If I define a simple type with a certain alignment requirement, shouldn't a
std::vector<t> of said type honour the alignment for every single element?
Consider the following example
typedef std::array<double,3> alignas(32) avx_point; std::vector<avx_point> x(10); assert(!(std::ptrdiff_t(&(x))&31) && // assert that x is 32-byte aligned !(std::ptrdiff_t(&(x))&31)); // assert that x is 32-byte aligned
I found that the alignment requirement is silently (without any warning) violated by clang 3.2 (with or without
-stdlib=libc++), while gcc 4.8.0 issues a warning that it ignores the attributes on the template argument to
std::vector (the intel compiler is too daft to understand
alignas, but if I use
__declspec(align(32)) instead, it behaves like clang). Both create code that triggers the assert.
So, is this correct behaviour or a bug of clang (and icpc) and an issue with gcc?
edit to answer a question raised in the comments: if I define
typedef typename std::aligned_storage<sizeof (avx_point), alignof(avx_point)>::type avx_storage;
sizeof (avx_storage) == 32; alignof(avx_storage) == 32;
std::vector<avx_storage> still fails to align the first element (and hence all the others too) for clang and gcc (without warning this time). So there are apparently two issues with the implementations: first, that
std::allocator<type> ignores any alignment requirements even for the first element (illegal?) and second, that no padding is applied to ensure alignment of subsequent elements.