# Bitfields in C#

So, bitfields. Specifically, large bitfields. I understand how to manipulate individual values in a bitfield, but how would I go about doing this on a large set, such as say:

``````uint[] bitfield = new uint[4] { 0x0080000, 0x00FA3020, 0x00C8000, 0x0FF00D0 };
``````

The specific problem I'm having is doing left and right shifts that carry through across the whole array. So for instance, if I did a `>> 4` on the above array, I'd end up with:

``````uint[4] { 0x0008000, 0x000FA302, 0x000C800, 0x00FF00D };
``````

Now, an (overly) simplistic algorithm here might look something like (this is me writting code on the fly):

``````int shift = 4;
for (int i = 0; i <= shift; i++) {
for (int j = bitfield.GetUpperBound(0); j > 0; j--) {
bitfield[j] = bitfield[j] >> 1;
bitfield[j] = bitfield[j] + ((bitfield[j-1] & 1) << (sizeof(uint)*8));
}
bitfield[0] = bitfield[0] >> 1;
}
``````

Is there anything built in that might ease working with this sort of data?

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What makes you think that BitArray uses bools internally? It uses Boolean values to represent the bits in terms of the API, but under the hood I believe it uses an int[].

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At any rate, it still doesn't support what I need to do. –  Matthew Scharley Oct 7 '08 at 12:28
monoxide: At any rate, you are being ignorant. –  leppie Oct 7 '08 at 12:29
How about wrapping a BitArray in a type which remembers the "current shift" - and then adds/subtracts that value from any accesses? –  Jon Skeet Oct 7 '08 at 12:30
I believe that was why I jumped to that conclusion though Jon. As for your idea, it's an interesting one. See if anyone else comes up with any other ideas :) –  Matthew Scharley Oct 7 '08 at 12:34

I'm not sure if it's the best way to do it, but this could work (constraining shifts to be in the range 0-31.

``````	public static void ShiftLeft(uint[] bitfield, int shift) {

if(shift < 0 || shift > 31) {
// handle error here
return;
}

int len = bitfield.Length;
int i = len - 1;
uint prev = 0;

while(i >= 0) {
uint tmp		= bitfield[i];
bitfield[i] = bitfield[i] << shift;
if(i < len - 1) {
bitfield[i] |= (uint)(prev & (1 >> shift) - 1 ) >> (32 - shift);
}
prev = tmp;

i--;
}

}

public static void ShiftRight(uint[] bitfield, int shift) {

if(shift < 0 || shift > 31) {
// handle error here
return;
}
int len = bitfield.Length;
int i = 0;
uint prev = 0;

while(i < len) {
uint tmp		= bitfield[i];
bitfield[i] = bitfield[i] >> shift;
if(i > 0) {
bitfield[i] |= (uint)(prev & (1 << shift) - 1 ) << (32 - shift);
}
prev = tmp;

i++;
}

}
``````

PD: With this change, you should be able to handle shifts greater than 31 bits. Could be refactored to make it look a little less ugly, but in my tests, it works and it doesn't seem too bad performance-wise (unless, there's actually something built in to handle large bitsets, which could be the case).

``````	public static void ShiftLeft(uint[] bitfield, int shift) {

if(shift < 0) {
// error
return;
}

int intsShift = shift >> 5;

if(intsShift > 0) {
if(intsShift > bitfield.Length) {
// error
return;
}

for(int j=0;j < bitfield.Length;j++) {
if(j > intsShift + 1) {
bitfield[j] = 0;
} else {
bitfield[j]	= bitfield[j+intsShift];
}
}

BitSetUtils.ShiftLeft(bitfield,shift - intsShift * 32);
return;
}

int len = bitfield.Length;
int i = len - 1;
uint prev = 0;

while(i >= 0) {
uint tmp	= bitfield[i];
bitfield[i] = bitfield[i] << shift;
if(i < len - 1) {
bitfield[i] |= (uint)(prev & (1 >> shift) - 1 ) >> (32 - shift);
}
prev = tmp;

i--;
}

}

public static void ShiftRight(uint[] bitfield, int shift) {

if(shift < 0) {
// error
return;
}

int intsShift = shift >> 5;

if(intsShift > 0) {
if(intsShift > bitfield.Length) {
// error
return;
}

for(int j=bitfield.Length-1;j >= 0;j--) {
if(j >= intsShift) {
bitfield[j]	= bitfield[j-intsShift];
} else {
bitfield[j] = 0;
}
}

BitSetUtils.ShiftRight(bitfield,shift - intsShift * 32);
return;
}

int len = bitfield.Length;
int i = 0;
uint prev = 0;

while(i < len) {
uint tmp	= bitfield[i];
bitfield[i] = bitfield[i] >> shift;
if(i > 0) {
bitfield[i] |= (uint)(prev & (1 << shift) - 1 ) << (32 - shift);
}
prev = tmp;

i++;
}

}
``````
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Using extension methods, you could do this:

``````public static class BitArrayExtensions
{
public static void DownShift(this BitArray bitArray, int places)
{
for (var i = 0; i < bitArray.Length; i++)
{
bitArray[i] = i + places < bitArray.Length && bitArray[i + places];
}
}

public static void UpShift(this BitArray bitArray, int places)
{
for (var i = bitArray.Length - 1; i >= 0; i--)
{
bitArray[i] = i - places >= 0 && bitArray[i - places];
}
}
}
``````

Unfortunately, I couldn't come up with a way to overload the shift operators. (Mainly because `BitArray` is sealed.)

If you intend to manipulate `int`s or `uint`s, you could create extension methods for inserting bits into / extracting bits from the `BitArray`. (`BitArray` has a constructor that takes an array of `int`s, but that only takes you that far.)

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