Struct yuuang_petgraph::visit::Topo
source · pub struct Topo<N, VM> { /* private fields */ }
Expand description
A topological order traversal for a graph.
Note that Topo
only visits nodes that are not part of cycles,
i.e. nodes in a true DAG. Use other visitors like DfsPostOrder
or
algorithms like kosaraju_scc to handle graphs with possible cycles.
Implementations§
source§impl<N, VM> Topo<N, VM>where
N: Copy + PartialEq,
VM: VisitMap<N>,
impl<N, VM> Topo<N, VM>where
N: Copy + PartialEq,
VM: VisitMap<N>,
sourcepub fn new<G>(graph: G) -> Selfwhere
G: IntoNodeIdentifiers + IntoNeighborsDirected + Visitable<NodeId = N, Map = VM>,
pub fn new<G>(graph: G) -> Selfwhere
G: IntoNodeIdentifiers + IntoNeighborsDirected + Visitable<NodeId = N, Map = VM>,
Create a new Topo
, using the graph’s visitor map, and put all
initial nodes in the to visit list.
sourcepub fn reset<G>(&mut self, graph: G)where
G: IntoNodeIdentifiers + IntoNeighborsDirected + Visitable<NodeId = N, Map = VM>,
pub fn reset<G>(&mut self, graph: G)where
G: IntoNodeIdentifiers + IntoNeighborsDirected + Visitable<NodeId = N, Map = VM>,
Clear visited state, and put all initial nodes in the to visit list.
sourcepub fn next<G>(&mut self, g: G) -> Option<N>where
G: IntoNeighborsDirected + Visitable<NodeId = N, Map = VM>,
pub fn next<G>(&mut self, g: G) -> Option<N>where
G: IntoNeighborsDirected + Visitable<NodeId = N, Map = VM>,
Return the next node in the current topological order traversal, or
None
if the traversal is at the end.
Note: The graph may not have a complete topological order, and the only way to know is to run the whole traversal and make sure it visits every node.