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i2c_receiveData(sDevice *psDevice, byte_t *pbBuffer, uint16_t *puiLen)
//extract the packet data length
unFrameLen = (*(pbBuffer+1) << 8) | *(pbBuffer + 2);
if(unFrameLen > *puiLen)

Here how this statement is finding Frame Length?

unFrameLen = (*(pbBuffer+1) << 8) | *(pbBuffer + 2);

Here pbBuffer is a pointer to unsigned char array.

calling function was,

i2c_receiveData(psDevice, prgDataRecv, &unRegLen);
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3 Answers 3

up vote 4 down vote accepted

In this case, it appears the "frame length" is stored at offset 1 into the passed buffer.

It also appears that it is a 16-bit integer.

In order to get a usable 16-bit integer you must unpack from the buffer. It would be better to cast and use htons/ntohs instead, but I presume the architecture is well-known and portability isn't a concern.

For an input of, say, pbBuffer = {0, 1, 2}, this ends up being:

(1 << 8) | 2;

... which gives:

(00000001b << 8) | 00000010b

... shifting 1b left 8 bits gives:


... and OR-ing with 10b:


Now you have a 16-bit integer from the two 8-bit integers in pbBuffer[1..2]:

100000010b = 0x102
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+1 especially for the htons() reference. – sarnold Nov 21 '11 at 8:16
this means the frame length is 258? – SHRI Nov 21 '11 at 8:34
For these inputs, yes. – Matthew Iselin Nov 21 '11 at 8:36

Apparently, the frame length is sent in the protocol in the 2nd and 3rd byte. That expression builds the 16-bit integer from the 2 bytes.

*(pbBuffer+x) is the same as pbBuffer[x], so the byte #1 is left-shifted by 8 and the byte #2 is added to it.

If you receive in your pbBuffer, e.g. { 0000 0000, 0101 0101, 1100 1100, ...} (binary), the two bytes extracted will be

*(pbBuffer+1) = 0101 0101
*(pbBuffer+2) = 1100 1100

The calculation will be

 *(pbBuffer+1) << 8                  = 0101 0101 0000 0000
(*(pbBuffer+1) << 8) | *(pbBuffer+2) = 0101 0101 1100 1100

The bit-wise or (|) is the same as an addition here because the 8 lower bits of (*(pbBuffer+1) << 8) are all 0.

Note that the details depend a bit on the platform.

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thanks allot for your detailed answer. above columnwise bits helped me understanding very well thanks – SHRI Nov 21 '11 at 8:30

Break the statement apart into smaller pieces:

 *(pbBuffer+1)       /* gets the byte_t value one beyond the pbBuffer pointer */
(*(pbBuffer+1) << 8) /* shifts that byte eight bits left -- in essence
                        xxxxxxxx00000000 -- where xxx comes from pbBuffer+1 */

*(pbBuffer+2)        /* gets the byte_t value two beyond the pbBuffer pointer */

(*(pbBuffer+1) << 8) | *(pbBuffer + 2)
/* xxxxxxxx00000000  |  yyyyyyyy */
   xxxxxxxxyyyyyyyy */

This reconstructs the two bytes specified into a single 16-bit data type. These sorts of operations are especially common when dealing with networking code, because different machines have different byte orders. The different orders mean numbers larger than one byte can't be easily passed around on networks without use of a network byte order to serve as an intermediary format. (Some computers work in network byte order natively while others must perform conversions all the time.)

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