In the first call, when I pass a char const [] into a template function with a parameter of T const a, T is deduced as char const * which is reasonable because const refers to the decaying pointer.

However, when the parameter type is changed to T const & a, T is deduced as char[7]. From the point of view above, why doesn't the const qualify the whole array type?

template <typename T>
void show1(T const a) {
     // input is const char *
     // T is char const *
     // a is char const * const

template <typename T>
void show2(T const & a) {
     // input is char const [7]
     // T is char[7]
     // a is char const (&)[7]

int main() {
    const char s[] = "asdasd";

why doesn't the const qualify the whole array type

Because for array type,

(emphasis mine)

Applying cv-qualifiers to an array type (through typedef or template type manipulation) applies the qualifiers to the element type, but any array type whose elements are of cv-qualified type is considered to have the same cv-qualification.

// a and b have the same const-qualified type "array of 5 const char"
typedef const char CC;
CC a[5] = {}; 
typedef char CA[5];
const CA b = {};

That means when T is char[7] T const leads to the type char const[7], then T const& (i.e. a's type) is char const (&)[7].

On the other hand, when you pass the array s with type const char[7], the array is considered as const-qualified too. So given the parameter type T const&, T is deduced as char[7] (but not char const[7]).

| improve this answer | |
  • thanks your empahsis, the seocnd sentence seems doesn't relate. – BAKE ZQ Aug 12 at 7:50
  • @BAKEZQ I think it's related, just in opposite direction, when elements are const-qualified then the array is considered as const-qualifed. – songyuanyao Aug 12 at 7:51
  • based on the second sentence, If the deduction goes like this? 1: char const [7] considered as const(char[7]). 2 : since the paramete type is T const & , T is deduced as char[7]. – BAKE ZQ Aug 12 at 7:56
  • @BAKEZQ Yes, it is. – songyuanyao Aug 12 at 8:02

This is because arrays are non-copyable and non-assignable in C++.

So in calling show1, the const char[] type decays to a const char*. The language permits one implicit conversion per parameter at a function call site.

With show2, you are passing by reference - no copy or assignment is required, so pointer decay does not occur.

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  • why const in the second case doesn't qualify char const [7] like char const[7] const – BAKE ZQ Aug 12 at 7:46
template <typename T>
void show(ParameterType a) {


Compiler uses expression to deduce T and ParameterType. T and ParameterType are different if ParameterType contains qualifiers like const.

If ParameterType is neither pointer nor reference (case of your show1, T const), type of T is type of expression without const, volatile and reference. So T is type of const char *. ParameterType (type of a) is const char * const.

If ParameterType (T const & in your show2) is pointer or reference (but not reference like T&&). First ignore reference, which gives results T const (same as const T). Second match type of expression (const char []) to const T, so T is char [].

For more information, Item 1 of Effective Modern C++ by Scott Meyers is exactly what you want. The rule is more complicated then which I described here but very important.

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  • I was thinking the same way, following this rule, the T const 's const should qulify the whole array type which is char const []. In ordinary view, the const in const char [] qualifies the type char like the first code, so leads to my confusion. The quotation in the accepted answer seems can explain this. – BAKE ZQ Aug 12 at 8:25

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