# Combining 17bit data into byte array

I'm having a bit of an issue with trying to move groups of 17bit data in to a byte array. I don't want to have to go through step-by-step, but I can't figure out a logical loop.
I need it this way because I'm meant to calculate a checksum by adding up the all the byte values after combining them like this.
So here is what I am struggling with.

I have 16 byte arrays. The first 3 bytes of the array contain the 17 bits I'm after. (8 bits from `[0]`, 8 bits from `[1]`, and the MSB from `[2]`.)

I need to move these 16 17bit values to one separate byte array.

The first one is easy:

``````int index = 0;
myArray[index++] = driverData[driver][0];            //First byte
myArray[index++] = driverData[driver][1];            //Second byte
myArray[index] = (driverData[driver][2] & 0x80) << 7;  //First bit of the third byte.
``````

From here though it gets harder to attempt any kind of loop to move these over.

``````driver++;<br>
//Take the 7 MSBs from the data array.
myArray[index++] |= (byte)(driverData[driver][0] & 0x7e >> 1);
//This leaves a single bit left over on driverData[driver][0].
myArray[index] = (byte)(driverData[driver][1] & 0x1 << 7);
``````

I think you get the picture. Am I doing this all wrong? Can anyone point me in the right direction?

-
(hope I didn't trash your in-progress edit too hard, sorry :) I think it might actually be easier with the `driverData[driver][1]` construct than the `data1`, `data2`, construct, as you can then iterate over `driver++` as well. (Also, note the description says `[1]`, `[2]`, `[3]`, but the code says `[0]`, `[1]`, `[3]`.) –  sarnold May 20 '11 at 0:12
No, you've improved it lots, thanks. I'll quickly fix those issues. Thank you. –  Spenduku May 20 '11 at 0:19
sarnold...I have no idea how you formatted it with the code highlighted etc... I think I just trashed your excellent edits now. –  Spenduku May 20 '11 at 0:24
So just to be clear, the first three bytes of each input array contain 17 bits of information. And you have to pack those groups of 17 bits contiguously in a byte array? So the 1st byte of the output has the 1st 8 bits of the 1st array, the 2nd byte of the output has the 2nd 8 bits of the 1st array, the 3rd byte of the output has the last bit of the 1st array and the 1st 7 bits of the 2nd array and so on? –  QuantumMechanic May 20 '11 at 0:25
Yes QuantumMechanic. That's spot on. –  Spenduku May 20 '11 at 0:30

Here is what I came up with. The first part of the method is just setting up some fake input data, so remove that and add arguments as needed. The `OutputData` array is unnecessarily large but I didn't spend time to calculate its actual length.

I used 170 as the input value which is `10101010` and was helpful in validation.

``````private void BitShift17()
{
const int NumChunks = 16;
byte[] DriverData = new byte[]
{
170,
170,
170
};
byte[][] InputData = new byte[NumChunks][];
for (int n = 0; n < NumChunks; n++)
InputData[n] = DriverData;

byte[] OutputData = new byte[NumChunks * 3]; // Unnecessarily large

int OutputIndex = 0;
int BitPosition = 0;
for (int Driver = 0; Driver < InputData.Length; Driver++)
{
for (int InputIndex = 0; InputIndex < 3; InputIndex++)
{
byte InputByte = InputIndex == 2 ? (byte)(InputData[Driver][InputIndex] & 128) : InputData[Driver][InputIndex];
if (BitPosition == 0)
{
OutputData[OutputIndex] = InputByte;
if (InputIndex == 2)
BitPosition++;
else
OutputIndex++;
}
else
{
if (InputIndex == 2)
{
OutputData[OutputIndex] |= (byte)(InputByte >> BitPosition);
BitPosition++;
}
else
{
OutputData[OutputIndex] |= (byte)(InputByte >> BitPosition);
OutputIndex++;
OutputData[OutputIndex] = (byte)(InputByte << 8 - BitPosition);
}
}
}
if (BitPosition > 7) BitPosition = 0;
}
}
``````
-
Hmmm...I'll check that out too and see what I get. Just a moment too late! :) Thanks JYelton. –  Spenduku May 21 '11 at 6:27
I've marked your answer as the correct answer since you put in the effort too. Thanks again. –  Spenduku May 21 '11 at 6:28

Sounds like you have a prime number loop large enough to make coding the individual cases a bad idea. This is a classic packing problem. You need a loop that iterates through your destination, and some inner code that gets more bits to pack. Your packing code should know how many bits are available to it from the last iteration, how many it needs, and should be able to increment the source pointer if it doesn't have enough.

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OK, so how would you go about coding that? –  Spenduku May 20 '11 at 1:06
@Spenduku: it's easier if you do it one bit at a time. Dequeue 17 bits from the input, enqueue 17 bits onto the output. Both sides need to keep track of the current byte and the current bit within that byte. –  bk1e May 20 '11 at 3:35
I should thank you bk1e as your comment seemed to spark how to accomplish this. –  Spenduku May 20 '11 at 23:46

OK, so this looks to be working. I probably need to test it more, but this seems to be giving me the result I expect so far. I'm sure I could do this better somehow.

``````// ... //
void foo()
{
//Lets start by getting all the 17bit values from each driver for the board.
int bitIndex = 7;
int byteIndex = 0;
int stopIndex = chipIndex + GetChipCount();
//Now we start the shiftyness.
for (int driver = chipIndex; driver < stopIndex; driver++) {
int userBits =
(driverData[driver][0] & 0xff) << 9 | (driverData[driver][1]
& 0xff)
<< 1 | (driverData[driver][2] & 0x80) >> 7;

}
}

/// <summary>
/// Takes the 17 bits, and adds them to the byte array.
/// </summary>
private void AddBitsToArray(int userBits, ref int bitIndex, ref int byteIndex)
{
int bitCount = 17;
while (bitCount > 0) {
//First 8 bytes.
checksumBytes[byteIndex] |=
(byte) (((userBits & bitValue(bitCount - 1)) >>
(bitCount - 1)) << bitIndex);
//Move up the bit index to be written to.
bitIndex--;
//Decrement the number of bits left to shift.
bitCount--;
//If we have gone past the 8th bit, reset the bitIndex and increment the byteIndex.
if (bitIndex >= 0)
continue;
bitIndex = 7;
byteIndex++;
}
}

/// <summary>
/// Returns the value of a single bit at the given index.
/// </summary>
private int bitValue(int bitIndex)
{
return (int)(Math.Pow(2, bitIndex));
}
``````
-
That's cleaner than anything I came up with :) if it passes your tests, I'd say be happy with it. :) –  sarnold May 20 '11 at 23:00
OK, will do. Thanks for your editing help sarnold. :) It looks like JYeltons code works just fine too, pity I can't select two answers –  Spenduku May 21 '11 at 6:26