Safe Haskell | Safe |
---|---|
Language | Haskell98 |
Utility methods to automatically generate and keep track of a mapping
between node labels and Node
s.
Synopsis
- data NodeMap a
- new :: NodeMap a
- fromGraph :: (Ord a, Graph g) => g a b -> NodeMap a
- mkNode :: Ord a => NodeMap a -> a -> (LNode a, NodeMap a)
- mkNode_ :: Ord a => NodeMap a -> a -> LNode a
- mkNodes :: Ord a => NodeMap a -> [a] -> ([LNode a], NodeMap a)
- mkNodes_ :: Ord a => NodeMap a -> [a] -> [LNode a]
- mkEdge :: Ord a => NodeMap a -> (a, a, b) -> Maybe (LEdge b)
- mkEdges :: Ord a => NodeMap a -> [(a, a, b)] -> Maybe [LEdge b]
- insMapNode :: (Ord a, DynGraph g) => NodeMap a -> a -> g a b -> (g a b, NodeMap a, LNode a)
- insMapNode_ :: (Ord a, DynGraph g) => NodeMap a -> a -> g a b -> g a b
- insMapEdge :: (Ord a, DynGraph g) => NodeMap a -> (a, a, b) -> g a b -> g a b
- delMapNode :: (Ord a, DynGraph g) => NodeMap a -> a -> g a b -> g a b
- delMapEdge :: (Ord a, DynGraph g) => NodeMap a -> (a, a) -> g a b -> g a b
- insMapNodes :: (Ord a, DynGraph g) => NodeMap a -> [a] -> g a b -> (g a b, NodeMap a, [LNode a])
- insMapNodes_ :: (Ord a, DynGraph g) => NodeMap a -> [a] -> g a b -> g a b
- insMapEdges :: (Ord a, DynGraph g) => NodeMap a -> [(a, a, b)] -> g a b -> g a b
- delMapNodes :: (Ord a, DynGraph g) => NodeMap a -> [a] -> g a b -> g a b
- delMapEdges :: (Ord a, DynGraph g) => NodeMap a -> [(a, a)] -> g a b -> g a b
- mkMapGraph :: (Ord a, DynGraph g) => [a] -> [(a, a, b)] -> (g a b, NodeMap a)
- type NodeMapM a b g r = State (NodeMap a, g a b) r
- run :: (DynGraph g, Ord a) => g a b -> NodeMapM a b g r -> (r, (NodeMap a, g a b))
- run_ :: (DynGraph g, Ord a) => g a b -> NodeMapM a b g r -> g a b
- mkNodeM :: Ord a => a -> NodeMapM a b g (LNode a)
- mkNodesM :: Ord a => [a] -> NodeMapM a b g [LNode a]
- mkEdgeM :: Ord a => (a, a, b) -> NodeMapM a b g (Maybe (LEdge b))
- mkEdgesM :: Ord a => [(a, a, b)] -> NodeMapM a b g (Maybe [LEdge b])
- insMapNodeM :: (Ord a, DynGraph g) => a -> NodeMapM a b g (LNode a)
- insMapEdgeM :: (Ord a, DynGraph g) => (a, a, b) -> NodeMapM a b g ()
- delMapNodeM :: (Ord a, DynGraph g) => a -> NodeMapM a b g ()
- delMapEdgeM :: (Ord a, DynGraph g) => (a, a) -> NodeMapM a b g ()
- insMapNodesM :: (Ord a, DynGraph g) => [a] -> NodeMapM a b g [LNode a]
- insMapEdgesM :: (Ord a, DynGraph g) => [(a, a, b)] -> NodeMapM a b g ()
- delMapNodesM :: (Ord a, DynGraph g) => [a] -> NodeMapM a b g ()
- delMapEdgesM :: (Ord a, DynGraph g) => [(a, a)] -> NodeMapM a b g ()
Functional Construction
Map Construction
fromGraph :: (Ord a, Graph g) => g a b -> NodeMap a Source #
Generate a mapping containing the nodes in the given graph.
mkNode :: Ord a => NodeMap a -> a -> (LNode a, NodeMap a) Source #
Generate a labelled node from the given label. Will return the same node for the same label.
mkNode_ :: Ord a => NodeMap a -> a -> LNode a Source #
Generate a labelled node and throw away the modified NodeMap
.
mkNodes_ :: Ord a => NodeMap a -> [a] -> [LNode a] Source #
Construct a list of nodes and throw away the modified NodeMap
.
mkEdge :: Ord a => NodeMap a -> (a, a, b) -> Maybe (LEdge b) Source #
Generate a LEdge
from the node labels.
Graph Construction
These functions mirror the construction and destruction functions in
Graph
, but use the given NodeMap
to look up
the appropriate Node
s. Note that the insMapNode
family of functions
will create new nodes as needed, but the other functions will not.
insMapNode :: (Ord a, DynGraph g) => NodeMap a -> a -> g a b -> (g a b, NodeMap a, LNode a) Source #
insMapNodes :: (Ord a, DynGraph g) => NodeMap a -> [a] -> g a b -> (g a b, NodeMap a, [LNode a]) Source #
Monadic Construction
The following mirror the functional construction functions, but handle passing
NodeMap
s and Graph
s behind the scenes.
Map Construction
run_ :: (DynGraph g, Ord a) => g a b -> NodeMapM a b g r -> g a b Source #
Run a construction and only return the Graph
.