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I am trying to parse binary data that I receive in a string. I am not very familiar with bitwise operation.

One of the byte (which I assume is an unsigned short) in my string contains 2 important numbers: the version and a count. Bits 1 to 4 contain the version, bits 5 to 8 contain the count.

So I have an unsigned short containing the data, how do I obtain two unsigned short containing the 2 information I need.

bit: 1_2_3_4_5_6_7_8_


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Should it be 'bits 5 to 8 contains the count'? – Thomson Jan 18 '11 at 11:11
unsigned shorts are usually 16 bits, and are at least that many although they can be more as long as they are no bigger than int. – CashCow Jan 18 '11 at 11:27
up vote 2 down vote accepted

Shift and perform AND operation.

int version = value & 0xF;
int count = (value >> 4) & 0xF;

or vice versa. Bits as numbers are right to left - 7-6-5-4-3-2-1-0

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There's not a universal way to number bits en.wikipedia.org/wiki/Bit_numbering – David Gelhar Jan 18 '11 at 11:20
There is in C, and it's inherited in C++. The >> and << operators makes it visually clear. 1<<3 is 1 shifted over 3 positions. Since 1<<3 == 8, we know that bits are counted from the left. Similarly, 128 >> 3 == 16. – MSalters Jan 18 '11 at 13:35
@MSalters The shift operators do not define how the bits are numbered, and C does not provide any way to refer to a specific bit by number. So, although we know that the binary representation of 1 is 00000001 and 8 is 00001000, nothing in C specifies whether the bit that's set in 00000001 is called "bit 0", "bit 7", or even "bit 8". Bit numbering is generally an issue of documentation, not code: there are not a lot of bit-addressable architectures out there, and (as the wikipedia article says) "Bit numbering is usually transparent to the software". – David Gelhar Jan 18 '11 at 21:19
@David Gelhar: you're missing the point. Bit numbers represent the value of the corresponding bit. Bit 0 represents the bit with value 2^0, and bit 7 has value 2^7. This holds regardless of the order they appear in a string. Therefore, it's is simple matter of definition that the byte with value 128 has bit 7 set. The only point of argument would be whether that's written (or stored) as 00000001 or 10000000. In C, 128==1<<7, shifted left. That makes it visually clear what the chosen convention is. – MSalters Jan 20 '11 at 11:31
@MSalters That may be your definition of what "bit numbers" mean, but it's by no means universal. For example, in RFCs, the recommended practice is to call the most significant bit of a byte "bit 0". – David Gelhar Jan 20 '11 at 14:12
unsigned short part1 = data & 0xF; // bits 0..3
unsigned short part2 = (data >> 4) & 0xF; // bits 4..7
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I understand that two pieces of information (version and count) are stored as a pair of two nibbles (4-bit pieces) in a single byte so I think you thought of unsigned char type instead of unsigned short (in which case you would split it into two bytes). If this is correct, we have two cases of how nibbles are packed:

Case 1: version is higher nibble (bits 4-7) and count is lower nibble (bits 0-3)

unsigned char ver = c >> 4;
unsigned char count = (c & 0x0f);

Case 2: count is higher nibble (bits 4-7) and version is lower nibble (bits 0-3)

unsigned char count = c >> 4;
unsigned char ver = (c & 0x0f);

where c is byte containing information and is declared as:

unsigned char c;

and bit numbering starts at zero for the least significant bit.

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unsigned short version = (unsigned short)(data & 0x0F);

unsigned short count = (unsigned short) (data >> 4);
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