32

Is there any standardized function in GCC or glibc to allocate memory block at aligned pointer? Like _align_malloc() in MSVC?

28

See the memalign family of functions.

27

Since the question was asked, a new function was standardized by C11:

void *aligned_alloc(size_t alignment, size_t size);

and it is available in glibc (not on windows as far as I know). It takes its arguments in the same order as memalign, the reverse of Microsoft's _aligned_malloc, and uses the same free function as usual for deallocation.

A subtle difference is that aligned_alloc requires size to be a multiple of alignment.

19

The [posix_memalign()][1] function provides aligned memory allocation and has been available since glibc 2.1.91.

But not necessarily with other compilers: quoting the standard "The posix_memalign() function is part of the Advisory Information option and need not be provided on all implementations."

10

There are _mm_malloc and _mm_free which are supported by most compilers of the x86/x64 world, with at least:

  • gcc
  • MinGW (gcc win32/win64)
  • MSVC
  • clang
  • ICC

AFAIK, these functions are not a standard at all. But it is to my knowledge the most supported ones. Other functions are more compiler specific:

  • _aligned_malloc is MSVC and MinGW only
  • posix memalign functions are not supported by at least MSVC

There are also C11 standard functions but unfortunately they are not in c++11, and including them in c++ require non standard preprocessor defines...

4

It depends on what kind of alignment you expect. Do you want a stricter alignment, or a more relaxed alignment?

malloc by definition is guaranteed to return a pointer that is properly aligned for storing any standard type in C program (and, therefore, any type built from standard types). Is it what your are looking for? Or do you need something different?

  • 17
    A common problem is that SIMD types (like SSE vectors) aren't considered "standard types", and so they have stricter alignment requirements than malloc provides. – jalf Jul 9 '11 at 11:01
  • 1
    Another reason for wanting to do this is performance. By aligning a data structure so it spans n instead of n+1 L1 cache lines which are typically 4096 bytes or so in size, you get faster memory access on average. For certain applications, say audio processing, where buffers are the size of an L1 cache line, or a small multiple of that size, this can make a big difference. – nitro2k01 Apr 14 '14 at 22:08
  • 4
    @nitro2k01: Cache lines are much smaller e.g. 32 on x86 and 64 on amd64. Pages OTOH are 4k. – diapir Jul 5 '14 at 1:09

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