template<typename T>
void f(T a, const T& b)
    ++a; // ok
    ++b; // also ok!

template<typename T>
void g(T n)
    f<T>(n, n);

int main()
    int n{};

Please note: b is of const T& and ++b is ok!

Why is const T& not sure to be const?


Welcome to const and reference collapsing. When you have const T&, the reference gets applied to T, and so does the const. You call g like


so you have specified that T is a int&. When we apply a reference to an lvalue reference, the two references collapse to a single one, so int& & becomes just int&. Then we get to the rule from [dcl.ref]/1, which states that if you apply const to a reference it is discarded, so int& const just becomes int& (note that you can't actually declare int& const, it has to come from a typedef or template). That means for


you are actually calling

void f(int& a, int& b)

and you are not actually modifying a constant.

Had you called g as

// or just

then T would be int, and f would have been stamped out as

void f(int a, const int& b)

Since T isn't a reference anymore, the const and the & get applied to it, and you would have received a compiler error for trying to modify a constant variable.

| improve this answer | |
  • 7
    This is why the type traits like std::add_lvalue_reference exist, to ensure that references are added in a predictable way to prevent just this sort of pain. – Mgetz Feb 1 '19 at 14:00
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    One way to make it easier to understand is to write T const& instead of const T& (which is the same), and then replace T with int&. – Ruslan Feb 1 '19 at 15:38
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    I would reorder some of the first part of this answer, since in the type const T&, first the const applies to T, and then the lvalue-reference applies to the result of that. (If the rule were the opposite, the "const applied to a reference type is ignored" rule would always kick in, and const T& would always mean the same as T&.) – aschepler Feb 1 '19 at 22:22
  • @aschepler The rules stop T& const, not const T&/T const & – NathanOliver Feb 1 '19 at 22:24
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    @NathanOliver As I read this answer, you have stated that the reference collapsing rule "happens" before the const collapsing rule, which I think is wrong. If you have int & const &, then you need to apply the const rule first to get int & &, then the reference rule to get int&. I agree that the first bit needs rewording. Maybe an English "translation" is also in order: "The argument to g<T> is a constant reference to T. The argument to g<int&> is a constant reference to a reference to int. A constant reference to a reference is just a reference. This is formalized in C++ by ..." – HTNW Feb 2 '19 at 3:13

I know that there is already an accepted answer which is correct but just to add to it a little bit, even outside the realm of templates and just in function declarations in general...

( const T& ) 

is not the same as

( const T )

In your example which matches the first, you have a const reference. If you truly want a const value that is not modifiable remove the reference as in the second example.

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  • 9
    when T is int&, const T& and const T both give int&. – Ben Voigt Feb 1 '19 at 14:52
  • I think there was a misconception on what I was trying to say; I'm using T here not as a template parameter. T was just meant to be used as any data type: int, float, double etc.. so T in my example above should never be int&. I did specifically state outside the realm of templates. – Francis Cugler Feb 1 '19 at 22:08
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    Hmm, it sounds as if you are explaining that you can see this without templates, which is no problem. But then your final sentence claims to offer a solution to OP's problem, and that problem definitely involves templates. It's fine to offer a solution to a template question which is broader than just templates. But a solution to a template question that isn't accurate for templates, seems not to answer the question. – Ben Voigt Feb 1 '19 at 22:16
  • This can also be an issue with no templates involved: using T = int&; void f(const T&); declares void f(int&);. – aschepler Feb 1 '19 at 22:23
  • @aschepler true, but I wasn't referring to using clauses; just basic function declarations in general. – Francis Cugler Feb 2 '19 at 0:20

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