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I was recently solving Towers of Hanoi problem. I used a "Divide and Conquer" Strategy to solve this problem. I divided the main problem into three smaller sub problems and thus following recurrence was generated.


Solving this leads to

O(2^n) [exponential time]

Then i tried to use memoization technique to solve it, but here too the space complexity was exponential and heap space exhausted very soon and problem was still unsolvable for larger n.

Is there a way to solve the problem in less than exponential time? What is the best time in which the problem can be solved?

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what do you mean by the "Tower of Hanoi" problem? Do you mean determining the state after k moves, or determining how many moves it takes to get into state X? –  Mike T Sep 12 '12 at 7:24
@MikeT How many moves will be required to move n disks from a src peg to a destination peg using an auxiliary(extra) peg, provided u can only move a single disc at a time and no larger disc can be placed on a samller disc during the movement. –  Great Coder Sep 12 '12 at 7:30
(2^n)-1, constant time solution. Well, "constant" as far as 2^n is constant, which I think is actually O(log(n)) –  Mike T Sep 12 '12 at 10:45

3 Answers 3

up vote 4 down vote accepted

It depends what you mean by "solved". The Tower of Hanoi problem with 3 pegs and n disks takes 2**n - 1 moves to solve, so if you want to enumerate the moves, you obviously can't do better than O(2**n) since enumerating k things is O(k).

On the other hand, if you just want to know the number of moves required (without enumerating them), calculating 2**n - 1 is a much faster operation.

Also worth noting, the enumeration of the moves can be done iteratively with O(n) space complexity as follows (disk1 is the smallest disk):

while true:
    if n is even:
        move disk1 one peg left (first peg wraps around to last peg)
        move disk1 one peg right (last peg wraps around to first peg)

    if done:
        make the only legal move not involving disk1
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You can solve the recurrence and obtain a closed form.

T(n) = 2*T(n-1) + 1

T(n) = 2 * ( 2 * T(n-2) + 1) + 1

T(n) = (2 ^ 2) * T(n-2) + 2^1 + 2^0

T(n) = (2^k) * T(n-k) + 2^(k-1) + 2^(k-2) + ... + 2^0

Solving this the closed from comes out to be

T(n) = (2^n) - 1 with T(0) = 0

Now use exponentiation by squaring.

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I also know how this recurrence can be solved. My question was whether the puzzle can be solved in less than exponential time. –  Great Coder Sep 12 '12 at 7:44
No, without changing the parameters of the game it cannot be solved in less than exponential time. –  Turtle-in-a-bash-shell Mar 12 '14 at 23:38

Unfortunantly it's impossible to resolve this problem in less time, because number of moves needed to change position of all hanoi tower is exponential. So the best solution is lineal according to the number of steps O(T), so in number of tails solution is exponential O(2^n)

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