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This is the program to convert a number into different representations like octal,decimal,hexadecimal etc.

    #include<stdio.h>

    char *convert(unsigned int num, int base)
    {
    static char buff[33];
    char *ptr;
    ptr=&buff[sizeof(buff)-1];
    *ptr='\0';
    do
    {
    *--ptr="0123456789abcdef"[num%base];
    num/=base;
    }while(num!=0);
    return(ptr);
    }

    int main(){

    puts(convert(65,8));
    puts(convert(65,10));
    puts(convert(65,16));
    return 0;
    }

Output gives 101 ,65 and 41 ( i.e the number '65' represented in octal,decimal and hexadecimal notations respectively)

I pretty much understand whats going on but i have never come across anything like

*--ptr="0123456789abcdef"[num%base]

I understand its working but i dont understand how it is a valid notation. Someone please explain the 0123456789abcdef(literal character array) part here.

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3 Answers 3

up vote 9 down vote accepted

It is a ghastly piece of work; whoever wrote it should be taken out round the back of the shed and beaten up until they promise never to write such code again outside of an entry for the IOCCC (International Obfuscated C Code Contest).

The right-hand side of the expression

*--ptr = "0123456789abcdef"[num%base];

is exploiting the fact that a string literal is converted to a pointer. If you saw:

const char digit[] = "0123456789ABCDEF";
*--ptr = digit[num%base];

you'd not be worried. The expression with the string literal is equivalent to that. (At least they had the grace not to write:

*--ptr = (num % base)["0123456789ABCDEF"];

That's also equivalent by virtue of the relation:

a[i] <==> i[a] <==> *(a + i) <==> *(i + a)

where the double-headed arrows indicate equivalence.

The use of *--ptr is extracting the digits backwards, from least to most significant. It works because the pointer is initialized to the end of the static buffer (and it is crucial that it is static since the return value of the function is a pointer to that buffer).

However, the code is not very useful because you can't save the value from a call and print it later if there's been another call. You could not write:

printf("%s = %s = %sn", convert(65,8), convert(65,10), convert(65,16));

Or, more accurately, you can, but you will see the same value three times one of "101", "164" or "140" in the first position, and either "01" or "64" or "40" for the other two positions, and it is not defined by the C standard which values you will see. The static buffer also prevents the code from being thread-safe.

All in all, it is weird show-off code for teasing beginners with. It works, but that's about all that can be said about it. It doesn't check its base for validity, either, so convert(65, 18) likely leads to undefined behaviour. (Base 17 would, at worst, reference a '\0' that was not intended, leading to confusion.)

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Thanks a lot for the detailed explanation. I should have been more clear. I am missing the concept of a string literal array here.Could you explain this? digit[num%base] makes sense to me when digit is just an array name.But digit inturn holding "0123456789abcdef" and hence the expression confuses me. A lot of other things you mentioned made sense to me though. –  Anusha Pachunuri Jan 17 '12 at 5:21
    
I don't see how writing the literal without a useless temp variable is at all obfuscated... It's not like they did the ugly index[array] trick even; it's just a plain use of the normal array[index] subscripting idiom. Other aspects, like the static buffer, of course are ghastly... –  R.. Jan 17 '12 at 5:27
    
I think i got it now. Thanks a lot again. –  Anusha Pachunuri Jan 17 '12 at 5:39

Wow, that is terse and hard to read. I understand your confusion, but I think I can help.

*--ptr = says "decrement this pointer and assign some value to the address after decrementing."

"0123456789abcdef" is a literal char array.

[num%base] is subscripting the previous char array, and the subscript is num modulo base.

This one line encompasses several things, which, if spread out fully, would look like this:

char arr[] = "0123456789abcdef";
int subscript = num % base;
ptr = ptr - 1;
*ptr = arr[subscript];
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Its sneaky short hand - think of it more like this

char array[]="0123456789abcdef";
*--ptr=array[num%base];
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