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Recently i was on an interview for C++ Develpoer position, and i was asked to write a program that solve a hanoi tower puzzle with 3 columns and 1000000 discs, the program must write an output of moves to disk("1->3","1->2",... and so on), i told them that this will be a very big file for solution, because minimum amount of moves for hanoi tower is 2 power n - 1 and for 1000000 this will be very big number that not fit to any hard drive, they say that classical algorithm is wrong and there is an algorithm wich solve this puzzle even for 1000000 discs with fever moves. I want to know is there exist such an algorithn or they just lie to me?

Thanks, Timur.

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They are probably looking for proof that optimal solution for Tower of Hanoi problem is 2^n - 1 when the number of pegs is 3. –  nhahtdh Apr 13 '13 at 8:42
they may just have tried to intimidate you, some human resource people are just... nasty. –  FatihK Apr 13 '13 at 8:51
Maybe if you have a fancy file system that allows referencing the same block several times from the same file... –  Marc Glisse Apr 13 '13 at 10:44

2 Answers 2

The output would indeed be too big (exponential in the size of the input as you said), but the algorithm is fairly simple to write in a recursive manner. Perhaps that's what they meant.

I could provide the algorithm if you want.

EDIT: Just for the sake of completness I'd provide the algorithm (its in Python, but implementation in C++ will be pretty much the same):

n = 3
# using 4 elements just so we're 1-based with three towers
towers = [ [], range(n, 0, -1), [], [] ]

def move (orig, dest, n):
    if n == 1:
        elem = towers[orig].pop()
        print 'moving %d from %d to %d' % (elem, orig, dest)
        through = dest ^ orig
        move(orig, through, n-1)
        move(orig, dest, 1)
        move(through, dest, n-1)

move(1, 3, n)
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The recursive solution is going to blow the stack in C++ (and C and Java), unless the program is rewritten with external stack. –  nhahtdh Apr 13 '13 at 8:51
Classical algorithm is recursive, my program is using only one array with containing appropriate number of column for each disc, for million disc this will be 1 million char bytes array. They say that it is possible to write the 1000000 disc puzzle answers to hard drive. I think that they wrong, because as i sad earlier this will be 2 power n -1 moves, so this is imposible only if there is less moves algorithm wich i think is not exist. –  Timur Kukharskiy Apr 13 '13 at 9:00
@nhahtdh recursive solution would not blow stack, deepness of recursion is linear on problem size. ideone.com/w7LTo0 –  Evgeny Panasyuk Apr 13 '13 at 9:04
And -- @EvgenyPanasyuk is right; the maximal depth of the recursion is indeed bound by n and therefore not an issue. –  rmn Apr 13 '13 at 9:12
@EvgenyPanasyuk: 8M is assuming there is no parameters. You program is currently running on only 100K (Linux gives bigger stack than Windows - on Windows, 100K already enough to blow the stack). It dies with 1 million. ideone.com/dU7soN –  nhahtdh Apr 13 '13 at 9:17

Here is the code that i promised for nhahtdh.

#include <iostream>
#include <conio.h>
#include <math.h>
#include <iomanip>

using namespace std;
char disc[2000000]={0};
int n;
bool validate(int num,int target){
    int t=num+1;
        if ((disc[num]==disc[t])||(disc[t]==target))return false;
    return true;
int main()
    __int64 k=0;
    cout<<"Enter number of discs:";cin>>n;
    cout<<"This would be a "<<setprecision(1000)<<pow(2,n)-1<<" combinations !"<<endl;
    cout<<"To START press a key!"<<endl;
    int num=0,cur=0,t=0,nn=0;
                k++;cout<<disc[nn]+1<<"->"<<t+1<<":"<<k<<" move"<<endl;
    return 0;

I hope you can understand but if not write me an e-mail to atlantic-sys@mail.ru i can explain more in details.

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