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I have declared an array of bytes:

uint8_t memory[123];

which i have filled with:


And now i get requests from the user for specific bits. For example, i receive a request to send the bits in position 10:35, and i must return those bits combined in bytes. In that case i would need 4 bytes which contain.

response[3]=0b00000011; //padded with zeros for excess bits

This will be used for Modbus which is a big-endian protocol. I have come up with the following code:

for(int j=findByteINIT;j<(findByteFINAL);j++){

   aux[0]=(unsigned char) (memory[j]>>(startingbit-(8*findByteINIT)));
   aux[1]=(unsigned char) (memory[j+1]<<(startingbit-(8*findByteINIT)));

   response[h]=(unsigned char) (aux[0] | aux[1] );

   aux[0]=0x00;//clean aux


which does not work but should be close to the ideal solution. Any suggestions?

share|improve this question
If I understand that correctly, the shifts should differ by 8, not be the opposites. That is, if the first shift is >>(startingbit-(8*findByteINIT)), the other one should be >>((startingbit-(8*findByteINIT))-8), which is <<(8-(startingbit-(8*findByteINIT))), or the other way around. – Gassa Mar 19 '14 at 22:13
std::bitset – Bryan Chen Mar 19 '14 at 22:13
I find the best way to debug bitwise operations is to work through your code on paper. – paddy Mar 19 '14 at 22:39
up vote 0 down vote accepted

I think this should do it.

int start_bit = 10, end_bit = 35; // input

int start_byte = start_bit / CHAR_BIT;
int shift = start_bit % CHAR_BIT;
int response_size = (end_bit - start_bit + (CHAR_BIT - 1)) / CHAR_BIT;
int zero_padding = response_size * CHAR_BIT - (end_bit - start_bit + 1);

for (int i = 0; i < response_size; ++i) {
  response[i] =
      static_cast<uint8_t>((memory[start_byte + i] >> shift) |
                           (memory[start_byte + i + 1] << (CHAR_BIT - shift)));
response[response_size - 1] &= static_cast<uint8_t>(~0) >> zero_padding;

If the input is a starting bit and a number of bits instead of a starting bit and an (inclusive) end bit, then you can use exactly the same code, but compute the above end_bit using:

int start_bit = 10, count = 9;  // input
int end_bit = start_bit + count - 1;
share|improve this answer
Thank you! It worked! – Uracilo Mar 19 '14 at 23:36

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