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I have a 3D array of bytes in c# which I have read from a bitmap:

byte[w, h, 3]

What is the easiest and more performance-friendly way of reshaping this array into 2D (linear) form?

byte[w*h, 3]

In other words I want to keep number of channels (features) but in a linear shape (rather than a square shape)

Let me try to illustrate input and desired output:

input:

|(r1,g1,b1)    (r2,g2,b2)    (r3,g3,b3)|
|(r4,g4,b4)    (r5,g5,b5)    (r6,g6,b6)|
|(r7,g7,b7)    (r8,g8,b8)    (r9,g9,b9)|

note that arr[0, 0, 0] = r1, arr[0, 0, 1] = g1, arr[0, 0, 2] = b1, etc..

and output:

|(r1,g1,b1)    (r2,g2,b2)    (r3,g3,b3)    (r4,g4,b4)    (r5,g5,b5)    (r6,g6,b6) ...|
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2 Answers

up vote 7 down vote accepted

This seems to work fine, because the array is already in the right shape in memory:

var a = new byte[2,  2, 2] { { { 1, 2 }, { 3, 4 } }, { { 5, 6 }, { 7, 8 } } };
var b = new byte[2 * 2, 2];

//sizeof(byte) is obviously 1 here, but I put it there for documentation
Buffer.BlockCopy(a, 0, b, 0, a.Length * sizeof(byte));

For those interested: As for what to do if you really want to transpose a 2D array into 1D:

byte[,] a = {
    {1, 2},
    {3, 4},
    {5, 6},
};
var b = new byte[a.GetLength(1) * a.GetLength(0)]; //Transpose

const int R_STRIDE1 = 8; //Tune this for your CPU
const int C_STRIDE1 = 8; //Tune this for your CPU

//You should hoist the calls to GetLength() out of the loop unlike what I do here
for (int r1 = 0; r1 < a.GetLength(0); r1 += R_STRIDE1)
for (int c1 = 0; c1 < a.GetLength(1); c1 += C_STRIDE1)
    for (int r2 = 0; r2 < R_STRIDE1; r2++)
    for (int c2 = 0; c2 < C_STRIDE1; c2++)
    {
        var r = r1 + r2;
        var c = c1 + c2;
        if (r < a.GetLength(0) && c < a.GetLength(1))
            b[c * a.GetLength(0) + r] = a[r, c];
    }

This should take advantage of caching in the CPU. I have only performed limited testing on this -- it could still be slow. Try tweaking it if it is.
You can (somewhat non-trivially) extend this to a 3D array.

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Phew, I'm not sure whether you could get issues with Memory layout. Does the spec guarantee arrays are stored in sequentially mapped memory? –  Johannes Rudolph Jun 29 '11 at 15:16
1  
@Johannes: They're in row-major order, but I think column-major would also work. You don't care about platform-specific padding because BlockCopy should take care of it anyway. –  Mehrdad Jun 29 '11 at 15:18
    
@Mehrdad, so does it mean I will get this in the result?: [1st-row 1st layer] [2nd-row 1st layer] ... [1st-row 2nd layer] [2nd-row 2nd layer]... ? –  Valipour Jun 29 '11 at 15:22
    
@Mehrdad: Good to know, Nevr worked with BlockCopy but happy it does handle that. –  Johannes Rudolph Jun 29 '11 at 15:26
    
@valipour: Depends on what you mean by "row". In the example of arr[a, b, c], c is the row, not a. And in that case, you'd go through the row before going through the next column. –  Mehrdad Jun 29 '11 at 15:33
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Buffer.BlockCopy will do it. At least, it works in this simple test.

byte[, ,] src = new byte[10, 10, 3];
byte[,] dest = new byte[100, 3];

List<byte> srcList = new List<byte>();
Random rnd = new Random();
for (int i = 0; i < 10; ++i)
{
    for (int j = 0; j < 10; ++j)
    {
        for (int k = 0; k < 3; ++k)
        {
            byte b = (byte)rnd.Next();
            src[i, j, k] = b;
            srcList.Add(b);
        }
    }
}

Buffer.BlockCopy(src, 0, dest, 0, 300);

List<byte> destList = new List<byte>();
for (int i = 0; i < 100; ++i)
{
    for (int j = 0; j < 3; ++j)
    {
        destList.Add(dest[i, j]);
    }
}

// See if they're in the same order
for (int i = 0; i < srcList.Count; ++i)
{
    Console.WriteLine("{0,3:N0} - {1,3:N0}", srcList[i], destList[i]);
    if (srcList[i] != destList[i])
    {
        Console.WriteLine("ERROR!");
    }
}

That said, I wouldn't use Buffer.BlockCopy in this way unless I was absolutely sure that there weren't odd cases with padding issues, etc. And although Buffer.BlockCopy is certainly faster than the equivalent explicit loop, it shouldn't materially affect the runtime of your program. Unless you're doing this conversion inside a piece of code that's called very, very often ... in which case you have bigger problems.

I would suggest writing the explicit loop.

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Why wouldn't BlockCopy take care of padding issues? The padding issues should be transparent to the programmer, so it's the responsibility of BlockCopy to keep it that way. (Think about it: Otherwise, it would corrupt your memory!) There's no reason to avoid BlockCopy whatsoever. –  Mehrdad Jun 29 '11 at 15:47
    
For others reading this answer, take note that the fourth parameter to Buffer.BlockCopy is the number of bytes to copy not the length or number of elements to copy. In this example since we are copying bytes the numbers happen to be the same but if your buffer was another data type like float, do not forget to multiply by sizeof(float) to copy the correct number of elements. i.e. Buffer.BlockCopy(srcFloatArray, 0, destFloatArray, 0, sizeof(float) * 300); –  Steven Magana-Zook Mar 4 '13 at 16:53
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