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This question comes from this one:

c++ pass array to function question

but since the OP accepted an answer I guess nobody will read it now.

I tried this code on g++. It seems that the array does not decay to a pointer when passed to this function (the function returns the proper result):

#include <iostream>

template <typename T>
std::size_t size_of_array (T const & array)
   return sizeof (array) / sizeof (*array);

int main ()
    int a [5];
    std::cout << size_of_array (a) << '\n';

Another user (sharptooth) said he have the same behavior on VC++ 10 with inlining off.

Can somebody explain? Thanks.

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My wild guess is that T resembles to the type int[5], so there is no need for a decay to a pointer. But I'm no expert. –  Constantinius Aug 24 '11 at 14:36

2 Answers 2

up vote 9 down vote accepted

Array decay doesn't just happen -- it only happens when the program would fail to compile without it. When you pass an array by reference, there simply is no need for decay to kick in.

Note that the function template can also be written without dividing ugly sizeof expressions:

template <typename T, std::size_t N>
std::size_t size_of_array(T (&array)[N])
    return N;

When a client calls size_of_array, T and N are automatically deduced by the template machinery.

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You haven't written the function to accept a pointer, you've written it to accept a const reference to exactly the type of argement that's passed to it. Pointer decay only happens if you try to assign to a pointer the value of an array.

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No, when you assign an array to a pointer- a pointer to an array will not compile. –  Puppy Aug 24 '11 at 14:37
@DeadMG: You're reading it backwards "pointer = array" == assigning a pointer to the value of an array. That's what I mean. –  Benjamin Lindley Aug 24 '11 at 14:39

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