With the pre-processor macro

```
#define sum(...) \
_sum(sizeof((int []){ __VA_ARGS__ }) / sizeof(int), (int []){ __VA_ARGS__ })
```

being called with `sum(1,2,3)`

, the line is translated (a simple string substitution, replacing `"__VA_ARGS__"`

with `"1,2,3"`

) into:

```
_sum(sizeof((int []){1,2,3}) / sizeof(int), (int []){1,2,3})
```

which is a function call to `_sum()`

passing two things:

- the number of integers in the array {1,2,3} which is 3 (it gets this by dividing the size of the three-integer array by the size of a single integer).
- the pointer to the array itself (or a totally different array containing the same values, depending on how smart your compiler is).

All the `_sum()`

function does is add each of the integers to `s`

(which is initially zero) until the count runs out.

That first bullet point above bears some explanation. When you have an array of `N`

elements defined as follows:

```
tType x[22];
```

the size of the *array* is `sizeof(x)`

, the size of all elements. The size of a single element of that array is `sizeof(x[0])`

, the size of the first element, although I often prefer the `sizeof(*x)`

variant.

So, to count the number of elements, you simply divide the total size by the size of an element, using one of the following:

```
sizeof(x) / sizeof(x[0])
sizeof(x) / sizeof(*x)
```

And, since you've asked for a detailed analysis of the code, here we go:

```
// Needed for printf().
#include <stdio.h>
// Macro to convert sum(n1,n2,...,nN) to _sum(N,n1,n2,...,nN).
// This calculates the length of the array by dividing its size by the size
// of an int and passes both the length and array through to the new
// function.
// __VA_ARGS__ is replaced with the entire marcro argument list, '1,2,3' in
// this case.
#define sum(...) \
_sum(sizeof((int []){ __VA_ARGS__ }) / sizeof(int), (int []){ __VA_ARGS__ })
// Function to take size and pointer to int array, and return sum.
int _sum (size_t count, int values[]) {
int s = 0; // Initial sum of zero.
while(count--) // Until elements exhausted (count down).
s += values[count]; // Add each array element to accumulator.
return s; // Return sum.
}
int main (void) {
printf ("%i", sum(1, 2, 3)); // Test it with 1, 2 and 3 (should print 6).
}
```