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The C standard guarantees that an int is able to store every possible array size. At least, that's what I understand from reading §, subsection 1 (Array subscripting constraints):

One of the expressions shall have type ‘‘pointer to object type’’, the other expression shall have integer type, and the result has type ‘‘type’’.

Since we shall use ints as array subscripts, why are we supposed to use size_t to determine the size of an array?

Why does strlen() return size_t when int would suffice?

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size_t is typically unsigned. As string size of -1 seems somewhat meaningless, so why would I want to support it? – forsvarir May 14 '11 at 19:52
Not typically. It's required to be an unsigned type. A few buggy implementations used to have signed size_t, and it resulted in extremely serious exploitable vulnerabilities. – R.. May 14 '11 at 20:13
And there is malloc as well which takes size_t as argument. And it is not trivial to know what to use as array subscript: stackoverflow.com/questions/3174850/type-for-array-index-in-c99 – Ciro Santilli 巴拿馬文件 六四事件 法轮功 Jun 27 '15 at 14:52
up vote 20 down vote accepted

The term "integer type" doesn't mean int - for example, char, and short are integer types.

Just because you can use an int to subscript an array doesn't necessarily mean that it can reach all possible array elements.

More specifically about size_t vs. int, one example would be platforms where int might be a 16-bit type and size_t might be a 32-bit type (or the more common 32-bit int vs 64 bit size_t difference on today's 64-bit platforms).

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integer type is not necessarily an "int". "long long" is an integer type too, as is "size_t".

Arrays can be larger than 2GB. This property is quite handy for those who write memory hungry programs, e.g DBMS with big buffer pools, application servers with big memory caches etc. Arrays bigger than 2GB/4GB is the whole point of 64 bit computing :)

size_t for strlen(), at least sounds compatible with how C standard handles arrays, whether it makes practical sense or not, or whether somebody have seen strings that large, is another question.

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While they can in principle exist, it's best for programs to forbid strings larger than INT_MAX in size, since snprintf returns int and gives an overflow error if the resulting string would be longer (i.e. the best safe way to process strings becomes unusable if you want to allow strings longer than 2GB). – R.. May 14 '11 at 20:11

Firstly, what you quoted from the standard does not make any references to type int specifically. And no, int is not guaranteed to be sufficient to store the size of any object (including arrays) in C.

Secondly, C language does not really have "array subscriptions" specifically. The array subscription is implemented through pointer arithmetic. And the integral operand in pointer arithmetics has ptrdiff_t type. Not size_t, not int, but ptrdiff_t. It is a signed type, BTW, meaning that the value can be negative.

Thirdly, the purpose of size_t is to store the size of any object in the program (i.e. to store the result of sizeof). It is not immediately intended to be used as an array index. It just happens to work as an array index since it is guaranteed that it is always large enough to index any array. However, from an abstract point of view, "array" is a specific kind of "container" and there are other kinds of containers out there (lists-based ones, tree-based ones and so on). In generic case size_t is not sufficient to store the size of any container, which in generic case makes it a questionable choice for array indexing as well. (strlen, on the other hand, is a function that works with arrays specifically, which makes size_t appropriate there.)

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Given that calloc, qsort, and fread/fwrite all use pairs of size_t values for element size and element count, I disagree with your statement that size_t is not intended to be used as an array index. Also the integer operand in pointer arithmetic and have any integer type, not just ptrdiff_t, but the result of subtracting pointers has type ptrdiff_t. – R.. May 14 '11 at 20:08
@Vladislav Vaintroub: It can't. size_t by definition can hold he size of the largest continuous object your implementation allows you to create. That's all it can do. Nowhere it is guaranteed that you can create an object that occupies the entire memory, so there's no guarantee that size_t is sufficient to index the entire memory. Integer type that can index the entire memory is called uintptr_t, not size_t. size_t is in general case smaller than "the entire memory". – AnT May 14 '11 at 20:53
Segmented memory platforms will typically have such "small" size_t, like DOS/Win16 or like IBM 128-bit platforms. These are my "counterexamples". However, I don't care about any "counterexamples". Counterexamples don't mater. What matters is that size_t implements a very specific concept. And that concept has nothing to to with generic counting. Which immediately makes size_t inappropriate for generic counting. Whether it is "sufficient" or not does not matter at all. – AnT May 14 '11 at 20:56
6.5.6/9: says of pointer subtraction, "If the result is not representable in [ptrdiff_t], the behavior is undefined". From this it is clear that ptrdiff_t is not guaranteed to be large enough to contain any offset in an object. It is also false that ptrdiff_t is "the integer operand" in pointer arithmetic. Any integral type can be used for pointer addition, the standard only makes ptrdiff_t a special case for subtraction. size_t is the type defined to be usable for any positive offset in an object, not ptrdiff_t. It doesn't "happen" to work, it's defined to. offsetof uses it too – Steve Jessop May 14 '11 at 22:19
@AndreyT: It's attached to both by the standard library, which is part of the language. @Steve: While you're correct that the standard does not require any otherwise-valid pointer difference to fit in ptrdiff_t, there's no way for a conforming program to determine whether the difference between two pointers to elements of the same array will overflow and invoke UB, so any implementation where the result can overflow ptrdiff_t is broken to the point of being virtually unusable. This is a quality-of-implementation thing, but personally I would just assume pointer diffs can't overflow. – R.. May 15 '11 at 3:47

When the C Standard was written, it was common for machines to have a 16-bit "int" type, and be incapable of handling any single object larger than 65535 bytes, but nonetheless be capable of handling objects larger than 32767 bytes. Since arithmetic on an unsigned int would be large enough to handle the largest size of such objects, but arithmetic on signed int would not, size_t was defined to be unsigned so as to accommodate such objects without having to use "long" computations.

On machines where the maximum allowable object size is between INT_MAX and UINT_MAX, the difference between pointers to the start and end of such an object may be too large to fit in "int". While the Standard doesn't impose any requirements for how implementations should handle that, a common approach is to define integer and pointer wrap-around behavior such that if S and E are pointers to the start and end of a char[49152], then even though E-S would exceed INT_MAX, it will yield a value which, when added to S, will yield E.

Nowadays, there's seldom any real advantage to the fact that size_t is an unsigned type (since code which needs objects larger than 2GB would often need to use 64-bit pointers for other reasons) and it causes many kinds of comparisons involving object sizes to behave counter-intuitively, but the fact that sizeof expressions yield an unsigned type is sufficiently well entrenched that it's unlikely ever to change.

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size_t is a typedef of unsigned integer (such as int or long).

In some 64bit platforms, int can be 32bit, while size_t can be 64bit.

It is used as a more standard way for size.

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"size_t is a typedef of unsigned int." - not always true. – Blagovest Buyukliev May 14 '11 at 20:03
No, size_t is a typedef for some unsigned type. The type hiding behind size_t might even be non-standard, i.e. it might not be expressible as unsigned int, unsigned long etc. – AnT May 14 '11 at 20:05
You are both right, I edit my answer – Amir May 14 '11 at 20:12
It's still not right.. – R.. May 14 '11 at 20:23
In theory, size_t might be unsigned long long or even uintmax_t. – Jonathan Leffler May 16 '11 at 13:55

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