/
Graph.elm
76 lines (53 loc) · 1.9 KB
/
Graph.elm
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module Graph exposing (Graph, edgesFrom, empty, insertEdge, insertNode, neighbors, node, nodes, updateEdge)
import Dict exposing (Dict)
{-| An undirected graph
-}
type Graph node edge
= Graph
{ nodes : Dict Int node
, edges : Dict Int (Dict Int edge)
}
empty : Graph node edge
empty =
Graph { nodes = Dict.empty, edges = Dict.empty }
insertNode : Int -> node -> Graph node edge -> Graph node edge
insertNode id data (Graph guts) =
Graph { guts | nodes = Dict.insert id data guts.nodes }
insertEdge : Int -> Int -> edge -> Graph node edge -> Graph node edge
insertEdge a b data graph =
updateEdge a b (\_ -> Just data) graph
updateEdge : Int -> Int -> (Maybe edge -> Maybe edge) -> Graph node edge -> Graph node edge
updateEdge a b updater (Graph guts) =
Graph
{ guts
| edges =
guts.edges
|> updateEdgeHelp a b updater
|> updateEdgeHelp b a updater
}
updateEdgeHelp : Int -> Int -> (Maybe edge -> Maybe edge) -> Dict Int (Dict Int edge) -> Dict Int (Dict Int edge)
updateEdgeHelp a b updater =
Dict.update a
(\maybeInner ->
case maybeInner of
Nothing ->
case updater Nothing of
Just data ->
Just (Dict.singleton b data)
Nothing ->
Nothing
Just inner ->
Just (Dict.update b updater inner)
)
node : Int -> Graph node edge -> Maybe node
node id (Graph guts) =
Dict.get id guts.nodes
nodes : Graph node edge -> Dict Int node
nodes (Graph guts) =
guts.nodes
edgesFrom : Int -> Graph node edge -> Maybe (Dict Int edge)
edgesFrom id (Graph guts) =
Dict.get id guts.edges
neighbors : Int -> Graph node edge -> Maybe (Dict Int edge)
neighbors id (Graph { edges }) =
Dict.get id edges