Add Dijkstra variant without returning predecessors
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+29
-12
@@ -26,20 +26,37 @@ pub struct DijkstraResult<V> {
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pub predecessors: Vec<Option<V>>,
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}
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// TODO: Maybe variant of Dijkstra's algorithm without predecessors?
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// TODO: Replace Vec storage with VertexMap, this should make the bound on G::Vertex here obsolete.
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pub fn dijkstra<G>(graph: &G, source: G::Vertex) -> DijkstraResult<G::Vertex>
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where
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G: GraphTopology,
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G::Vertex: Into<usize>,
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{
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let mut result = DijkstraResult {
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distances: vec![None; graph.vertex_count()],
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predecessors: vec![None; graph.vertex_count()],
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};
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let mut predecessors = vec![None; graph.vertex_count()];
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let distances = dijkstra_impl(graph, source, |neighbor, predecessor| {
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predecessors[neighbor.into()] = Some(predecessor);
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});
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DijkstraResult { distances, predecessors }
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}
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pub fn dijkstra_distances<G>(graph: &G, source: G::Vertex) -> Vec<Option<u32>>
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where
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G: GraphTopology,
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G::Vertex: Into<usize>,
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{
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dijkstra_impl(graph, source, |_, _| {})
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}
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// TODO: Replace Vec storage with VertexMap, this should make the bound on G::Vertex here obsolete.
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fn dijkstra_impl<G, F>(graph: &G, source: G::Vertex, mut on_relax: F) -> Vec<Option<u32>>
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where
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G: GraphTopology,
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G::Vertex: Into<usize>,
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F: FnMut(G::Vertex, G::Vertex),
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{
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let mut distances = vec![None; graph.vertex_count()];
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let mut heap = BinaryHeap::new();
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result.distances[source.into()] = Some(0);
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distances[source.into()] = Some(0);
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heap.push(DistanceOrderedVertex {
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vertex: source,
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distance: 0,
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@@ -49,14 +66,14 @@ where
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for neighbor in graph.neighbors(v.vertex) {
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// TODO: Add a way to provide custom edge weights for Dijkstra's algorithm.
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let edge_weight = 1;
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let new_distance = result.distances[v.vertex.into()].unwrap() + edge_weight;
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if match result.distances[neighbor.into()] {
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let new_distance = distances[v.vertex.into()].unwrap() + edge_weight;
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if match distances[neighbor.into()] {
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None => true,
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Some(old_distance) if old_distance > new_distance => true,
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_ => false,
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} {
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result.distances[neighbor.into()] = Some(new_distance);
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result.predecessors[neighbor.into()] = Some(v.vertex);
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distances[neighbor.into()] = Some(new_distance);
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on_relax(neighbor, v.vertex);
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heap.push(DistanceOrderedVertex {
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vertex: neighbor,
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distance: new_distance,
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@@ -64,5 +81,5 @@ where
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}
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}
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}
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result
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distances
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}
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@@ -107,6 +107,55 @@ fn dijkstra() {
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}
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}
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#[test]
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fn dijkstra_distances_single_vertex() {
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let mut graph = AppendGraph::new();
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let v1 = graph.add_vertex();
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let distances = algorithms::dijkstra_distances(&graph, v1);
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assert_eq!(distances.len(), 1, "distances count must equal vertex count");
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assert_eq!(distances[0], Some(0), "unexpected distance of source vertex");
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}
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#[test]
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fn dijkstra_distances_disconnected() {
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let mut graph = AppendGraph::new();
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let v1 = graph.add_vertex();
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graph.add_vertex();
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let distances = algorithms::dijkstra_distances(&graph, v1);
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assert_eq!(distances.len(), 2, "distances count must equal vertex count");
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assert_eq!(distances[1], None, "unexpected distance of disconnected vertex");
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}
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#[test]
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fn dijkstra_distances() {
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let (graph, vertices) = make_test_graph();
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let distances = algorithms::dijkstra_distances(&graph, vertices[0]);
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let expected_distances_from_v0 = [
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Some(0),
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Some(1),
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Some(2),
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Some(2),
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Some(2),
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Some(3),
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Some(3),
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Some(3),
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Some(3),
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Some(4),
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];
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assert_eq!(
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distances.len(),
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graph.vertex_count(),
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"distances count must equal vertex count"
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);
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for i in 0..graph.vertex_count() {
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assert_eq!(
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distances[i], expected_distances_from_v0[i],
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"unexpected distance from {:?} to {:?}",
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vertices[0], vertices[i]
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);
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}
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}
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fn make_test_graph() -> (AppendGraph, [<AppendGraph as GraphTopology>::Vertex; 10]) {
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let mut graph = AppendGraph::new();
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let vertices = core::array::from_fn::<_, 10, _>(|_| graph.add_vertex());
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