The line:

```
for (x=1; x < (1 << n); x++)
```

initializes x to 1 and repeats/iterates until x < (1 left shifted by n). The left shift basically moves the binary representation of 1 left n binary spaces. so, 0001 would be 0010 after left shifting 1 - this is similar to multiplying by 2^n. x is then increased by 1 (x++). Eventually the increase of x should eventually cause the loop to terminate due to the x < (1 << n) condition.

```
(x&x-1)%3
```

Says "The remainder of value x (binary and) value x-1 divided by 3. So, if x is 4, and we're using a 4 bit number (stupid, I know - but it shows the point):

```
0100 &
0011
_______
0000 (binary and means both spots being added are 1, none are here).
= 0
0/3 = 0 R 0 - no remainder here, so print 0.
```

The next statement:

```
(x|x-1)+1)%3
```

Says x (binary or) x-1, with 1 added to that value. The whole sum there is modded by 3 which is again diving it by 3 and taking the remainder, so if x is 4 again and we're using 4 bit integers:

```
0100 |
0011
_______
0111 (Binary or means either binary number has a 1 in that slot).
= 4 + 2 + 1 = 7 --> 7 mod 3 = 7 / 3 --> 2 R 1, print remainder of 1 here.
```

printf allows formatted print out of a variable length list of arguments which can be expressions, so here it will print:

```
move from tower 0 to tower 1 <new line>
```

Replacing the %i's with our answers.