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From C# 5.0 in a Nutshell: The Definitive Reference in page 22;

Reference types require separate allocations of memory for the reference and object. The object consumes as many bytes as its fields, plus additional administrative overhead. The precise overhead is intrinsically private to the implementation of the .NET runtime, but at minimum the overhead is eight bytes, used to store a key to the object’s type, as well as temporary information such as its lock state for multithreading and a flag to indicate whether it has been fixed from movement by the garbage collector. Each reference to an object requires an extra four or eight bytes, depending on whether the .NET runtime is running on a 32- or 64-bit platform.

I'm not quite sure I understand this bold part completely. It says on 32-bit platforms a reference requires four bytes, on 64-bit platforms it requires eight bytes.

So, let's say we have

string s = "Soner";

How can I check how many bytes this s reference requires?

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Can you tell us, why you would ever want to check that programmatically? Those are implementation details for a reason. If you need that information, you are very likely doing something bad. –  mastov Jun 10 at 10:39

3 Answers 3

up vote 5 down vote accepted

You can use Environment.Is64BitProcess. If it is, every reference will be 8 bytes. If it's not, every reference will be 4 bytes. The type of the reference, and the contents of the object it refers to, are irrelevant.

EDIT: As noted in a now-deleted answer, IntPtr.Size is even simpler.

EDIT: As noted in comments, although currently all references in a CLR are the same size, it's just possible that at some point it will go down a similar path to Hotspot, which uses "compressed oops" in many cases to store references as 32-bit values even in a 64-bit process (without limiting the memory available).

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Thanks Jon, but is there any other way to find this just using s reference instead of checking the platform is 64-bit or not? –  Soner Gönül Jul 4 '13 at 20:11
@SonerGönül: Not easily, no. Why would you want to? It's not like it depends on the reference - it depends on whether you're using a 64-bit CLR. –  Jon Skeet Jul 4 '13 at 20:13
@SonerGönül: If that's what you really want, my answer tells you how. –  Mehrdad Jul 4 '13 at 20:16
Simon Belanger's (deleted) answer is perhaps better, use IntPtr.Size. Which will still work on those future 128-bit platforms (though 640K ought to be enough for anyone) –  Joe Jul 4 '13 at 20:20
@JonSkeet, Simon should undelete, he needs the rep points more than you :) –  Joe Jul 4 '13 at 20:34

If you really want to calculate the size of a reference, using this Reference.Size should work:

using System;
using System.Reflection.Emit;

public static class Reference
    public static readonly int Size = new Func<int>(delegate()
        var method = new DynamicMethod(string.Empty, typeof(int), null);
        var gen = method.GetILGenerator();
        gen.Emit(OpCodes.Sizeof, typeof(object));
        return ((Func<int>)method.CreateDelegate(typeof(Func<int>)))();

But going with the other answers is probably a better idea.

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Thats funky. :) +1 –  Simon Belanger Jul 4 '13 at 20:09
@SonerGönül: Huh? The size of s doesn't depend on s itself (Jon mentioned that above), it only depends on the type of s, which is some subclass of object. So Reference.Size gives you the value you need. –  Mehrdad Jul 4 '13 at 20:20

To expand on Jon Skeet's answer, to get the number of possible bytes you should do this:

int bytesInRef = Environment.Is64BitProcess ? 8 : 4;

However, this is an implementation detail. Not only should you not worry about this, you should ignore this. Here's a good blog post on (another) implementation detail, but it's still applicable as it talks about implementation details and how you shouldn't trust them or depend on them. Here: The Stack Is An Implementation Detail

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