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Hi I'm sure this must be a common question but I can't find the answer when I search for it. My question basically concerns two pointers. I want to compare their addresses and determine if one is bigger than the other. I would expect all addresses to be unsigned during comparison. Is this true, and does it vary between C89, C99 and C++? When I compile with gcc the comparison is unsigned.

If I have two pointers that I'm comparing like this:

char *a = (char *) 0x80000000; //-2147483648 or 2147483648 ?  
char *b = (char *) 0x1; 

Then a is greater. Is this guaranteed by a standard?

Edit to update on what I am trying to do. I have a situation where I would like to determine that if there's an arithmetic error it will not cause a pointer to go out of bounds. Right now I have the start address of the array and the end address. And if there's an error and the pointer calculation is wrong, and outside of the valid addresses of memory for the array, I would like to make sure no access violation occurs. I believe I can prevent this by comparing the suspect pointer, which has been returned by another function, and determining if it is within the acceptable range of the array. The question of negative and positive addresses has to do with whether I can make the comparisons, as discussed above in my original question.

I appreciate the answers so far. Based on my edit would you say that what I'm doing is undefined behavior in gcc and msvc? This is a program that will run on Microsoft Windows only.

Here's an over simplified example:

char letters[26];  
char *do_not_read = &letters[26];  
char *suspect = somefunction_i_dont_control(letters,26);  
if( (suspect >= letters) && (suspect < do_not_read) )  
    printf("%c", suspect);  

Another edit, after reading AndreyT's answer it appears to be correct. Therefore I will do something like this:

char letters[26];  
uintptr_t begin = letters;  
uintptr_t toofar = begin + sizeof(letters);  
char *suspect = somefunction_i_dont_control(letters,26);  
if( ((uintptr_t)suspect >= begin) && ((uintptr_t)suspect < toofar ) )
    printf("%c", suspect);  

Thanks everyone!

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3 Answers

up vote 8 down vote accepted

Pointer comparisons cannot be signed or unsigned. Pointers are not integers.

C language (as well as C++) defines pointer comparisons only for pointers that point into the same aggregate (struct or array). The ordering is natural: the pointer that points to an element with smaller index in an array is smaller. The pointer that points to a struct member declared earlier is smaller. That's it.

You can't legally compare arbitrary pointers in C/C++. The result of such comparison is not defined. If you are interested in comparing the numerical values of the addresses stored in the pointers, it is your responsibility to manually convert the pointers to integer values first. In that case, you will have to decide whether to use a signed or unsigned integer type (intptr_t or uintptr_t). Depending on which type you choose, the comparison will be "signed" or "unsigned".

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Same object, as @James said, which is somewhat more general than same array. –  Ben Voigt Jul 15 '11 at 2:50
What about casting the pointers to void: (void *) ptr. Then performing a comparison, I thought that was perfectly acceptable? –  Peter Jul 15 '11 at 2:53
As far as I know, comparing void * pointers is completely invalid for the same reason arithmetic on them is invalid. –  R.. Jul 15 '11 at 3:02
@Peter: void *? void * pointers are not comparable. Some compilers allow it by treating void * as char * in comparison (and pointer arithmetic) contexts, but it is entirely non-standard. –  AndreyT Jul 15 '11 at 3:10
@R.: The reason that addition and subtraction on void pointers is invalid is because of a constraint in those operators that the pointer must be to an object type. That constraint does not apply for the relational operators; given type x[2];, the expression (void *)x < (void *)(x+1) is true. –  caf Jul 15 '11 at 4:34
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The integer-to-pointer conversion is wholly implementation defined, so it depends on the implementation you are using.

That said, you are only allowed to relationally compare pointers that point to parts of the same object (basically, to subobjects of the same struct or elements of the same array). You aren't allowed to compare two pointers to arbitrary, wholly unrelated objects.

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Links or it didn't happen –  Matt Joiner Jul 15 '11 at 2:46
@Matt: C99 states that the integer-to-pointer conversion is implementation-defined. C99 6.5.8/5 states the restrictions on which pointers can be relationally compared. –  James McNellis Jul 15 '11 at 2:49
The reality is, on gcc, char *a = "ABC"; int i = 10; if (a < (char *) &i) printf("Greater\n"); else printf("Smaller\n"); doesn't even give out a warning. –  shinkou Jul 15 '11 at 2:55
@James. btw I think the comparison part is not what concerns the OP. –  shinkou Jul 15 '11 at 3:00
A draft of the standard is here: open-std.org/jtc1/sc22/wg14/www/docs/n1124.pdf, and agrees with James' answer. –  andrewdski Jul 15 '11 at 3:00
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From an old draft C++ Standard 5.9 (if C specified behaviour for your use-case, C++ would have to too)

If two pointers p and q of the same type point to different objects that are not members of the same object or elements of the same array or to different functions, or if only one of them is null, the results of pq, p<=q, and p>=q are unspecified.

So, if you cast numbers to pointers and compare them, C++ gives you unspecified results. If you take the address of elements you can validly compare, the results of comparison operations are specified independently of the signed-ness of the pointer types.

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