mirror of
https://git.proxmox.com/git/rustc
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338 lines
8.4 KiB
Rust
338 lines
8.4 KiB
Rust
#![cfg(feature = "graphmap")]
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extern crate petgraph;
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use std::collections::HashSet;
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use std::fmt;
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use petgraph::prelude::*;
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use petgraph::visit::Walker;
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use petgraph::algo::dijkstra;
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use petgraph::dot::{Config, Dot};
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#[test]
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fn simple() {
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//let root = TypedArena::<Node<_>>::new();
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let mut gr = UnGraphMap::new();
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//let node = |&: name: &'static str| Ptr(root.alloc(Node(name.to_string())));
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let a = gr.add_node("A");
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let b = gr.add_node("B");
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let c = gr.add_node("C");
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let d = gr.add_node("D");
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let e = gr.add_node("E");
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let f = gr.add_node("F");
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gr.add_edge(a, b, 7);
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gr.add_edge(a, c, 9);
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gr.add_edge(a, d, 14);
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gr.add_edge(b, c, 10);
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gr.add_edge(c, d, 2);
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gr.add_edge(d, e, 9);
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gr.add_edge(b, f, 15);
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gr.add_edge(c, f, 11);
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assert!(gr.add_edge(e, f, 5).is_none());
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// duplicate edges
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assert_eq!(gr.add_edge(f, b, 16), Some(15));
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assert_eq!(gr.add_edge(f, e, 6), Some(5));
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println!("{:?}", gr);
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println!("{}", Dot::with_config(&gr, &[]));
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assert_eq!(gr.node_count(), 6);
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assert_eq!(gr.edge_count(), 9);
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// check updated edge weight
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assert_eq!(gr.edge_weight(e, f), Some(&6));
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let scores = dijkstra(&gr, a, None, |e| *e.weight());
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let mut scores: Vec<_> = scores.into_iter().collect();
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scores.sort();
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assert_eq!(
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scores,
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vec![
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("A", 0),
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("B", 7),
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("C", 9),
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("D", 11),
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("E", 20),
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("F", 20)
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]
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);
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}
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#[test]
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fn remov() {
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let mut g = UnGraphMap::new();
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g.add_node(1);
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g.add_node(2);
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g.add_edge(1, 2, -1);
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assert_eq!(g.edge_weight(1, 2), Some(&-1));
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assert_eq!(g.edge_weight(2, 1), Some(&-1));
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assert_eq!(g.neighbors(1).count(), 1);
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let noexist = g.remove_edge(2, 3);
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assert_eq!(noexist, None);
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let exist = g.remove_edge(2, 1);
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assert_eq!(exist, Some(-1));
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assert_eq!(g.edge_count(), 0);
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assert_eq!(g.edge_weight(1, 2), None);
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assert_eq!(g.edge_weight(2, 1), None);
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assert_eq!(g.neighbors(1).count(), 0);
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}
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#[test]
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fn remove_directed() {
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let mut g = GraphMap::<_, _, Directed>::with_capacity(0, 0);
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g.add_edge(1, 2, -1);
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println!("{:?}", g);
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assert_eq!(g.edge_weight(1, 2), Some(&-1));
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assert_eq!(g.edge_weight(2, 1), None);
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assert_eq!(g.neighbors(1).count(), 1);
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let noexist = g.remove_edge(2, 3);
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assert_eq!(noexist, None);
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let exist = g.remove_edge(2, 1);
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assert_eq!(exist, None);
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let exist = g.remove_edge(1, 2);
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assert_eq!(exist, Some(-1));
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println!("{:?}", g);
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assert_eq!(g.edge_count(), 0);
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assert_eq!(g.edge_weight(1, 2), None);
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assert_eq!(g.edge_weight(2, 1), None);
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assert_eq!(g.neighbors(1).count(), 0);
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}
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#[test]
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fn dfs() {
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let mut gr = UnGraphMap::default();
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let h = gr.add_node("H");
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let i = gr.add_node("I");
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let j = gr.add_node("J");
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let k = gr.add_node("K");
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// Z is disconnected.
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let z = gr.add_node("Z");
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gr.add_edge(h, i, 1.);
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gr.add_edge(h, j, 3.);
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gr.add_edge(i, j, 1.);
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gr.add_edge(i, k, 2.);
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println!("{:?}", gr);
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{
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let mut cnt = 0;
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let mut dfs = Dfs::new(&gr, h);
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while let Some(_) = dfs.next(&gr) {
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cnt += 1;
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}
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assert_eq!(cnt, 4);
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}
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{
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let mut cnt = 0;
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let mut dfs = Dfs::new(&gr, z);
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while let Some(_) = dfs.next(&gr) {
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cnt += 1;
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}
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assert_eq!(cnt, 1);
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}
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assert_eq!(Dfs::new(&gr, h).iter(&gr).count(), 4);
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assert_eq!(Dfs::new(&gr, i).iter(&gr).count(), 4);
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assert_eq!(Dfs::new(&gr, z).iter(&gr).count(), 1);
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}
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#[test]
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fn edge_iterator() {
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let mut gr = UnGraphMap::new();
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let h = gr.add_node("H");
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let i = gr.add_node("I");
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let j = gr.add_node("J");
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let k = gr.add_node("K");
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gr.add_edge(h, i, 1);
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gr.add_edge(h, j, 2);
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gr.add_edge(i, j, 3);
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gr.add_edge(i, k, 4);
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let real_edges: HashSet<_> = gr.all_edges().map(|(a, b, &w)| (a, b, w)).collect();
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let expected_edges: HashSet<_> =
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vec![("H", "I", 1), ("H", "J", 2), ("I", "J", 3), ("I", "K", 4)]
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.into_iter()
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.collect();
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assert_eq!(real_edges, expected_edges);
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}
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#[test]
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fn from_edges() {
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let gr =
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GraphMap::<_, _, Undirected>::from_edges(&[("a", "b", 1), ("a", "c", 2), ("c", "d", 3)]);
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assert_eq!(gr.node_count(), 4);
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assert_eq!(gr.edge_count(), 3);
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assert_eq!(gr[("a", "c")], 2);
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let gr = GraphMap::<_, (), Undirected>::from_edges(&[
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(0, 1),
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(0, 2),
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(0, 3),
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(1, 2),
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(1, 3),
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(2, 3),
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]);
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assert_eq!(gr.node_count(), 4);
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assert_eq!(gr.edge_count(), 6);
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assert_eq!(gr.neighbors(0).count(), 3);
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assert_eq!(gr.neighbors(1).count(), 3);
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assert_eq!(gr.neighbors(2).count(), 3);
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assert_eq!(gr.neighbors(3).count(), 3);
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println!("{:?}", Dot::with_config(&gr, &[Config::EdgeNoLabel]));
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}
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#[test]
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fn graphmap_directed() {
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//let root = TypedArena::<Node<_>>::new();
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let mut gr = DiGraphMap::<_, ()>::with_capacity(0, 0);
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//let node = |&: name: &'static str| Ptr(root.alloc(Node(name.to_string())));
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let a = gr.add_node("A");
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let b = gr.add_node("B");
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let c = gr.add_node("C");
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let d = gr.add_node("D");
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let e = gr.add_node("E");
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let edges = [(a, b), (a, c), (a, d), (b, c), (c, d), (d, e), (b, b)];
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gr.extend(&edges);
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// Add reverse edges -- ok!
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assert!(gr.add_edge(e, d, ()).is_none());
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// duplicate edge - no
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assert!(!gr.add_edge(a, b, ()).is_none());
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// duplicate self loop - no
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assert!(!gr.add_edge(b, b, ()).is_none());
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println!("{:#?}", gr);
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}
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fn assert_sccs_eq<N>(mut res: Vec<Vec<N>>, mut answer: Vec<Vec<N>>)
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where
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N: Ord + fmt::Debug,
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{
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// normalize the result and compare with the answer.
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for scc in &mut res {
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scc.sort();
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}
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res.sort();
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for scc in &mut answer {
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scc.sort();
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}
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answer.sort();
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assert_eq!(res, answer);
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}
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#[test]
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fn scc() {
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let gr: GraphMap<_, u32, Directed> = GraphMap::from_edges(&[
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(6, 0, 0),
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(0, 3, 1),
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(3, 6, 2),
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(8, 6, 3),
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(8, 2, 4),
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(2, 5, 5),
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(5, 8, 6),
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(7, 5, 7),
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(1, 7, 8),
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(7, 4, 9),
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(4, 1, 10),
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]);
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assert_sccs_eq(
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petgraph::algo::kosaraju_scc(&gr),
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vec![vec![0, 3, 6], vec![1, 4, 7], vec![2, 5, 8]],
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);
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}
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#[test]
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fn test_into_graph() {
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let gr: GraphMap<_, u32, Directed> = GraphMap::from_edges(&[
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(6, 0, 0),
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(0, 3, 1),
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(3, 6, 2),
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(8, 6, 3),
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(8, 2, 4),
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(2, 5, 5),
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(5, 8, 6),
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(7, 5, 7),
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(1, 7, 8),
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(7, 4, 9),
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(4, 1, 10),
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]);
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let graph: Graph<_, _, _> = gr.clone().into_graph();
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println!("{}", Dot::new(&gr));
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println!("{}", Dot::new(&graph));
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// node weigths in `graph` are node identifiers in `gr`.
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for edge in graph.edge_references() {
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let a = edge.source();
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let b = edge.target();
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let aw = graph[a];
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let bw = graph[b];
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assert_eq!(&gr[(aw, bw)], edge.weight());
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}
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}
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#[test]
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fn test_all_edges_mut() {
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// graph with edge weights equal to in+out
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let mut graph: GraphMap<_, u32, Directed> =
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GraphMap::from_edges(&[(0, 1, 1), (1, 2, 3), (2, 0, 2)]);
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// change it so edge weight is equal to 2 * (in+out)
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for (start, end, weight) in graph.all_edges_mut() {
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*weight = (start + end) * 2;
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}
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// test it
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for (start, end, weight) in graph.all_edges() {
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assert_eq!((start + end) * 2, *weight);
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}
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}
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#[test]
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fn neighbors_incoming_includes_self_loops() {
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let mut graph = DiGraphMap::new();
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graph.add_node(());
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graph.add_edge((), (), ());
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let mut neighbors = graph.neighbors_directed((), Incoming);
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assert_eq!(neighbors.next(), Some(()));
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assert_eq!(neighbors.next(), None);
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}
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#[test]
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fn undirected_neighbors_includes_self_loops() {
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let mut graph = UnGraphMap::new();
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graph.add_node(());
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graph.add_edge((), (), ());
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let mut neighbors = graph.neighbors(());
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assert_eq!(neighbors.next(), Some(()));
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assert_eq!(neighbors.next(), None);
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}
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#[test]
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fn self_loops_can_be_removed() {
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let mut graph = DiGraphMap::new();
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graph.add_node(());
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graph.add_edge((), (), ());
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graph.remove_edge((), ());
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assert_eq!(graph.neighbors_directed((), Outgoing).next(), None);
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assert_eq!(graph.neighbors_directed((), Incoming).next(), None);
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}
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