it is comment not answer

Too long to be a comment... and "I wouldn't hold out much hope in changing this!" is exactly the answer to "is this a hopeless endeavor?" ;-)

@0___________ Mate, Andrew even quoted the exact question which he answers. Why would this not be an answer?

@Andrew what about malloc? What if the code of the function is hidden (given in the compiled form).

@0___________ - malloc() returns a void * pointer to a block of memory... this is then used in auser-defined way. So malloc() itself is not aliasing (IMHO)

So the only way for me to get this program to be acceptable while not accepting the use of malloc is to change unsigned char buffer[SIZE]; to void *buffer and create a linker script to set up this pointer. ? I don't understand why it has to be that way. I mean there is also e.g. gcc specific attributes but at that point one is not writing standard C

@Andrew what is returning alloc and how it is different from the 'malloc'? What is pointer to a block of memory and why you think that the void * returned by the alloc is not a pointer to a block of memory? BTW what is "block of memory" and how can one void* reference it and another not (abstracting from the NULL pointer)

@Jens Because the question violates the rules of SO and asks two distinct and unrelated questions at once. The correct thing to do in this case is to wait until OP has decided which of the two questions they want an answer to, voting to close the question until it has been improved to a standard that conforms to the rules of the site. How can OP accept two answers if they both answer one of their two unrelated questions? The site can't work that way.

@0___________ malloc & friends are covered by the rule of effective type 6.5/6 as functions returning a pointer to an object with no declared type. It's kind of a different scenario as the compiler can't reason about the internals of malloc but it can reason about the internals of a function which it has access to, particularly when part of the same translation unit.

@0___________ malloc() is part of the implementation - and because of that it's allowed to do things code subject to the C standard can not. It's explicitly excluded from strict aliasing: "The pointer returned if the allocation succeeds is suitably aligned so that it may be assigned to a pointer to any type of object with a fundamental alignment requirement and then used to access such an object or an array of such objects in the space allocated" Any code you write is NOT explicitly excluded from strict aliasing even in many functions.

@Lundin then any void * assignment without the explicit cast should trigger the diagnostic message (similar to C++) C is not designed this way.

@0___________ Strict aliasing violations are run-time behavior. Basically you can't use void* as a go-between when you have a declared type underneath and hope to escape strict aliasing.

@AndrewHenle it is not strict aliasing rule.

Briefly: strict aliasing is about accessing objects of a certain effective type, not about pointer conversions. The various pointer types involved in various conversions are irrelevant up to the point where you do a lvalue access of the object. If that is done through a pointer of different effective type than the declared one, there might be problems.

@0___________ What part of "suitably aligned so that it may be assigned to a pointer to any type of object ... and then used to access such an object" is not an explicit exclusion from strict aliasing? That explicitly allows accessing memory from malloc() et al without regard to any underlying type inside the malloc() implementation. Ergo, malloc() et al are explicitly excluded from strict aliasing. But code you write is NOT, no matter how many functions you spread it over.

@David C. Rankin Now I've seen everything. A language lawyer that legit is a lawyer or at least owns a law-firm. It is in 6.5p7 specifically

Chuckling, still actively practicing... The funny part is we have had discussions on the site about 6.5 (6&7) and there are times you can wind yourself around an axle arriving at agreement on what the effective-type is. Add memcpy and memmove with the source being void* and the fun starts. You come away with the same certainty as the rule the courts apply to pornography ("I'll know it when I see it..."). What is there works great for discussion, but I've always thought it would benefit from a bit more clarity with regard to "effective type".

@Jens: Re “Andrew even quoted the exact question which he answers. Why would this not be an answer?”: Because, as I read it, “Would it be possible to amend the standard to permit such a program or is this a hopeless endeavor?” was asking whether there is a technical impediment to doing this, not requesting information on participating in revising the standard.

You know a rule is broken if you gather some 20+ C experts and they can't agree about what the rules actually say on the detail level. As for if there's hope of fixing this one... it would probably take for some committee member to actively pushing for a change by writing a detailed report and proposed change. I wouldn't count on the static analyser tool folks to be actively pushing for such, since they make a living on all the broken things in C. We wouldn't need things like MISRA C is all the language flaws were fixed.

BUt @EricPostpischil - that is EXACTLY how you go about changing it. You need to participate!

@Andrew: The point is that how you go about changing it was not the question. As I read it, the question was whether there are technical impediments. In other words, would making this change impede compiling C programs, optimizing C programs, writing C programs, et cetera. This answer does not answer that question.

Part of any proposal would have to consider the consequences - such as you list. Frankly, as I posted, the likelihood of changing it is nigh on nil.

@EricPostpischil: The authors of the Standard acknowledge in the Rationale that one could contrive an implementation which, although conforming, would be incapable of meaningfully processing any useful programs (i.e. "succeeds at being useless"). If the Standard were to simply give implementations carte blanche to make any aliasing assumptions they see fit, but explicitly state that quality implementations should make a bona fide effort to fulfill customer needs without regard for whether the Standard requires that they do so, that would be much clearer than the current rules.

@EricPostpischil: The Standard has always allowed conforming programs to exploit such constructs. It is only strictly conforming programs that are forbidden from doing so. Unless the Committee members can all agree that the Standard should recognize categories of programs that should be processed identically by many but not all implementations, the Standard will never be able to say anything useful about when implementations should be expected to usefully process "non-portable" programs.

@supercat: These comments are off-topic, unhelpful, and repetitive. You have injected them repeatedly in places that are, at best, tangential to what other people are discussing, apparently solely to push your pet agenda rather than to contribute to the topic at hand.

@Lundin The Standard was never intended to make any distinction between programs which, though "non-portable", should still be processed identically by general-purpose implementations for many common platforms, and those which are "erroneous". The fact that portions like N1570 6.5p7, as written, are grossly unsuitable for such purpose isn't really a defect, since they were never intended to be used in such fashion.

Unlike some other language standards, the C Standard was written to describe the universally-shared features of a family of language dialects that were already in wide use. If 99% of implementations would process a certain construct a certain way, but it would be impractical for 1% to even specify a meaningful behavior for it, such a construct would not be universally shared, and thus fall outside the Standard's jurisdiction. If one recognizes the Standard as merely specifying when...

...*all* implementations are required to process code a certain way even when doing something else would be more useful, and that in cases where the Standard didn't impose such mandates implementations were expected to use their own judgment as to how they could best serve their customers.

@DavidC.Rankin The notion of "effective type" is a broken abstraction which seeks to codify the nonsensical rationale for the answer to Defect Report #028. If it was workable, clang and gcc shouldn't be miscompiling corner cases that are unambiguously strictly conforming. A better and simpler rule would be to apply a couple tweaks to 6.5p7: all lvalues used to access a region of storage within a particular context must be freshly visibly derived, within that context, from a common type.

Compilers may draw the "context" narrowly or broadly, but those that draw the context broadly when determining whether two accesses are in the same context must likewise draw it broadly when looking for actions that would visibly derive pointers from a common type. Those that draw contexts narrowly when looking for object derivation must do likewise when deciding whether two accesses occur in the same context. Applying that rule would nix the need for the character-type exception.

Most code that uses character types to access objects of other types will convert the objects' addresses to character pointers, and perform all accesses that are going to happen using those pointers, without any intervening actions involving the original types.