use crate::fx::FxHashMap; use std::cmp::max; use std::slice; use std::iter; use super::*; pub struct TestGraph { num_nodes: usize, start_node: usize, successors: FxHashMap>, predecessors: FxHashMap>, } impl TestGraph { pub fn new(start_node: usize, edges: &[(usize, usize)]) -> Self { let mut graph = TestGraph { num_nodes: start_node + 1, start_node, successors: FxHashMap::default(), predecessors: FxHashMap::default(), }; for &(source, target) in edges { graph.num_nodes = max(graph.num_nodes, source + 1); graph.num_nodes = max(graph.num_nodes, target + 1); graph.successors.entry(source).or_default().push(target); graph.predecessors.entry(target).or_default().push(source); } for node in 0..graph.num_nodes { graph.successors.entry(node).or_default(); graph.predecessors.entry(node).or_default(); } graph } } impl DirectedGraph for TestGraph { type Node = usize; } impl WithStartNode for TestGraph { fn start_node(&self) -> usize { self.start_node } } impl WithNumNodes for TestGraph { fn num_nodes(&self) -> usize { self.num_nodes } } impl WithPredecessors for TestGraph { fn predecessors(&self, node: usize) -> >::Iter { self.predecessors[&node].iter().cloned() } } impl WithSuccessors for TestGraph { fn successors(&self, node: usize) -> >::Iter { self.successors[&node].iter().cloned() } } impl<'graph> GraphPredecessors<'graph> for TestGraph { type Item = usize; type Iter = iter::Cloned>; } impl<'graph> GraphSuccessors<'graph> for TestGraph { type Item = usize; type Iter = iter::Cloned>; }