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I have wrote the following code to get the offset of a tuple element

template<size_t Idx,class T>
 constexpr size_t tuple_element_offset() {
        return static_cast<size_t>(
                    reinterpret_cast<char*>(&std::get<Idx>(*reinterpret_cast<T*>(0))) - reinterpret_cast<char*>(0));

This is actually similar to the implementation of the offsetof macro. It looks ugly, but compiles and works fine on gcc-4.6

typedef std::tuple<int,char,long> mytuple;

mytuple var = std::make_tuple(4,'c',1000);
char * ptr = reinterpret_cast<char*>(&var);
long * pt = reinterpret_cast<long*>(ptr+tuple_element_offset<2,mytuple>());

std::cout << *pt << std::endl;

prints "1000".

I don't know too much about constexpr, so my questions are:

  1. Is it legal c++?
  2. More important, why I am allowed to call std::get (which is non constexpr) inside a constexpr function?

As far as I understand constexpr, the compiler is forced to evaluate the result of the expression at compile time, so no zero-dereferentiation can occurs in practice.

share|improve this question
What are you trying to accomplish with this? – James McNellis Mar 18 '11 at 23:21
@James: I have some tuples of fixed-sized vectors of float. I need the offset of each element to use the tuples with the OpenGL functions glVertexPointer,glColorPointer etc. Since the attributes of each vertex may vary a lot inside the project, I think that is better to use tuples instead of define my own vertex structs. – sbabbi Mar 19 '11 at 13:59
up vote 4 down vote accepted

Is it legal C++?

If by "legal" you mean "well-formed," then, yes.

If by "legal" you mean "valid and will work on any compiler and Standard Library implementation, then, no, because std::tuple is not POD.

Why I am allowed to call std::get (which is not constexpr) inside a constexpr function?

Basically, a constexpr function doesn't necessarily have to consist of just a constant expression. If you tried to use your tuple_element_offset() function in a constant expression, you'd get a compilation error.

The idea is that a function might be usable in a constant expression in some circumstances but not in others, so there isn't a restriction that a constexpr function must always be usable in a constant expression (since there isn't such a restriction, it's also possible that a particular constexpr function might never be usable in a constant expression, as is the case with your function).

The C++0x draft has a good example (from 5.19/2):

constexpr const int* addr(const int& ir) { return &ir; } // OK

// OK: (const int*)&(const int&)x is an address contant expression
static const int x = 5;
constexpr const int* xp = addr(x); 

// Error, initializer for constexpr variable not a constant expression; 
// (const int*)&(const int&)5 is not a constant expression because it takes
// the address of a temporary
constexpr const int* tp = addr(5);
share|improve this answer
Are you sure it's well-formed? The second sentence of 18.1/5 is a "shall" rule, it doesn't mention undefined behavior, and it doesn't state that no diagnostic is required. So compilers are required to diagnose it. Since the program doesn't conform to diagnosable semantic rules, it's not well-formed. I think. – Steve Jessop Mar 19 '11 at 1:22
@Steve: The OP's code doesn't use offsetof, there's a hand-rolled offsetof-like function. – James McNellis Mar 19 '11 at 1:27
@Steve: I also don't think that is intended to be a diagnosible semantic rule. I can't find explicit language that would make that rule "no diagnostic required," but really, the spirit of and the subclauses that precede that would seem to apply. I don't believe any of the rules in the Library spec are intended to be diagnosible semantic rules. (Now that I've said that, someone is going to go find a rule, I know it...) – James McNellis Mar 19 '11 at 1:40
Hmm. Maybe. is about functions, and offsetof isn't a function, but since you're suggesting the spirit that's not really a counter. However, since the third sentence of 18.1/5 does specify undefined behavior, it seems to me likely that the contrast is deliberate, and that the second sentence is intended to be diagnosable. However, I confess I'm a bit puzzled why they should be different, since I'd think there's no difference in practical difficulty of diagnosing them. Both are deducible from the class definition, but not deducible by a dumb macro. – Steve Jessop Mar 19 '11 at 1:46
Actually, no, on second thoughts, the third sentence can be diagnosed by a dumb macro, in that the typical &(((type*)0)->member) thing just won't compile. The second sentence is harder to diagnose, so it would be nuts to require that it be diagnosed, but not require the same of the easier one. So you must be right, the intention must be that it's not diagnosable, but I suspect neither of us cares deeply whether there's language in the standard to say so, or if it's technically a defect. And you're right about the OP code not using offsetof, of course. Time to sleep, I think! – Steve Jessop Mar 19 '11 at 1:55

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