# Tower of Hanoi  - k peg solution

I was able to come up with an algorithm (logical) to solve a k-peg solution for the Tower of Hanoi problem, but when I implement my code, I was getting segmentation fault.

void move(int number_of_disks, int source, int dest, vector <int> free_peg, int pointer)
{
int p;

if (1 == number_of_disks)
{
moves++;
move_top_disk (source, dest);
}

if(free_peg.size() > 2)
p = number_of_disks/2;
else
p = number_of_disks - 1;

moves++;
//Move top "p" disks from peg 1 to peg i
move(p, source, free_peg.back(),free_peg, pointer);
//Move "n - p - 1" disks from peg 1 to another peg
move(number_of_disks - p - 1, source, free_peg[pointer--], free_peg, pointer++);
//Move the "last disk" from the source peg to the destination
move_top_disk(source, dest);
//Move "n - p - 1" disks from peg (i - 1) to the final peg
move(number_of_disks - p - 1, free_peg[pointer--], dest, free_peg, pointer++);
//Move "p" disks from peg i to the destination
move(p, free_peg.back(), dest, free_peg, pointer);
}

The idea is pretty simple, I keep a vector of free pegs (or towers) and I update that when I move my disks throughout. So for the case of 6 pegs and n disks, I have one source, one destination and 4 free pegs. The idea is to move (n - p) where p ~ n/2 from the source to free_peg[3] (the fourth free peg). Now I only have 3 free pegs in my vector, I use those 3 free pegs to move (n - p - 1) disks to free_peg[2] and then I move the last disk from the source to the destination. So now I have 2 free pegs and 1 source = 3 free pegs. Next, I need to move (n - p - 1) disks from peg[2] to the destination using 3 free pegs (including the source which is now free). Finally, move p disks from free_peg[3] to the destination using 4 free pegs. However, when I implement this in my code, I am getting a segmentation fault, can someone please help me with this?

-
move(number_of_disks - p - 1, source, free_peg[pointer--], free_peg, pointer++); is undefined behaviour, you're modifying pointer twice without intervening sequence point. So it's impossible to be sure what happens without analysing your compiler. But I guess you're trying to access free_peg out of bounds. –  Daniel Fischer Sep 22 '12 at 15:59
+1 @DanielFischer, parameter evaluation order prior to pass is undefined in the language. the only guarantee you have is that all of them will be evaluated prior to the actual call. –  WhozCraig Sep 22 '12 at 16:08
So I can't change the values of "pointer" in the function call? –  Josh Sep 22 '12 at 16:18
Not with using pointer more than once in the argument list. Use temporary variables or expressions that don't modify pointer. If you thought argument evaluation was left-to right, move(...,...,free_peg[pointer],...,pointer-1); would do what you intended. –  Daniel Fischer Sep 22 '12 at 16:26
I get the same segmentation fault, I have been trying to figure out what is wrong with my logic. Is there anything you can see wrong here? –  Josh Sep 22 '12 at 17:00

I was able to solve a k-peg general solution, thanks for the help. Here is how the algorithm goes:

void move(int number_of_disks, int source, int dest, vector <int> free_peg)
{
int p, middle, g;

if (1 == number_of_disks)
{
moves++;
move_top_disk (source, dest);
}

else
{
moves++;

if(free_peg.size() >= 2)
p = number_of_disks/2;
else
p = number_of_disks - 1;

//Move top "p" disks from peg 1 to peg i
middle = free_peg.back();
free_peg.pop_back();
free_peg.push_back(dest);
move(p, source, middle,free_peg);

//Move "n - p " disks from peg 1 to another peg
free_peg.pop_back();
move(number_of_disks - p, source, dest, free_peg);

//Move p from current peg to the final peg
free_peg.push_back(source);
move(p, middle, dest, free_peg);
}
}
-
Sorry I took a leave of absence there, Josh. I just started thinking about this again when you got back on, even coding it as well. Very nice solution, btw. A pretty-clean impl of Frame-Stewart. grats! –  WhozCraig Sep 22 '12 at 22:19