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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];
        // 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];


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
I was going to suggest unsafe code, but then found this: Array.Copy, as Marlon suggests is probably the best way to go. – dariom Feb 24 '11 at 2:14

3 Answers 3

up vote 41 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.


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);
        Console.WriteLine("Buffer.memcpyimpl: {0:N0} ticks", sw.ElapsedTicks);

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

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

    static void Main(string[] args)
        for (int i = 0; i < 10; i++)

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:… – 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
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
It should be noted that the memcpyimpl method no longer exists in at least .NET 4.5.1, it's now called Memcpy and there are various overloads for it so you need to pass in the parameter types to resolve the method you want. – ChrisWue Oct 6 '14 at 20:18

You can use Array.Copy.


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];

            fixed(double* pA=A, pB=B)
                for(int i=0; i<B.Length; 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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