Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

How to find the size of string array passed to a function. The size should be computed inside the function.


using namespace std;

template <typename T,unsigned S>
unsigned arraysize(const T (&v)[S]) { return S; }

void func(string args[])
   unsigned m=arraysize(args);

int main()
    string str_arr[]={"hello","foo","bar"};


What i dont understand is:

If the statement arraysize(str_arr) is used in main,it wouldn't pose a problem. The str_arr is an array, so str_arr acts as a pointer, so when we use arraysize(str_arr) that means we're sending the address to arraysize function.(correct me if i'm wrong).

But in function func(), i dont understand why there is a problem, i.e. the statement arraysize(args) sends the address of the string array args(or the address of pointer args).. or is it more complicated since it becomes some double pointer?? Explain?

Also please correct the above code..

share|improve this question
it is impossible to determine array size and pointer size. Not without a dedicated terminating byte. This is why we have argc to begin with. –  Dmitry Mar 6 '13 at 20:05
One more reason to use std::vector. –  Joachim Pileborg Mar 6 '13 at 20:07
This is one of the advantages of java arrays over c++ pointers, the size of the array is available from the array itself. Dmitry is correct, in C++ what you are asking for is not possible. –  Ramon J. Romero y Vigil Mar 6 '13 at 20:07
@Dmitry Determining array size is easy (it's in the type, so sizeof can use it), provided you actually do have an array, and not a pointer to the first element of an array ;-) –  delnan Mar 6 '13 at 20:10
@Dmitry Speaking of confusion, I also see a lot of confusion in your definitions ;-) A char is indeed a byte in that it's the smallest addressable unit of memory for C-the-language, but it's not an octet (8 bit) on all platforms. An int is not defined to be a dword except perhaps by some ABIs (which honestly isn't worth much when you want your software to run on more than a single platform). A unicode character is not 16 bit in any sense of the word - a UTF-16 code unit but that's rarely useful or important (there are other, better encodings; not all code points fit into 16 bit). –  delnan Mar 6 '13 at 20:48

5 Answers 5

up vote 0 down vote accepted

str_arr is an array of strings. When you do sizeof(str_arr), you get the size of that array. However, despite the fact that args looks like an array of strings, it's not. An argument that looks like an array is really of pointer type. That is, string args[] is transformed to string* args by the compiler. When you do sizeof(args) you are simply getting the size of the pointer.

You can either pass the size of the array into the function or take a reference to the array with a template parameter size (as you did with arraysize):

template <size_t N>
void func(string (&args)[N])
   // ...
share|improve this answer
haha... that's what i've thought.. it gets transformed into string*. –  bkunchanapalli Mar 6 '13 at 20:18

There is no way to determine the size of an array when sent to a function. You also have to remember that only a pointer to the array is sent to the function, which makes it even theoretically quite implausible to calculate the array's size.

share|improve this answer

The information of the array's size is never visible in your function, as you threw it away when you decided to use string args[] for the argument. From the compiler's perspective, it's the same as string* args. You could change the function to:

template<size_t M>
void func(string (&args)[M])

but it seems you already know that, right?

share|improve this answer
no :) but Thank you :)... still need to master this kind of Template usage! –  bkunchanapalli Mar 6 '13 at 20:20

If the statement arraysize(str_arr) is used in main,it wouldn't pose a problem. The str_arr is an array, so str_arr acts as a pointer, so when we use arraysize(str_arr) that means we're sending the address to arraysize function.(correct me if i'm wrong).

I have to correct you here. You state a correct premise, but draw the wrong conclusion.

The key point is indeed that str_arr is an array in main. While an array decays to a pointer in many (most) expression contexts, this does not apply when a reference to array is initialized. That is the reason why array_size is declared to take a reference to array parameter - this is the only way to have a parameter of array type, which implies that it comes with a defined length.

That is not the case for func. When a function parameter is declared to be of plain array type, the the array to pointer decay is applied to that declaraction. Your declaration of func is equivalent to void func(string * args). Thus args is a pointer, not an array. You could call func as

string str_non_array;

Because of this, a reference-to-array can't bind to it. And anyways, args has completely lost all information about the size of the array it is pointing to.

You could use the same reference-to-array trick as is used in arraysize: declare func as

template <std::size_t N>
void func(string (&args)[N]);

But this gets impractical to do everywhere (and may lead to code bloat, if applied naively to all array-handling code). The C++ equivalent of an array-with-length as available in other languages is std::vector<string> (for dynamically sized arrays) or std::array<string,N> (for fixed size known at compile time). Note that the latter can cause the same code bloat as mentioned above, so in most cases, std::vector<string> would be the preferred type for array that you need to pass to various functions.

share|improve this answer
std::array<T,N> leads to as much code-bloat as versions of func with template<std::size_t N>. –  Daniel Frey Mar 6 '13 at 20:33
As you told, reference to array is initialized, how come str_arr is initialized as a reference but doesnt convert into a pointer? Sorry if this isnt a valid question? Basically what i am asking is how come str_arr is not being used as pointer in my code context. –  bkunchanapalli Mar 6 '13 at 20:50
@DanielFrey: good point –  JoergB Mar 7 '13 at 9:06
@bkunchanapalli: str_arr in main is an array. It is used as an array in contexts that require an array, but decays to a pointer in contexts that expect a pointer. In your call to func (your version) the parameter type is string *, so str_arr is used as (decays to) a pointer. If you would use arraysize(str_arr) in main, the parameter type is reference-to-array and that reference v would bind directly to str_arr without array to pointer conversion. In func that is not possible, because args is a pointer rather than an array. –  JoergB Mar 7 '13 at 9:15

Dmitry is right and I would like to explain it a bit further. The reason its happening is because array is not a First Class citizen in C++ and when passed as parameter it decays to pointer and what you get in called function is a pointer to its first element and size is lost. You can refer C++ arrays as function arguments to see what alternative options are available.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.