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I would like a clean way to increase the size of a StringBuilder() as required for population by native code, the callback method below seems clean, but somehow we get a copy of the buffer instead of the actual buffer - I'm interested in explanations and solutions (preferably sticking to the callback type allocation as it would be nice and clean if only it could be made work).

using System;
using System.Runtime.InteropServices;
using System.Text;

namespace csharpapp
    internal class Program
        private static void Main(string[] args)
            var buffer = new StringBuilder(12);
            // straightforward, we can write to the buffer but unfortunately
            // cannot adjust its size to whatever is required
            Native.works(buffer, buffer.Capacity); 

            // try to allocate the size of the buffer in a callback - but now
            // it seems only a copy of the buffer is passed to native code
            Native.foo(size =>
                               buffer.Capacity = size;
                               buffer.Replace("works", "callback");
                               return buffer;
            string s = buffer.ToString();

    internal class Native
        public delegate StringBuilder AllocateBufferDelegate(int bufsize);
        [DllImport("w32.dll", CharSet = CharSet.Ansi)]
        public static extern long foo(AllocateBufferDelegate callback);
        [DllImport("w32.dll", CharSet = CharSet.Ansi)]
        public static extern void works(StringBuilder buf, int bufsize);

native header

#ifdef W32_EXPORTS
#define W32_API __declspec(dllexport)
#define W32_API __declspec(dllimport)

typedef char*(__stdcall *FnAllocStringBuilder)(int);
extern "C" W32_API long foo(FnAllocStringBuilder fpAllocate);
extern "C" W32_API void works(char *buf, int bufsize);

native code

#include "stdafx.h"
#include "w32.h"
#include <stdlib.h>

extern "C" W32_API long foo(FnAllocStringBuilder fpAllocate)
    char *src = "foo       X";
    int len = strlen(src) + 1;

    char *buf = fpAllocate(len);
    return strcpy_s(buf,len,src);

extern "C" W32_API void works(char *buf, int bufsize)
share|improve this question
Try marking the StringBuilder parameter as [In,Out] in your p/invoke signature. –  Polynomial Feb 21 '12 at 13:46
The StringBuilder passed as a parameter works ok - it is the one that is returned from the function pointer / delegate that is a problem. –  dice Feb 21 '12 at 13:50
It's a little surprising that the returned StringBuffer is, apparently, marshalled differently to those passed in as arguments. It's possible that this is just the way it is, and you'll have to work around it. +1 though. –  romkyns Feb 21 '12 at 15:26

2 Answers 2

up vote 5 down vote accepted

I have a theory for why this happens. I suspect that the marshalling of StringBuilder involves making a copy of the data, passing it to the P/Invoke call, and then copying back into the StringBuilder. I couldn't actually verify this though.

The only alternative to this would require the StringBuilder to be flattened first (it is internally a linked list of char[]'s), and the char[] pinned, and even then this would only work for marshalling to pointer-to-Unicode-chars strings, but not to ANSI or COM strings.

Thus, when you pass a StringBuilder as an argument, there's an obvious place for .NET to copy any changes back: right after the P/Invoke returns.

The same isn't true for when you pass a delegate returning a StringBuilder. In this case .NET needs to create a wrapper which converts an int => StringBuilder function into an int => char* function. This wrapper will create the char* buffer and populate it, but obviously can't copy any changes back yet. It also can't do this after the function that takes the delegate returns: it's still too early!

In fact, there is no obvious place at all where the reverse copy could occur.

So my guess is that this is what happens: when marshalling a StringBuilder-returning delegate, .NET can only perform a one-way conversion, hence any changes you make aren't reflected in the StringBuilder. This is slightly better than being completely unable to marshal such delegates.

As for solutions: I would recommend first asking the native code how large the buffer needs to be, and then passing a buffer of the appropriate size in a second call. Or, if you need better performance, guess a large enough buffer, but allow the native method to communicate that more space is required. This way most calls would involve only one P/Invoke transition.

This can be wrapped into a more convenient function that you can just call from the managed world without worrying about buffers.

share|improve this answer
sounds very probable - I thought I had done something like this in the past but I guess I must have used C++/Cli or went about it in a UNICODE environment with a char[]. –  dice Feb 21 '12 at 16:47
You can verify that the copying actually happens: write to the buffer in a loop in the unmanaged code and also read from the StringBuilder in a loop from another thread. And yes, it seems that's actually what happens: StringBuilder is copied to the native buffer before the native function is called and then copied back after it returns. –  svick Feb 21 '12 at 16:48

In addition to the input provided by romkyns I will share the minimal changes solution I came up with. If anyone uses this be careful of your encodings!

the principal modification is:

    private static void Main(string[] args)
        byte[] bytes = null;
        var gcHandle = new GCHandle();

        Native.foo(size =>
                            bytes = new byte[size];
                            gcHandle = GCHandle.Alloc(bytes,GCHandleType.Pinned);
                            return gcHandle.AddrOfPinnedObject();


        string s = ASCIIEncoding.ASCII.GetString(bytes);


with the delegate signature changeing to:

public delegate IntPtr AllocateBufferDelegate(int bufsize);
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