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I have three arrays that need to be combined in one three-dimension array. The following code shows slow performance in Performance Explorer. Is there a faster solution?

for (int i = 0; i < sortedIndex.Length; i++) {
    if (i < num_in_left)
    {    
        // add instance to the left child
        leftnode[i, 0] = sortedIndex[i];
        leftnode[i, 1] = sortedInstances[i];
        leftnode[i, 2] = sortedLabels[i];
    }
    else
    { 
        // add instance to the right child
        rightnode[i-num_in_left, 0] = sortedIndex[i];
        rightnode[i-num_in_left, 1] = sortedInstances[i];
        rightnode[i-num_in_left, 2] = sortedLabels[i];
    }                    
}

Update:

I'm actually trying to do the following:

//given three 1d arrays
double[] sortedIndex, sortedInstances, sortedLabels;
// copy them over to a 3d array (forget about the rightnode for now)
double[] leftnode = new double[sortedIndex.Length, 3];
// some magic happens here so that
leftnode = {sortedIndex, sortedInstances, sortedLabels};
share|improve this question
1  
I was going to suggest unsafe code, but then found this: stackoverflow.com/questions/85479/c-unsafe-fixed-code. Array.Copy, as Marlon suggests is probably the best way to go. –  dariom Feb 24 '11 at 2:14

3 Answers 3

up vote 28 down vote accepted

Use Buffer.BlockCopy. Its entire purpose is to perform fast (see Buffer):

This class provides better performance for manipulating primitive types than similar methods in the System.Array class.

Admittedly, I haven't done any benchmarks, but that's the documentation. It also works on multidimensional arrays; just make sure that you're always specifying how many bytes to copy, not how many elements, and also that you're working on a primitive array.

Also, I have not tested this, but you might be able to squeeze a bit more performance out of the system if you bind a delegate to System.Buffer.memcpyimpl and call that directly. The signature is:

internal static unsafe void memcpyimpl(byte* src, byte* dest, int len)

It does require pointers, but I believe it's optimized for the highest speed possible, and so I don't think there's any way to get faster than that, even if you had assembly at hand.


Update:

Due to requests (and to satisfy my curiosity), I tested this:

using System;
using System.Diagnostics;
using System.Reflection;

unsafe delegate void MemCpyImpl(byte* src, byte* dest, int len);

static class Temp
{
    //There really should be a generic CreateDelegate<T>() method... -___-
    static MemCpyImpl memcpyimpl = (MemCpyImpl)Delegate.CreateDelegate(
        typeof(MemCpyImpl), typeof(Buffer).GetMethod("memcpyimpl",
            BindingFlags.Static | BindingFlags.NonPublic));
    const int COUNT = 32, SIZE = 32 << 20;

    //Use different buffers to help avoid CPU cache effects
    static byte[]
        aSource = new byte[SIZE], aTarget = new byte[SIZE],
        bSource = new byte[SIZE], bTarget = new byte[SIZE],
        cSource = new byte[SIZE], cTarget = new byte[SIZE];


    static unsafe void TestUnsafe()
    {
        Stopwatch sw = Stopwatch.StartNew();
        fixed (byte* pSrc = aSource)
        fixed (byte* pDest = aTarget)
            for (int i = 0; i < COUNT; i++)
                memcpyimpl(pSrc, pDest, SIZE);
        sw.Stop();
        Console.WriteLine("Buffer.memcpyimpl: {0:N0} ticks", sw.ElapsedTicks);
    }

    static void TestBlockCopy()
    {
        Stopwatch sw = Stopwatch.StartNew();
        sw.Start();
        for (int i = 0; i < COUNT; i++)
            Buffer.BlockCopy(bSource, 0, bTarget, 0, SIZE);
        sw.Stop();
        Console.WriteLine("Buffer.BlockCopy: {0:N0} ticks",
            sw.ElapsedTicks);
    }

    static void TestArrayCopy()
    {
        Stopwatch sw = Stopwatch.StartNew();
        sw.Start();
        for (int i = 0; i < COUNT; i++)
            Array.Copy(cSource, 0, cTarget, 0, SIZE);
        sw.Stop();
        Console.WriteLine("Array.Copy: {0:N0} ticks", sw.ElapsedTicks);
    }

    static void Main(string[] args)
    {
        for (int i = 0; i < 10; i++)
        {
            TestArrayCopy();
            TestBlockCopy();
            TestUnsafe();
            Console.WriteLine();
        }
    }
}

The results:

Buffer.BlockCopy: 469,151 ticks
Array.Copy: 469,972 ticks
Buffer.memcpyimpl: 496,541 ticks

Buffer.BlockCopy: 421,011 ticks
Array.Copy: 430,694 ticks
Buffer.memcpyimpl: 410,933 ticks

Buffer.BlockCopy: 425,112 ticks
Array.Copy: 420,839 ticks
Buffer.memcpyimpl: 411,520 ticks

Buffer.BlockCopy: 424,329 ticks
Array.Copy: 420,288 ticks
Buffer.memcpyimpl: 405,598 ticks

Buffer.BlockCopy: 422,410 ticks
Array.Copy: 427,826 ticks
Buffer.memcpyimpl: 414,394 ticks

Now change the order:

Array.Copy: 419,750 ticks
Buffer.memcpyimpl: 408,919 ticks
Buffer.BlockCopy: 419,774 ticks

Array.Copy: 430,529 ticks
Buffer.memcpyimpl: 412,148 ticks
Buffer.BlockCopy: 424,900 ticks

Array.Copy: 424,706 ticks
Buffer.memcpyimpl: 427,861 ticks
Buffer.BlockCopy: 421,929 ticks

Array.Copy: 420,556 ticks
Buffer.memcpyimpl: 421,541 ticks
Buffer.BlockCopy: 436,430 ticks

Array.Copy: 435,297 ticks
Buffer.memcpyimpl: 432,505 ticks
Buffer.BlockCopy: 441,493 ticks

Now change the order again:

Buffer.memcpyimpl: 430,874 ticks
Buffer.BlockCopy: 429,730 ticks
Array.Copy: 432,746 ticks

Buffer.memcpyimpl: 415,943 ticks
Buffer.BlockCopy: 423,809 ticks
Array.Copy: 428,703 ticks

Buffer.memcpyimpl: 421,270 ticks
Buffer.BlockCopy: 428,262 ticks
Array.Copy: 434,940 ticks

Buffer.memcpyimpl: 423,506 ticks
Buffer.BlockCopy: 427,220 ticks
Array.Copy: 431,606 ticks

Buffer.memcpyimpl: 422,900 ticks
Buffer.BlockCopy: 439,280 ticks
Array.Copy: 432,649 ticks

or, in other words: they're very competitive; as a general rule, memcpyimpl is fastest, but it's not necessarily worth worrying about.

share|improve this answer
    
C'mon, man, benchmark it! I always assumed Buffer.BlockCopy is faster, but I'm not sure anymore. Hans Passant (way down in the page) claims the exact same CLR code executes for both: social.msdn.microsoft.com/Forums/en-US/netfxbcl/thread/… –  MusiGenesis Feb 24 '11 at 2:26
    
I'm curious to know if your last suggestion works, and how well if so. –  MusiGenesis Feb 24 '11 at 2:27
    
@MusiGenesis: I guess memcpyimpl is the way to go then? (Not that I've benchmarked that either, though I have used it before. I'll benchmark it right now.) –  Mehrdad Feb 24 '11 at 2:28
    
@MusiGenesis: Done; see update. –  Mehrdad Feb 24 '11 at 2:57
5  
Hans Passant: answering StackOverflow questions before there even was a StackOverflow! I think that officially puts him in Jon Skeet territory. –  MusiGenesis Feb 24 '11 at 4:35

You can use Array.Copy.

EDIT

Array.Copy does work for multidimensional arrays: see this topic.

share|improve this answer
    
How exactly does that work? –  Yang Feb 24 '11 at 2:12
    
I looked at your link, but my situation is different. The source comes from three different 1d arrays. The dest array is an N by 3 array where each dimension contains one of the source array. –  Yang Feb 24 '11 at 7:10

For primitive type arrays (like double) you can copy fast, even for multidimensional array with pointers.

In the code below I initialize a 2D array A[10,10] with the values 1 through 100. Then I copy these values into a 1D array B[100]

unsafe class Program
{

    static void Main(string[] args)
    {
        double[,] A=new double[10, 10];

        for(int i=0; i<10; i++)
        {
            for(int j=0; j<10; j++)
            {
                A[i, j]=10*i+j+1;
            }
        }
        // A has { { 1 ,2 .. 10}, { 11, 12 .. 20}, .. { .. 99, 100} }
        double[] B=new double[10*10];

        if(A.Length==B.Length)
        {
            fixed(double* pA=A, pB=B)
            {
                for(int i=0; i<B.Length; i++)
                {
                    pB[i]=pA[i];
                }
            }
            // B has {1,2,3,4 .. 100}
        }
    }
}

How fast is it. My testing has shown it to be many times faster then native C# copy and Buffer.BlockCopy(). You try it for your case and let us know.

Edit 1 I compared copying with four methods. 1) Two Nested loops, 2) One Serial loop, 3) Pointers, 4) BlockCopy. I measured the # of copies per tick for various size arrays.

N=  10x  10 (cpy/tck) Nested= 50, Serial= 33, Pointer=    100, Buffer=    16
N=  20x  20 (cpy/tck) Nested=133, Serial= 40, Pointer=    400, Buffer=   400
N=  50x  50 (cpy/tck) Nested=104, Serial= 40, Pointer=   2500, Buffer=  2500
N= 100x 100 (cpy/tck) Nested= 61, Serial= 41, Pointer=  10000, Buffer=  3333
N= 200x 200 (cpy/tck) Nested= 84, Serial= 41, Pointer=  40000, Buffer=  2666
N= 500x 500 (cpy/tck) Nested= 69, Serial= 41, Pointer= 125000, Buffer=  2840
N=1000x1000 (cpy/tck) Nested= 33, Serial= 45, Pointer= 142857, Buffer=  1890
N=2000x2000 (cpy/tck) Nested= 30, Serial= 43, Pointer= 266666, Buffer=  1826
N=5000x5000 (cpy/tck) Nested= 21, Serial= 42, Pointer= 735294, Buffer=  1712

It is clear here who is the winner. Pointer copy is orders of magnitudes better than any other method.

Edit 2 Apparently I was unfairly taking advantage of a compiler/JIT optimization because when I moved the loops behind delegates to equalize the playing field the numbers changed dramatically.

N=  10x  10 (cpy/tck) Nested=  0, Serial=  0, Pointer=      0, Buffer=     0
N=  20x  20 (cpy/tck) Nested= 80, Serial= 14, Pointer=    100, Buffer=   133
N=  50x  50 (cpy/tck) Nested=147, Serial= 15, Pointer=    277, Buffer=  2500
N= 100x 100 (cpy/tck) Nested= 98, Serial= 15, Pointer=    285, Buffer=  3333
N= 200x 200 (cpy/tck) Nested=106, Serial= 15, Pointer=    272, Buffer=  3076
N= 500x 500 (cpy/tck) Nested=106, Serial= 15, Pointer=    276, Buffer=  3125
N=1000x1000 (cpy/tck) Nested=101, Serial= 11, Pointer=    199, Buffer=  1396
N=2000x2000 (cpy/tck) Nested=105, Serial=  9, Pointer=    186, Buffer=  1804
N=5000x5000 (cpy/tck) Nested=102, Serial=  8, Pointer=    170, Buffer=  1673

The buffered copy is top here (thanks to @Mehrdad) with pointer copy second. The question now is why isn't pointer copy as fast as buffer methods?

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