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Please consider this code:

template<typename T>
void f(T x) {
    std::cout << sizeof(T);

int array[27];

This will print

8 (or 4)

In the first case, the array obviously decays to a pointer and T becomes int*. In the second case, T is forced to int[27]. Is the order of decay/substitution implementation defined? Is there a more elegant way to force the type to int[27]? Besides using std::vector?

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Where did you find a C++ compiler where sizeof(int) == 1? I get 108 for the second call. –  Rob Kennedy Dec 8 '09 at 0:12
Yes, of course gcc has already moved up to 4 byte ints ;-) I introduced a bug while generating a testcase. –  hirschhornsalz Dec 8 '09 at 0:29
I'm surprised the second call compiles. You can't pass arrays by value in C++. [edit: Ah, T has the array type, but sizeof(x) would still output 8 or 4. Never mind. :)] –  Lightness Races in Orbit May 9 '11 at 22:00
Nice necro comment :-) Are you just browsing my old questions? :-) The second case is passing the array as reference, that's what I didn't recognize when I asked. See the accepted answer –  hirschhornsalz May 9 '11 at 22:12

3 Answers 3

up vote 8 down vote accepted

Use the reference type for the parameter

template<typename T> void f(const T& x) 
  std::cout << sizeof(T);

in which case the array type will not decay.

Similarly, you can also prevent decay in your original version of f if you explicitly specify the template agument T as a reference-to-array type

f<int (&)[27]>(array);

In your original code sample, forcing the argument T to have the array type (i.e. non-reference array type, by using typeof or by specifying the type explicitly), will not prevent array type decay. While T itself will stand for array type (as you observed), the parameter x will still be declared as a pointer and sizeof x will still evaluate to pointer size.

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Yes, but I am using sizeof(T). Anyway, thanks for the fast answer :-) –  hirschhornsalz Dec 8 '09 at 0:24

You can also use templates like the following:

template <typename T, std::size_t N>
inline std::size_t number_of_elements(T (&ary)[N]) {
    return N;

This little trick will cause compile errors if the function is used on a non-array type.

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Depending on your use case, you can work around that using references:

template<typename T>
void f(const T& x) {
    std::cout << sizeof(T);

char a[27];

That prints 27, as desired.

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Probably should use a const-reference, since you're not modifying T. –  GManNickG Dec 8 '09 at 1:09
Right, just did the minimal changes needed to the OPs code. –  Georg Fritzsche Dec 8 '09 at 2:09

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