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So we know that the standard doesn't force pointer sizes to be equal. (here and here) (and not talking about function pointers)

I was wondering how in reality that can be an issue. We know that void * can hold anything, so if the pointer sizes are different, that would be the biggest size. Given that, assigning a void ** to a char ** means trouble.

My question is how dangerous would it be to assume void * and char * have the same size? Is there actually an architecture where this is not true?

Also, 16-bit dos is not what I want to hear! ;)

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2 Answers 2

up vote 9 down vote accepted

void * and char * are guaranteed to have the same size.

void ** is not guaranteed to have the same size as char ** (but very likey on your implementation they will).

(C99, 6.2.5p27) "A pointer to void shall have the same representation and alignment requirements as a pointer to a character type [...] Pointers to other types need not have the same representation or alignment requirements."

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This doesn't really answer the overarching question.. –  dcow Jun 30 '12 at 16:34
@DavidCowden what is the question that is left unanswered for you? –  ouah Jun 30 '12 at 16:40
You edited your answer then asked me that.. –  dcow Jun 30 '12 at 16:41
@DavidCowden I didn't edit the question. And if you look at the time I also didn't edit the answer: your comment is after the 5 min edit time. I don't know what you mean. –  ouah Jun 30 '12 at 16:43
I didn't say you edited the question, I said you edited your answer.. –  dcow Jun 30 '12 at 16:49

Assigning pointers of different object types to each other is allowed as long as no alignment requirements are violated: The assignment will involve an (implicit) type conversion, so it is as (un)problematic as assigning a float to an int - it works in most cases but is allowed to blow up when a meaningful conversion is impossible.

char * and void * have compatible alignment requirements per spec, so assigning a char ** to a void ** variable (and vice versa) is never problematic. They even have compatible representation, which means in principle, accessing a char * through an expression of type void * - eg by dereferening a void ** which actually points to a char * - will work as expected in most cases. Of course, the converse (accessing a void * by dereferencing a char **) holds true as well.

For example, the p conversion specifier for printf() expects a void * and passing in an arbitrary pointer type is undefined behaviour. However, in case of char *, it should work even on exotic architectures (eg with different pointer representations) as long as the implementation conforms to the C standard.

Where problems may arise is aliasing analysis: Due to the effective typing rules, a void ** and a char ** can't alias, and if the programmer breaks that promise, strange things may happen. One should realize that because of effective typing (aka strict aliasing), C is actually strongly typed - the type system is just very unsound (ie doesn't protect you from violating its invariants)...

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Could you explain that list part a bit more? Why would aliasing them cause problem? Is that due to optimization? Would two char **s aliasing each other be ok, but this not? If so, how is that? –  Shahbaz Jun 30 '12 at 23:48
@Shahbaz: if you have a function with signature void foo(char **a, void **b), then the compiler is free to assume that a != b (this is a gross simplicfication and actually a lie); if both a and b had type char **, the compiler can't make that assumption, which limits optimization and led to the introduction of restrict; note that this has nothing to do with a and b being pointer-to-pointers - the same were true if they had type int * and float * –  Christoph Jul 1 '12 at 9:02

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