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The following errors due to the const int specialization:

#include <iostream>
using std::cout;
using std::endl;

template <typename T> void g(T val)
    cout << "unknown" << endl;

template <> void g(int && val)
    cout << "int &&" << endl;

template <> void g(const int && val)
    cout << "const int &&" << endl;

template <> void g(int & val)
    cout << "int &" << endl;

template <> void g(const int & val)
    cout << "const int &" << endl;

template <> void g(int val)
    cout << "int" << endl;

template <> void g(const int val)  //redefinition here
    cout << "const int" << endl;

int main() {}

error: redefinition of 'g'
template <> void g(const int val)

Why are T& and T&& distinct from const T& and const T&& but T is not distinct from const T?

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2 Answers 2

up vote 6 down vote accepted

Because top-level const-ness of function parameters is an implementation detail of the function. For example, the following is valid:

// Prototype
void foo(int c);

// Implementation
void foo(int const c) { ... }

Since the argument is passed by value, the caller doesn't really care whether the function is going to modify its own private copy. Therefore, top-level const-ness is not part of the function signature.

Note that this only applies to top-level const-ness! int and int const are equivalent in a function prototype, as are int * and int * const. But int * and int const * are not.

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right, thanks. and this applies anytime an object is copied. top level const-ness is ignored since the copied from object is not changed. E.g. const int ci; int i; i=ci; –  Marcel Oct 31 '12 at 16:18
But note that you can say template<> void g<const int>(const int val) {} and it works. It is only the function type that will be void(int) and hence since the function type is used to deduce T, T would become int. But if you provide it explicitly like that, it works. –  Johannes Schaub - litb Oct 31 '12 at 22:20
@JohannesSchaub Yes, however in order to use this I must explicitly specify the template type in the function call . int i=1; const int ci=i; g<const int>(ci); Otherwise g(ci); calls void(int). –  Marcel Nov 1 '12 at 0:35

When using arguments there are a few things to take into consideration, A: Not passing an arguement by reference is creating its own new variable, and B: Passing by reference is using the same variable as the argument with a different name

This is important because:

void doStuff (const int x)
    //x is its own constant variable


void doStuff (const int& x)
    //because x is the same variable that was used when calling this function
    //x can be modified outside of this function, but not inside the function
    //due to the const modifier

The const modifier on the 2nd function allows you to do things like this:

int main ()
    const int x = 10;

References are used to modify a variable in another function and to save memory on the stack, this saves memory because it uses a pointer rather than a newly created variable, so anything larger than an int will save memory by calling using a reference even if you arent modifying it in the function

Now if i am correct the && operator should not be used in an argument because this is a boolean operator and does not modify the argument type. It should only be used in conditions but wouldnt create a syntax error when compiling (compiler thinks its a reference of type [type] &) but that does nothing to the way the variable is used besides taking slightly longer for the computer to process

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c++ compilation is context sensitive so the compiler sees && in the context of a function parameter list. In a c++11 compliant compiler this signifies the argument is an "r-value reference" type. –  Marcel Nov 1 '12 at 0:04

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