11

I am not clear with use of __attribute__ keyword in C.I had read the relevant docs of gcc but still I am not able to understand this.Can some one help to understand.

5
  • 2
    You have a pretty good explanation here: gcc.gnu.org/onlinedocs/gcc/Function-Attributes.html. The question is. What do you need it for exactly? That would help. Nov 19, 2010 at 8:50
  • Try posting a specific example that you are having difficulty understanding
    – Paul R
    Nov 19, 2010 at 9:12
  • 1
    go thru unixwiz.net/techtips/gnu-c-attributes.html
    – GJ.
    Nov 19, 2010 at 9:15
  • 2
    ...and note that this is not C, this is the GCC compiler. Using attribute is not portable.
    – DevSolar
    Nov 19, 2010 at 9:36
  • 1
    GCC has been influential enough that GCCisms are supported by other compilers. clang supports a number of GCC attributes, and pcc appears to have partial support for them, as well. Nov 19, 2010 at 17:48

4 Answers 4

13

__attribute__ is not part of C, but is an extension in GCC that is used to convey special information to the compiler. The syntax of __attribute__ was chosen to be something that the C preprocessor would accept and not alter (by default, anyway), so it looks a lot like a function call. It is not a function call, though.

Like much of the information that a compiler can learn about C code (by reading it), the compiler can make use of the information it learns through __attribute__ data in many different ways -- even using the same piece of data in multiple ways, sometimes.

The pure attribute tells the compiler that a function is actually a mathematical function -- using only its arguments and the rules of the language to arrive at its answer with no other side effects. Knowing this the compiler may be able to optimize better when calling a pure function, but it may also be used when compiling the pure function to warn you if the function does do something that makes it impure.

If you can keep in mind that (even though a few other compilers support them) attributes are a GCC extension and not part of C and their syntax does not fit into C in an elegant way (only enough to fool the preprocessor) then you should be able to understand them better.

You should try playing around with them. Take the ones that are more easily understood for functions and try them out. Do the same thing with data (it may help to look at the assembly output of GCC for this, but sizeof and checking the alignment will often help).

4

Think of it as a way to inject syntax into the source code, which is not standard C, but rather meant for consumption of the GCC compiler only. But, of course, you inject this syntax not for the fun of it, but rather to give the compiler additional information about the elements to which it is attached.

You may want to instruct the compiler to align a certain variable in memory at a certain alignment. Or you may want to declare a function deprecated so that the compiler will automatically generate a deprecated warning when others try to use it in their programs (useful in libraries). Or you may want to declare a symbol as a weak symbol, so that it will be linked in only as a last resort, if any other definitions are not found (useful in providing default definitions).

All of this (and more) can be achieved by attaching the right attributes to elements in your program. You can attach them to variables and functions.

Take a look at this whole bunch of other GCC extensions to C. The attribute mechanism is a part of these extensions.

3

There are too many attributes for there to be a single answer, but examples help. For example __attribute__((aligned(16))) makes the compiler align that struct/function on a 16-bit stack boundary.

__attribute__((noreturn)) tells the compiler this function never reaches the end (e.g. standard functions like exit(int) )

__attribute__((always_inline)) makes the compiler inline that function even if it wouldn't normally choose to (using the inline keyword suggests to the compiler that you'd like it inlining, but it's free to ignore you - this attribute forces it).

Essentially they're mostly about telling the compiler you know better than it does, or for overriding default compiler behaviour on a function by function basis.

1

One of the best (but little known) features of GNU C is the attribute mechanism, which allows a developer to attach characteristics to function declarations to allow the compiler to perform more error checking. It was designed in a way to be compatible with non-GNU implementations, and we've been using this for years in highly portable code with very good results.

Note that attribute spelled with two underscores before and two after, and there are always two sets of parentheses surrounding the contents. There is a good reason for this - see below. Gnu CC needs to use the -Wall compiler directive to enable this (yes, there is a finer degree of warnings control available, but we are very big fans of max warnings anyway).

For more information please go to http://unixwiz.net/techtips/gnu-c-attributes.html

Lokesh Venkateshiah

1
  • I wrote a program after reading the replies <code> #include<stdio.h> int myfunction (int ,int) int main () { int a,b,c; printf("Enter 2 numbers \n"); scanf("%d,%d",&a,&b); c = myfunction(a,b); printf("the result is %d ",c); exit 0; } int myfunction (int a,int b) { int c; return c=a+b; }</code> but I am not able to understand where do I put up attribute in it. Also I had tried to format the above code but when I login I do not see any option to select code to highlight as I did in the first post. Nov 22, 2010 at 10:40

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.