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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));

    return 0;
share|improve this question
You need to make processArray a template. – R. Martinho Fernandes Nov 12 '12 at 15:14
This happens because arrays decay to pointers. – dasblinkenlight Nov 12 '12 at 15:14
@dasblinkenlight - to be technical, the name of an array decays into a pointer to its first element. Arrays don't decay. – Pete Becker Nov 12 '12 at 15:16
@VaughnCato - no, the distinction is precisely that the name of an array decays, in most contexts, into a pointer to its first element. That's ancient C, and it makes it possible to write functions that take arrays as arguments without having to duplicate code for different size arrays. strcpy, for example, doesn't need to know the size of the array that it's copying. – Pete Becker Nov 12 '12 at 15:57
@PeteBecker: I'm referring to section 4.2.1 of the C++03 standard, which states "An lvalue or rvalue of type 'array of N T' or 'array of unknown bound of T' can be converted to an rvalue of type 'pointer to T'. The result is a pointer to the first element of the array." – Vaughn Cato Nov 12 '12 at 16:15
up vote 9 down vote accepted

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.

share|improve this answer
@JarrodRoberson: Ah -- I've added some explanation. Let me know if that is clear. – Vaughn Cato Nov 12 '12 at 15:59
awesome explanation, I wish I could up vote and accept this answer twice! – Jarrod Roberson Nov 12 '12 at 16:08

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.

share|improve this answer
Incidentally, const byte b[8] is also treated just like const byte *b. – Pete Becker Nov 12 '12 at 15:58

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]) {
    // ...
share|improve this answer

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.

share|improve this answer
@Downvoter: Um... why? – Lightness Races in Orbit Nov 12 '12 at 16:05

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