It's true that do
/while
loops are pretty rare. I think this is because a great many loops are of the form
while(something needs doing)
do it;
In general, this is an excellent pattern, and it has the usually-desirable property that if nothing needs doing, the loop runs zero times.
But once in a while, there's some fine reason why you definitely want to make at least one trip through the loop, no matter what. My favorite example is: converting an integer to its decimal representation as a string, that is, implementing printf("%d")
, or the semistandard itoa()
function.
To illustrate, here is a reasonably straightforward implementation of itoa()
. It's not quite the "traditional" formulation; I'll explain it in more detail below if anyone's curious. But the key point is that it embodies the canonical algorithm, repeatedly dividing by 10 to pick off digits from the right, and it's written using an ordinary while
loop... and this means it has a bug.
#include <stddef.h>
char *itoa(unsigned int n, char buf[], int bufsize)
{
if(bufsize < 2) return NULL;
char *p = &buf[bufsize];
*--p = '\0';
while(n > 0) {
if(p == buf) return NULL;
*--p = n % 10 + '0';
n /= 10;
}
return p;
}
If you didn't spot it, the bug is that this code returns nothing — an empty string — if you ask it to convert the integer 0
. So this is an example of a case where, when there's "nothing" to do, we don't want the code to do nothing — we always want it to produce at least one digit. So we always want it to make at least one trip through the loop. So a do
/while
loop is just the ticket:
do {
if(p == buf) return NULL;
*--p = n % 10 + '0';
n /= 10;
} while(n > 0);
So now we have a loop that usually stops when n
reaches 0, but if n
is initially 0 — if you pass in a 0 — it returns the string "0"
, as desired.
As promised, here's a bit more information about the itoa
function in this example. You pass it arguments which are: an int
to convert (actually, an unsigned int
, so that we don't have to worry about negative numbers); a buffer to render into; and the size of that buffer. It returns a char *
pointing into your buffer, pointing at the beginning of the rendered string. (Or it returns NULL
if it discovers that the buffer you gave it wasn't big enough.) The "nontraditional" aspect of this implementation is that it fills in the array from right to left, meaning that it doesn't have to reverse the string at the end — and also meaning that the pointer it returns to you is usually not to the beginning of the buffer. So you have to use the pointer it returns to you as the string to use; you can't call it and then assume that the buffer you handed it is the string you can use.
Finally, for completeness, here is a little test program to test this version of itoa
with.
#include <stdio.h>
#include <stdlib.h>
int main(int argc, char *argv[])
{
int n;
if(argc > 1)
n = atoi(argv[1]);
else {
printf("enter a number: "); fflush(stdout);
if(scanf("%d", &n) != 1) return EXIT_FAILURE;
}
if(n < 0) {
fprintf(stderr, "sorry, can't do negative numbers yet\n");
return EXIT_FAILURE;
}
char buf[20];
printf("converted: %s\n", itoa(n, buf, sizeof(buf)));
return EXIT_SUCCESS;
}