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How to find the 'sizeof'(a pointer pointing to an array)?

First off, here is some code:

``````int main()
{
int days[] = {1,2,3,4,5};
int *ptr = days;
printf("%u\n", sizeof(days));
printf("%u\n", sizeof(ptr));

return 0;
}
``````

Is there a way to find out the size of the array that `ptr` is pointing to (instead of just giving its size, which is four bytes)?

-
I've always used parens with sizeof - sure it makes it look like a function call, but I think it's clearer. – Paul Tomblin Jan 29 '09 at 16:44
Why not? Do you have something against superfluous parentheses? I think it reads a little more easily with them, myself. – David Thornley Jan 29 '09 at 16:44
@Paul: well .. assuming the left hand side of that call is a pointer to int, I'd write it as int *ptr = malloc(4 * sizeof *ptr); which to me is far clearer. Less parens to read, and bringing the literal constsant to the front, like in maths. – unwind Jan 29 '09 at 17:32
@unwind - don't allocate an array of pointers when you meant an array of ints! – Paul Tomblin Jan 29 '09 at 17:47
There is no "pointer pointing to an array" here. Just a pointer pointing to an int. – newacct Feb 28 '13 at 19:01

13 Answers

No, you can't. The compiler doesn't know what the pointer is pointing to. There are tricks, like ending the array with a known out-of-band value and then counting the size up until that value, but that's not using sizeof.

Another trick is the one mentioned by Zan, which is to stash the size somewhere. For example, if you're dynamically allocating the array, allocate a block one int bigger than the one you need, stash the size in the first int, and return ptr+1 as the pointer to the array. When you need the size, decrement the pointer and peek at the stashed value. Just remember to free the whole block starting from the beginning, and not just the array.

-
I'm sorry for this posting a comment so late but if the compiler does not know what the pointer is pointing to how does free know how much memory to clear? I do know that this information is stored internally for functions like free to use. So my question is why can' the compiler do so too? – viki.omega9 Mar 3 '13 at 19:19
@viki.omega9, because free discovers the size at runtime. The compiler can't know the size because you could make the array a different size depending on runtime factors (command line arguments, contents of a file, phase of moon,etc). – Paul Tomblin Mar 3 '13 at 20:48
Quick follow up, why isn't there a function that can return the size the way free does? – viki.omega9 Mar 3 '13 at 22:52
Well, if you could guarantee that the function was only called with malloced memory and the library tracks the malloced memory the way most I've seen do (by using an int before the returned pointer) then you could write one. But if the pointer is to a static array or the like, it would fail. Similarly, there is no guarantee that the size of malloced memory is accessible to your program. – Paul Tomblin Mar 3 '13 at 23:11
@viki.omega9: Another thing to keep in mind is that the size recorded by the malloc/free system may not be the size you asked for. You malloc 9 bytes and get 16. Malloc 3K bytes and get 4K. Or similar situations. – Zan Lynx Jul 20 '14 at 3:48

The answer is, "No."

What C programmers do is store the size of the array somewhere. It can be part of a structure, or the programmer can cheat a bit and malloc() more memory than requested in order to store a length value before the start of the array.

-
Thats how pascal strings are implemented – dsm Jan 29 '09 at 16:44
and apparently pascal strings are why excel runs so fast! – Adam Naylor Jul 14 '10 at 19:48
@Adam: It is fast. I use it in a list of strings implementation of mine. It is super-fast to linear search because it is: load size, prefetch pos+size, compare size to search size, if equal strncmp, move to next string, repeat. It's faster than binary search up to about 500 strings. – Zan Lynx Jul 14 '10 at 19:52

For dynamic arrays (malloc or C++ new) you need to store the size of the array as mentioned by others or perhaps build an array manager structure which handles add, remove, count, etc. Unfortunately C doesn't do this nearly as well as C++ since you basically have to build it for each different array type you are storing which is cumbersome if you have multiple types of arrays that you need to manage.

For static arrays, such as the one in your example, there is a common macro used to get the size, but it is not recommended as it does not check if the parameter is really a static array. The macro is used in real code though, e.g. in the Linux kernel headers although it may be slightly different than the one below:

``````#if !defined(ARRAY_SIZE)
#define ARRAY_SIZE(x) (sizeof((x)) / sizeof((x)[0]))
#endif

int main()
{
int days[] = {1,2,3,4,5};
int *ptr = days;
printf("%u\n", ARRAY_SIZE(days));
printf("%u\n", sizeof(ptr));
return 0;
}
``````

You can google for reasons to be wary of macros like this. Be careful.

If possible, the C++ stdlib such as vector which is much safer and easier to use.

-
ARRAY_SIZE is a common paradigm used by practical programmers everywhere. – Sanjaya R Jan 29 '09 at 17:19
Yes it is a common paradigm. You still need to use it cautiously though as it is easy to forget and use it on a dynamic array. – Ryan Jan 29 '09 at 17:27
Yes, good point, but the question being asked was about the pointer one, not the static array one. – Paul Tomblin Jan 29 '09 at 17:40
That `ARRAY_SIZE` macro always works if its argument is an array (i.e. expression of array type). For your so-called "dynamic array", you never get an actual "array" (expression of array type). (Of course, you can't, since array types include their size at compile-time.) You just get a pointer to the first element. Your objection "does not check if the parameter is really a static array" is not really valid, since they are different as one is an array and the other isn't. – newacct Feb 28 '13 at 18:52
There is a template function floating around that does the same thing but will prevent the use of pointers. – Nathan Adams Apr 23 '13 at 2:24

There is a clean solution with C++ templates, without using sizeof(). The following getSize() function returns the size of any static array:

``````#include <cstddef>

template<typename T, size_t SIZE>
size_t getSize(T (&)[SIZE]) {
return SIZE;
}
``````

Here is an example with a foo_t structure:

``````#include <cstddef>

template<typename T, size_t SIZE>
size_t getSize(T (&)[SIZE]) {
return SIZE;
}

struct foo_t {
int ball;
};

int main()
{
foo_t foos3[] = {{1},{2},{3}};
foo_t foos5[] = {{1},{2},{3},{4},{5}};
printf("%u\n", getSize(foos3));
printf("%u\n", getSize(foos5));

return 0;
}
``````

Output:

``````3
5
``````
-
I have never seen the notation `T (&)[SIZE]`. Can you explain what this means? Also you could mention constexpr in this context. – WorldSEnder Jun 4 '14 at 9:43
That's nice if you use c++ and you actually have a variable of an array type. Neither of them is the case in the question: Language is C, and the thing the OP wants to get the array size from is a simple pointer. – Oguk Oct 12 '14 at 7:02

For this specific example, yes, there is, IF you use typedefs (see below). Of course, if you do it this way, you're just as well off to use SIZEOF_DAYS, since you know what the pointer is pointing to.

If you have a (void *) pointer, as is returned by malloc() or the like, then, no, there is no way to determine what data structure the pointer is pointing to and thus, no way to determine its size.

``````#include <stdio.h>

#define NUM_DAYS 5
typedef int days_t[ NUM_DAYS ];
#define SIZEOF_DAYS ( sizeof( days_t ) )

int main() {
days_t  days;
days_t *ptr = &days;

printf( "SIZEOF_DAYS:  %u\n", SIZEOF_DAYS  );
printf( "sizeof(days): %u\n", sizeof(days) );
printf( "sizeof(*ptr): %u\n", sizeof(*ptr) );
printf( "sizeof(ptr):  %u\n", sizeof(ptr)  );

return 0;
}
``````

Output:

``````SIZEOF_DAYS:  20
sizeof(days): 20
sizeof(*ptr): 20
sizeof(ptr):  4
``````
-

As all the correct answers have stated, you cannot get this information from the decayed pointer value of the array alone. If the decayed pointer is the argument received by the function, then the size of the originating array has to be provided in some other way for the function to come to know that size.

Here's a suggestion different from what has been provided thus far,that will work: Pass a pointer to the array instead. This suggestion is similar to the C++ style suggestions, except that C does not support templates or references:

``````#define ARRAY_SZ 10

void foo (int (*arr)[ARRAY_SZ]) {
printf("%u\n", (unsigned)sizeof(*arr)/sizeof(**arr));
}
``````

But, this suggestion is kind of silly for your problem, since the function is defined to know exactly the size of the array that is passed in (hence, there is little need to use sizeof at all on the array). What it does do, though, is offer some type safety. It will prohibit you from passing in an array of an unwanted size.

``````int x[20];
int y[10];
foo(&x); /* error */
foo(&y); /* ok */
``````

If the function is supposed to be able to operate on any size of array, then you will have to provide the size to the function as additional information.

-
+1 for "You cannot get this information from the decayed pointer value of the array alone" and providing a workaround. – Max Aug 17 '13 at 1:12

It's not possible to find the sizeof value of the pointer, because the compiler doesn't know how long that pointer is poiting. The sizeof pointer should be 2 or 4 (depending on the compiler).

-

My solution to this problem is to save the length of the array into a struct Array as a meta-information about the array.

``````#include <stdio.h>
#include <stdlib.h>

struct Array
{
int length;

double *array;
};

typedef struct Array Array;

Array* NewArray(int length)
{
/* Allocate the memory for the struct Array */
Array *newArray = (Array*) malloc(sizeof(Array));

/* Insert only non-negative length's*/
newArray->length = (length > 0) ? length : 0;

newArray->array = (double*) malloc(length*sizeof(double));

return newArray;
}

void SetArray(Array *structure,int length,double* array)
{
structure->length = length;
structure->array = array;
}

void PrintArray(Array *structure)
{
if(structure->length > 0)
{
int i;
printf("length: %d\n", structure->length);
for (i = 0; i < structure->length; i++)
printf("%g\n", structure->array[i]);
}
else
printf("Empty Array. Length 0\n");
}

int main()
{
int i;
Array *negativeTest, *days = NewArray(5);

double moreDays[] = {1,2,3,4,5,6,7,8,9,10};

for (i = 0; i < days->length; i++)
days->array[i] = i+1;

PrintArray(days);

SetArray(days,10,moreDays);

PrintArray(days);

negativeTest = NewArray(-5);

PrintArray(negativeTest);

return 0;
}
``````

But you have to care about set the right length of the array you want to store, because the is no way to check this length, like our friends massively explained.

-

some functions that might help to get around the problem, but I have to mention that Zan Lynx and Paul Tomblin is correct in what they says.

``````#include <stdio.h>
#include <stdlib.h>

int main() {

int truInt = 12345679;
int intLength = snprintf( NULL, 0, "%d", truInt );
printf("size of truInt = %d: \n", intLength);

int *ptr_truInt = &truInt;
printf("size of ptr_truInt = %d: \n", (snprintf( NULL, 0, "%d", ptr_truInt[0] ) ) );

int daysInt[] = {1,2,3,4,5,6,7,8,9};
int *ptrIntDays = daysInt;
printf("size of ptrDays = %d: \n\n", getIntPointerSize(ptrIntDays));

char *stringPointer1 = "123456789";
printf("size of stringPointer = %d: \n", getCharPointerSize(stringPointer));

char daysChar[] = {'1','2','3','4','5','6','7','8','9','\0'};
printf("size of daysChar = %u: \n", sizeof(daysChar));
char *ptrDaysChar = daysChar;
printf("size of ptrDaysChar2 = %u: \n", getCharPointerSize(ptrDaysChar));

char daysChar2[] = "123456789";
char *ptrDaysChar2 = daysChar2;
printf("size of ptrDaysChar2 = %u: \n", getCharPointerSize(ptrDaysChar2));
return 0;
}

int getIntPointerSize(unsigned pointer[]){
int i=-1;
while(pointer[++i] != '\0'){}
return i;
}

int getCharPointerSize(char *pointer){
int i=-1;
while(pointer[++i] != '\0'){}
return i;
}
``````
-

No, you can't use `sizeof(ptr)` to find the size of array `ptr` is pointing to.

Though allocating extra memory(more than the size of array) will be helpful if you want to store the length in extra space.

-
``````int main()
{
int days[] = {1,2,3,4,5};
int *ptr = days;
printf("%u\n", sizeof(days));
printf("%u\n", sizeof(ptr));

return 0;
}
``````

Size of days[] is 20 which is no of elements * size of it's data type. While the size of pointer is 4 no matter what it is pointing to. Because a pointer points to other element by storing it's address.

-

There is no magic solution. C is not a reflective language. Objects don't automatically know what they are.

But you have many choices:

1. Obviously, add a parameter
2. Wrap the call in a macro and automatically add a parameter
3. Use a more complex object. Define a structure which contains the dynamic array and also the size of the array. Then, pass the address of the structure.
-
`````` #define array_size 10

struct {
int16 size;
int16 array[array_size];
int16 property1[(array_size/16)+1]
int16 property2[(array_size/16)+1]
} array1 = {array_size, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9};

#undef array_size
``````

array_size is passing to the size variable:

``````#define array_size 30

struct {
int16 size;
int16 array[array_size];
int16 property1[(array_size/16)+1]
int16 property2[(array_size/16)+1]
} array2 = {array_size};

#undef array_size
``````

Usage is:

``````void main() {

int16 size = array1.size;
for (int i=0; i!=size; i++) {

array1.array[i] *= 2;
}
}
``````
-

protected by LundinApr 16 '14 at 14:02

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