJECTN(ahrs.EKF3, NavEKF3, "EK3_", NavEKF3), #endif // @Group: MIS_ // @Path: ../libraries/AP_Mission/AP_Mission.cpp GOBJECT(mission, "MIS_", AP_Mission), #if AP_RANGEFINDER_ENABLED // @Group: RNGFND // @Path: ../libraries/AP_RangeFinder/AP_RangeFinder.cpp GOBJECT(rangefinder, "RNGFND", RangeFinder), // @Param: RNGFND_SQ_MIN // @DisplayName: Rangefinder signal quality minimum // @Description: Minimum signal quality for good rangefinder readings // @Range: 0 100 // @User: Advanced GSCALAR(rangefinder_signal_min, "RNGFND_SQ_MIN", RANGEFINDER_SIGNAL_MIN_DEFAULT), // @Param: SURFTRAK_DEPTH // @DisplayName: SURFTRAK minimum depth // @Description: Minimum depth to engage SURFTRAK mode // @Units: cm // @User: Standard GSCALAR(surftrak_depth, "SURFTRAK_DEPTH", SURFTRAK_DEPTH_DEFAULT), #endif #if AP_TERRAIN_AVAILABLE // @Group: TERRAIN_ // @Path: ../libraries/AP_Terrain/AP_Terrain.cpp GOBJECT(terrain, "TERRAIN_", AP_Terrain), #endif #if AP_OPTICALFLOW_ENABLED // @Group: FLOW // @Path: ../libraries/AP_OpticalFlow/AP_OpticalFlow.cpp GOBJECT(optflow, "FLOW", AP_OpticalFlow), #endif #if AP_RPM_ENABLED // @Group: RPM // @Path: ../libraries/AP_RPM/AP_RPM.cpp GOBJECT(rpm_sensor, "RPM", AP_RPM), #endif // @Group: NTF_ // @Path: ../libraries/AP_Notify/AP_Notify.cpp GOBJECT(notify, "NTF_", AP_Notify), // @Group: // @Path: Parameters.cpp GOBJECT(g2, "", ParametersG2), // @Group: // @Path: ../libraries/AP_Vehicle/AP_Vehicle.cpp PARAM_VEHICLE_INFO, AP_VAREND }; /* 2nd group of parameters */ const AP_Param::GroupInfo ParametersG2::var_info[] = { // 1 was AP_Stats #if HAL_PROXIMITY_ENABLED // @Group: PRX // @Path: ../libraries/AP_Proximity/AP_Proximity.cpp AP_SUBGROUPINFO(proximity, "PRX", 2, ParametersG2, AP_Proximity), #endif // 3 was AP_Gripper // @Group: SERVO // @Path: ../libraries/SRV_Channel/SRV_Channels.cpp AP_SUBGROUPINFO(servo_channels, "SERVO", 16, ParametersG2, SRV_Channels), // @Group: RC // @Path: ../libraries/RC_Channel/RC_Channels_VarInfo.h AP_SUBGROUPINFO(rc_channels, "RC", 17, ParametersG2, RC_Channels), // 18 was scripting // @Param: ORIGIN_LAT // @DisplayName: Backup latitude for EKF origin // @Description: Backup EKF origin latitude used when not using a positioning system. // @Units: deg // @User: Standard AP_GROUPINFO("ORIGIN_LAT", 19, ParametersG2, backup_origin_lat, 0), // @Param: ORIGIN_LON // @DisplayName: Backup longitude for EKF origin // @Description: Backup EKF origin longitude used when not using a positioning system. // @Units: deg // @User: Standard AP_GROUPINFO("ORIGIN_LON", 20, ParametersG2, backup_origin_lon, 0), // @Param: ORIGIN_ALT // @DisplayName: Backup altitude (MSL) for EKF origin // @Description: Backup EKF origin altitude (MSL) used when not using a positioning system. // @Units: m // @User: Standard AP_GROUPINFO("ORIGIN_ALT", 21, ParametersG2, backup_origin_alt, 0), AP_GROUPEND }; /* constructor for g2 object */ ParametersG2::ParametersG2() { AP_Param::setup_object_defaults(this, var_info); } const AP_Param::ConversionInfo conversion_table[] = { { Parameters::k_param_fs_batt_voltage, 0, AP_PARAM_FLOAT, "BATT_LOW_VOLT" }, { Parameters::k_param_fs_batt_mah, 0, AP_PARAM_FLOAT, "BATT_LOW_MAH" }, { Parameters::k_param_failsafe_battery_enabled, 0, AP_PARAM_INT8, "BATT_FS_LOW_ACT" }, { Parameters::k_param_compass_enabled_deprecated, 0, AP_PARAM_INT8, "COMPASS_ENABLE" }, { Parameters::k_param_arming, 2, AP_PARAM_INT16, "ARMING_CHECK" }, }; void Sub::load_parameters() { AP_Vehicle::load_parameters(g.format_version, Parameters::k_format_version); AP_Param::convert_old_parameters(&conversion_table[0], ARRAY_SIZE(conversion_table)); AP_Param::set_frame_type_flags(AP_PARAM_FRAME_SUB); convert_old_parameters(); AP_Param::set_defaults_from_table(defaults_table, ARRAY_SIZE(defaults_table)); // We should ignore this parameter since ROVs are neutral buoyancy AP_Param::set_by_name("MOT_THST_HOVER", 0.5); // PARAMETER_CONVERSION - Added: Mar-2022 #if AP_FENCE_ENABLED AP_Param::convert_class(g.k_param_fence_old, &fence, fence.var_info, 0, true); #endif static const AP_Param::G2ObjectConversion g2_conversions[] { #if AP_AIRSPEED_ENABLED // PARAMETER_CONVERSION - Added: JAN-2022 { &airspeed, airspeed.var_info, 19 }, #endif #if AP_STATS_ENABLED // PARAMETER_CONVERSION - Added: Jan-2024 { &stats, stats.var_info, 1 }, #endif #if AP_SCRIPTING_ENABLED // PARAMETER_CONVERSION - Added: Jan-2024 { &scripting, scripting.var_info, 18 }, #endif #if AP_GRIPPER_ENABLED // PARAMETER_CONVERSION - Added: Feb-2024 { &gripper, gripper.var_info, 3 }, #endif }; AP_Param::convert_g2_objects(&g2, g2_conversions, ARRAY_SIZE(g2_conversions)); // PARAMETER_CONVERSION - Added: Feb-2024 #if HAL_LOGGING_ENABLED AP_Param::convert_class(g.k_param_logger, &logger, logger.var_info, 0, true); #endif static const AP_Param::TopLevelObjectConversion toplevel_conversions[] { #if AP_SERIALMANAGER_ENABLED // PARAMETER_CONVERSION - Added: Feb-2024 { &serial_manager, serial_manager.var_info, Parameters::k_param_serial_manager_old }, #endif }; AP_Param::convert_toplevel_objects(toplevel_conversions, ARRAY_SIZE(toplevel_conversions)); } void Sub::convert_old_parameters() { // attitude control filter parameter changes from _FILT to FLTE or FLTD const AP_Param::ConversionInfo filt_conversion_info[] = { // move ATC_RAT_RLL/PIT_FILT to FLTD, move ATC_RAT_YAW_FILT to FLTE { Parameters::k_param_attitude_control, 385, AP_PARAM_FLOAT, "ATC_RAT_RLL_FLTE" }, { Parameters::k_param_attitude_control, 386, AP_PARAM_FLOAT, "ATC_RAT_PIT_FLTE" }, { Parameters::k_param_attitude_control, 387, AP_PARAM_FLOAT, "ATC_RAT_YAW_FLTE" }, }; AP_Param::convert_old_parameters(&filt_conversion_info[0], ARRAY_SIZE(filt_conversion_info)); SRV_Channels::upgrade_parameters(); }