Why and how is __attribute__ used in GNU C programs?


3 Answers 3


For what GCC and GCC-compatible compilers use __attribute__ most other compilers use #pragma directives.

I think GCC's solution is better since the required behavior of an unrecognised #pragma is to ignore it, whereas if you use a compiler that does not understand an __attribute__ specification, it will not compile - which is generally better, since you then know what you need to port.

Attribute specifications are used to specify aspects of types, data, and functions such as storage and alignment that cannot be specified using C. Often these are target specific, mostly they are non-portable, certainly between compilers, and often between targets. Avoid their use except where it is absolutely necessary to the correct function of code.


One use is for enforcing memory alignment on variables and structure members. For example

float vect[4] __attribute__((aligned(16)));

Will ensure that vect will be placed on a 16 byte memory boundary. I do not know if that is a gcc-ism or more generally applicable.

The compiler will typically only aligned vect on a 4 byte boundary. With 16 byte alignment it can be used directly with SIMD load instructions where you'd load it up into a 128 bit registers that allows addition, subtraction, dot products and all manner of vector operations.

Sometimes you want alignment so that a structure can be directly overlaid onto memory-mapped hardware registers. Or it has to be aligned so the hardware can write into it directly used a direct memory access (DMA) mechanism.


Why is it used in C programs? To limit their portability.

It begins with a double-underscore, so it's in the implementor's namespace - it's not something defined by the language standard, and each compiler vendor is free to use it for any purpose whatsoever.

Edit: Why is it used in GNU C programs? See the other answers that address this.

  • 15
    Uh, I don't think it's used specifically for the purpose of stunting portability.
    – GManNickG
    Commented Sep 22, 2009 at 8:27
  • 9
    mlp, that's not what you said. You said "it's used in C programs to limit their portability." That's simply false.
    – GManNickG
    Commented Sep 23, 2009 at 1:29
  • 7
    No, it is strictly speaking false. It is in no way used to limit portability; limits to portability occur because of it, but it is never used in order to limit portability. This is a subtle, but quite important, difference.
    – Alice
    Commented Dec 13, 2014 at 10:23
  • 4
    @mlp Even if using an attribute limited portability, that still does not in any way imply that attributes are USED or EXIST to limit portability. A side effect is not necessarily the intended effect.
    – Alice
    Commented Dec 16, 2014 at 23:17
  • 5
    I stumbled upon this question because I too (shamefully) googled __attribute__ after having briefly studied the C-source for upstart. I am still find new things to know about the C languages and all the differences that exists in different compiler implementations. I now find attributes new, interesting, and noteworthy. I would gladly have used them in the future for the features they do seem to give. Perhaps, after having read this answer, I will think twice though (if I care about portability, which - on occasion - I might not).
    – O. Th. B.
    Commented Jan 13, 2015 at 8:05

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