I believe that you can do this in O(1) by using continued fractions. Any rational number in the range (0, 1] can be written in the form

```
1 / (a0 + 1 / (a1 + 1 / (a2 + 1 / (... an))))
```

Moreover, this representation has some remarkable properties. For starters, if you truncate the representation at any point, you get an extremely good approximation to the rational number. In particular, if you just truncate this representation at

```
1 / a0
```

Then the fraction a/b will be between 1/a0 and 1/(a0+1). Consequently, if we can get the value of a0, then you can just check the above two numbers to see which is closer.

The second important property is that there is a great way of obtaining the value of a0: it's given by the quotient of b/a. In other words, you can find the closest fraction as follows:

- Compute x = b / a using integer division.
- Check whether 1/x or 1/(x+1) is closer to a/b and output that result.

If a and b fit into machine words, this runs in O(1) time.

programmingQ&A site. Please read our FAQ to see what questions are welcome here. This looks like it may be more suitable to math.stackexchange.com – Oded♦ Aug 21 '11 at 18:28