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I searched for the algorithm/pseudocode of A* I followed it and coded it. I used Manhattan distance for h(n). ( f(n) = g(n) + h(n) ) And this is the result,

This always happen when there are no walls blocking the way, but when I put a lot of walls, it seems that it's taking the shortest path. Is this one the shortest path? I mean why is it not like this one below?

This one is also A* Manhattan, and they have the same size (19x19). This is from http://qiao.github.com/PathFinding.js/visual/

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umm its the same distance, 33 cubes... unless I counted wrong. –  Samy Vilar Jun 15 '12 at 7:55
As you cannot go diagonally you will not get shorter than the first example. You can get many other ways (like the second one) that have the same distance and look shorter but they are not. You always will have to pass 16 blocks to the right and 16 downwards (for the examples you gave). –  Nobody Jun 15 '12 at 7:57
Ah so there are other shortest paths. –  Zik Jun 15 '12 at 8:24
I mean, the first one is also a shortest path but the second one look shorter because the path is going directly to the goal. :) –  Zik Jun 15 '12 at 8:29

2 Answers 2

Both paths have the same manhattan distance. Therefore, it is implementation dependant which path is chosen. To tell why this specific part was chosen, we would have to look at the code of this specific A* implementation.

Hint: Every path from a source to a target cell that uses only Von Neumann neighborhood(i.e., does not walk diagonally) and does not take a step into the "wrong" direction (i.e., never walks up or left in your example) has the same manhattan distance. So, if you are in New York, it doesn't matter which crossroads you take to reach a certain place in Manhattan :)

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So the first one is still one of the shortest paths? –  Zik Jun 15 '12 at 8:24
Yes, of course. Both paths are possible correct answers. –  gexicide Jun 15 '12 at 8:47

With the manhattan distance the first one is a shortest path. It simply counts the number of horizontal and vertical steps taken. If you want something that looks more like a shortest path in the euclidian distance you can try changing your algorithm so that when it has the choice to move horizontally or vertically at one point it chooses the horizontal one if the horizontal distance is bigger than the vertical one and vice versa.

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Ahh okay. thanks! :) –  Zik Jun 15 '12 at 8:27

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