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I want to find path in 2d platform game, teeworlds. The player there can move left/right, jump, and use hook, that lets you move upward the wall or move under ceiling. Well, its hard becouse normal pathfinds like a* or bfs cant exist here, cuz you cant just move up. I need to find path btw 2 players so 1 can go to the second one. There are 3 types of tiles, collide, nohook (you cant hook it) and nothing (air). I have the map in format int map[w][h] where 0=air, 1=collide, 2=nohook. map isnt modified for whole game time.

I have completly no idea how to do that. If you can help me, I'd be pleased.

PS. The question is general about platform games, teeworlds is only one of them...

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FYI: there is a StackExchage site for Game Development questions: gamedev.stackexchange.com –  raveturned Apr 3 '12 at 12:18

5 Answers 5

up vote 5 down vote accepted

From the pathfinding algorithm's standpoint you could treat the climbable walls as if they were normal walkways, so the algorithm does not stop there.

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can you explain it more? –  kittyPL Apr 3 '12 at 12:07
    
You mentioned that A* and similar algorithms can find a path in a 2D environment. The way they work is there are essentially two types of terrain: passable and non-pasable (with potentially different weights attached to the passable terrains -- e.g. flat land is easier to pass than hills). You can apply this to your environment: if player is standing on a platform and can move left, right and climb, then the algorithm would see tree possible routes: one starting to the left, one to the right and one "up". [cont] –  Attila Apr 3 '12 at 12:14
    
[cont] From the perspective of the algorithm, "up" here is just another direction in 2D (perpendicular to left and right). You are essentially flipping the perspective (from a human standpoint) by making "up" equivalent to "forward" –  Attila Apr 3 '12 at 12:14

I don't think I completely understand the possibilities in your game. But this is how it works in general:

Path finding algorithms work on graphs (directed, undirected, with costs or equal costs for all edges doesn't matter). All you have to do is model your graph according to your game's rules. I.e. if there is only a normal way between field i and j than cost(i,j) = normal, if there is an additional way to use a hook, it could would be that cost(i,j) = min(hook, normal) . and so on. Once you have a graph (i assume it has to be directed for your game) all the normal Pathfinding algorithms will work.

if there are requirements like "you can only use hook n-times", a multi-label dijsktra can work.

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pathfinding algorithms work on graphs in general

movement from one cell to another means that there is a connection between two cells (for instance in four directions). But you can also link to some other cell (the ceiling).

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A* as a general search algorithm can still be applicable here, you just need to find a way to represent your platform game path-finding problem as a general search problem. So while you might have been introduced to A* as an algorithm to find a path through a grid-like maze, that is just a specific case of such a general search problem.

A maze

The more general case being graphs, where edges represent moves or actions and nodes represent positions or states.

A search graph

One way to use A* for the game you mention is by taking an example from this Infinite Mario AI. This implementation of A* works locally and is rerun every tick to get the most optimal actions at that exact moment which is great for a fast-paced game like Mario or the game you mention, but be mindful that this is different from A* when it's used to solve a maze, in which case the path is found only once and it is like a global plan to be followed until its end.

Infinite Mario AI

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Use simple BFS method, preprocessing the pairs to nodes.

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