#pragma once #define AP_PARAM_VEHICLE_NAME blimp #include #include "RC_Channel.h" #include // Global parameter class. // class Parameters { public: // The version of the layout as described by the parameter enum. // // When changing the parameter enum in an incompatible fashion, this // value should be incremented by one. // // The increment will prevent old parameters from being used incorrectly // by newer code. // static const uint16_t k_format_version = 1; // Parameter identities. // // The enumeration defined here is used to ensure that every parameter // or parameter group has a unique ID number. This number is used by // AP_Param to store and locate parameters in EEPROM. // // Note that entries without a number are assigned the next number after // the entry preceding them. When adding new entries, ensure that they // don't overlap. // // Try to group related variables together, and assign them a set // range in the enumeration. Place these groups in numerical order // at the end of the enumeration. // // WARNING: Care should be taken when editing this enumeration as the // AP_Param load/save code depends on the values here to identify // variables saved in EEPROM. // // enum { // Layout version number, always key zero. // k_param_format_version = 0, k_param_ins, // libraries/AP_InertialSensor variables k_param_NavEKF2, k_param_g2, // 2nd block of parameters k_param_NavEKF3, k_param_can_mgr, k_param_osd, // simulation k_param_sitl = 10, // barometer object (needed for SITL) k_param_barometer, // scheduler object (for debugging) k_param_scheduler, // BoardConfig object k_param_BoardConfig, // GPS object k_param_gps, // Parachute object k_param_parachute, // Landing gear object k_param_landinggear, // Input Management object k_param_input_manager, // Misc k_param_gps_hdop_good, k_param_battery, k_param_poshold_brake_rate, k_param_poshold_brake_angle_max, k_param_pilot_accel_z, k_param_fs_ekf_thresh, k_param_terrain, k_param_throttle_deadzone, k_param_log_bitmask, k_param_throttle_filt, k_param_throttle_behavior, k_param_pilot_takeoff_alt, //unused // AP_ADSB Library k_param_adsb, k_param_notify, //PID Controllers k_param_pid_vel_xy = 32, k_param_pid_vel_z, k_param_pid_vel_yaw, k_param_pid_pos_xy, k_param_pid_pos_z, k_param_pid_pos_yaw, //Position & Velocity controller params k_param_max_vel_xy = 50, k_param_max_vel_z, k_param_max_vel_yaw, k_param_max_pos_xy, k_param_max_pos_z, k_param_max_pos_yaw, k_param_simple_mode, k_param_dis_mask, k_param_pid_dz, // // 90: misc2 // k_param_motors = 90, k_param_disarm_delay, k_param_fs_crash_check, k_param_throw_motor_start, k_param_rtl_alt_type, k_param_avoid, k_param_avoidance_adsb, // 97: RSSI k_param_rssi = 97, // 110: Telemetry control // k_param_gcs0 = 110, k_param_gcs1, k_param_sysid_this_mav, k_param_sysid_my_gcs, k_param_telem_delay, k_param_gcs2, k_param_serial_manager, k_param_gcs3, k_param_gcs_pid_mask, k_param_gcs4, k_param_gcs5, k_param_gcs6, // // 135 : reserved for Solo until features merged with master // k_param_rtl_speed_cms = 135, k_param_fs_batt_curr_rtl, k_param_rtl_cone_slope, // 137 // // 140: Sensor parameters // k_param_compass, k_param_frame_type, //unused k_param_ahrs, // AHRS group // 159 // // 160: Navigation parameters // k_param_rtl_altitude = 160, k_param_rtl_loiter_time, k_param_rtl_alt_final, // // Camera and mount parameters // k_param_camera = 165, k_param_camera_mount, // // 170: Radio settings // k_param_failsafe_throttle = 170, k_param_failsafe_throttle_value, k_param_radio_tuning, // unused k_param_rc_speed = 192, k_param_failsafe_gcs, k_param_rcmap, // 199 // // 200: flight modes // k_param_flight_mode1 = 200, k_param_flight_mode2, k_param_flight_mode3, k_param_flight_mode4, k_param_flight_mode5, k_param_flight_mode6, k_param_flight_mode_chan, k_param_initial_mode, // // 220: Misc // k_param_fs_ekf_action = 220, k_param_arming, k_param_logger = 253, // 253 - Logging Group k_param_vehicle = 257, // vehicle common block of parameters // the k_param_* space is 9-bits in size }; AP_Int16 format_version; // Telemetry control // AP_Int16 sysid_this_mav; AP_Int16 sysid_my_gcs; AP_Int8 telem_delay; AP_Float throttle_filt; AP_Int16 throttle_behavior; AP_Int8 failsafe_gcs; // ground station failsafe behavior AP_Int16 gps_hdop_good; // GPS Hdop value at or below this value represent a good position // Throttle // AP_Int8 failsafe_throttle; AP_Int16 failsafe_throttle_value; AP_Int16 throttle_deadzone; // Flight modes // AP_Int8 flight_mode1; AP_Int8 flight_mode2; AP_Int8 flight_mode3; AP_Int8 flight_mode4; AP_Int8 flight_mode5; AP_Int8 flight_mode6; AP_Int8 flight_mode_chan; AP_Int8 initial_mode; // Misc // AP_Int32 log_bitmask; AP_Int8 disarm_delay; AP_Int8 fs_ekf_action; AP_Int8 fs_crash_check; AP_Float fs_ekf_thresh; AP_Int16 gcs_pid_mask; AP_Float max_vel_xy; AP_Float max_vel_z; AP_Float max_vel_yaw; AP_Float max_pos_xy; AP_Float max_pos_z; AP_Float max_pos_yaw; AP_Int8 simple_mode; AP_Int16 dis_mask; AP_Float pid_dz; AP_Int8 rtl_alt_type; AP_Int16 rc_speed; // speed of fast RC Channels in Hz // Note: keep initializers here in the same order as they are declared // above. Parameters() { } }; /* 2nd block of parameters, to avoid going past 256 top level keys */ class ParametersG2 { public: ParametersG2(void); // var_info for holding Parameter information static const struct AP_Param::GroupInfo var_info[]; // altitude at which nav control can start in takeoff AP_Float wp_navalt_min; // whether to enforce acceptance of packets only from sysid_my_gcs AP_Int8 sysid_enforce; // developer options AP_Int32 dev_options; // acro exponent parameters AP_Float acro_y_expo; // frame class AP_Int8 frame_class; // RC input channels RC_Channels_Blimp rc_channels; // control over servo output ranges SRV_Channels servo_channels; // Additional pilot velocity items AP_Int16 pilot_speed_dn; // Land alt final stage AP_Int16 land_alt_low; // vibration failsafe enable/disable AP_Int8 fs_vibe_enabled; // Failsafe options bitmask #36 AP_Int32 fs_options; AP_Float fs_gcs_timeout; }; extern const AP_Param::Info var_info[];