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Is the data in std::array<std::array<T,N>, M> guaranteed to be contiguous? For example:

#include <array>
#include <cassert>

int main()
{
    enum {M=4, N=7};
    typedef std::array<char,N> Row;
    typedef std::array<Row, M> Matrix;
    Matrix a;
    a[1][0] = 42;
    const char* data = a[0].data();

    /* 8th element of 1D data array should be the same as
       1st element of second row. */
    assert(data[7] == 42);
}

Is the assert guaranteed to succeed? Or, to put it another way, can I rely on there being no padding at the end of a Row?

EDIT: Just to be clear, for this example, I want the data of the entire matrix to be contiguous.

  • Even if the storage is contiguous, I believe you would be falling foul of aliasing rules. See this question I asked many moons ago (about C, admittedly): stackoverflow.com/questions/6290956/…. – Oliver Charlesworth Mar 18 '12 at 21:58
  • possible duplicate of Is the memory in std::array contiguous? by recursion – Lightness Races in Orbit Mar 18 '12 at 22:07
  • 3
    @LightnessRacesinOrbit : No, I don't think it's a duplicate. While the data in a single std::array is contiguous, that doesn't imply that the entire set of data in nested std::arrays is contiguous. Or at least it's not obvious to a non-language lawyer like me. – Emile Cormier Mar 18 '12 at 22:15
  • 1
    @Emile: Yes, it does. If every element in an std::array is contiguous, then that means every std::array in an std::array<std::array<..>> is directly next to the next one. And, by recursion, each of those "sub"-std::arrays are contiguous, too. A container doesn't suddenly and magically lose contiguousness (if, indeed, that's a guarantee of the container) just because it's its own value_type. [edit: However, that is not the same as the inner-most Ts all being contiguous to one another. Seems that's what you meant after all, so, fine :P] – Lightness Races in Orbit Mar 19 '12 at 9:22
  • @LightnessRacesinOrbit : Like James said in his answer, there is no requirement that there be no padding or extra data members at the end of an array<T>, though I admit that decent implementations would not do such a thing. – Emile Cormier Mar 19 '12 at 15:34
15

No, contiguity is not guaranteed in this case.

std::array is guaranteed to be an aggregate, and is specified in such a way that the underlying array used for storage must be the first data member of the type.

However, there is no requirement that sizeof(array<T, N>) == sizeof(T) * N, nor is there any requirement that there are no unnamed padding bytes at the end of the object or that std::array has no data members other than the underlying array storage. (Though, an implementation that included additional data members would be, at best, unusual.)

5

They are very likely contiguous. If they are not, the compiler is actively fighting you there. There's no guarantee it won't insert padding but there's hardly a reason for it.

Is the assert guaranteed to succeed?

data[7] is an out-of-bounds access (undefined behaviour). The inner array object has only seven elements, so index 7 is not valid.

  • Hmm, your answer seems a bit contradictory (or I'm just too dense). If the data is contiguous, wouldn't data[7] point to the first element of the second row? – Emile Cormier Mar 18 '12 at 22:05
  • @Emile the flaw in thinking "8th element of 1D data array should be the same as 1st element of second row." is ignoring that no array in that code has an 8th element. There's no guarantee as to what data[7] will do because of that. In practice, yes, I suspect it will point to the first element of the second row, but as it always is with UB, you can't safely rely on it. – R. Martinho Fernandes Mar 18 '12 at 22:10
  • Ok, then I take "they are very likely contiguous" to mean that the data in each inner array is contiguous. Is this what you meant? – Emile Cormier Mar 18 '12 at 22:12
  • And each inner array is also contiguous with each other. But when indexing you can't cross from one to the other. It's not a std::array thing. The same is true for int x[4][7]; int* xp = x; xp[7];. With "they are very likely contiguous" I meant that no sane compiler will insert any padding. – R. Martinho Fernandes Mar 18 '12 at 22:15
  • 1
    @Emile: Just to be clear, and getting back to your original question: I wouldn't mind relying on there being no padding (I don't want to support a compiler that does crazy stuff like that!), because it can actually be tested: static_assert(sizeof(Matrix) == sizeof(char)*M*N, "nested std::arrays should have no padding");. I am more weary of relying on indexing as one big array, because that can't be tested (it may work now and usually does, but may fail later when the optimizer decides to take advantage of it to optimize). – R. Martinho Fernandes Mar 18 '12 at 22:50

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