Safe Haskell | Safe-Inferred |
---|---|
Language | Haskell98 |
Graph Voronoi Diagram
These functions can be used to create a shortest path forest where the roots are specified.
Synopsis
- type Voronoi a = LRTree a
- type LRTree a = [LPath a]
- gvdIn :: (DynGraph gr, Real b) => [Node] -> gr a b -> Voronoi b
- gvdOut :: (Graph gr, Real b) => [Node] -> gr a b -> Voronoi b
- voronoiSet :: Node -> Voronoi b -> [Node]
- nearestNode :: Node -> Voronoi b -> Maybe Node
- nearestDist :: Node -> Voronoi b -> Maybe b
- nearestPath :: Node -> Voronoi b -> Maybe Path
Documentation
gvdIn :: (DynGraph gr, Real b) => [Node] -> gr a b -> Voronoi b Source #
Produce a shortest path forest (the roots of which are those nodes specified) from nodes in the graph to one of the root nodes (if possible).
gvdOut :: (Graph gr, Real b) => [Node] -> gr a b -> Voronoi b Source #
Produce a shortest path forest (the roots of which are those nodes specified) from nodes in the graph from one of the root nodes (if possible).
voronoiSet :: Node -> Voronoi b -> [Node] Source #
Return the nodes reachable to/from (depending on how the
Voronoi
was constructed) from the specified root node (if the
specified node is not one of the root nodes of the shortest path
forest, an empty list will be returned).
nearestNode :: Node -> Voronoi b -> Maybe Node Source #
Try to determine the nearest root node to the one specified in the shortest path forest.
nearestDist :: Node -> Voronoi b -> Maybe b Source #
The distance to the nearestNode
(if there is one) in the
shortest path forest.