Can you link to the specific C language rule(s) that make type-punning through a union well-defined?

@IInspectable what is "type-punning" here ? i pass address of tp - "&tp" - and it the same as address of unnamed struct - A union object and its non-static data members are pointer-interconvertible. As a consequence, all non-static data members of a union object have the same address. and also look for One special guarantee is made in order to simplify the use of unions: If a standard-layout union contains several standard-layout structs that share a common initial sequence..

Just because you're using an anonymous union doesn't mean that you're magically not using a union. You are, and you're type punning through it. It's a mystery why you link to the C++ language specification, as the question is clearly tagged C. It's almost as though you do not understand the code you've posted.

@IInspectable - again what is "type punning" ? and more concre - what is wrong in code

Type punning.

@IInspectable and so what ? what is concrete wrong, where mistake in concrete code ? links to wiki i also can paste

I've asked for clarification in my first comment. You have not produced references that would explain why type punning through a union were safe.

@IInspectable try prove that concrete code "not safe". or wrong. what concrete is wrong

You don't seem to grasp how language specifications work. Every language construct is unspecified, unless a specific rule makes it valid. If you claim that your code is correct, there must be one or more rules that apply. I'm asking for those rules.

@IInspectable - i paste you link in the first comment. and also interesting look for your solution, where you not do so called "type-punning" ( type cast on memory pointer - this is the same )

The question is tagged c. C++ language rules do not apply. Which could be of crucial importance here.

@IInspectable - please show (in any way) your solution without "type punning". very interesting look for it. how i understand you at all never do type casting, because this "not safe"

Not sure where you got the idea from that I claimed that this weren't supported. I'm just asking you to explain, why you think your code works. To this point it much sounds like you don't know why your code works, or even what language this is.

@IInspectable in what is different between c and c++ here ? all non-static data members of a union object have the same address in c too. so in what is problem ?

What's different? Lifetimes are a thing in C++, but not in C. I had hoped for you to explain all of this to us, since you authored the code. Code that's written by someone who doesn't actually understand the code is not generally trustworthy.

@IInspectable AdjustTokenPrivileges wait for pointer to memory formated as TOKEN_PRIVILEGES and i pass exactly this pointer to api. because &tp is equal to address of unnamed structure in union. and this structure have the same memory layout as TOKEN_PRIVILEGES

You're never writing through tp, though. Explain why it is valid to read tp. I'm asking for the specific language rule(s) that apply. I mean, this is C. This cannot possibly be this difficult.

@IInspectable "You're never writing through tp, though" - of course . and so what ? i use only address of tp - &tp - i not read tp.

See, that's called type punning. Please explain why you believe that were correct/safe/supported. Again, I'm looking for the specific language rule(s) that apply. Everything else has been said in comments above. Time that you deliver.

@IInspectable - " that's called type punning" and so what how it (what it?!) called ? i already explain. what is unclear for you ? that address of tp (&tp) the same as address of unnamed structure ? or that layout of unnamed structure is the same as TOKEN_PRIVILEGES ?

I'm not asking how a C compiler written by someone that doesn't understand C would behave. I'm asking for the specific language rule that makes this correct. What do you not understand?

@IInspectable - rule - all union members have the same address. Exist such rule in both c and cpp ?

No, that rule doesn't exist in C nor C++. What you're doing isn't supported in C++.

@IInspectable this is lie. I paste link for this in first comment. And if you don't know that all union members have the same address - you not good know c/cpp

Look, get yourself a few books on C, then a few books on C++. Now turn to some compiler construction literature, have a stroll around the LLVM source code, and see what transformations a compiler can do. You'd be surprised what rules it's following. They have zero overlap with your grossly simplified understanding of either language. Anyway, none of the C++ rules posted above apply (since, you know, type punning through unions in C++ simply isn't supported).

@IInspectable now you already lie. eel.is/c++draft/class.union#general-note-2

@IInspectable so all union members have the same address ? Yes or no ?

You don't get it. You may stop right now. Literally everyone around here has told you, at one time or another, that your crude understanding of the C and C++ programming languages is ways off. Yet, you still keep fighting for your crude understanding, not coming up with anything to back your claims. Ever wondered why C++ had this awkward placement new? Once you understand what that is for, you might even have a chance of understanding what the "active memeber" of a union is all about. Once you got that, you can turn back to C.

@IInspectable - absolute concrete question - all union members have the same address ? Yes or no ?

They do not. There are situations where this is true, but it's not a general property of a union. Anyway, enough time wasted on someone that will not make the least bit of effort even just giving the impression that they'd be willing to understand. You're on your own now. Best of luck, as that seems to be the main ingredient for your faith-based code construction work.

@IInspectable to be fair, 6.5.2.3/6 (common initial sequence rules) almost makes this work and union type punning is not necessarily UB in C (6.5.2.3/3). This is going work on pretty much every compiler in existence. And the specific API they are calling here pretty much forces your hand with how it's designed. I don't think a technically well-defined standard C way to call this particular API function with a PrivilegeCount other than 1 can even exist, so this solution doesn't necessarily strike me as the worst. It's not great but it's about as good as can be given the circumstances…

@MichaelKenzel - here even not need common initial sequence rules . i not base on this. i fill unnamed struct inside union. and i want pass address of this struct to api. but can not do this directly - so i do this via another union member. i base not on common initial sequence here but on all members have the same address

@MichaelKenzel and another, second point, that this unnamed structure have the same layout as api wait - TOKEN_PRIVILEGES.

@MichaelKenzel I never claimed that this were UB in C (there isn't even UB in C, so you must be confusing this with C++). I'm literally just asking this user to provide a reference to the specific language rule they are using. Knowing this particular user well enough to know that they don't actually understand code they're writing, this would serve as a good exercise. Now if I called this off as incorrect, you'd long have seen a down-vote on this contribution.

@IInspectable I'm not familiar with this particular user or what your personal issues with them might be, but it is curious that you'd apparently take no such issue with the upvoted answer further up, which, in fact, has an even worse standing if you want to argue language rules. Anyways, I have no intentions of getting into whatever this whole situation here is. UB is short for undefined behavior, which is a term defined in the C standard in section 3.4.3. So no, I'm not confusing this with C++.

@MichaelKenzel Seeing that you hold a language-lawyer badge you may not be prepared for the horrendous statements that come out of this user. Proceed at your own risk.

@RbMm what they were pointing out is that there's no language rule you can rely on here to actually derive a guarantee that this code works. And they are correct, there technically is no such rule (at least as far as I'd be aware). Your code happens to work on the compiler it needs to work on. But it's not strictly guaranteed to work as far as standard C is concerned. While unlikely, it could stop working when compiled with a different C compiler for example. So you might want to add a disclaimer to your answer to account for this implicit dependence on platform-/compiler-specific behavior.

@MichaelKenzel i ask one absolute concrete question, (it not related to my answer but general) - are all union members have the same address ? (so we can use address of one union member instead another). and i not got concrete answer - yes or no (despite i paste link for this in first comment)

@RbMm You need to understand that just because all members of a union have the same address doesn't automatically mean that you can write to one union member and expect to have a certain specific thing show up in the other as a result of that.

For starters, memory layouts are generally implementation-defined, there's almost nothing you can rely on in that department. For example, the compiler could decide to put some padding before the array of size 2 and no padding before the array of size 1, and your code would stop working.

The point is: this code only works if you can make a whole host of assumptions about the platform/ABI and whether the compiler you're working with actually agrees with these in all the necessary aspects. The rules of the C language alone are not sufficient for this code to work.

@MichaelKenzel i not write to another union members in concrete code.

not write and not read. i use another member only for get address of unnamed struct inside union

For example, the compiler could decide to put some padding before the array of size 2 and no padding before the array of size 1, and your code would stop working. - this already about second point - are unnamed struct have the same memory layout as TOKEN_PRIVILEGES. i doubt that situation which you describe is possible, but not sure are this formal desctibed. formally most correct code is - pastebin.com/J1d3cMjL but not think such code need here

@MichaelKenzel if compiler can do this - ABI between different components, written on diffrent languages and with different complilers will be impossible on practic. should all compilers implement consistent behavior here. thay can not place member free how want. but strict, based on type align - nearest low address, with correct align. no any random pads

@MichaelKenzel and also this directly contrary to the rule of common initial sequence eel.is/c++draft/class.union#general-note-1 - struct A { X x; Y a[1]; } and struct B { X x; Y a[2]; } by sense is have common initial sequence. the a[0] member must have the same offset from structure begin in both A and B.

@RbMm the common initial sequence rule does not apply to the array members because they don't have compatible types. So your common initial sequence there ends at x, it does not extend to y.

@MichaelKenzel if it not apply to array members this only mean bad documentation. offset of some field inside struct must not depend from how many and which fields exist after it. including array indexex. for binary compatibility between different compilers if we have A and then B fields in struct - ofs(B) = (ofs(A) + sizeof(A) + alignof(B) - 1) & ~(alignof(B) - 1).