@spec a_star(Graph.t(), Graph.vertex(), Graph.vertex(), heuristic_fun()) ::
  [Graph.vertex()] | nil

Finds the shortest path between a and b as a list of vertices. Returns nil if no path can be found.

This implementation takes a heuristic function which allows you to calculate the lower bound cost of a given vertex v. The algorithm then uses that lower bound function to determine which path to explore next in the graph.

The dijkstra function is simply a_star where the heuristic function always returns 0, and thus the next vertex is chosen based on the weight of the edge between it and the current vertex.

@spec all(Graph.t(), Graph.vertex(), Graph.vertex()) :: [Graph.vertex()]

Finds all paths between a and b, each path as a list of vertices. Returns nil if no path can be found.

@spec dijkstra(Graph.t(), Graph.vertex(), Graph.vertex()) :: [Graph.vertex()] | nil

Finds the shortest path between a and b as a list of vertices. Returns nil if no path can be found.

The shortest path is calculated here by using a cost function to choose which path to explore next. The cost function in Dijkstra's algorithm is weight(E(A, B))+lower_bound(E(A, B)) where lower_bound(E(A, B)) is always 0.