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.

If I have a string:

char s1[]="hello, how are you?";

it prints the exact, right number of characters, 20. But if I have a string initialized by a pointer:

char *s2;

it prints the size of a pointer, which depends on the machine (on mine, 8). So why is it 8 bytes for s2, and 20 bytes for s1, since they are the same string?

share|improve this question

6 Answers 6

up vote 10 down vote accepted

They are not the same string, or even the same type. char s2[] is an array, it has the size of the sum of the size of its elements. char *s2 is a pointer, it has the size of a pointer.

sizeof() is (in C89) a compile-time operator that must know the size of it's argument at compile time. Since a pointer can come from anywhere, sizeof() can't know the size of the allocated memory, but an array is always given a size at compile time (except for C99's VLA's), and sizeof() can then return the size of that memory.

share|improve this answer
Understood, so the size of s2[] it's known at compile time, but it's memory location can't change.Indeed if I try re-assigning s2 to another memory location it gives an error.Instead a pointer is dynamic, the location is decided runtime.That's why,I understand now. –  Ramy Al Zuhouri Jan 21 '12 at 14:23

char s2[] is a statically allocated array, it's all on the stack, and the operator sizeof has an overloaded version that can measure the size of a statically-allocated array, as delnan commented.

char* s2 is a pointer and the allocated string (with malloc) is on the heap.

share|improve this answer
I wouldn't say there's a special "overload" for char arrays. There's nothing special about char arrays, and the only thing "special" about arrays as opposed to pointers is that the former have a (compile-time, if we ignore VLAs) size, and of course sizeof uses that information. –  delnan Jan 21 '12 at 13:35
@delnan: You're right, thanks, will fix it. –  Tamer Shlash Jan 21 '12 at 13:37

Remember that arrays are not pointers; in one case you get the size of an array and in the other the size of the pointer to it.

The sizeof operator applied to a string yields the number of characters of the string including the trailing null character.

In the second case, you are not computing the size of a string but instead the size of a pointer to a string, so it yields the size of the pointer type.

char *s2;

This code is wrong; you are allocating room for only one char. You need to allocate space for the entire string:

char *s2;
s2 = malloc(sizeof s1);
strcpy(s2, s1);

Finally, regarding the strlen function (since you mentioned it): the length of a string is not the same value as the size of a string. The length of a string is the number of characters preceding the trailing, terminating null character while the size of a string is the number of characters of the string including the null character.

share|improve this answer

sizeof returns the size of the data type you pass in. When you pass in char[20] that data type takes up 20 bytes but when you pass in char* that takes a machine word.

share|improve this answer

Disregarding the fact that you didn't allocate enough memory in the second case (it should have been malloc(<number of characters to be stored>+1)), the two s2 are not the same thing.

In the first case, you have an array; you are using the special string-initialization syntax that results in an array of the correct size already initialized to that string. sizeof on an array results correctly in its size (in units of char).

In the second case, you have a pointer, which knows nothing about how big is what it is pointing to. sizeof on a pointer returns the size of the pointer, which, on 32 bit machines, is 4 bytes=32 bit, because 32 bits are all the space needed to store a pointer to every possible memory location in a 32 bit address space.

share|improve this answer

This is by definition. When the sizeof operator is applied to arrays, it will be replaced by the compiler with the length of the array (in the compilation stage). When it's applied to a pointer, the compiler replaces it with the size of the pointer.

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.