weatherstation/firmware/libraries/Adafruit_BusIO/Adafruit_BusIO_Register.h

#ifndef Adafruit_BusIO_Register_h
#define Adafruit_BusIO_Register_h

#include <Arduino.h>

#if !defined(SPI_INTERFACES_COUNT) ||                                          \
    (defined(SPI_INTERFACES_COUNT) && (SPI_INTERFACES_COUNT > 0))

#include <Adafruit_I2CDevice.h>
#include <Adafruit_SPIDevice.h>

typedef enum _Adafruit_BusIO_SPIRegType {
  ADDRBIT8_HIGH_TOREAD = 0,
  /*!<
   * ADDRBIT8_HIGH_TOREAD
   * When reading a register you must actually send the value 0x80 + register
   * address to the device. e.g. To read the register 0x0B the register value
   * 0x8B is sent and to write 0x0B is sent.
   */
  AD8_HIGH_TOREAD_AD7_HIGH_TOINC = 1,

  /*!<
   * ADDRBIT8_HIGH_TOWRITE
   * When writing to a register you must actually send the value 0x80 +
   * the register address to the device. e.g. To write to the register 0x19 the
   * register value 0x99 is sent and to read 0x19 is sent.
   */
  ADDRBIT8_HIGH_TOWRITE = 2,

  /*!<
   * ADDRESSED_OPCODE_LOWBIT_TO_WRITE
   * Used by the MCP23S series, we send 0x40 |'rd with the opcode
   * Then set the lowest bit to write
   */
  ADDRESSED_OPCODE_BIT0_LOW_TO_WRITE = 3,

} Adafruit_BusIO_SPIRegType;

/*!
 * @brief The class which defines a device register (a location to read/write
 * data from)
 */
class Adafruit_BusIO_Register {
public:
  Adafruit_BusIO_Register(Adafruit_I2CDevice *i2cdevice, uint16_t reg_addr,
                          uint8_t width = 1, uint8_t byteorder = LSBFIRST,
                          uint8_t address_width = 1);

  Adafruit_BusIO_Register(Adafruit_SPIDevice *spidevice, uint16_t reg_addr,
                          Adafruit_BusIO_SPIRegType type, uint8_t width = 1,
                          uint8_t byteorder = LSBFIRST,
                          uint8_t address_width = 1);

  Adafruit_BusIO_Register(Adafruit_I2CDevice *i2cdevice,
                          Adafruit_SPIDevice *spidevice,
                          Adafruit_BusIO_SPIRegType type, uint16_t reg_addr,
                          uint8_t width = 1, uint8_t byteorder = LSBFIRST,
                          uint8_t address_width = 1);

  bool read(uint8_t *buffer, uint8_t len);
  bool read(uint8_t *value);
  bool read(uint16_t *value);
  uint32_t read(void);
  uint32_t readCached(void);
  bool write(uint8_t *buffer, uint8_t len);
  bool write(uint32_t value, uint8_t numbytes = 0);

  uint8_t width(void);

  void setWidth(uint8_t width);
  void setAddress(uint16_t address);
  void setAddressWidth(uint16_t address_width);

  void print(Stream *s = &Serial);
  void println(Stream *s = &Serial);

private:
  Adafruit_I2CDevice *_i2cdevice;
  Adafruit_SPIDevice *_spidevice;
  Adafruit_BusIO_SPIRegType _spiregtype;
  uint16_t _address;
  uint8_t _width, _addrwidth, _byteorder;
  uint8_t _buffer[4]; // we won't support anything larger than uint32 for
                      // non-buffered read
  uint32_t _cached = 0;
};

/*!
 * @brief The class which defines a slice of bits from within a device register
 * (a location to read/write data from)
 */
class Adafruit_BusIO_RegisterBits {
public:
  Adafruit_BusIO_RegisterBits(Adafruit_BusIO_Register *reg, uint8_t bits,
                              uint8_t shift);
  bool write(uint32_t value);
  uint32_t read(void);

private:
  Adafruit_BusIO_Register *_register;
  uint8_t _bits, _shift;
};

#endif // SPI exists
#endif // BusIO_Register_h