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Can one in C++11 somehow in gcc mark a function (not a class method) as const telling that it is pure and does not use the global memory but only its arguments?

I've tried gcc's __attribute__((const)) and it is precisely what I want. But it does not produce any compile time error when the global memory is touched in the function.

Edit 1

Please be careful. I mean pure functions. Not constant functions. GCC's attribute is a little bit confusing. Pure functions only use their arguments.

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nor sure what you mean, but have you tried constexpr –  Cheers and hth. - Alf Dec 2 '12 at 22:55
That's NOT it. I mean pure not constant. GCC's attributes are a little bit confusingly named. –  Cartesius00 Dec 2 '12 at 23:08
I think you need to rephrase your question, because you have the right attribute. That it doesn't produce the warning you want is a different matter -- at least when taking your question at face value. –  Luc Danton Dec 2 '12 at 23:19
@LucDanton Yes, formally you're absolutely right. But it surprised me that it does not produce any warning nor compile error. And I'd like to know if there is any way how to check it in compile time. –  Cartesius00 Dec 2 '12 at 23:21
Im getting interested. Can you please explain how you did this normally, NOT in C++11? –  Barnabas Szabolcs Dec 2 '12 at 23:26

2 Answers 2

up vote 2 down vote accepted

Are you looking for constexpr? This tells the compiler that the function may be evaluated at compile time. A constexpr function must have literal return and parameter types and the body can only contain static asserts, typedefs, using declarations and directives and one return statement. A constexpr function may be called in a constant expression.

constexpr int add(int a, int b) { return a + b; }

int x[add(3, 6)];

Having looked at the meaning of __atribute__((const)), the answer is no, you cannot do this with standard C++. Using constexpr will achieve the same effect, but only on a much more limited set of functions. There is nothing stopping a compiler from making these optimizations on its own, however, as long as the compiled program behaves the same way (the as-if rule).

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No no no, I mean pure functions. See me edit, please. –  Cartesius00 Dec 2 '12 at 23:04
@Martin Added more –  Joseph Mansfield Dec 2 '12 at 23:17
Thank you. Attribute constexpr is almost useless. Maybe let's wait a little bit more. Maybe some other gcc-specific attribute could help. –  Cartesius00 Dec 2 '12 at 23:19

using just standard C++11:

namespace g{ int x; }

constexpr int foo()
    //return g::x = 42;  Nah, not constant
    return 42;      // OK

int main()

here's another example:

constexpr int foo( int blah = 0 )
    return blah + 42;      // OK

int main( int argc, char** )
    int bah[foo(2)];            // Very constant.
    int const troll = foo( argc );  // Very non-constant.

The meaning of GCC's __attribute__( const ) is documented in the GNU compiler docs as …

Many functions do not examine any values except their arguments, and have no effects except the return value. Basically this is just slightly more strict class than the pure attribute below, since function is not allowed to read global memory.

One may take that to mean that the function result should only depend on the arguments, and that the function should have no side effects.

This allows a more general class of functions than C++11 constexpr, which makes the function inline, restricts arguments and function result to literal types, and restricts the "active" statements of the function body to a single return statement, where (C++11 §7.1.5/3)

— every constructor call and implicit conversion used in initializing the return value (6.6.3, 8.5) shall be one of those allowed in a constant expression (5.19)

As an example, it is difficult (I would think not impossible, but difficult) to make a constexpr sin function.

But the purity of the result matters only to two parties:

  • When known to be pure, the compiler can elide calls with known results.
    This is mostly an optimization of macro-generated code. Replace macros with inline functions to avoid silly generation of identical sub-expressions.

  • When known to be pure, a programmer can remove a call entirely.
    This is just a matter of proper documentation. :-)

So instead of looking for a way to express the purity of e.g. sin in the language, I suggest just avoid code generation via macros, and document pure functions as such.

And use constexpr for the functions where it's practically possible (unfortunately, as of Dec. 2012 the latest Visual C++ compiler doesn't yet support constexpr).

There is a previous SO question about the relationship between pure and constexpr. Mainly, every constexpr function is pure, but not vice versa.

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No no no, I mean pure functions, not constant functions. –  Cartesius00 Dec 2 '12 at 23:03
@Martin: well it's a bit rude to downvote the answer on account of your problem description being vague enought to cause two such answers, so far. "a bit" rude? sorry, i meant, quite rude. jeez. –  Cheers and hth. - Alf Dec 2 '12 at 23:05
My problem? The question was intended to those people who know the meaning of pure and the GCC's attributes. –  Cartesius00 Dec 2 '12 at 23:06
But sorry, if it was not clear. But you can always remove your answer. The downvote has been removed as well. –  Cartesius00 Dec 2 '12 at 23:07
@Martin: from your (vague) description of "pure" it looks as if constexpr is what you're looking for. –  Cheers and hth. - Alf Dec 2 '12 at 23:08

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