Why doesn't this template function call work inside this function?

Question

The following code doesn't compile, I am trying to figure out how to calculate the size of an array that is passed into a function and can't seem to get the syntax correct.

The error I am getting is :

Error   1   error C2784: 'size_t getSize(T (&)[SIZE])' : could not deduce template argument for 'T (&)[SIZE]' from 'const byte []' 16   1 sizeofarray

Here is the source code:

#include <cstdint>
#include <stdio.h>

template<typename T, size_t SIZE>
size_t getSize(T (&)[SIZE]) {
    return SIZE;
}

typedef std::uint_fast8_t byte;

void processArray(const byte b[])
{
    size_t size = getSize(b); // <- line 16 where error occurs
    // do some other stuff
}

int main(const int argc, const char* argv[])
{
    byte b[] = {1,2,3,4,5,6};
    printf("%u\n", getSize(b));
    processArray(b);

    return 0;
}

Answer 1

If you want this to work, you need to make processArray be a template as well:

template <size_t size>
void processArray(const byte (&b)[size])
{
    // do some other stuff
}

C++ does not allow passing arrays by value. If you have a function like this:

void f(int a[5]);

It may look like you are passing an array by value, but the language has a special rule that says a parameter of this form is just another way of saying:

void f(int *a);

So the size of the array is not part of the type at all. This is behavior inhereted from C. Fortunately, C++ has references, and you can pass a reference to an array, like this:

void f(int (&a)[5]);

This way, the size of your array is preserved.

Now, the only remaining trick is to make the function generic, so it can work on any size array.

template <size_t n> void f(int (&a)[n]);

Now, new versions of the function that take references to arrays of different sizes can be generated automatically for you, and the size can be accessed through the template parameter.

Answer 2

As the argument to a function, const byte b[] is treated just like const byte *b. There is no compile-time information about the size of the array that the function was called with.

Answer 3

To pass a reference to the array, you need to make processArray a template and use the same technique. If you don't pass in a reference, the parameter is a pointer, and pointer types don't have array size information.

template<size_t size>
void processArray(const byte (&b)[size]) {
    // ...
}

Answer 4

This is the canonical example of why you should use a function template like getSize rather than sizeof, for determining array size.

• With sizeof, you'd have gotten the size of a pointer and been none the wiser.
• But, this way, you get a compilation error to point out your mistake.

What was the mistake? It was having a function parameter const T arg[] and thinking that this means arg is an array. It's not. This is unfortunate syntax from C that is precisely equivalent to const T* arg. You get a pointer.

This is also why some people think — incorrectly — that "arrays are pointers". They are not. It's just this specific syntax.