The best approach to this type of questions.

First you need to have the **basic understanding of the theory of games**. Really basic. That is you are conscious of the fact, that for a given number N there is either a winning strategy for player who starts or a winning strategy for his oponent. So you must assume that they both know the strategy and play the best moves they can.

Then you start to **become familiar with the game**. You practice on a low level. You quickly notice that for 2-9 the starter is winning, while for 10-18 he must lose. So your function is ready for a case of `N<=18`

.

Then you start **thinking of a general winning strategy**. Knowing the strategy would give you the algorithm. After 5 minutes (the sooner the better) you understand that you won't fit in time to find the winning strategy, as it is not obvious in that case. So you decide to give the computer some basic principles and let it solve the puzzle for you. You know you'll use the recursion.

You try to find the rule for recursion. You may want to start from the end or from the beginning. I'll describe the approach from the end.

The goal of the game is to **push your opponent to the zone, where he must give you the victory**. And not get pushed to that zone yourself. From N/9 to N there is a zone for winning. If one is pushed to play from between N/9/2 and N/9, he must lose. (Because both his moves push his opponent to the winning zone.) So you write your function:

```
wins(n) {
// returns 1, if starting player is able to reach
// the range [n, 2*n) with his move
if (n<=18) {
if (n<=9)
return 1;
else
return 0;
} else {
// I must push him to the zone between N/9/2 and N/9
return wins(n/18);
}
```

If you reached that point, you passed. There are details left, like whether to use float or int, whether to round up or down using int. But in general you showed the right way of thinking and you're ready to face the interviewer :)

**EDIT**: *Actually there is a mistake in the code above. "Winning" is not the same as "being able to reach the range (n,2n)". Maybe 2 functions are necessary here: *`wins(n)`

and `reaches_slightly_above(n)`

. The latter would be called in a recursive way, and the values returned below 18 should be different, resemble the ones in the solution of Peter de Rivaz. However the solution below and the general approach should be ok.

The **alternative approach, going from bottom to up**, would be to use the function:

```
wins(a,n) {
if (9*a >= n)
// I win easily
return 1;
else
// if one of my moves pushes the opponent to the zone
// where he's not able to win, then I win!
return !wins(2*a, n) || !wins(9*a, n);
}
```

If they ask for `n`

, you return the value of `win(1,n)`

. The complexity of this algorithm is not obvious, but I believe it's logarithmic.

exceedsN? Otherwise, a great deal of Ns can never be reached. ex. there's no way to get to 3, starting from 1, and only multiplying by 2 or 9. – Kevin Nov 13 '12 at 17:40