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Consider the following code:

  #include <stdio.h>
  int main(void)
    int a[10];
    printf("%d",(int)sizeof(a)); //prints 10*sizeof(int) (40 on my compiler)
    printf("%d",(int)sizeof(a-3)); //prints sizeof(int) (4 on my compiler)


I know that sizeof() is a compile time operator but I was surprised to see the output of second printf(). What could be the reason? Is there an implicit conversion of the argument of sizeof() from an array-type to an integer type?

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The second one actually prints sizeof(int *), not sizeof(int). sizeof(int *) just happens to be 4 too on your platform. –  AnT Feb 6 '10 at 3:14
Also, the proper way to print a size_t value (the value returned by sizeof) is with "%zu", assuming your compiler supports that particular C99 feature. If not, a better bet would be to cast it to an unsigned or unsigned long. –  Chris Lutz Feb 6 '10 at 9:29

4 Answers 4

up vote 29 down vote accepted

The sizeof operator doesn't evaluate its argument, it only looks at the type of its operand.

Let's say you have an array a with type "array [N] of type T". Then, in most cases, the type of the name a is "pointer to T" (T *), and the value of the pointer is the address of the first element of the array (&a[0]). That is, the name of an array "decays" to a pointer to its first element. The "decaying" doesn't happen in the following cases:

  • when a is used with the address-of (&) operator,
  • in the initialization of a (it is illegal to assign to arrays in C), and
  • when a is the operand of the sizeof operator.

So, sizeof a gives you N times sizeof(T).

When you do sizeof(a-3), the type of the operand to sizeof is determined by the expression a-3. Since a in a-3 is used in a value context (i.e., none of the three contexts above), its type is "pointer to int", and the name a decays to a pointer to a[0]. As such, calculating a-3 is undefined behavior, but since sizeof doesn't evaluate its argument, a-3 is used only to determine the type of the operand, so the code is OK (see the first link above for more).

From the above, sizeof(a-3) is equivalent to sizeof(int *), which is 4 on your computer.

The "conversion" is due to the subtraction operator. You can see a similar, and perhaps more surprising, result with the comma operator:

printf("%zu\n", sizeof(1, a));

will also print sizeof(int *), because of the comma operator resulting in a getting used in a value context.

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+1 Much more clear than mine. –  Daniel Bingham Feb 5 '10 at 15:39

(a-3) has type int*, and it prints you sizeof(int*) which is 4 on your platform.

And note that sizeof() is no longer compile-time constant in C99 (due to variadic-length arrays).

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To be clear - the result of sizeof is not a compiler time constant only when the operand is a variable length array. It still is a constant for other operand types. –  Michael Burr Feb 5 '10 at 16:13

Nope, in the second case the argument is interpreted as an int* pointer which happens to also have size equal to 4 on your machine.

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sizeof() returns the size of a type, so the type is what's important.

It also shouldn't be printed with %d. At the very least, explicitly cast it to unsigned long or unsigned long long and use the appropriate format specifier. When teaching C, I had a student get the wrong answer by printing size_t with %d as the textbook mistakenly said to do.

Anyway, a is an array type. In C, array types decay to pointer types if you do almost anything with them or sneeze loudly, so almost anything you do to a will yield a pointer type. As you've found out, adding or subtracting a number will decay. (After all, an array can't be used in arithmetic, but a pointer can.)

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@David: as long as the result doesn't overflow, if one casts the expression as (int), then printing it with "%d" is okay. In this case, it is almost certain that the size will fit in an int. In C99, one would use "%zu" of course. For C89, your suggestion is better than printing with "%d" after casting as (int) because it is more overflow-prone. –  Alok Singhal Feb 5 '10 at 15:42
@Alok: True, but doing the casting is much more important than what you cast to. Also, I'm very thoroughly familiar with C89, and haven't used C99, and it probably shows. –  David Thornley Feb 5 '10 at 17:26
The OP has the cast in his question. I agree with you - without the cast, "%d" is wrong, but the OP's printf() call is OK as long as there is no overflow. –  Alok Singhal Feb 5 '10 at 17:29

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