# Pathfinding : Jump Point Search - Straight Moves vs Diagonal Moves

Planning working on a 2D RTS, I tried to learn how Astar works. Indeed, I found articles explaining how Astar could be optimized coupling it with binary heaps, and algorithms taking advantages of Path symmetry, like Jump Poin Search algorithm. I tried to implement Jump Point Search, and it runs fine. I even made some benchmarks tests with maps from MovingAI.

Yet there is a problem. Everything runs fine when diagonal moves are allowed.When disabled, no path is returned...

It may be linked to the way I implementd it, then I'm all asking...In general, how would you oblige the algorithm (JPS) to search for path involving only straight moves (not diagonals moves) to reach a goal ?

Thanks in advance!

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A* doesn't care about what directions you allow so it's obviuosly an implementation detail. Include some sample code you've written. –  Emil Vikström May 27 '12 at 11:19
The code consists of several files, but the main file can be found here: [github.com/Yonaba/Jumper/blob/master/Lib/jumper.lua] Jumper... –  Roland Y. May 27 '12 at 18:33
The link doesn't work. Also, diagonal/straight is not related to the abstract search algorithm but how you organize the lattice (system of intersections) where you conduct the search. –  Antti Huima May 27 '12 at 19:01
Thanks for these answers...Sorry about the link, I messed with Markdown formatting...here is the link goot link. github.com/Yonaba/Jumper/blob/master/Lib/jumper.lua Would you mind take a look ? –  Roland Y. May 28 '12 at 9:36

## 3 Answers

Jump point search NEEDS diagonals enabled to work. In state algorithm is in, this is one of its limitations. Also, you wont be able to make your terrain distinguishable (mud = penalty to movement, etc.) since this would destroy symmetries. I suggest you stick to A* and try to gain performance by terrain presentation (mesh, waypoints). Or maybe check HPA*.

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Well, technically speaking, if no diagonal moves are allowed, then your optimal heuristic is Manhattan Distance. That means that A* will find na answer with a minimum of moves. Representing your map in a grid with each node having a onOpen and onClosed booleans, as opposed to using a closed list, is a HUGE optimization. In addition, if you use std make heap, push_heap and pop heap, you can get the cheapest node with cost log n (1 to pop + log n to sort = O(logn)), which scales much better than using a vector.

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It should be possible to create a version of JPS that uses only cardinal directions if you have it send sub-searches(as you would with the diagonal movement) along the directions perpendicular to the original direction. Doing that, it will be able to find when a node at a given location will find a node further ahead.

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