ardupilot/libraries/AP_ADSB/sagetech-sdk/sgUtil.h

326 lines
7.8 KiB
C

/**
* @copyright Copyright (c) 2021 Sagetech, Inc. All rights reserved.
*
* @file sgUtil.h
* @author jimb
*
* @date Feb 2, 2021
*/
#ifndef UTIL_H
#define UTIL_H
#include <stdint.h>
#ifndef swap16
#define swap16(data) \
((((data) >> 8) & 0x00FF) | (((data) << 8) & 0xFF00))
#endif
#ifndef swap24
#define swap24(data) \
(((data) >> 16) | ((data)&0x00FF00) | (((data) << 16) & 0xFF0000))
#endif
#ifndef swap32
#define swap32(data) \
(((data) >> 24) | (((data)&0x00FF0000) >> 8) | (((data)&0x0000FF00) << 8) | ((data) << 24))
#endif
#ifndef swap64
#define swap64(data) \
(swap32((data & 0x00000000ffffffffULL))) << 32 | swap32(data >> 32))
#endif
#ifndef PI
#define PI 3.14159265359
#endif
#ifndef toRad
#define toRad(deg) \
((deg)*PI / 180.0)
#endif
#ifndef toDeg
#define toDeg(rad) \
((rad)*180 / PI)
#endif
#ifndef toMeter
#define toMeter(feet) \
((feet)*0.3048)
#endif
#ifndef toFeet
#define toFeet(meter) \
((meter)*3.2808)
#endif
/**
* Converts an array of bytes to a 16 bit integer.
*
* @param bytes The array of bytes to convert.
*
* @return The 16 bit integer.
*/
int16_t toInt16(const uint8_t bytes[]);
/**
* Converts an array of bytes to a 32 bit integer.
*
* @param bytes The array of bytes to convert.
*
* @return The 32 bit integer.
*/
int32_t toInt32(const uint8_t bytes[]);
/**
* Converts an array of bytes to a 16 unsigned bit integer.
*
* @param bytes The array of bytes to convert.
*
* @return The 16 bit integer.
*/
uint16_t toUint16(const uint8_t bytes[]);
/**
* Converts an array of bytes to a 24 bit unsigned integer with leading 0s.
*
* @param bytes The array of bytes to convert.
*
* @return The 24 bit unsigned integer with leading 0s.
*/
uint32_t toUint24(const uint8_t bytes[]);
/**
* Converts an array of bytes to a 32 bit unsigned integer.
*
* @param bytes The array of bytes to convert.
*
* @return The 32 bit unsigned integer.
*/
uint32_t toUint32(const uint8_t bytes[]);
/**
* Converts an array of bytes to a distance.
*
* @param bytes The array of bytes to convert.
*
* @return The distance value.
*/
double toDist(const uint8_t *bytes);
/**
* Converts an array of bytes to a 24 bit unsigned integer with leading 0's.
*
* @param bytes The array of bytes to convert.
*
* @return The 32 bit unsigned integer.
*/
uint32_t toIcao(const uint8_t bytes[]);
/**
* Converts an array of bytes to a lat/lon floating point number.
*
* @param bytes The array of bytes to convert.
*
* @return The lat/lon value.
*/
double toLatLon(const uint8_t bytes[]);
/**
* Convert an array to an altitude.
*
* @param bytes The bytes to get the altitude from.
*
* @return The converted altitude.
*/
double toAlt(const uint8_t bytes[]);
/**
* Converts an array of bytes to an airborne velocity.
*
* @param bytes The bytes to extract the velocity.
*
* @return The converted velocity.
*/
double toVel(const uint8_t bytes[]);
/**
* Converts the array of bytes to the surface ground speed.
*
* @param bytes The bytes to extract the ground speed.
*
* @return The converted ground speed.
*/
uint8_t toGS(const uint8_t bytes[]);
/**
* Converts the bytes into the heading value.
*
* @param bytes The bytes holding the heading value.
*
* @return The heading.
*/
double toHeading(const uint8_t bytes[]);
/**
* Determine heading from y and x speed vectors.
*
* @param y The y speed vector.
* @param x The x speed vector.
*
* @return The resulting heading.
*/
int16_t toHeading2(double y, double x);
/**
* Convert the array of bytes to a time of applicability (TOA).
*
* @param bytes The bytes to convert to a TOA.
*
* @return The converted TOA.
*/
float toTOA(const uint8_t bytes[]);
/**
* Convert an array of bytes to a float
*
* @param bufferPos the address of the field's first corresponding buffer byte.
*
* @return The converted float value.
*/
float toFloat(const uint8_t *bufferPos);
/**
* Convert an array of bytes to a double
*
* @param bufferPos the address of the field's first corresponding buffer byte.
*
* @return The converted double value.
*/
double toDouble(const uint8_t *bufferPos);
/**
* Converts a uint16_t into its host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte.
* @param value The uint16_t to be converted.
*
* no return value, two buffer bytes are filled by reference
*/
void uint162Buf(uint8_t *bufferPos, uint16_t value);
/**
* Converts a int16_t into its host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte.
* @param value The int32_t to be converted.
*
* no return value, two buffer bytes are filled by reference
*/
void int242Buf(uint8_t *bufferPos, int32_t value);
/**
* Converts a uint32_t into a 24 bit host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte.
* @param value The int32_t to be converted.
*
* no return value, three buffer bytes are filled by reference
*/
void uint242Buf(uint8_t *bufferPos, uint32_t value);
/**
* Converts a uint32_t into its host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte.
* @param value The uint32_t to be converted.
*
* no return value, two buffer bytes are filled by reference
*/
void uint322Buf(uint8_t *bufferPos, uint32_t value);
/**
* Converts a uint32_t containing an ICAO into its 24-bit host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte.
* @param icao The uint32_t ICAO to be converted.
*
* no return value, three buffer bytes are filled by reference
*
* @warning icao parameter must be between 0x000000 and 0xFFFFFF
*/
void icao2Buf(uint8_t *bufferPos, uint32_t icao);
/**
* Converts an array of characters into its host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte.
* @param arr[] The array of characters.
* @param len The number of characters in the array.
*
* no return value, the specified quantity of buffer bytes are filled by reference
*/
void charArray2Buf(uint8_t *bufferPos, char arr[], uint8_t len);
/**
* Converts a float into its host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte.
* @param value The float to be converted.
*
* no return value, four buffer bytes are filled by reference
*
* @warning The output of this function depends on the machine's endianness. It is designed
* for Little-Endian machines, only.
*/
void float2Buf(uint8_t *bufferPos, float value);
/**
* Converts a double into its host message buffer format
*
* @param bufferPos The address of the field's first corresponding buffer byte
* @param value The double to be converted
*
* no return value, eight buffer bytes are filled by reference
*
* @warning The output of this function depends on the machine's endianness. It is designed
* for Little-Endian machines, only
*/
void double2Buf(uint8_t *bufferPos, double value);
/**
* Converts a double into an encoded lat/lon buffer format.
*
* @param bytes address of the field's first corresponding buffer byte
* @param value the double to be converted.
*
* no return value, 3 buffer bytes are filled by reference.
*/
void latLon2Buf(uint8_t bytes[], double value);
/**
* Calculate checksum for a host message.
*
* @param buffer The raw message buffer.
* @param len The total quantity of bytes in the buffer
*
* @return The resulting checksum.
*/
uint8_t calcChecksum(uint8_t *buffer, uint8_t len);
/**
* Add the checksum to a host message.
*
* @param buffer The raw message buffer.
* @param len The total quantity of bytes in the buffer
*
* no return value, final buffer byte is set to the checksum value.
*/
void appendChecksum(uint8_t *buffer, uint8_t len);
#endif /* UTIL_H */