Let's think about half of task for a moment - converting from a string-ized base n to unsigned long, where n is a power of 2 (base 2 for binary and base 16 for hex).

If your input is sane, then this work is nothing more than a compare, a subract, a shift and an or per digit. If your input is not sane, well, that's where it gets ugly, doesn't it? Doing the conversion superfast is not hard. Doing it well under all circumstances is the challenge.

So let's assume that your input is sane, then the heart of your conversion is this:

```
unsigned long PowerOfTwoFromString(char *input, int shift)
{
unsigned long val = 0;
char upperLimit = 'a' + (1 << shift)
while (*input) {
char c = tolower(*input++);
unsigned long digit = (c > 'a' && c < upperLimit) ? c - 'a' + 10 : c - '0';
val = (val << shift) | digit;
}
return val;
}
#define UlongFromBinaryString(str) PowerOfTwoFromString(str, 1)
#define UlongFromHexString(str) PowerOfTwoFromString(str, 4)
```

See how easy that is? And it will fail on non-sane inputs. Most of your work is going to go into making your input sane, not performance.

Now, this code takes advantage of power of two shifting. It's easy to extend to base 4, base 8, base 32, etc. It won't work on non-power of two bases. For those, your math has to change. You get

```
val = (val * base) + digit
```

which is conceptually the same for this set of operations. The multiplication by the base is going to be equivalent to the shift. So I'd be as likely to use a fully general routine instead. And sanitize the code while sanitizing the inputs. And at that point, strtoul is probably your best bet. Here's a link to a version of strtoul. Nearly all the work is handling edge conditions - that should clue you in on where you energies should be focused: correct, resilient code. The savings for using bit shifts is going to be minimal compared to the savings of say, not crashing on bad input.