#pragma once #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; // The parameter software_type is set up solely for ground station use // and identifies the software type (eg ArduPilotMega versus // ArduCopterMega) // GCS will interpret values 0-9 as ArduPilotMega. Developers may use // values within that range to identify different branches. // static const uint16_t k_software_type = 40; // 0 for APM // trunk // 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_software_type, k_param_g2, // 2nd block of parameters k_param_sitl, // Simulation // Telemetry k_param_gcs0 = 10, k_param_gcs1, k_param_gcs2, k_param_gcs3, k_param_sysid_this_mav, k_param_sysid_my_gcs, // Hardware/Software configuration k_param_BoardConfig = 20, // Board configuration (PX4/Linux/etc) k_param_scheduler, // Scheduler (for debugging/perf_info) k_param_DataFlash, // DataFlash Logging k_param_serial_manager, // Serial ports, AP_SerialManager k_param_notify, // Notify Library, AP_Notify k_param_arming = 26, // Arming checks k_param_BoardConfig_CAN, // Sensor objects k_param_ins = 30, // AP_InertialSensor k_param_compass, // Compass k_param_barometer, // Barometer/Depth Sensor k_param_battery, // AP_BattMonitor k_param_leak_detector, // Leak Detector k_param_rangefinder, // Rangefinder k_param_gps, // GPS k_param_optflow, // Optical Flow // Navigation libraries k_param_ahrs = 50, // AHRS k_param_NavEKF, // Extended Kalman Filter Inertial Navigation // remove k_param_NavEKF2, // EKF2 k_param_attitude_control, // Attitude Control k_param_pos_control, // Position Control k_param_wp_nav, // Waypoint navigation k_param_mission, // Mission library k_param_fence, // Fence Library k_param_terrain, // Terrain database k_param_rally, // Disabled k_param_circle_nav, // Disabled k_param_avoid, // Relies on proximity and fence k_param_NavEKF3, // Other external hardware interfaces k_param_motors = 65, // Motors k_param_relay, // Relay k_param_camera, // Camera k_param_camera_mount, // Camera gimbal // RC_Channel settings (deprecated) k_param_rc_1_old = 75, k_param_rc_2_old, k_param_rc_3_old, k_param_rc_4_old, k_param_rc_5_old, k_param_rc_6_old, k_param_rc_7_old, k_param_rc_8_old, k_param_rc_9_old, k_param_rc_10_old, k_param_rc_11_old, k_param_rc_12_old, k_param_rc_13_old, k_param_rc_14_old, // Joystick gain parameters k_param_gain_default, k_param_maxGain, k_param_minGain, k_param_numGainSettings, k_param_cam_tilt_step, // deprecated k_param_lights_step, // deprecated // Joystick button mapping parameters k_param_jbtn_0 = 95, k_param_jbtn_1, k_param_jbtn_2, k_param_jbtn_3, k_param_jbtn_4, k_param_jbtn_5, k_param_jbtn_6, k_param_jbtn_7, k_param_jbtn_8, k_param_jbtn_9, k_param_jbtn_10, k_param_jbtn_11, k_param_jbtn_12, k_param_jbtn_13, k_param_jbtn_14, k_param_jbtn_15, // PID Controllers k_param_p_pos_xy = 126, k_param_p_alt_hold, k_param_pi_vel_xy, k_param_p_vel_z, k_param_pid_accel_z, // Failsafes k_param_failsafe_gcs = 140, k_param_failsafe_leak, // leak failsafe behavior k_param_failsafe_pressure, // internal pressure failsafe behavior k_param_failsafe_pressure_max, // maximum internal pressure in pascal before failsafe is triggered k_param_failsafe_temperature, // internal temperature failsafe behavior k_param_failsafe_temperature_max, // maximum internal temperature in degrees C before failsafe is triggered k_param_failsafe_terrain, // terrain failsafe behavior k_param_fs_ekf_thresh, k_param_fs_ekf_action, k_param_fs_crash_check, k_param_failsafe_battery_enabled, k_param_fs_batt_mah, k_param_fs_batt_voltage, k_param_failsafe_pilot_input, k_param_failsafe_pilot_input_timeout, // Misc Sub settings k_param_log_bitmask = 165, k_param_angle_max = 167, k_param_rangefinder_gain, k_param_wp_yaw_behavior = 170, k_param_xtrack_angle_limit, // Angle limit for crosstrack correction in Auto modes (degrees) k_param_pilot_velocity_z_max, k_param_pilot_accel_z, k_param_compass_enabled, k_param_surface_depth, k_param_rc_speed, // Main output pwm frequency k_param_gcs_pid_mask = 178, k_param_throttle_filt, k_param_throttle_deadzone, // Used in auto-throttle modes k_param_terrain_follow = 182, k_param_rc_feel_rp, k_param_throttle_gain, k_param_cam_tilt_center, // deprecated k_param_frame_configuration, // Acro Mode parameters k_param_acro_yaw_p = 220, // Used in all modes for get_pilot_desired_yaw_rate k_param_acro_trainer, k_param_acro_expo, k_param_acro_rp_p, k_param_acro_balance_roll, k_param_acro_balance_pitch, // RPM Sensor k_param_rpm_sensor = 232, // Disabled // RC_Mapper Library k_param_rcmap, // Disabled k_param_cam_slew_limit = 237, // deprecated k_param_lights_steps, }; AP_Int16 format_version; AP_Int8 software_type; // Telemetry control // AP_Int16 sysid_this_mav; AP_Int16 sysid_my_gcs; AP_Float throttle_filt; AP_Float rangefinder_gain; AP_Int8 failsafe_battery_enabled; // battery failsafe enabled AP_Float fs_batt_voltage; // battery voltage below which failsafe will be triggered AP_Float fs_batt_mah; // battery capacity (in mah) below which failsafe will be triggered AP_Int8 failsafe_leak; // leak detection failsafe behavior AP_Int8 failsafe_gcs; // ground station failsafe behavior AP_Int8 failsafe_pressure; AP_Int8 failsafe_temperature; AP_Int32 failsafe_pressure_max; AP_Int8 failsafe_temperature_max; AP_Int8 failsafe_terrain; AP_Int8 failsafe_pilot_input; // pilot input failsafe behavior AP_Float failsafe_pilot_input_timeout; AP_Int8 xtrack_angle_limit; AP_Int8 compass_enabled; AP_Int8 wp_yaw_behavior; // controls how the autopilot controls yaw during missions AP_Int8 rc_feel_rp; // controls vehicle response to user input with 0 being extremely soft and 100 begin extremely crisp // Waypoints // AP_Int16 pilot_velocity_z_max; // maximum vertical velocity the pilot may request AP_Int16 pilot_accel_z; // vertical acceleration the pilot may request // Throttle // AP_Int16 throttle_deadzone; // Misc // AP_Int32 log_bitmask; AP_Int8 fs_ekf_action; AP_Int8 fs_crash_check; AP_Float fs_ekf_thresh; AP_Int16 gcs_pid_mask; AP_Int8 terrain_follow; AP_Int16 rc_speed; // speed of fast RC Channels in Hz AP_Float gain_default; AP_Float maxGain; AP_Float minGain; AP_Int8 numGainSettings; AP_Float throttle_gain; AP_Int16 lights_steps; // Joystick button parameters JSButton jbtn_0; JSButton jbtn_1; JSButton jbtn_2; JSButton jbtn_3; JSButton jbtn_4; JSButton jbtn_5; JSButton jbtn_6; JSButton jbtn_7; JSButton jbtn_8; JSButton jbtn_9; JSButton jbtn_10; JSButton jbtn_11; JSButton jbtn_12; JSButton jbtn_13; JSButton jbtn_14; JSButton jbtn_15; // Acro parameters AP_Float acro_rp_p; AP_Float acro_yaw_p; AP_Float acro_balance_roll; AP_Float acro_balance_pitch; AP_Int8 acro_trainer; AP_Float acro_expo; // PI/D controllers AC_PI_2D pi_vel_xy; AC_P p_vel_z; AC_PID pid_accel_z; AC_P p_pos_xy; AC_P p_alt_hold; AP_Float surface_depth; AP_Int8 frame_configuration; // Note: keep initializers here in the same order as they are declared // above. Parameters() : // PID controller initial P initial I initial D initial imax initial filt hz pid rate //--------------------------------------------------------------------------------------------------------------------------------- pi_vel_xy(VEL_XY_P, VEL_XY_I, VEL_XY_IMAX, VEL_XY_FILT_HZ, WPNAV_LOITER_UPDATE_TIME), p_vel_z(VEL_Z_P), pid_accel_z(ACCEL_Z_P, ACCEL_Z_I, ACCEL_Z_D, ACCEL_Z_IMAX, ACCEL_Z_FILT_HZ, MAIN_LOOP_SECONDS), // P controller initial P //---------------------------------------------------------------------- p_pos_xy(POS_XY_P), p_alt_hold(ALT_HOLD_P) { } }; /* 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[]; #if GRIPPER_ENABLED AP_Gripper gripper; #endif #if PROXIMITY_ENABLED == ENABLED // proximity (aka object avoidance) library AP_Proximity proximity; #endif // RC input channels RC_Channels rc_channels; // control over servo output ranges SRV_Channels servo_channels; }; extern const AP_Param::Info var_info[];