I am actually trying to figure out what would be the best way to achieve vertex-based pathfinding. Actually, the pathfinding logic isn't the problem at all, but how to represent (efficiently) the grid and its tiles vertices.
The ultimate objective is to add this as a feature to a general-purpose pathfinding library for grid-based maps. Find it here in its current state here: Jumper.
Let's say we have a 2-dimensional grid map, made of m by n tiles.
A simple pathfinding implementation would assume tile-based moves. Meaning that a path from a tile to another would go through the center of each tile, implicitly. In this case, we just return a path made of each waypoint tiles coordinates (in tile units) to the user.
Given the same grid and the same tiles, what if i need to generate a path from vertex to vertex ? What I was thinking of was to keep the original grid, and store the tile size. Then, given a specific tile coordinates (in tile units), it would be easy to workout its vertices at runtime, scaling them with the tile size. This also implies the heuristics for pathfinding would change accordingly, but it seems doable, to me.
I am looking for feedback about these thoughts, and pointers if there are some better way to achieve this, actually.
Thanks in advance.