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I'm running ubuntu on x86_32...and I keep getting segmentation fault while running this program.

enter code here
#include<stdio.h>
#include<stddef.h>
char *memcp(char *dest, const char *src, size_t n)
{

    char *dp = dest;
    const char *sp = src;
    while(n--)
        *dp++ = *sp++;
    return dest;

}

int main()
{

    char *s = "abcde";
    char *d;
    char *r = memcp(d,s,6);
    printf("%s",r);

    return(0);
}

The problem with this code is that it is running on my friend's x86_64 machine on windows as well as ubuntu. Please help me out ..

share|improve this question
1  
@user583878: You are writing to a not initailized pointer, man. *dp++; is you a writing to random memory location some data. Sometimes it is cause SF, sometimes are not, it dependt whether it is passed the currently allocated segment for the program or not! – Artur Mustafin – Artur Mustafin Jan 21 '11 at 2:50
    
@user583878: All NOT INITIALIZED POINTERS still intialized (stack allocated, if not optimized completely - whiped out if not used), so if I later corrups somehow the stack state, (by calling dll exported function, i.e.), i can later on use this pointer in some useful and meaningful way ;), by the way, look onto your code! you are doing the same, so i'm still right about incorrect USAGE of not initialized pointers ))) – Artur Mustafin Jan 21 '11 at 3:57
4  
@Artur: That is horrible advice, you should never ever rely on undefined behaviour even if it appears to be working. If you do this, you are drastically reducing the portability and reliability of your code. The compiler does not have to guarantee anything at all when it comes to undefined behaviour. – dreamlax Jan 21 '11 at 9:33
    
@dreamalax: I have not given an ADVICE here, you know. Plese tell me, why do you think I'm advertising such a dubious things? I just said that I can use it (not author of the post) in a menigful name, for example in coulpls with __asm, __emb, __declaspec(noalias), __declsec(naked) (using VC++), so, I just disagree with you in point that of your classification, but as I sad, it is a bad practice to use unintialised pointers, whilst you actually can. I didn't, so you should be cereful when using such acclaims, man. That's not smart, actually – Artur Mustafin Jan 21 '11 at 11:13
    
Really, anyone can use uninitalised pointers,... but only in the way interpret it not only as ponter itsels, but a memory location If you are not initialized pointer, but allocates some stack for that pointer, why shouldn't you use this space despite the fact that it was declared in C/C++ as a pointer, but you are smarter than someone else and use it as a memory location (not as reference to anlother memeory location)? – Artur Mustafin Jan 21 '11 at 11:20

There's at least two ways to do this:

malloc method:

int main(void)
{
    char *s = "abcde";
    char *d = malloc(6);
    char *r = memcp(d, s, 6);
    printf("%s",r);

    free(d);
    return(0);
}

Array method:

int main(void)
{
    char *s = "abcde";
    char d[6];
    memcp(d, s, 6);

    return 0;
}

Note that it is generally not a good idea to hard code buffer lengths into your code (for example, you are hardcoding 6). If the size of your input changes and you forget to update the number 6, problems will occur.

The reason why you are getting a segmentation fault is because the pointer d does not point to anywhere. In your memcp function, you are trying to write this pointer but because it does not point anywhere meaningful your program crashes. In the C standard, this is called undefined behaviour, and basically it means anything can happen.

Also, it may interest you that there are already two functions available in the Standard C Library, memmove and memcpy. memmove is useful if the source and destination areas overlap. If you know they won't ever overlap, memcpy may be faster.

Lastly I would like to point out that you should not take the advice from Artur regarding uninitialised pointer usage. You should never rely on the value of an uninitialised pointer and doing so means your program's behaviour is not well-defined. Annex J of the C language specification mentions the following that is undefined behaviour:

J.2 Undefined Behaviour

  1. The behavior is undefined in the following circumstances:
    • The value of an object with automatic storage duration is used while it is indeterminate.
share|improve this answer
1  
@Artur: I explained it now. – dreamlax Jan 21 '11 at 2:59
1  
yes this code is working fine and you have explained the behaviour correctly...many many thanks. – user583878 Jan 21 '11 at 3:20
1  
@Artur, it does not point to anywhere, because d is not initialized, which means it points to garbage/random. garbage is not acceptable. – Muggen Jan 21 '11 at 3:31
2  
@Artur Mustafin: "it does not point to anywhere" in this context should be read as "it is not defined to point to anywhere in particular". – caf Jan 21 '11 at 3:38
2  
@Artur: You are thinking on an implementation level. The C language specification does not mention data segments and CPU-level exceptions, it defines behaviour. Also, you are misinterpreting what I am saying; on an implementation-level d points to nowhere reliably practicable or useful. As far as the C language specification is concerned, it is simply undefined behaviour. – dreamlax Jan 21 '11 at 3:39

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