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Pls help to solve this que.. does any one have DP solution for following que which uses either recursion..

Write a program to find all the possible paths from a starting point to dest point in a maze(2-D array).


1 0 1 0

1 1 1 1

0 1 0 1

0 0 1 1

If there is a block it’s represented by 0.

If there is a path it’s represented by 1.

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1 Answer 1

Interesting problem. I've had a stab at it in C# and have something working. There's quiet a bit of code though, so rather than post here I've stuck it up on my blog: http://developer42.wordpress.com/2012/10/12/path-finder-in-c/

Hope that helps.

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ps. I haven't put in anything to check for loops / that's not possible with the way I implemented the solution. If the path so far were passed as a parameter that functionality could be added (i.e. by checking that the path doesn't already contain the Point about to be added). –  JohnLBevan Oct 12 '12 at 22:22
pps. in your question you mention data structures. A link just showed up on Hacker News (news.ycombinator.com/item?id=4651970) which may be of interest: opendatastructures.org/ods-java/12_3_Graph_Traversal.html. –  JohnLBevan Oct 15 '12 at 12:54
can you elaborate your approach please used in code.. –  Rahul Kumar Patle Oct 16 '12 at 10:03
Sure - the code takes a starting point, then tries walking in every direction (left, right, up, down) from there. When it takes a step in a given direction if tests if that step's valid or not (i.e. is it walking on the path or has it fallen into a block / gone off grid). If invalid this path is terminated, so the code tests the next direction (or traverses the branches until it comes to a solution for which there still exist untested directions). The stop condition is either reaching the endpoint (which results in a valid path being returned, before searching for other paths), running... –  JohnLBevan Oct 16 '12 at 12:13
out of steps (i.e. if it's walked enough to go to every square in the grid and not found a solution it's walking in circles / another route would return a better solution). The stopping condition for the whole thing (i.e. stop looking for more paths) is when the solution's tested every (valid) combination of directions. This is by no means a perfect solution - better would be to remember each point visited and record the shortest routes between various points to get the optimum result / also avoid loops; this is just something knocked up quickly to resolve your immediate issue. –  JohnLBevan Oct 16 '12 at 12:17

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