ardupilot/libraries/AP_PiccoloCAN/piccolo_protocol/ServoDefines.h

192 lines
7.9 KiB
C

// ServoDefines.h was generated by ProtoGen version 3.2.a
/*
* This file 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 file 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 <http://www.gnu.org/licenses/>.
*
* Author: Oliver Walters / Currawong Engineering Pty Ltd
*/
#ifndef _SERVODEFINES_H
#define _SERVODEFINES_H
// Language target is C, C++ compilers: don't mangle us
#ifdef __cplusplus
extern "C" {
#endif
/*!
* \file
*/
#include <stdbool.h>
#include "ServoProtocol.h"
/*!
* Servo status bits
*/
typedef struct
{
unsigned enabled : 1; //!< Servo enabled status
ServoModes mode; //!< Servo mode
unsigned cmdReceived : 1; //!< Set if the servo has received a valid position command within the configured timeout period
unsigned reservedA : 1; //!< Reserved for future use
unsigned reservedB : 1; //!< Reserved for future use
unsigned reservedC : 1; //!< Reserved for future use
}Servo_StatusBits_t;
//! return the minimum encoded length for the Servo_StatusBits_t structure
#define getMinLengthOfServo_StatusBits_t() (1)
//! return the maximum encoded length for the Servo_StatusBits_t structure
#define getMaxLengthOfServo_StatusBits_t() (1)
//! Encode a Servo_StatusBits_t into a byte array
void encodeServo_StatusBits_t(uint8_t* data, int* bytecount, const Servo_StatusBits_t* user);
//! Decode a Servo_StatusBits_t from a byte array
int decodeServo_StatusBits_t(const uint8_t* data, int* bytecount, Servo_StatusBits_t* user);
/*!
* Servo warning bits
*/
typedef struct
{
unsigned overCurrent : 1; //!< Servo current exceeds warning threshold
unsigned overTemperature : 1; //!< Servo temperature exceeds warning threshold
unsigned overAcceleration : 1; //!< Servo accelerometer reading exceeds warning threshold
unsigned invalidInput : 1; //!< Most recent servo position command was outside valid range
unsigned position : 1; //!< Servo position is outside calibrated range
unsigned potCalibration : 1; //!< Servo potentiometer is not correctly calibrated
unsigned underVoltage : 1; //!< Servo voltage is below operational threshold
unsigned overVoltage : 1; //!< Servo voltage is above operational threshold
unsigned reservedB : 8; //!< Reserved for future use
}Servo_WarningBits_t;
//! return the minimum encoded length for the Servo_WarningBits_t structure
#define getMinLengthOfServo_WarningBits_t() (2)
//! return the maximum encoded length for the Servo_WarningBits_t structure
#define getMaxLengthOfServo_WarningBits_t() (2)
//! Encode a Servo_WarningBits_t into a byte array
void encodeServo_WarningBits_t(uint8_t* data, int* bytecount, const Servo_WarningBits_t* user);
//! Decode a Servo_WarningBits_t from a byte array
int decodeServo_WarningBits_t(const uint8_t* data, int* bytecount, Servo_WarningBits_t* user);
/*!
* Servo error bits
*/
typedef struct
{
unsigned position : 1; //!< Servo position is outside measurement range
unsigned potError : 1; //!< Error reading servo position
unsigned accError : 1; //!< Error reading servo accelerometer data
unsigned mapCalibration : 1; //!< Servo input/output map is not correctly calibrated
unsigned settingsError : 1; //!< Error reading servo settings from memory
unsigned healthError : 1; //!< Error reading servo health tracking information from memory
unsigned tracking : 1; //!< Servo position cannot match commanded position
unsigned reservedB : 1; //!< Reserved for future use
}Servo_ErrorBits_t;
//! return the minimum encoded length for the Servo_ErrorBits_t structure
#define getMinLengthOfServo_ErrorBits_t() (1)
//! return the maximum encoded length for the Servo_ErrorBits_t structure
#define getMaxLengthOfServo_ErrorBits_t() (1)
//! Encode a Servo_ErrorBits_t into a byte array
void encodeServo_ErrorBits_t(uint8_t* data, int* bytecount, const Servo_ErrorBits_t* user);
//! Decode a Servo_ErrorBits_t from a byte array
int decodeServo_ErrorBits_t(const uint8_t* data, int* bytecount, Servo_ErrorBits_t* user);
/*!
* Servo packet selection
*/
typedef struct
{
unsigned statusA : 1; //!< Select the *STATUS_A* packet
unsigned statusB : 1; //!< Select the *STATUS_B* packet
unsigned statusC : 1; //!< Select the *STATUS_C* packet
unsigned statusD : 1; //!< Select the *STATUS_D* packet
unsigned accelerometer : 1; //!< Select the *ACCELEROMETER* packet
unsigned dbgA : 1; //!< Reserved field (set to zero)
unsigned dbgB : 1; //!< Reserved field (set to zero)
unsigned dbgC : 1; //!< Reserved field (set to zero)
}Servo_TelemetryPackets_t;
//! return the minimum encoded length for the Servo_TelemetryPackets_t structure
#define getMinLengthOfServo_TelemetryPackets_t() (1)
//! return the maximum encoded length for the Servo_TelemetryPackets_t structure
#define getMaxLengthOfServo_TelemetryPackets_t() (1)
//! Encode a Servo_TelemetryPackets_t into a byte array
void encodeServo_TelemetryPackets_t(uint8_t* data, int* bytecount, const Servo_TelemetryPackets_t* user);
//! Decode a Servo_TelemetryPackets_t from a byte array
int decodeServo_TelemetryPackets_t(const uint8_t* data, int* bytecount, Servo_TelemetryPackets_t* user);
/*!
* Servo telemetry configuration
*/
typedef struct
{
uint8_t period; //!< Servo telemetry period
uint8_t silence; //!< Servo silence period (after boot)
Servo_TelemetryPackets_t packets; //!< Telemetry packet selection
Servo_TelemetryPackets_t responsePackets; //!< Command response packet selection
}Servo_TelemetrySettings_t;
//! return the minimum encoded length for the Servo_TelemetrySettings_t structure
#define getMinLengthOfServo_TelemetrySettings_t() (4)
//! return the maximum encoded length for the Servo_TelemetrySettings_t structure
#define getMaxLengthOfServo_TelemetrySettings_t() (4)
//! Encode a Servo_TelemetrySettings_t into a byte array
void encodeServo_TelemetrySettings_t(uint8_t* data, int* bytecount, const Servo_TelemetrySettings_t* user);
//! Decode a Servo_TelemetrySettings_t from a byte array
int decodeServo_TelemetrySettings_t(const uint8_t* data, int* bytecount, Servo_TelemetrySettings_t* user);
typedef struct
{
unsigned mapEnabled : 1; //!< 1 = I/O map is enabled
unsigned piccoloCmd : 1; //!< 1 = The servo will listen for Piccolo autopilot CAN messages
unsigned neutralPositionEnabled : 1; //!< 1 = Servo neutral position is enabled, 0 = Neutral position disabled
unsigned piccoloChannel : 5; //!< Channel the servo will use to listen for Piccolo messages.
unsigned timeoutAction : 2; //!< Servo action at powerup
unsigned reservedB : 2; //!< reserved for future use
unsigned reservedC : 4; //!< reserved for future use
}Servo_ConfigBits_t;
//! return the minimum encoded length for the Servo_ConfigBits_t structure
#define getMinLengthOfServo_ConfigBits_t() (2)
//! return the maximum encoded length for the Servo_ConfigBits_t structure
#define getMaxLengthOfServo_ConfigBits_t() (2)
//! Encode a Servo_ConfigBits_t into a byte array
void encodeServo_ConfigBits_t(uint8_t* data, int* bytecount, const Servo_ConfigBits_t* user);
//! Decode a Servo_ConfigBits_t from a byte array
int decodeServo_ConfigBits_t(const uint8_t* data, int* bytecount, Servo_ConfigBits_t* user);
#ifdef __cplusplus
}
#endif
#endif // _SERVODEFINES_H