# How to make my Hexadecimal spit out 8 digits(including leading zeros)

``````const char digits[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";

void hexout (unsigned long number, FILE * stream)
{
long quotient;
long remainder;

quotient = number / 16;
remainder = number % 16;

if(quotient != 0)
hexout(quotient,stream);

fputc(digits[remainder],stream);
}
``````
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Using recursion but with a fixed length -- either one defeats the other's purpose. –  Jongware Oct 8 '13 at 9:01

Add digits to a string, and print out string with zero-padding using `fprintf`. Or just use `fprintf` to begin with.

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I'm only allowed to use fputc. –  user2857532 Oct 8 '13 at 7:35
@user2857532 Then create a string (much easier if you loop instead of recurse) and pad the output one character at a time with `fputc`. If you're not allowed to use `strlen` it's easy to make your own. –  Joachim Pileborg Oct 8 '13 at 7:37
Thanks for the suggestion. I ended up using a loop instead of recursion. –  user2857532 Oct 8 '13 at 9:56
``````void hexout (unsigned long number, FILE * stream)
{
fprintf(stream, "0x%08lX", number);
}
``````

If you cannot use fprintf (neither sprintf), you can use this kind of code (no recursion, but a 8-chars array on the stack):

``````const char digits[] = "0123456789ABCDEF";

void hexout(unsigned long number, FILE * stream)
{
unsigned long int input = number;
unsigned long int quotient;
unsigned long int remainder;
unsigned short ndigit = 0;
char result[8] = {0};

// Compute digits
do
{
quotient  = input / 16;
remainder = input % 16;
result[7-ndigit] = digits[remainder];
input = quotient;
ndigit++;
}
while (ndigit < 8);

// Display result

fputc('0', stream);
fputc('x', stream);
for (ndigit = 0; ndigit < 8; ndigit++)
{
fputc(result[ndigit], stream);
}
}
``````

Of course, this can be improved a lot...

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Your own `hexout` fails for obvious reasons. You cannot 'continue' to output a number of zeroes when the value reaches 0, because you don't know how much numbers you already emitted. Also, you don't know when to prepend "0x" -- it should be before you start to emit hex digits, but how can you know you are at the start?
You must add a counter to your recursive function; when it reaches 0, you know you have output `0x`, and if it's not 0 you need to output a hex digit, irrespective if your value is 0 or not. There are a couple of ways of adding a counter to a recursive function: a global variable (which would be the easiest and utterly ugliest way, so please don't stop reading here), a `static` variable -- only semantically better than a global --, or a pass-by-reference argument (of which some say is a myth, but then again the end result is the same).
¹ So is `printf("0x%08X")` an "illogical" solution? Yes. It solves the problem but without any further insights. The purpose of this assignment is not to find out the existence of `printf` and its parameters, it's to learn how (and why) to use recursion.