What type for array index in C99 should be used? It have to work on LP32, ILP32, ILP64, LP64, LLP64 and more. It doesn't have to be a C89 type.

I have found 5 candidates:

  • size_t
  • ptrdiff_t
  • intptr_t / uintptr_t
  • int_fast*_t / uint_fast*_t
  • int_least*_t / uint_least*_t

There is simple code to better illustrate problem. What is the best type for i and j in these two particular loops. If there is a good reason, two different types are fine too.

for (i=0; i<imax; i++) {
/* jmin can be less than 0 */
for (j=jmin; j<jmax; j++) {

P.S. In the first version of question I had forgotten about negative indexes.

P.P.S. I am not going to write a C99 compiler. However any answer from a compiler programmer would be very valuable for me.

Similar question:

  • IMO there is no one correct type. You pick what works "best" for you. If performance matters, you may have to use int instead of some type someone else said is "correct". But if you have to address an array larger than int can index. you will have to use something like size_t, long long, or ptrdiff_t. I'd say if you care enough that it matters, you'll benchmark the different options for your code and pick the fastest. Which can be significantly different on different platforms. – Andrew Henle Aug 6 '19 at 1:10
  • There is also ssize_t, which is what I'd use, in case I wasn't indexing the buffer from 0. But that's more of an edge case. – Sahsahae Aug 6 '19 at 7:37
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    @Sahsahae Pedantically, ssize_t isn't a very good choice. Per POSIX: "The type ssize_t shall be capable of storing values at least in the range [-1, {SSIZE_MAX}]." – Andrew Henle Aug 6 '19 at 15:59

I almost always use size_t for array indices/loop counters. Sure there are some special instances where you may want signed offsets, but in general using a signed type has a lot of problems:

The biggest risk is that if you're passed a huge size/offset by a caller treating things as unsigned (or if you read it from a wrongly-trusted file), you may interpret it as a negative number and fail to catch that it's out of bounds. For instance if (offset<size) array[offset]=foo; else error(); will write somewhere it shouldn't.

Another problem is the possibility of undefined behavior with signed integer overflow. Whether you use unsigned or signed arithmetic, there are overflow issues to be aware of and check for, but personally I find the unsigned behavior a lot easier to deal with.

Yet another reason to use unsigned arithmetic (in general) - sometimes I'm using indices as offsets into a bit array and I want to use %8 and /8 or %32 and /32. With signed types, these will be actual division operations. With unsigned, the expected bitwise-and/bitshift operations can be generated.

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I think you should use ptrdiff_t for the following reasons

  • Indices can be negative. Therefore for a general statement, all unsigned types, including size_t, are unsuitable.
  • The type of p2 - p1 is ptrdiff_t. If i == p2 - p1, then you should be able to get p2 back by p2 == p1 + i. Notice that *(p + i) is equivalent to p[i].
  • As another indication for this "general index type", the type of the index that's used by overload resolution when the builtin operator[] (for example, on a pointer) competes against a user-provided operator[] (for example vector's) is exactly that (http://eel.is/c++draft/over.built#16): >

    For every cv-qualified or cv-unqualified object type T there exist candidate operator functions of the form

    T*      operator+(T*, std::ptrdiff_t);
    T&      operator[](T*, std::ptrdiff_t);
    T*      operator-(T*, std::ptrdiff_t);
    T*      operator+(std::ptrdiff_t, T*);
    T&      operator[](std::ptrdiff_t, T*);

EDIT: If you have a really big array or a pointer to a really big memory portion, then my "general index type" doesn't cut it, as it then isn't guaranteed that you can subtract the first element's address from the last element's address. @Ciro's answer should be used then https://stackoverflow.com/a/31090426/34509 . Personally I try to avoid using unsigned types for their non-ability to represent negative edge cases (loop end-values when iterating backwards for example), but this is a kind of religious debate (I'm not alone in that camp, though). In cases where using an unsigned type is required, I must put my religion aside, of course.

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  • 1
    What do you mean with "indices can be negative"? Not when actually indexing, surely? – unwind Jul 6 '10 at 12:08
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    @unwind, sure why not? int a[10]; int *pa = a+1; pa[-1] = 0;. Array indexing is nothing but pointer arithmetic, and C doesn't care about the value you give. Using an unsigned index type will fail for many completely legal index operations. – Johannes Schaub - litb Jul 6 '10 at 12:17
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    It's also useful for having a sentinel value below zero. But really, the usecase is irrelevant if the questioner aims for a type that will work for any and all scenarios. What's important is really that unsigned types are the wrong choice. – Johannes Schaub - litb Jul 6 '10 at 12:25
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    It seems that PTRDIFF_MAX may be smaller that SIZE_MAX , so this may fail for a large array: stackoverflow.com/a/31090426/895245 p1 + i is not a pointer difference: it is pointer + int. – Ciro Santilli 冠状病毒审查六四事件法轮功 Jun 27 '15 at 15:38
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    @Ciro BTW just discovered your linux-kernel-module-cheat . I'll read more on that this weekend! Thanks for your effort. I also like your rising of awareness about China. I'm currently learning about chinese politics and planning to have a visit to China later this year to get my own opinion (much propaganda here in the West unfortunately, but I believe many things being said about Falun Gong+China is true, unfortunately!). – Johannes Schaub - litb Aug 7 '19 at 8:02

Since the type of sizeof(array) (and malloc's argument) is size_t, and the array can't hold more elements than its size, it follows that size_t can be used for the array's index.

EDIT This analysis is for 0-based arrays, which is the common case. ptrdiff_t will work in any case, but it's a little strange for an index variable to have a pointer-difference type.

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  • 3
    This is not quite correct. sizeof(array) evaluates to the size of the array in bytes, not the number of elements. ISO/IEC 9899:TC3 § – Chris Pacejo Oct 7 '11 at 20:55
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    @Chris: I didn't say sizeof(array) is the number of elements. – Amnon Oct 14 '11 at 15:42
  • I would also complement with the fact that sizeof is size_t, which also limits the size of declared arrays to size_t. – Ciro Santilli 冠状病毒审查六四事件法轮功 Jun 27 '15 at 14:13
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    size_t is for dealing with byte counts, ptrdiff_t is for dealing with element counts (and thus array indices) – osvein Feb 17 '18 at 20:49


If you start at 0, use size_t because that type must be able to index any array:

  • sizeof returns it, so it is not valid for an array to have more than size_t elements
  • malloc takes it as argument, as mentioned by Amnon

If you start below zero, then shift to start at zero, and use size_t, which is guaranteed to work because of the reasons above. So replace:

for (j = jmin; j < jmax; j++) {


int *b = &a[jmin];
for (size_t i = 0; i < (jmax - jmin); i++) {

Why not to use:

  • ptrdiff_t: the maximum value this represents may be smaller than the maximum value of size_t.

    This is mentioned at cppref, and the possibility of undefined behavior if the array is too large is suggested at C99 6.5.5/9:

    When two pointers are subtracted, both shall point to elements of the same array object, or one past the last element of the array object; the result is the difference of the subscripts of the two array elements. The size of the result is implementation-defined, and its type (a signed integer type) is ptrdiff_t defined in the header. If the result is not representable in an object of that type, the behavior is undefined.

    Out of curiosity, intptr_t might also be larger than size_t on a segmented memory architecture: https://stackoverflow.com/a/1464194/895245

    GCC also imposes further limits on the maximum size of static array objects: What is the maximum size of an array in C?

  • uintptr_t: I'm not sure. So I'd just use size_t because I'm more sure :-)

See also:

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  • Sometimes, you might want to offset the array and keep sentinel values in the start of it (sadly I don't have real use case for this, frankly, I'd never do it myself), so "0" might be offset from array, not a real beginning, in that case you might also use ssize_t, why? Because that's signed version of size_t, and I'm also not so sure about other types. – Sahsahae Aug 6 '19 at 7:47

My choice: ptrdiff_t

Many have voted for ptrdiff_t, but some have said that it is strange to index using a pointer difference type. To me, it makes perfect sense: the array index is the difference from the origin pointer.

Some have also said that size_t is right because that is designed to hold the size. However, as some have commented: this is the size in bytes, and so can generally hold values several times greater than the maximum possible array index.

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I use unsigned int. (though I prefer the shorthand unsigned)

In C99, unsigned int is guaranteed to be able to index any portable array. Only arrays of 65'535 bytes or smaller are guaranteed to be supported, and the maximum unsigned int value is at least 65'535.

From the public WG14 N1256 draft of the C99 standard: Translation limits

The implementation shall be able to translate and execute at least one program that contains at least one instance of every one of the following limits: (Implementations should avoid imposing fixed translation limits whenever possible.)


  • 65535 bytes in an object (in a hosted environment only)

(...) Numerical limits

An implementation is required to document all the limits specified in this subclause, which are specified in the headers <limits.h> and <float.h>. Additional limits are specified in <stdint.h>. Sizes of integer types <limits.h>

The values given below shall be replaced by constant expressions suitable for use in #if preprocessing directives. Moreover, except for CHAR_BIT and MB_LEN_MAX, the following shall be replaced by expressions that have the same type as would an expression that is an object of the corresponding type converted according to the integer promotions. Their implementation-defined values shall be equal or greater in magnitude (absolute v alue) to those shown, with the same sign.


  • maximum value for an object of type unsigned int UINT_MAX 65535 // 2^16 - 1

In C89, the maximum portable array size is actually only 32'767 bytes, so even a signed int will do, which has a maximum value of at least 32'767 (Appendix A.4).

From §2.2.4 of a C89 draft: Translation limits

The implementation shall be able to translate and execute at least one program that contains at least one instance of every one of the following limits: (Implementations should avoid imposing fixed translation limits whenever possible.)


  • 32767 bytes in an object (in a hosted environment only)

(...) Numerical limits

A conforming implementation shall document all the limits specified in this section, which shall be specified in the headers <limits.h> and <float.h>.

"Sizes of integral types <limits.h>"

The values given below shall be replaced by constant expressions suitable for use in #if preprocessing directives. Their implementation-defined values shall be equal or greater in magnitude (absolute value) to those shown, with the same sign.


  • maximum value for an object of type int INT_MAX +32767
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  • "In C99, unsigned int is guaranteed to be able to index any portable array." --> Array index range is [0...SIZE_MAX-1]. UINT_MAX may be far less than SIZE_MAX, so the guarantee is not so. – chux - Reinstate Monica Aug 6 '19 at 0:44
  • @chux read my answer again. The maximum portable array size is 65535 bytes, so the array index range is [0...65535] – osvein Aug 6 '19 at 6:30
  • Although maximum portable object size is 65535 bytes, an array may be larger (though not portable) and unsigned insufficient to index all of it. size_t is portable to index all arrays. Even if portability of a large array is lost, portability of indexing is preserved. – chux - Reinstate Monica Aug 6 '19 at 12:40

If you know the maximum length of your array in advance you can use

  • int_fast*_t / uint_fast*_t
  • int_least*_t / uint_least*_t

In all other cases i would recommend using

  • size_t


  • ptrdiff_t

depending on weather you want to allow negative indexes.


  • intptr_t / uintptr_t

would be also safe, but have a bit different semantics.

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  • @codymaxin Could You write something more about these bit different semantics? – Michas Jul 6 '10 at 16:18
  • intptr_t is an integer which has at least the size of a pointer so you can safely cast a pointer into intptr_t. Think of it as a numerical representation of a pointer. – codymanix Jul 7 '10 at 10:43
  • int_least*_t should never be used for a single variable. It may be a slow-to-access type, and is intended only to be used in arrays where you need to save space but guarantee a certain minimum number of bits. On any sane platform, you could just request the exact size you need (8, 16, 32, or 64) but C99 allows implementations that have no type of a certain size, and thus int_least*_t exists to request the "next largest type". – R.. GitHub STOP HELPING ICE Jul 7 '10 at 19:49
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    @R: "int_least*_t should never be used for a single variable"--not true for small embedded systems. I've worked on processors with 512 bytes of memory. – Craig McQueen Aug 11 '11 at 6:38

In your situation, I would use ptrdiff_t. It's not just that indicies can be negative. You might want to count down to zero, in which case signed types yield a nasty, subtle bug:

for(size_t i=5; i>=0; i--) {
  printf("danger, this loops forever\n);

That won't happen if you use ptrdiff_t or any other suitable signed type. On POSIX systems, you can use ssize_t.

Personally, I often just use int, even though it is arguably not the Correct Thing To Do.

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  • while (i-- > 0) is the idiomatic down-to-zero loop – osvein Aug 6 '19 at 6:48
  • ssize_t is only guaranteed to hold values from [-1..2^15-1]. – S.S. Anne Aug 6 '19 at 15:54

I usually use size_t for array offsets, but if you want negative array indexing, use int. It is able to address the maximum sized-array guaranteed by C89 (32767 bytes).

If you want to access arrays of the maximum size guaranteed by C99 (65535 bytes), use unsigned.

See previous revisions for accessing arrays allowed, but not guaranteed, by C.

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