There is an article online with the title "The Truth About .NET Objects And Sharing Them Between AppDomains" which shows some rotor source code and some results of experimenting with objects and sharing them between app domains via a plain pointer.
http://geekswithblogs.net/akraus1/archive/2012/07/25/150301.aspx
- 12 bytes for all 32-bit versions of the CLR
- 24 bytes for all 64-bit versions of the CLR
You can do test this quite easily by adding millions of objects (N) to an array. Since the pointer size is known you can calculate the object size by dividing the value by N.
var initial = GC.GetTotalMemory(true);
const int N = 10 * 1000 * 1000;
var arr = new object[N];
for (int i = 0; i < N; i++)
{
arr[i] = new object();
}
var ObjSize = (GC.GetTotalMemory(false) - initial - N * IntPtr.Size) / N;
to get an approximate value on your .NET platform.
The object size is actually defined to allow the GC to make assumptions about the minimum object size.
\sscli20\clr\src\vm\object.h
//
// The generational GC requires that every object be at least 12 bytes
// in size.
#define MIN_OBJECT_SIZE (2*sizeof(BYTE*) + sizeof(ObjHeader))
For e.g. 32 bit this means that the minimum object size is 12 bytes which do leave a 4-byte hole. This hole is empty for an empty object but if you add e.g. int to your empty class then it is filled and the object size stays at 12 bytes.