Given the following program,

#include <iostream>

using namespace std;

void foo( char a[100] )
    cout << "foo() " << sizeof( a ) << endl;

int main()
    char bar[100] = { 0 };
    cout << "main() " << sizeof( bar ) << endl;
    foo( bar );
    return 0;


main() 100
foo() 4
  1. Why is the array passed as a pointer to the first element?
  2. Is it a heritage from C?
  3. What does the standard say?
  4. Why is the strict type-safety of C++ dropped?
  • I always use std::array in these cases, prevents having to deal with issues like this and works with std algorithms too
    – paulm
    Sep 8, 2014 at 9:39
  • 3
    What strict type safety? Who has promised strict type safety? There is no such thing in C++. Sep 8, 2014 at 9:58
  • TL;DR for below answers: Arrays become pointers when passed to the function, so when you check their size all you get is the size of a pointer. If you're working with just C, all I can suggest is that you pre calculate whatever size you're trying to get out of the array as another parameter.
    – Super Cat
    Dec 27, 2015 at 22:04
  • Relevant Linus rant Dec 4, 2017 at 21:51

3 Answers 3


Yes it's inherited from C. The function:

void foo ( char a[100] );

Will have the parameter adjusted to be a pointer, and so becomes:

void foo ( char * a );

If you want that the array type is preserved, you should pass in a reference to the array:

void foo ( char (&a)[100] );

C++ '03 8.3.5/3:

...The type of a function is determined using the following rules. The type of each parameter is determined from its own decl-specifier-seq and declarator. After determining the type of each parameter, any parameter of type "array of T" or "function returning T" is adjusted to be "pointer to T" or "pointer to function returning T," respectively....

To explain the syntax:

Check for "right-left" rule in google; I found one description of it here.

It would be applied to this example approximately as follows:

void foo (char (&a)[100]);

Start at identifier 'a'

'a' is a

Move right - we find a ) so we reverse direction looking for the (. As we move left we pass &

'a' is a reference

After the & we reach the opening ( so we reverse again and look right. We now see [100]

'a' is a reference to an array of 100

And we reverse direction again until we reach char:

'a' is a reference to an array of 100 chars

  • 1
    The latter has the disadvantage of hardwiring the array size into the function signature. A function template can avoid that.
    – sbi
    Aug 25, 2009 at 13:29
  • 4
    it's probably worth mentioning that using a std::vector will neatly side step all of the problems related to passing arrays.
    – markh44
    Aug 25, 2009 at 14:02
  • 5
    This boils down to the fact that plain array parameters in C/C++ are a fiction - they're really pointers. Array parameters should be avoided as much as possible - they really just confuse matters. Aug 25, 2009 at 17:04
  • 2
    Just a nit-pick: the function parameter doesn't decay to pointer. It is adjusted to pointer. An array name used as a function argument can decay to a pointer if the function parameter is a pointer. Apr 6, 2015 at 14:50
  • 2
    Bravo for explaining the rule, since the link is now a 404.
    – gsamaras
    Apr 8, 2015 at 13:43

Yes. In C and C++ you cannot pass arrays to functions. That's just the way it is.

Why are you doing plain arrays anyway? Have you looked at boost/std::tr1::array/std::array or std::vector?

Note that you can, however, pass a reference to an array of arbitrary length to a function template. Off the top of my head:

template< std::size_t N >
void f(char (&arr)[N])
  std::cout << sizeof(arr) << '\n';
  • 7
    But you can pass in "reference to array". Aug 25, 2009 at 13:24
  • @Richard: I was just adding this while you wrote your comment. :)
    – sbi
    Aug 25, 2009 at 13:28
  • 7
    Passing by reference to array is not limited to "function templates". You can pass an array by reference to non template functions. The advantage of using a function template is that you can deduce the array index, thereby allowing that you can call the function for different sized array types. Aug 25, 2009 at 13:29
  • 4
    @CsTamas, yes, the rules for passing arrays and objects are different in C. Structures are actually copied by value when passed as a parameter. Arrays are treated as a pointer to their first element. (Arrays and pointers in C are very inter-related. They aren't the same thing, but for purposes of parameter-passing they are identical) Aug 25, 2009 at 13:34
  • 1
    There is std::array now. Apr 21, 2016 at 5:47

There is magnificent word in C/C++ terminology that is used for static arrays and function pointers - decay. Consider the following code:

int intArray[] = {1, 3, 5, 7, 11}; // static array of 5 ints
void f(int a[]) {
  // ...
// ...
f(intArray); // only pointer to the first array element is passed
int length = sizeof intArray/sizeof(int); // calculate intArray elements quantity (equals 5)
int ptrToIntSize = sizeof(*intArray); // calculate int * size on your system
  • 4
    And? This, at best, indirectly indicates what happens. The OP was asking why the language is set up that way. Also, "static array" is a confusing term when what you really mean is dynamically allocated; technically, the array you've shown has extern linkage, not static. And I'm not sure what function pointers have to do with anything here? Aug 30, 2016 at 15:21

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