That is the question. Is there anything you can do with c++ unions that you can't with c# Explicit structs?


C# explicit structs have some problems when it comes to references / pointer-sized members.

Because you must explicitly specify the location, but "sizeof(IntPtr)" is not a compile-time constant (unlike C++ sizeof), it is impossible to use pointer-sized members in explicit structs when your assembly should be usable in both 32-bit and 64-bit processes.

Also, it is possible to use explicit structs to "convert" between references and pointers:

struct Test
    public IntPtr ptr;
    public string str;

When you do this, your assembly will require unsafe code permission; and there's the problem that the GC won't know what to do with the struct content - is it a pointer the GC should track, or is it just an integer?

So to answer your question: "Is there anything you can do with c++ unions that you can't with c# Explicit structs?"

Yes, it's sometimes useful in C++ to squeeze two bits of data into the lower bits of a pointer. That is possible because the two lowermost bits of pointers will always be 0 when the pointer is aligned.

Heck, if you're writing a doubly-linked list of two-bit integers, you could even store both pointers and the data in 32 bits! ("prev ^ next ^ data", see XOR linked list)

However, you cannot do anything like that in C#, as you'd confuse the GC.

| improve this answer | |
  • Marshaling has to do with layout once it becomes native data. The IntPtr is still a C# type. Until it gets marshaled into an data area, it exists as a member under the managed platform. – Lee Louviere Jan 26 '12 at 20:28

No, not really. The LayoutKind attribute is a way to Marshall data into C++ unions in interop. It's actually far more flexible than the union keyword in C++, since you have complete control over the layout in C# with structs.

| improve this answer | |
  • -1 This is completely wrong. Explicit is designed to give you more flexibility for controlling exact offsets. Union support wasn't a primary concern, and many things (like overlapping arrays and other non-array types) don't work at all. – Lee Louviere Jan 26 '12 at 20:26

You can't overlap an array of another type over data. For example, you can't overlay byte[4] and int16, int16. It will crash at run time.

| improve this answer | |

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.