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I wrote an array_length function like this:

int array_length(int a[]){
    return sizeof(a)/sizeof(int);

However it is returning 2 when I did

unsigned int len = array_length(arr);
printf ("%i" , len);

where I have

int arr[] = {3,4,5,6,1,7,2};
int * parr = arr;

But when I just do

int k = sizeof(arr)/sizeof(int);
printf("%i", k);

in the main function, it returns 7.

What is the correct way to write the array_length function and how do I use it?

share|improve this question
Although some people below have provided a macro that works, it's important to internalize that C is different from other languages (Java, C#, etc.), arrays are really just pointers to a block of memory, and it's up to you to keep track of the length. If you "get" this, it will make working with C much, much easier. – benzado Jan 18 '10 at 21:24

13 Answers 13

up vote 12 down vote accepted

Computing array lengths, in C, is problematic at best.

The issue with your code above, is that when you do:

int array_length(int a[]){ 
    return sizeof(a)/sizeof(int); 

You're really just passing in a pointer as "a", so sizeof(a) is sizeof(int*). If you're on a 64bit system, you'll always get 2 for sizeof(a)/sizeof(int) inside of the function, since the pointer will be 64bits.

You can (potentially) do this as a macro instead of a function, but that has it's own issues... (It completely inlines this, so you get the same behavior as your int k =... block, though.)

share|improve this answer
Isn't it possible for sizeof(int)==sizeof(int*) on a 64-bit system? The size of int is implementation dependent, but always at least 32-bit, or so I thought. – dreamlax Jan 18 '10 at 20:51
Yes but there is no c compiler on earth who sets int = 64 bit. Unless you write or patch one. – Lothar Jan 18 '10 at 20:53
@dreamlax: it's possible, but I don't know of any that do that. MS + GNU + Intel + most other compilers set sizeof(int) == 32... – Reed Copsey Jan 18 '10 at 20:56
@Lothar: the old Cray C compiler I used several decades ago had 64 bit ints... – Chris Dodd Jan 18 '10 at 21:03
My understanding is that most 64-bit Unix systems use the ILP64 model where int is 64-bits ( Of course, since I have little experience on Unix boxes, I could be wrong. (Windows uses the LLP64 model where int is 32-bits: – Michael Burr Jan 18 '10 at 21:47

Your function won't work. C arrays and C pointers are different types, but the array will degenerate into a pointer if you look at it funny.

In this case, you're passing the array as a parameter, and it's turning into a pointer in the call, so you're measuring the sizeof(int *)/sizeof(int).

The only way to make this work is to use a macro:

#define ARRAYSIZE(x) (sizeof(x)/sizeof(*x))

and that will only work if x is declared in that scope as an array and not as a pointer.

share|improve this answer

Use a macro...

#define SIZEOF_ARRAY( arr ) sizeof( arr ) / sizeof( arr[0] )

It'll also have the bonus of working for any array data type :)

share|improve this answer
This won't work. Try int *foo = NULL; SIZEOF_ARRAY( foo ); – wheaties Jan 18 '10 at 20:53
It does have the virtue of potentially working correctly, unlike the function. – David Thornley Jan 18 '10 at 20:59
@David: And isn't that what's most important: Code that potentially works correctly, sometimes? – BlueRaja - Danny Pflughoeft Jan 18 '10 at 21:07
Please put parens around the whole macro expansion... – Michael Burr Jan 18 '10 at 21:22
The problem is the OP's understanding of arrays and pointers, which the above answer doesn't explain. – Alok Singhal Jan 18 '10 at 21:39

In general, it is impossible to measure array size C. In your main function, the compiler counts the elements you wrote between the braces for you, so you're really declaring int arr[7]. That has the size you expect.

In your function, however, int a[] is equivalent to int *a -- a pointer to an integer. You know it's an array, so there are more integers following, but your array_length function could be passed any integer pointer, so it can't know.

This is one of the many reasons to use std::vector instead of raw arrays whenever possible.

share|improve this answer
std::vector is syntax error in C. The OP is using C. – Alok Singhal Jan 18 '10 at 21:40
Saying this is impossible is a bit of an exaggeration - there are certainly problems, and it can't always be done cleanly. But there are techniques that work often enough to be very useful in spite of the drawbacks. – Michael Burr Jan 18 '10 at 21:50
Aah, I'm so used to C++... and yes, I know there are macro techniques as posted by other people, but they seem extremely problematic to me. I don't like the idea of a "function" (macro) that works for variables declared in the same scope, but not for parameters. Then every time you want to use it, you have to remember to check where you declared the variable you're calling it on. If you forget, it'll compile just fine but yield blatantly wrong results. – Asher Dunn Jan 18 '10 at 22:18
that's a legitimate point of view. Personally I find the utility of the macro to outweigh the drawbacks. – Michael Burr Jan 18 '10 at 22:30

The simple answer to your question is: there is no way to write the array_length function. You might be able to get away with a macro definition, but that depends upon the context in which you will use the macro.

You have made the common mistake of confusing arrays and pointers in C. In C, an array's name, in most cases, is equivalent to a pointer to its first element. Your array_length function receives an array a in such a context. In other words, it is impossible to pass an array as an array in C. You function is as if it is defined like this:

int array_length(int *a){
    return sizeof(a)/sizeof (int);

which, basically divides the size of int * by the size of int. Also, by the above description, it is impossible to know the size of an array in C in a function.

Now, how can you determine its size properly outside of the function? The answer is that sizeof operator is one of the cases where the name of an array does not reduce to a pointer to its first element. I have explained the differences more elaborately in this answer. Also note that despite appearances, sizeof is an operator, not a function (as we just learned, it can't be a function, because then it won't be able to calculate the size of an array).

Finally, to determine the size of an array a of any type T, I prefer:

size_t sz = sizeof a / sizeof a[0];

The above is type-agnostic: a could be of any type above. Indeed, you could even change the type of a and would not need to change the above.

share|improve this answer

try _countof it's defined in WinNT.h as

// Return the number of elements in a statically sized array.
//   DWORD Buffer[100];
//   RTL_NUMBER_OF(Buffer) == 100
// This is also popularly known as: NUMBER_OF, ARRSIZE, _countof, NELEM, etc.
#define RTL_NUMBER_OF_V1(A) (sizeof(A)/sizeof((A)[0]))
share|improve this answer

The general procedure for computing the number of elements in an array is sizeof arr / sizeof arr[0] (or sizeof arr / sizeof *arr). Having said that...

Writing a function to compute the length of an array passed as an argument is doomed to failure, because what the function receives is a pointer, not an array. When you call your function with an array expression as the argument, the array expression will have its type implicitly converted from "array of T" to "pointer to T" and its value will be set to point to the first element in the array. Your function doesn't see an array object; it sees a pointer.

In the context of a function parameter declaration, int a[] is exactly the same as int *a, but that's only true for function parameter declarations (nothing would make me happier than to see the first form banished from all future versions of C, but that's not going to happen).

share|improve this answer

The problem is that function parameters can't really be arrays, even though C lets you make a declaration that looks like one. The parameter ends up being a simple pointer. I've said elsewhere:

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.

That's why this type of construct to return the number of elements in an array ends up being a macro in C. See this previous SO answer for what I think is a good (if complicated) implementation of the macro:

For ease of reference, here's the macro:

#define COUNT_OF(x) ((sizeof(x)/sizeof(0[x])) / ((size_t)(!(sizeof(x) % sizeof(0[x])))))

The complications in that macro make it safer to use than most (note that I don't claim to be the originator of the techniques used in the macro).

share|improve this answer
In C++ it's possible using templates as demonstrated in another answer. I have an example (stolen from Microsoft) in this SO answer,…, but I decided to keep this answer simple since it seemed to be C specific. – Michael Burr Jan 18 '10 at 21:20

int arr[whatever] inside function argument list defines a pointer, not an array. Hence, the information about length is lost forever.


To see why, you must understand what C is all about. C never copies complex chunks around implicitly. So when you say "pass me an array" it actually means "I want to pass an address, which array's name usually is".

This is not a disadvantage. If you want more, you will have to pass it manually. The reward is that you know exactly what's going on on machine's level, giving you performance and other benefits. This is how you can have one universal programming language for all purposes.

share|improve this answer

Array reference will solve this, although I'd never suggest using such a thing (since it will only work if you either always pass by ref, or use it in the scope in which the array has been defined):

#include <iostream>

template <typename Arrtype>
unsigned mysize (Arrtype (&arr)) {
 return sizeof(arr) / sizeof(arr[0]);

int main () {
 unsigned arr[13];
 std::cout << mysize(arr) << std::endl; // prints 13

Also mentioned here:

Edit: As suggested in the comments, another possible solution is this:

template <typename T, unsigned N>
unsigned mysize(T (&)[N]) {
    return N;
share|improve this answer
The question is about C. – avakar Jan 18 '10 at 21:16
mhm, good point :o Sorry, did not notice that. I'll leave th comment tho, since maybe he's able to use C++ as well. – rmn Jan 18 '10 at 21:18
That's not C, though... – pib Jan 18 '10 at 21:18
If he can use C++, he should prefer the canonical std::size_t size(T (&)[N]) {return N;} version in order to have a stronger type check. – avakar Jan 18 '10 at 21:21
A potential drawback to the C++ solutions that return a value from a function are that they aren't compile-time constants (I understand that that's not what the OP was looking for, but it's something to be aware of). For a solution that's 100% compile-time and typesafe (but still requires a bit of macro use to have the desired ease of use), look at Microsoft's implemntation using C++ templates in WinNT.h – Michael Burr Jan 18 '10 at 21:58

The "int a[]" syntax used as a function argument is equivalent to "int *a".

This syntax:

int arr[] = {3,4,5,6,1,7,2};

Only works at compile time.

So while you can write: int arr[] = {3,4,5,6,1,7,2}; printf("size=%d\n", sizeof(arr));

This will only work at compile time.

One way you could get around this is to make the arrays dynamic and create your own array type.


typedef struct array{
int length;
int *arr;
} array;

And use malloc to set it's size. You could populate it using the elipses.

populate_array(array, ...);

e.g. then calling populate_array(arr, 1,2,3,4,5,6); see stdarg.

However, since your C compiler is quite possibly a C++ compiler too. Think about using std::vector instead. The hard work is then done for you.

share|improve this answer

there is no way to determine the size of an array passed into a function like this

 void foo(int a[]);

there is not enough information at compile time or at run time to work it out

The sizeof tricks only work in source locations where the array size is specified

share|improve this answer

This works pretty well:

int A[5] = {10, 20, 30, 40, 3};
int length = sizeof(A) / sizeof(A[0]);  // prints 5
share|improve this answer

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