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Note that the following two functions have the same type and signature:

void foo1(int t) {} // foo1 has type 'void(*)(int)', and signature '(*)(int)'
void foo2(const int t) {} // Also type 'void(*)(int)', signature '(*)(int)'

(the const is not part of the function type or function signature). Similarly, a modifier (const or volatile) on the return type does not influence the function type or function signature.

However, in the function definition itself (not shown), the named variable t does maintain the const qualification in foo2.

There are many StackOverflow questions discussing why the return type of the function is not considered as part of the function signature (used for overload resolution).

However, I cannot find any StackOverflow question that asks why argument modifiers (const or volatile) are not part of the function's type or signature. Also, I have looked directly in the C++11 standards document and find it difficult to unravel.

What is the rationale behind the fact that argument modifiers (i.e., const and volatile) are not part of a function's type or signature?

ADDENDUM For clarity, from R.MartinhoFernandes's answer below, I should clarify that in C++ (I think) the argument modifiers const and volatile are only ignored as part of the function type/signature if they are top-level modifiers - see that answer below.

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The return type is part of the function signature. It just isn't considered for resolving overloads. The two are separate ideas. –  R. Martinho Fernandes Dec 4 '12 at 16:09
    
I can't give you the official C++ answer, but from a user's perspective they would make no difference. If a user calls foo1 or foo2, the user will do so with an int. It's in the implementation that the const modifier will have an effect. Since a signature is basically the interface (what the user cares about), not differentiating would make sense. –  RonaldBarzell Dec 4 '12 at 16:09
    
@R.MartinhoFernandes I don't think so - see, for example, stackoverflow.com/questions/13687607/… –  Dan Nissenbaum Dec 4 '12 at 16:10
    
@R.MartinhoFernandes I think Dan is right. Definition of signature from the standard: "<function> name, parameter type list (8.3.5), and enclosing namespace (if any)" and the parameter type list contains all argument types with top level cv-qualifiers removed. –  Joseph Mansfield Dec 4 '12 at 16:10
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@R.MartinhoFernandes The return type is not a part of the signature in non-template functions. –  juanchopanza Dec 4 '12 at 16:11
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1 Answer

up vote 11 down vote accepted

What is the rationale behind the fact that argument modifiers (i.e., const and volatile) are not part of a function's type or signature?

From a caller's perspective, there is no difference between void foo(int) and void foo(int const). Whatever you pass to it will not be modified, regardless of the modifier: the function will get a copy.

From an implementer's perspective the sole difference is that with void foo(int x) you can mutate x (i.e. your local copy) in the body, but you cannot mutate x with void foo(int const x).

C++ acknowledges these two perspectives. The caller's perspective is acknowledged by making the two declarations void foo(int); and void foo(int const); declare the same function. The implementer's perspective is acknowledged by allowing you to declare a function as void foo(int x); but define it as void foo(int const x) { /*...*/ } if you want to make sure you don't accidentally assign to the argument.

Note that this only applies for top-level const, i.e. const that applies to the whole type. In things like int const& or int const* the modifier only applies to a part of the type, as "pointer to (const (int))", so it is not top-level const. In int *const however, the const again applies to the whole type as in "const (pointer to (int))".

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Does this reasoning apply for function signature void foo(const int &)? –  Dan Nissenbaum Dec 4 '12 at 16:18
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@Dan no, only for the so called "top level const". In const int& (aka int const&) the const only applies to the referred part (int), not to the whole type. –  R. Martinho Fernandes Dec 4 '12 at 16:19
    
Thanks. I didn't understand the distinction between "top level" and non-top level. –  Dan Nissenbaum Dec 4 '12 at 16:22
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@DanNissenbaum Note that while a const reference, like int& const, is a syntactic impossibility, it can occur as an artifact of template type deduction. Consider const T where T is int&. –  Joseph Mansfield Dec 4 '12 at 16:25
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