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The MSDN clearly states

For all other types, including structs, the sizeof operator can only be used in unsafe code blocks.

The C# Language Specification is even more precise :

  1. The order in which members are packed into a struct is unspecified.
  2. For alignment purposes, there may be unnamed padding at the beginning of a struct, within a struct, and at the end of the struct.
  3. The contents of the bits used as padding are indeterminate.
  4. When applied to an operand that has struct type, the result is the total number of bytes in a variable of that type, including any padding.

However how would the CLR handle the following structures :

[StructLayout(LayoutKind.Explicit, Size = 1, Pack = 1)]
public struct MyStruct
    [FieldOffset(0)] public byte aByte;

public struct MyEmptyStruct { }

In MyStruct we enforce the layout explicitly, the size and how to pack it via the StructLayout attribute. This structure is supposed to have a size of 1 byte in memory.

On the other hand MyEmptyStruct is empty, we can assume that the size in memory will be 0 bytes - even if a such structure is most likely not going to be used it still is an interesting case.

When trying to compute the size of theses structures using sizeof(MyStruct) and sizeof(MyEmptyStruct) the compiler throws the following error :

'*' does not have a predefined size, therefore sizeof can only be used in an unsafe context

I would like to know why using sizeof in this context is considered unsafe. The question is not intended to ask for workarounds nor the correct way to compute the size of a struct but rather to focus on the causes.

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Skeet's answer here: sizeof() structures not known. Why? is good. –  spender Jun 14 '13 at 9:40
I haven't seen anywhere the reason why it is unsafe. I'm guessing that the compiler requires that to reinforce the notion that sizeof(struct) is going to vary based on x86/x64 setting and so on, so it's kindof an unsafe thing to do. But just asking for the size of a struct isn't unsafe in the same way as getting and using a pointer to a memory block is unsafe. –  Matthew Watson Jun 14 '13 at 9:44
Voting to reopen. This is not a duplicate of the question linked above - the other question asks why you cannot get a size of a a struct that consists of only the built-in types, not why sizeof of structs is not available in managed contexts. –  dasblinkenlight Jun 14 '13 at 9:50
The reason is outlined in the first sentence of Chris Brummes blog entry: blogs.msdn.com/b/cbrumme/archive/2003/04/15/51326.aspx - "We don't expose the managed size of objects because we want to reserve the ability to change the way we lay these things out." –  Lasse V. Karlsen Jun 14 '13 at 9:53
I've come to the conclusion that the reason you require unsafe is that the only reason you could possibly have to take the size of a struct using sizeof() is if you are going to do pointer arithmetic, therefore it is sensible to restrict usage to an unsafe context. Note that you can't use sizeof(struct) when serializing data because it could be a different size from Marshal.Sizeof() –  Matthew Watson Jun 14 '13 at 10:06

2 Answers 2

up vote 5 down vote accepted

I would like to know why using sizeof in this context is considered unsafe.

Matthew Watson's comment hits the nail on the head. What are you going to do with that information in safe code? It's not useful for anything(*). It doesn't tell you how many unmanaged bytes you need to allocate to marshal; that's Marshal.SizeOf. It's only useful for pointer arithmetic, so why should it be in the safe subset?

(*) OK to be fair there are a few odd corner case usages for a safe sizeof that can take structs that contain managed types. Suppose for example you have a generic collection class that is going to allocate a bunch of arrays and would like to ensure that those arrays are not moved into the large object heap; if you could take the size of a struct that contained managed objects then you could write this code very easily, and it would not need any pointer arithmetic. But the fact remains that sizeof was designed specifically for pointer arithmetic, and not so that you could do an end-run around the garbage collection heuristics for arrays.

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The subject of your latest blog post is quite a coincidence. It must be sizeof awareness week or something ;) –  Doctor Jones Jun 14 '13 at 15:20
One thing I've noticed in the design of C# is that it sometimes seems like the language people go out of their way to forbid things for which they don't see a use, even if the things would otherwise be harmless; examples include the aforementioned sizeof, enum and delegate type constraints, declaring a method protected new sealed virtual (a new non-virtual method will not prevent a derived class from overriding the parent definition), etc. Is there a driving philosophy not to allow things for which no immediate use is seen, even when doing so would simply mean not checking for them? –  supercat Jun 14 '13 at 16:01
@supercat: That's an oversimplification but basically the answer to your question is yes. The design team has the attitude that features should be justified by their use cases and if possible, constrained to those cases. The design team also has the conflicting attitude that general features are better than specific features. Design is the process of finding a good compromise amongst a set of conflicting principles. –  Eric Lippert Jun 14 '13 at 16:15
I can certainly understand that features that require significant work to implement should require significant justification. I'm more interested in cases in which the language designers decided that compiler writers should invest effort forbidding constructs for which they might not have seen much use, but which would otherwise have been available by default. For example, constraining a a generic type to System.Delegate wouldn't let one Invoke it, but would allow one to call Delegate.Combine on two things of that type and cast the result back to that type (useful), so why forbid it? –  supercat Jun 14 '13 at 16:56
@supercat: There is no feature that does not require significant design, specification, implementation, test and documentation work, and there is no feature which does not impact the design cost of every future feature. The feature you suggest is a good one and I'd love to have it; you've already mentioned some of the cases that would have to be tested. It's not a bad feature and I'd use it if I had it -- and we considered it when adding expression trees -- but it didn't make the bar. C# 3.0 was the single largest work item in that release of VS; anything that added risk was cut. –  Eric Lippert Jun 14 '13 at 17:22

Lots of wrong assumptions in the question, I'll just address them one by one:

in MyStruct we enforce the layout explicitly

You didn't. The [StructLayout] attribute is only truly effective when the structure value is marshaled. Marshal.StructureToPtr(), also used by the pinvoke marshaller. Only then do you get the guarantee that the marshaled value has the requested layout. The CLR reserves the right to layout the structure as it sees fit. It will align structure members so the code that uses the struct is as fast as possible, inserting empty bytes if necessary. And if such padding bytes leave enough room then it will even swap members to get a smaller layout. This is entirely undiscoverable, other than by using a debugger to look at the machine code that accesses the structure members. Some [StructLayout] properties do affect the layout, LayoutKind.Explicit does in fact support declaring unions. The exact details of the mapping algorithm is undocumented, subject to change and strongly depends on the target machine architecture.

the result is the total number of bytes in a variable of that type, including any padding.

It is not, the actual structure can be smaller than the declared struct. Possible by swapping a member into the padding.

This structure is supposed to have a size of 1 byte in memory.

That's very rarely the case. Local variables are also aligned in memory, by 4 bytes on a 32-bit processor and 8 bytes in a 64-bit processor. Unless the struct is stored in an array, it will actually take 4 or 8 bytes on the stack or inside an object on the heap. This alignment is important for the same reason that member alignment is important.

MyEmptyStruct is empty, we can assume that the size in memory will be 0 bytes

A variable will always have at least 1 byte, even if the struct is empty. This avoids ambiguities like having a non-empty array that takes zero bytes. Also the rule in other languages, like C++.

why using sizeof in this context is considered unsafe

To be clear, using sizeof on primitive value types doesn't require unsafe since .NET 2. But for structs there is a definite possibility that sizeof() might be used to address memory directly, adding it to an IntPtr for example. With the considerable risk that using sizeof() was the wrong choice and should have been Marshal.SizeOf() instead. I would guess that the practicality of using sizeof() on structs is so low, given that a struct should always be small, and the odds for hacking IntPtrs the wrong way is so high that they left it unsafe.

share|improve this answer
Thank you for the detailed answer, however I still have a couple of questions. the result is the total number of bytes in a variable of that type, including any padding. => It is not ... so the C# spec is actually wrong? That's very rarely the case. Local variables are also aligned in memory Sure but the sizeof operator isn't defined to return the aligned/padded size of types, the Marshal.SizeOf() is meant for that. –  dna Jun 14 '13 at 13:18
Also You didn't. The [StructLayout] attribute is only truly effective when the structure value is marshaled. the MSDN states the contrary : ...LayoutKind.Explicit ... This affects both managed and unmanaged layout, for both blittable and non-blittable types msdn.microsoft.com/en-us/library/… –  dna Jun 14 '13 at 13:19
You are asking too many questions to answer. I specifically addressed the corner case of unions. –  Hans Passant Jun 14 '13 at 13:24
Please accept my apologies if I have to many remarks regarding your answer, but I think that a couple of points need to be clarified. –  dna Jun 14 '13 at 13:32
Code which causes an IntPtr to be actually dereferenced is going to be unverifiable. Adding sizeof(someStruct) isn't going to make it any more unverifiable than adding 12. Code which adds sizeof(someStruct) to an IntPtr but never actually causes it to be dereferenced is going to be no more unsafe than code which adds any other number to any other variable. –  supercat Jun 14 '13 at 16:05

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