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converting code from c++ to c

ajit_nayak87ajit_nayak87 chennaiMember Posts: 4
edited June 2016 in Beginner C/C++

Dear all.
can someone suggest me c++ code into c

` void Modbus::get_FC3() {
uint8_t u8byte, i;
u8byte = 3;

  for (i = 0; i < au8Buffer[ 2 ] / 2; i++) {
    au16regs[ i ] = word(
    au8Buffer[ u8byte ],
    au8Buffer[ u8byte + 1 ]);
    u8byte += 2;
  }
}


int8_t Modbus::process_FC1( uint16_t *regs, uint8_t u8size ) {
  uint8_t u8currentRegister, u8currentBit, u8bytesno, u8bitsno;
  uint8_t u8CopyBufferSize;
  uint16_t u16currentCoil, u16coil;

  // get the first and last coil from the message
  uint16_t u16StartCoil = word( au8Buffer[ ADD_HI ], au8Buffer[ ADD_LO ] );
  uint16_t u16Coilno = word( au8Buffer[ NB_HI ], au8Buffer[ NB_LO ] );

  // put the number of bytes in the outcoming message
  u8bytesno = (uint8_t) (u16Coilno / 8);
  if (u16Coilno % 8 != 0) u8bytesno ++;
  au8Buffer[ ADD_HI ]  = u8bytesno;
  u8BufferSize         = ADD_LO;

  // read each coil from the register map and put its value inside the outcoming message
  u8bitsno = 0;

  for (u16currentCoil = 0; u16currentCoil < u16Coilno; u16currentCoil++) {
    u16coil = u16StartCoil + u16currentCoil;
    u8currentRegister = (uint8_t) (u16coil / 16);
    u8currentBit = (uint8_t) (u16coil % 16);

    bitWrite(
    au8Buffer[ u8BufferSize ],
    u8bitsno,
    bitRead( regs[ u8currentRegister ], u8currentBit ) );
    u8bitsno ++;

    if (u8bitsno > 7) {
      u8bitsno = 0;
      u8BufferSize++;
    }
  }

  // send outcoming message
  if (u16Coilno % 8 != 0) u8BufferSize ++;
  u8CopyBufferSize = u8BufferSize +2;
  sendTxBuffer();
  return u8CopyBufferSize;
}

int8_t Modbus::process_FC3( uint16_t *regs, uint8_t u8size ) {

  uint8_t u8StartAdd = word( au8Buffer[ ADD_HI ], au8Buffer[ ADD_LO ] );
  uint8_t u8regsno = word( au8Buffer[ NB_HI ], au8Buffer[ NB_LO ] );
  uint8_t u8CopyBufferSize;
  uint8_t i;

  au8Buffer[ 2 ]       = u8regsno * 2;
  u8BufferSize         = 3;

  for (i = u8StartAdd; i < u8StartAdd + u8regsno; i++) {
    au8Buffer[ u8BufferSize ] = highByte(regs[i]);
    u8BufferSize++;
    au8Buffer[ u8BufferSize ] = lowByte(regs[i]);
    u8BufferSize++;
  }
  u8CopyBufferSize = u8BufferSize +2;
  sendTxBuffer();

  return u8CopyBufferSize;
}


int8_t Modbus::process_FC5( uint16_t *regs, uint8_t u8size ) {
  uint8_t u8currentRegister, u8currentBit;
  uint8_t u8CopyBufferSize;
  uint16_t u16coil = word( au8Buffer[ ADD_HI ], au8Buffer[ ADD_LO ] );

  // point to the register and its bit
  u8currentRegister = (uint8_t) (u16coil / 16);
  u8currentBit = (uint8_t) (u16coil % 16);

  // write to coil
  bitWrite(
  regs[ u8currentRegister ],
  u8currentBit,
  au8Buffer[ NB_HI ] == 0xff );


  // send answer to master
  u8BufferSize = 6;
  u8CopyBufferSize = u8BufferSize +2;
  sendTxBuffer();

  return u8CopyBufferSize;

}


int8_t Modbus::process_FC6( uint16_t *regs, uint8_t u8size ) {

  uint8_t u8add = word( au8Buffer[ ADD_HI ], au8Buffer[ ADD_LO ] );
  uint8_t u8CopyBufferSize;
  uint16_t u16val = word( au8Buffer[ NB_HI ], au8Buffer[ NB_LO ] );

  regs[ u8add ] = u16val;

  // keep the same header
  u8BufferSize         = RESPONSE_SIZE;

  u8CopyBufferSize = u8BufferSize +2;
  sendTxBuffer();

  return u8CopyBufferSize;
}


int8_t Modbus::process_FC15( uint16_t *regs, uint8_t u8size ) {
  uint8_t u8currentRegister, u8currentBit, u8frameByte, u8bitsno;
  uint8_t u8CopyBufferSize;
  uint16_t u16currentCoil, u16coil;
  boolean bTemp;

  // get the first and last coil from the message
  uint16_t u16StartCoil = word( au8Buffer[ ADD_HI ], au8Buffer[ ADD_LO ] );
  uint16_t u16Coilno = word( au8Buffer[ NB_HI ], au8Buffer[ NB_LO ] );


  // read each coil from the register map and put its value inside the outcoming message
  u8bitsno = 0;
  u8frameByte = 7;
  for (u16currentCoil = 0; u16currentCoil < u16Coilno; u16currentCoil++) {

    u16coil = u16StartCoil + u16currentCoil;
    u8currentRegister = (uint8_t) (u16coil / 16);
    u8currentBit = (uint8_t) (u16coil % 16);

    bTemp = bitRead(
    au8Buffer[ u8frameByte ],
    u8bitsno );

    bitWrite(
    regs[ u8currentRegister ],
    u8currentBit,
    bTemp );

    u8bitsno ++;

    if (u8bitsno > 7) {
      u8bitsno = 0;
      u8frameByte++;
    }
  }

  // send outcoming message
  // it's just a copy of the incomping frame until 6th byte
  u8BufferSize         = 6;
  u8CopyBufferSize = u8BufferSize +2;
  sendTxBuffer();
  return u8CopyBufferSize;
}


int8_t Modbus::process_FC16( uint16_t *regs, uint8_t u8size ) {
  uint8_t u8func = au8Buffer[ FUNC ];  // get the original FUNC code
  uint8_t u8StartAdd = au8Buffer[ ADD_HI ] << 8 | au8Buffer[ ADD_LO ];
  uint8_t u8regsno = au8Buffer[ NB_HI ] << 8 | au8Buffer[ NB_LO ];
  uint8_t u8CopyBufferSize;
  uint8_t i;
  uint16_t temp;

  // build header
  au8Buffer[ NB_HI ]   = 0;
  au8Buffer[ NB_LO ]   = u8regsno;
  u8BufferSize         = RESPONSE_SIZE;

  // write registers
  for (i = 0; i < u8regsno; i++) {
    temp = word(
    au8Buffer[ (BYTE_CNT + 1) + i * 2 ],
    au8Buffer[ (BYTE_CNT + 2) + i * 2 ]);

    regs[ u8StartAdd + i ] = temp;
  }
  u8CopyBufferSize = u8BufferSize +2;
  sendTxBuffer();

  return u8CopyBufferSize;
}
`
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