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I happened to ask myself a question about arrays in c++. Well, we all know that arrays are fixed collections of something, I say fixed because it is necessary to declare array length when defining arrays. Well, let's consider an example:

char myarray[10] = {'\0'};
int sz = sizeof(myarray); // It is supposed to be 10

Well, it is correct, 10 is the number returned by sizeof. This can be done by the compiler because he knows how much space it placed for that variable.

Now consider what happens in this situation:

void dosome(mystruct* arr) {
   int elements = sizeof(arr)/sizeof(mystruct);
   for (int i = 0; i < elements; i++) {
      // Do something hoping no overflow will ever occur

Nice... but I suppose it can be overflow prone. If I pass to this function an array I created in a "normal" way, everything should be fine:

mystruct array[20];

No problem. But if I do this:

mystruct* array = (mystruct*)malloc(80*sizeof(mystruct));

WHAT HAPPENS??????????????????? I would like to understand how sizeof behaves, this function is evaluated at compile time right??? ok, what happens when I use not an array, but something very cumbersome like a block of data like that one? furthermore, I could realloc it woth another call to malloc and ask to dosome to process that datablock again. Will it work? I could try it physically, but I would get some exact answer about the behavioir of sizeof.

Thank you.

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In dosome, sizeof(arr) is sizeof(mystruct*) regardless of the way the function is called – icecrime Nov 25 '10 at 14:07
If you develop in C++, then use new instead of malloc whenever possible. Does your code still misbehave if you define your array like this: mystruct* array = new mystruct[20]; ? – suszterpatt Nov 25 '10 at 14:10
icecrime is right, you have wrong expectations – Simone Nov 25 '10 at 14:10
Well that is crystal clear... unfortunately there are some cases where sizeof does not behave in that way... When I wrote a simple program doing this: char array[20]; What happened is that I got 20 as answer!!! but array is just a pointer.... sizeof(array); // THIS VALUE IS 20 – Andry Nov 25 '10 at 14:16
up vote 1 down vote accepted
void dosome(mystruct* arr) {
   int elements = sizeof(arr)/sizeof(mystruct);
   for (int i = 0; i < elements; i++) {
      // Do something hoping no overflow will ever occur

What type does arr have in this example? mystruct*! And it's size is most likely 4 or 8. If you want to pass statically/automatically allocated arrays (not new'd) to functions preserving the size so that your trick works, pass by REFERENCE!

template <int N>
void dosome(mystruct (& arr) [N]) {
    for (int i = 0; i < N; i++) {
      // Do something . No overflow will occur

Also note this

int a[20];
sizof a; //equals to 20*sizeof(int)
int* b = new int [20];
sizeof b; //equals to sizeof pointer, most likely 4 
share|improve this answer
AHHH ok that's what I wanted to know... so it is different a[20] and *b... compiler can detect size thanks to [number]!! Thank you. – Andry Nov 25 '10 at 14:19

it's wrong starting from the mystruct array[20] example. Because the function receives a pointer type, and not an array type, it cannot deduce the number of elements in the array. you are actually getting the size of a mystruct* when you perform sizeof(arr).

You can use templates to write functions which take arrays as parameters, but the suggested way in C++ is to use vectors, if I am not wrong.

The "way" to receive arrays as parameters would be to write something like:

template <int N> void somefunction(int (&v)[N]);

EDIT corrected the function declaration. oops.

share|improve this answer
The suggested way to pass this kind of thing to a function in C++ is to use pairs of iterators :-) If that fails (e.g. you don't want every function you write to be templated), a vector might do, or a pointer and a length. – Steve Jessop Nov 25 '10 at 14:09
template <int N> void somefunction(int (&v)[N]); – Anycorn Nov 25 '10 at 14:11
-1: your function declaration is equivalent to this: template<int N> void somefunction (int* v); – Armen Tsirunyan Nov 25 '10 at 14:12
sorry corrected. – lijie Nov 25 '10 at 14:15

sizeof is a compile-time operator. And here it computes only the size of a pointer.

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