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I got this question during an interview with a big company:

let`s suppose we have this interface:

interface ILabyrinth
{

   // create a labyrinth of size 100*100 max.  Rabbit and carrot are positioned at random locations within the maze.
   void Init();

   // try to move the rabbit in one direction.  return true if the move was successful, returns false otherwise (there was a wall) 
   bool tryMove(Direction d);

   // return true if carrot and rabbit are at the same place.
   bool isSuccess();

}

How would you move the rabbit in order to find the carrot ? We just need to stop once we reached it.

My solution is to apply a classic DFS search except that we need to backtrack the mouse using the tryMove() function since we cannot do it ourself (because the data are contained and modified by the interface ILabzrinth only.

And I do that by keeping track of the movement of the rabbit in a new map of size 198*198 ( = (100-1)*2). In this map I save the direction we used to come in that position. so I can backtrack easily.

Do you have any idea how to improve that ?

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2 Answers 2

up vote 2 down vote accepted

There is not too much you can improve, in terms of heuristics, because you are given no clue where the carrot is until you are on top of the carrot. Therefore, in the absence of any heuristics, it is necessary to do a DFS.

In the map of the direction you came from, you can also use the storage as a flag of where you have been to avoid re-exploring places you have already been. You have not indicated if you check this, but if you haven't, then this is one possible area of improvement.

To minimise memory usage, the backtracking of the direction can be stored in a stack. This avoids storing extra data in a large map. Since you probably want to retain the map of flags, you will still want a boolean map. However, this only costs 1 bit per cell (instead of 1 byte for direction).

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They didn't state that the rabbit moves by the same amount each time tryMove() is called, but I think that assumption is necessary - otherwise, we can't know if we're moving in a circle (visiting the same nodes over and over) or moving inwards in a spiral. –  BlueRaja - Danny Pflughoeft Apr 29 '13 at 16:01
    
Let's say the rabbit move from one position to the adjacent one only. –  taktak004 Apr 30 '13 at 8:39

If this was an interview, I hope you mentionned that "mouse and cheese" becomes "rabbit and carrot", which can look like a detail but may be made purposely... (and isSuccess() will never return true if we only move the mouse and never the rabbit!)

Apart from that, I wouldn't habe used a DFS but have moved 1 case for each available branch before going deeper (BFS) because you don't know where the POIs are. Forbid visiting a node except if the new distance is lower than the previous one (but it sould not happend frequently!). Not going backwards (going left when I just moved right) is a plus but encompassed by the previous rule.

Hope it will work for you anyways... GL!

Edit: I found this : http://www.astrolog.org/labyrnth/algrithm.htm#solve. What I awkwardly proposed here corresponds to the non human-dorable sjortest path, where you recreate a maze locally using a n*n grid with distances (the second shortest-path described I guess...)

BTW what was the question here: to find the carrot? Find a shortest path to it? Retrace the path or not???

Re-edit: After disambiguation, parts of this answer does not suit the problem: The objective is not to fina a shortest path but the carrot, and the rabbit can only be in one square at the time.

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@ronalchn: I don't agree with " in the absence of any heuristics, it is necessary to do a DFS" and I siggest that the lack of information (and Dijkstra) lead to the use of a BFS. The difference with a Dijkstra here is just that we will never reduce the value of a node we already visited. –  Aname Apr 29 '13 at 11:30
    
I did not used a BFS because I think that would be slower because of the "manual" backtracking which would occurs more often, and thus take more time. Am I wrong ? (and I simply made a mistake myself with cheese, carrot, mouse, cheese ... fixed it) –  taktak004 Apr 29 '13 at 12:52
    
I don't understand what you mean with "manual" backtracking. When you find the carrot using your recursive function, the sequence of "return" statements creates a (reversed) route. The number of nodes observed depends on the relative distance between the rabbit and carrot, compared to the size of the map. Also, as soon as there are no weigths for each node, the first solution you find (using BSF) is the best one (or one with the lower cost). –  Aname Apr 29 '13 at 13:37
    
What I mean by "manual" bactracking: In a classic BFS (DFS), we put on a queue (stack) the node to visit, and then we pop it and analyze it. But here, we need to "manually" backtrack the rabbit using tryMove(direction) several times until we reach the node to visit (the popped one). And I think that applying A BFS will use the tryMove(direction) more often than a DFS (in average). Because we will backtrack every time we want to change the branch of the "exploring tree" which occurs more often in a BFS than in a DFS (but the backtrack should be shorter in average using the DFS than the BFS) –  taktak004 Apr 29 '13 at 14:03
    
Ahah I had exactly the opposite intuition: if the carrot is just next to the rabbit, the DFS can find it instantly, BUT it can make you ride the whole maze, and some cases more than once (unlucky strike). BFS would find it in maximum 4 explored nodes. Also, each square of the maze will be observed at most once using BSF. On the contraty, when the carrot is far, DFS may observe less nodes to find the carrot once, but it will explore other nodes to try and reduce the cost... –  Aname Apr 29 '13 at 14:26

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