// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- #ifndef _DEFINES_H #define _DEFINES_H // Just so that it's completely clear... #define ENABLED 1 #define DISABLED 0 // this avoids a very common config error #define ENABLE ENABLED #define DISABLE DISABLED // Flight modes // ------------ #define YAW_HOLD 0 #define YAW_ACRO 1 #define YAW_AUTO 2 #define YAW_LOOK_AT_HOME 3 #define ROLL_PITCH_STABLE 0 #define ROLL_PITCH_ACRO 1 #define ROLL_PITCH_AUTO 2 #define ROLL_PITCH_STABLE_OF 3 #define THROTTLE_MANUAL 0 #define THROTTLE_HOLD 1 #define THROTTLE_AUTO 2 // active altitude sensor // ---------------------- #define SONAR 0 #define BARO 1 #define SONAR_SOURCE_ADC 1 #define SONAR_SOURCE_ANALOG_PIN 2 // CH 7 control #define CH7_DO_NOTHING 0 #define CH7_SET_HOVER 1 #define CH7_FLIP 2 #define CH7_SIMPLE_MODE 3 #define CH7_RTL 4 #define CH7_AUTO_TRIM 5 #define CH7_ADC_FILTER 6 #define CH7_SAVE_WP 7 // Frame types #define QUAD_FRAME 0 #define TRI_FRAME 1 #define HEXA_FRAME 2 #define Y6_FRAME 3 #define OCTA_FRAME 4 #define HELI_FRAME 5 #define OCTA_QUAD_FRAME 6 #define PLUS_FRAME 0 #define X_FRAME 1 #define V_FRAME 2 // LED output #define NORMAL_LEDS 0 #define AUTO_TRIM_LEDS 1 // Internal defines, don't edit and expect things to work // ------------------------------------------------------- #define TRUE 1 #define FALSE 0 #define ToRad(x) (x*0.01745329252) // *pi/180 #define ToDeg(x) (x*57.2957795131) // *180/pi #define DEBUG 0 #define LOITER_RANGE 60 // for calculating power outside of loiter radius #define T6 1000000 #define T7 10000000 // GPS type codes - use the names, not the numbers #define GPS_PROTOCOL_NONE -1 #define GPS_PROTOCOL_NMEA 0 #define GPS_PROTOCOL_SIRF 1 #define GPS_PROTOCOL_UBLOX 2 #define GPS_PROTOCOL_IMU 3 #define GPS_PROTOCOL_MTK 4 #define GPS_PROTOCOL_HIL 5 #define GPS_PROTOCOL_MTK16 6 #define GPS_PROTOCOL_AUTO 7 #define CH_ROLL CH_1 #define CH_PITCH CH_2 #define CH_THROTTLE CH_3 #define CH_RUDDER CH_4 #define CH_YAW CH_4 #define RC_CHANNEL_ANGLE 0 #define RC_CHANNEL_RANGE 1 #define RC_CHANNEL_ANGLE_RAW 2 // HIL enumerations #define HIL_MODE_DISABLED 0 #define HIL_MODE_ATTITUDE 1 #define HIL_MODE_SENSORS 2 #define ASCENDING 1 #define DESCENDING -1 #define REACHED_ALT 0 // Auto Pilot modes // ---------------- #define STABILIZE 0 // hold level position #define ACRO 1 // rate control #define ALT_HOLD 2 // AUTO control #define AUTO 3 // AUTO control #define GUIDED 4 // AUTO control #define LOITER 5 // Hold a single location #define RTL 6 // AUTO control #define CIRCLE 7 // AUTO control #define POSITION 8 // AUTO control #define LAND 9 // AUTO control #define OF_LOITER 10 // Hold a single location using optical flow sensor #define APPROACH 11 // AUTO control #define NUM_MODES 12 #define SIMPLE_1 1 #define SIMPLE_2 2 #define SIMPLE_3 4 #define SIMPLE_4 8 #define SIMPLE_5 16 #define SIMPLE_6 32 // CH_6 Tuning // ----------- #define CH6_NONE 0 // Attitude #define CH6_STABILIZE_KP 1 #define CH6_STABILIZE_KI 2 #define CH6_STABILIZE_KD 29 // duplicate with CH6_DAMP #define CH6_YAW_KP 3 #define CH6_YAW_KI 24 // Rate #define CH6_ACRO_KP 25 #define CH6_RATE_KP 4 #define CH6_RATE_KI 5 #define CH6_RATE_KD 21 #define CH6_YAW_RATE_KP 6 #define CH6_YAW_RATE_KD 26 // Altitude rate controller #define CH6_THROTTLE_KP 7 // Extras #define CH6_TOP_BOTTOM_RATIO 8 #define CH6_RELAY 9 // Navigation #define CH6_TRAVERSE_SPEED 10 // maximum speed to next way point #define CH6_NAV_KP 11 #define CH6_LOITER_KP 12 #define CH6_LOITER_KI 27 // Trad Heli specific #define CH6_HELI_EXTERNAL_GYRO 13 // altitude controller #define CH6_THR_HOLD_KP 14 #define CH6_Z_GAIN 15 #define CH6_DAMP 16 // duplicate with CH6_YAW_RATE_KD // optical flow controller #define CH6_OPTFLOW_KP 17 #define CH6_OPTFLOW_KI 18 #define CH6_OPTFLOW_KD 19 #define CH6_NAV_I 20 #define CH6_LOITER_RATE_KP 22 #define CH6_LOITER_RATE_KI 28 #define CH6_LOITER_RATE_KD 23 #define CH6_AHRS_YAW_KP 30 // nav byte mask // ------------- #define NAV_LOCATION 1 #define NAV_ALTITUDE 2 #define NAV_DELAY 4 // Commands - Note that APM now uses a subset of the MAVLink protocol commands. See enum MAV_CMD in the GCS_Mavlink library #define CMD_BLANK 0 // there is no command stored in the mem location requested #define NO_COMMAND 0 #define LOITER_MODE 1 #define WP_MODE 2 #define CIRCLE_MODE 3 #define NO_NAV_MODE 4 // Waypoint options #define MASK_OPTIONS_RELATIVE_ALT 1 #define WP_OPTION_ALT_CHANGE 2 #define WP_OPTION_YAW 4 #define WP_OPTION_ALT_REQUIRED 8 #define WP_OPTION_RELATIVE 16 //#define WP_OPTION_ 32 //#define WP_OPTION_ 64 #define WP_OPTION_NEXT_CMD 128 //repeating events #define NO_REPEAT 0 #define CH_5_TOGGLE 1 #define CH_6_TOGGLE 2 #define CH_7_TOGGLE 3 #define CH_8_TOGGLE 4 #define RELAY_TOGGLE 5 #define STOP_REPEAT 10 // GCS Message ID's /// NOTE: to ensure we never block on sending MAVLink messages /// please keep each MSG_ to a single MAVLink message. If need be /// create new MSG_ IDs for additional messages on the same /// stream enum ap_message { MSG_HEARTBEAT, MSG_ATTITUDE, MSG_LOCATION, MSG_EXTENDED_STATUS1, MSG_EXTENDED_STATUS2, MSG_NAV_CONTROLLER_OUTPUT, MSG_CURRENT_WAYPOINT, MSG_VFR_HUD, MSG_RADIO_OUT, MSG_RADIO_IN, MSG_RAW_IMU1, MSG_RAW_IMU2, MSG_RAW_IMU3, MSG_GPS_STATUS, MSG_GPS_RAW, MSG_SERVO_OUT, MSG_NEXT_WAYPOINT, MSG_NEXT_PARAM, MSG_STATUSTEXT, MSG_AHRS, MSG_SIMSTATE, MSG_HWSTATUS, MSG_RETRY_DEFERRED // this must be last }; enum gcs_severity { SEVERITY_LOW=1, SEVERITY_MEDIUM, SEVERITY_HIGH, SEVERITY_CRITICAL }; // Logging parameters #define TYPE_AIRSTART_MSG 0x00 #define TYPE_GROUNDSTART_MSG 0x01 #define LOG_ATTITUDE_MSG 0x01 #define LOG_GPS_MSG 0x02 #define LOG_MODE_MSG 0X03 #define LOG_CONTROL_TUNING_MSG 0X04 #define LOG_NAV_TUNING_MSG 0X05 #define LOG_PERFORMANCE_MSG 0X06 #define LOG_RAW_MSG 0x07 #define LOG_CMD_MSG 0x08 #define LOG_CURRENT_MSG 0x09 #define LOG_STARTUP_MSG 0x0A #define LOG_MOTORS_MSG 0x0B #define LOG_OPTFLOW_MSG 0x0C #define LOG_DATA_MSG 0x0D #define LOG_PID_MSG 0x0E #define LOG_INDEX_MSG 0xF0 #define MAX_NUM_LOGS 50 #define MASK_LOG_ATTITUDE_FAST (1<<0) #define MASK_LOG_ATTITUDE_MED (1<<1) #define MASK_LOG_GPS (1<<2) #define MASK_LOG_PM (1<<3) #define MASK_LOG_CTUN (1<<4) #define MASK_LOG_NTUN (1<<5) #define MASK_LOG_MODE (1<<6) #define MASK_LOG_RAW (1<<7) #define MASK_LOG_CMD (1<<8) #define MASK_LOG_CUR (1<<9) #define MASK_LOG_MOTORS (1<<10) #define MASK_LOG_OPTFLOW (1<<11) #define MASK_LOG_PID (1<<12) // Waypoint Modes // ---------------- #define ABS_WP 0 #define REL_WP 1 // Command Queues // --------------- #define COMMAND_MUST 0 #define COMMAND_MAY 1 #define COMMAND_NOW 2 // Events // ------ #define EVENT_WILL_REACH_WAYPOINT 1 #define EVENT_SET_NEW_WAYPOINT_INDEX 2 #define EVENT_LOADED_WAYPOINT 3 #define EVENT_LOOP 4 // Climb rate calculations #define ALTITUDE_HISTORY_LENGTH 8 //Number of (time,altitude) points to regress a climb rate from #define BATTERY_VOLTAGE(x) (x*(g.input_voltage/1024.0))*g.volt_div_ratio #define CURRENT_AMPS(x) ((x*(g.input_voltage/1024.0))-CURR_AMPS_OFFSET)*g.curr_amp_per_volt //#define BARO_FILTER_SIZE 8 /* ************************************************************** */ /* Expansion PIN's that people can use for various things. */ // AN0 - 7 are located at edge of IMU PCB "above" pressure sensor and Expansion port // AN0 - 5 are also located next to voltage dividers and sliding SW2 switch // AN0 - 3 has 10kOhm resistor in serial, include 3.9kOhm to make it as voltage divider // AN4 - 5 are direct GPIO pins from atmega1280 and they are the latest pins next to SW2 switch // Look more ArduCopter Wiki for voltage dividers and other ports #define AN0 54 // resistor, vdiv use, divider 1 closest to relay #define AN1 55 // resistor, vdiv use, divider 2 #define AN2 56 // resistor, vdiv use, divider 3 #define AN3 57 // resistor, vdiv use, divider 4 closest to SW2 #define AN4 58 // direct GPIO pin, default as analog input, next to SW2 switch #define AN5 59 // direct GPIO pin, default as analog input, next to SW2 switch #define AN6 60 // direct GPIO pin, default as analog input, close to Pressure sensor, Expansion Ports #define AN7 61 // direct GPIO pin, default as analog input, close to Pressure sensor, Expansion Ports // AN8 - 15 are located at edge of IMU PCB "above" pressure sensor and Expansion port // AN8 - 15 PINs are not connected anywhere, they are located as last 8 pins on edge of the board above Expansion Ports // even pins (8,10,12,14) are at edge of board, Odd pins (9,11,13,15) are on inner row #define AN8 62 // NC #define AN9 63 // NC #define AN10 64 // NC #define AN11 65 // NC #define AN12 66 // NC #define AN13 67 // NC #define AN14 68 // NC #define AN15 69 // NC #define RELAY_PIN 47 #define PIEZO_PIN AN5 //Last pin on the back ADC connector // sonar //#define SonarToCm(x) (x*1.26) // Sonar raw value to centimeters // RADIANS #define RADX100 0.000174532925 #define DEGX100 5729.57795 // EEPROM addresses #define EEPROM_MAX_ADDR 4096 // parameters get the first 1280 bytes of EEPROM, remainder is for waypoints #define WP_START_BYTE 0x500 // where in memory home WP is stored + all other WP #define WP_SIZE 15 #define ONBOARD_PARAM_NAME_LENGTH 15 #define MAX_WAYPOINTS ((EEPROM_MAX_ADDR - WP_START_BYTE) / WP_SIZE) - 1 // - 1 to be safe // mark a function as not to be inlined #define NOINLINE __attribute__((noinline)) // IMU selection #define CONFIG_IMU_OILPAN 1 #define CONFIG_IMU_MPU6000 2 // APM Hardware selection #define APM_HARDWARE_APM1 1 #define APM_HARDWARE_APM2 2 #define AP_BARO_BMP085 1 #define AP_BARO_MS5611 2 #define LOGGING_SIMPLE 1 #define LOGGING_VERBOSE 2 // Channel Config selection #define CHANNEL_CONFIG_DEFAULT 1 #define CHANNEL_CONFIG_CUSTOM 2 #endif // _DEFINES_H