6
    #include <stdio.h>
    #include <string.h>
    int main() {

    char *s[] = {"cricket","tennis","football"};

    printf(" String are: \n\n");
    printf("  %s \n", *(s));
    printf("  %s \n", *(s+1));
    printf("  %s \n", *(s+2));
    printf("  \n\n");

    printf("  Starting locations of the string are: \n\n");

    printf("  %d\n",*(s));
    printf("  %d\n",*(s+1));
    printf("  %d\n",*(s+2));
    printf("  \n\n");

    return 0;
}

OUTPUT:

String are: 

cricket 
tennis 
football 


Starting locations of the string are: 

134514112
134514120
134514127

s is a array of character pointers. s has three elements and each of them are storing the starting address of the string literals.i.e. s[0] is a pointer pointing to the starting address of "cricket". etc..

My question is :

By observing these addresses we can see that second string is stored just after the null character of the first string. All three strings are stored in sequential form. Is this always true ?

4
  • 2
    @Shubham Question is not about compactness of array members but about storing of strings to which that pointers point.
    – Sergio
    Aug 17, 2016 at 12:53
  • 2
    Notice there are other string literals like " %d\n" and " %s \n". Aug 17, 2016 at 13:01
  • Why do you even care? Any access beyond an array is undefined behaviour. Aug 17, 2016 at 13:18
  • 1
    No guarantees at all. Plus the compiler can optimize how string literals are stored, if it detects that you use the same strings several times - this is usually called "string pooling".
    – Lundin
    Aug 17, 2016 at 14:23

4 Answers 4

9

This is a linker decision - to store string literals tightly or not. There is no guaranties. Or even this may be done by compiler - it may create continuous data section that holds all involved literals. But nevertheless actual layout of that section is still implementation-specific and you shouldn't assume anything about it.

7
  • 5
    @Debashish There is nothing more to explain. If you want to know the details on specific system, you need to read your linker manual.
    – user694733
    Aug 17, 2016 at 12:57
  • 2
    @Debashish: In short, it is not dictated by the language standard (neither C nor C++). Aug 17, 2016 at 12:57
  • 3
    @Debashish: In addition, you mind find it interesting to know that if there are two identical literal strings in your code, then the linker might choose to generate only a single copy in the executable image (again, not guaranteed by the standard). Aug 17, 2016 at 12:59
  • 3
    @barakmanos ...or if you have, e.g. "string" and "larger string", it might recognise the redundancy and map the former to the equivalent address within the latter. I'm pretty sure I've seen this happen. But it is equally as much of an implementation detail and not guaranteed by the language at all. Aug 17, 2016 at 13:01
  • 1
    There is no requirement for a linker in the C standard. And for actual implementations, it is not only the linker (iff there is one) involved. Aug 17, 2016 at 13:19
4

I have an example for you:

#include <stdio.h>
#include <inttypes.h>

char    *s[] = { "ball", "football" };

int main( void ) 
{
    int i;

    for( i=0; i<2; i++ ) {
        printf( "%" PRIuPTR "\n", (uintptr_t)s[i] );
        // or printf( "%p\n", s[i] ); forr hex output
    }
}

If I compile and run that program with gcc -O3 I get:

4195869
4195865

What happens here is that the optimizer merges both string literal to a single "football" so that s[0] becomes s[1] + 4.

That's only one example of what compiler / linker might decide on how to store string literals ...

18
  • Interesting, but the question was "is this always true?" not 'can you show me another example of this or something else happening'. This seems like a comment, not an answer. Aug 17, 2016 at 13:05
  • 5
    @underscore_t: I think an example of the assumption being false is an answer -- it can't always be true. By the way, Id agree that this might be merely kind of a comment, but I thought the example might be helpful and you can't put that in a comment readably Aug 17, 2016 at 13:09
  • 1
    Your code invokes undefined behaviour. And will fail definitively on IL32P64 systems like Windows. And the array declaration is pretty dangerous, at least error-prone. It relies on a C legacy. Aug 17, 2016 at 13:21
  • 1
    @Olaf I agree just to use %p for clearest results and avoiding (more) odd conversions, but do you really mean that the standard PRI?PTR macros produce undefined behaviour when printing their corresponding ptr_t types? That sounds rather absurd. Why else would they exist? Surely they just map to the right specifier for the corresponding numeric type and print that. So if the conversion from real pointer to numeric value and back is well-defined, which it is, so must be printing said value. Sure, it's not required to be intuitive relative to memory layout/order, but I really doubt it's UB. Aug 17, 2016 at 14:28
  • 1
    Notes: uintptr_t is an optional type. Using "%p" does not necessarily print in hexadecimal - although that is common. It is "implementation-defined manner" Aug 17, 2016 at 14:41
-1

It will be totally compiler dependent. Compiler can take any address at the time execution started

3
  • What do you mean? Addresses of strings within the image are determined at compile time. Adjustment of address for relocation purposes is performed by the loader; the compiler has nothing to do with that. Aug 17, 2016 at 13:43
  • yes adjustment of addresses is done when linker when it wants some memory location. and after that loader load that address from hard disk. And that is a phase of compilation. that is why I told it is compiler dependent
    – Srestha1
    Aug 17, 2016 at 16:07
  • How does this relate to string literals and their positioning relative to one another? One would assume that the entire section wherein they are contained might have its address adjusted but that they would stick together relatively. Or do you have a specific answer to the question? Aug 17, 2016 at 16:17
-3

Only static arrays are contiguous in memory. ex: char s[1024].

5
  • Are not all arrays contiguous within themselves? Perhaps show your answer as it relates to two or more arrays. Aug 17, 2016 at 14:43
  • What does this mean? What happens to non-static arrays? I think you're thinking of something different, or perhaps drawing inferences from one platform that aren't Standardised for all. Aug 17, 2016 at 14:47
  • static keyword assume that your variable is global. it's mean that the max size of your array is not limited according to the stack size.
    – madago
    Aug 17, 2016 at 14:53
  • What relevance do allocation strategy or available memory have to whether any array is contiguous (A) within itself or (B) relative to other arrays? And does your "contiguous" here refer to A or B, anyway? A is always true. Other users have already noted that B is entirely implementation-defined. Aug 17, 2016 at 15:24
  • nope, static memory allocation is compiler dependant, and you cannot assume any storage arrangement. Aug 19, 2016 at 10:19

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