I have two unmanaged pointers in the form of IntPtr and want to copy data between them. How can I do this? I know the method Marshal.Copy, but it can only copy between unmanaged and managed. And the second part: Is copying unmanaged data from C# slower than doing it in unmanaged C/C++ using memcpy?

Edit: I would be especially interested in a platform independet implementation.

  • To comment all answers given so far: There is no direct .NET (and platform independent) way to do this? – Danvil Apr 17 '10 at 13:20
  • I've updated my answer with the direct C# approach (using an unsafe block and pointers). – Ash Apr 17 '10 at 13:25

You can use the win32 memcpy function via P-Invoke.

[DllImport("msvcrt.dll",  SetLastError = false)]
static extern IntPtr memcpy(IntPtr dest, IntPtr src, int count);

Apart from the (slight) overhead calling a win32 function from managed code, the actual copy performance should be the same as C/C++ code that uses the same function.

Don't forget that you can also use an unsafe block (and compiler option) and simply copy the data one byte/int/long at a time:

    // srcPtr and destPtr are IntPtr's pointing to valid memory locations
    // size is the number of long (normally 4 bytes) to copy
    long* src = (long*)srcPtr;
    long* dest = (long*)destPtr;
    for (int i = 0; i < size / sizeof(long); i++)
        dest[i] = src[i];

This removes the platform dependency, but you need to be very careful with the bounds checking and pointer arithmetic.

  • 1
    Thanks for the unsafe code, but my C/C++ experience warns me, that one runs in a bunch of problems when trying to re-implement memcpy... – Danvil Apr 17 '10 at 14:23
  • @Danvil, yes, the whole point of using .NET is to avoid code like this. It can be useful for efficient bitmap processing etc, but should be avoided if at all possible. However it is comforting that Microsoft still support this "shoot yourself in the foot" feature if you need it. – Ash Apr 17 '10 at 14:29
  • 6
    Calling it with this signature causes a pInvokeStackImbalance for me. But this was resolved by using the signature on pinvoke.net. – Aidiakapi Apr 19 '12 at 16:24
  • 1
    I also got the pInvokeStackImbalance, i used the kernel32.dll CopyMemory instead. – Greg Sep 30 '16 at 3:06
  • I, too, got the stack imbalance exception as mentioned above. I tried to use the pinvoke.net function signature redefinition but couldn't get it to work (basically 3rd argument: uint nBytes --> new UintPtr( nBytes)). So I went to the kernel32.dll + CopyMemory solution below and it worked. Important note: my VS2008 C# code was WORKING. Only when I dropped the code into VS2017 did it throw an exception. Weird. – RickC Oct 17 '18 at 3:49

Try System.Buffer.MemoryCopy, see the bottom of the page for supported target frameworks.

I believe that the main difference between this and the other solutions that use P/Invoke is that this method avoids the P/Invoke for smaller sizes and just does the copying directly.

Here's the guts of the implementation in .NET Core (latest as of 2020-09-04).


Without making comments on performance, purely because I have not tested it. You can achieve the same performance as unmanaged copy by using either CopyMemory or MoveMemory from Kernel32 via interop.

Here is the declaration for CopyMemory

static extern void CopyMemory(IntPtr destination, IntPtr source, uint length);
  • 1
    I believe CopyMemory and RTLCopyMemory actually just use memcpy to do the actual copying. See the winnt.h header file. – Ash Apr 17 '10 at 13:05
  • Yes you end up in ntdll memcpy. – Trass3r Mar 17 '17 at 13:33

You could look at System.Runtime.CompilerServices.Unsafe.CopyBlock

It seems to allow you to copy bytes from the source address (designated by a void*) to the destination address (designated by a void*).

It also overriden to support ref byte as the source and destination.

[edit] Disappointingly it appears not to be implemented in Mono

[edit] For those who are interested in this and using Unity, you should instead look to Unity's UnsafeUtility.MemCpy


CopyMemory aka RtlCopyMemory aka memcpy() will be just as fast whether called from C# or C (other than the tiny overhead of PInvoking the method itself).

Something to keep in mind, though, is that CopyMemory should only be used when you're sure that the source and destination ranges do not overlap. If they do overlap, you need to use MoveMemory instead, which will be slower.

Here is a declaration for CopyMeSomeMemory, showing how many different ways you can do the same thing in .Net:

[DllImport("kernel32.dll", EntryPoint = "RtlCopyMemory")]
public static extern void CopyMeSomeMemory(IntPtr Destination, 
    IntPtr Source, uint Length);

For the record, I think Buffer.BlockCopy in .Net just wraps one of these functions, too.

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