Initial release #1
@@ -120,6 +120,12 @@ impl GraphTopology for AppendGraph {
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.map(|(v, _)| v)
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}
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fn incident_vertices(&self, e: Self::Edge) -> (Self::Vertex, Self::Vertex) {
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let v2 = self.incidences[e.0].adjacent;
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let v1 = self.incidences[e.0 ^ 1].adjacent;
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(v1, v2)
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}
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fn edges(&self) -> impl Iterator<Item = Self::Edge> {
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(0..self.incidences.len()).step_by(2).map(Incidence)
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}
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@@ -153,4 +159,18 @@ mod tests {
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crate::graph_topology_test_fixtures!(AppendGraph);
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crate::graph_topology_tests!(AppendGraph);
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#[test]
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fn incident_vertices_paired_index() {
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let mut graph = AppendGraph::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let e = graph.add_edge(v1, v2);
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let f = Incidence(e.0 + 1);
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let (u1, u2) = graph.incident_vertices(f);
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assert!(
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(u1 == v1 && u2 == v2) || (u1 == v2 && u2 == v1),
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"unexpected incident vertices {u1:?} and {u2:?} for edge {f:?}"
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);
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}
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}
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@@ -176,6 +176,19 @@ impl GraphTopology for Graph {
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.map(|(vs, _)| self.vertices.get_idx(vs.0).unwrap())
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}
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fn incident_vertices(&self, e: Self::Edge) -> (Self::Vertex, Self::Vertex) {
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let v2 = self
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.vertices
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.get_idx(self.incidences[e].adjacent.0)
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.unwrap();
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let f = self.incidences.get_idx(e.arr_idx() ^ 1).unwrap();
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let v1 = self
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.vertices
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.get_idx(self.incidences[f].adjacent.0)
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.unwrap();
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(v1, v2)
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}
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fn edges(&self) -> impl Iterator<Item = Self::Edge> {
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self.incidences
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.iter()
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@@ -249,6 +262,23 @@ mod tests {
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crate::graph_topology_tests!(Graph);
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crate::graph_topology_deletion_tests!(Graph);
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#[test]
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fn incident_vertices_paired_index() {
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let mut graph = Graph::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let e = graph.add_edge(v1, v2);
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let f = graph
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.incidences
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.get_idx(e.arr_idx() + 1)
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.expect("paired index should be valid");
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let (u1, u2) = graph.incident_vertices(f);
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assert!(
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(u1 == v1 && u2 == v2) || (u1 == v2 && u2 == v1),
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"unexpected incident vertices {u1:?} and {u2:?} for edge {f:?}"
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);
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}
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#[test]
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fn delete_edge_paired_index() {
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let mut graph = Graph::new();
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@@ -365,6 +365,84 @@ macro_rules! graph_topology_tests {
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}
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}
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#[test]
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fn incident_vertices_single_edge() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let e = graph.add_edge(v1, v2);
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let (u1, u2) = graph.incident_vertices(e);
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assert!(
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(u1 == v1 && u2 == v2) || (u1 == v2 && u2 == v1),
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"unexpected incident vertices {u1:?} and {u2:?} for edge {e:?}"
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);
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}
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#[test]
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fn incident_vertices_loop_edge() {
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let mut graph = <$T>::new();
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let v = graph.add_vertex();
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let e = graph.add_edge(v, v);
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assert_eq!(
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graph.incident_vertices(e),
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(v, v),
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"unexpected incident vertices for loop edge {e:?}"
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);
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}
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#[test]
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fn incident_vertices_multiple_edges() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let e1 = graph.add_edge(v1, v2);
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let e2 = graph.add_edge(v1, v2);
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assert_ne!(e1, e2, "edges should be distinct");
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let (u1, u2) = graph.incident_vertices(e1);
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assert!(
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(u1 == v1 && u2 == v2) || (u1 == v2 && u2 == v1),
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"unexpected incident vertices {u1:?} and {u2:?} for first multi-edge {e1:?}"
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);
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let (u1, u2) = graph.incident_vertices(e2);
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assert!(
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(u1 == v1 && u2 == v2) || (u1 == v2 && u2 == v1),
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"unexpected incident vertices {u1:?} and {u2:?} for second multi-edge {e2:?}"
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);
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}
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#[test]
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fn incident_vertices() {
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let (graph, vertices, edges, _) = make_test_graph();
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let expected: [(<$T as $crate::traits::GraphTopology>::Vertex, <$T as $crate::traits::GraphTopology>::Vertex); 18] = [
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(vertices[0], vertices[1]),
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(vertices[0], vertices[1]),
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(vertices[1], vertices[2]),
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(vertices[1], vertices[3]),
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(vertices[1], vertices[4]),
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(vertices[2], vertices[2]),
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(vertices[2], vertices[4]),
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(vertices[2], vertices[4]),
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(vertices[2], vertices[5]),
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(vertices[2], vertices[6]),
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(vertices[3], vertices[6]),
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(vertices[4], vertices[4]),
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(vertices[4], vertices[7]),
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(vertices[4], vertices[8]),
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(vertices[5], vertices[9]),
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(vertices[6], vertices[9]),
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(vertices[7], vertices[8]),
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(vertices[7], vertices[9]),
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];
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for (i, &(v1, v2)) in expected.iter().enumerate() {
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let (u1, u2) = graph.incident_vertices(edges[i]);
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assert!(
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(u1 == v1 && u2 == v2) || (u1 == v2 && u2 == v1),
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"unexpected incident vertices {u1:?} and {u2:?} for edges[{i}]: edge {:?}",
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edges[i]
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);
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}
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}
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#[test]
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fn edges_empty() {
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let graph = <$T>::new();
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@@ -514,6 +592,20 @@ macro_rules! graph_topology_tests {
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vertices[i]
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);
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}
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}
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#[test]
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fn incident_vertices_incidences_consistency() {
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let (graph, _, _, _) = make_test_graph();
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for u in graph.vertices() {
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for (v, e) in graph.incidences(u) {
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let (w1, w2) = graph.incident_vertices(e);
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assert!(
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(w1 == u && w2 == v) || (w1 == v && w2 == u),
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"incident vertices {w1:?} and {w2:?} of edge {e:?} are inconsistent with incidence ({v:?}, {e:?}) of vertex {u:?}"
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);
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}
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}
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}
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};
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}
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@@ -800,6 +892,43 @@ macro_rules! graph_topology_deletion_tests {
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}
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}
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#[test]
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fn incident_vertices_after_delete_edge() {
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let (mut graph, vertices, edges, _) = make_test_graph();
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graph.delete_edge(edges[2]);
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let expected: [(
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usize,
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<Graph as $crate::traits::GraphTopology>::Vertex,
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<Graph as $crate::traits::GraphTopology>::Vertex,
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); 17] = [
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(0, vertices[0], vertices[1]),
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(1, vertices[0], vertices[1]),
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(3, vertices[1], vertices[3]),
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(4, vertices[1], vertices[4]),
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(5, vertices[2], vertices[2]),
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(6, vertices[2], vertices[4]),
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(7, vertices[2], vertices[4]),
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(8, vertices[2], vertices[5]),
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(9, vertices[2], vertices[6]),
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(10, vertices[3], vertices[6]),
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(11, vertices[4], vertices[4]),
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(12, vertices[4], vertices[7]),
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(13, vertices[4], vertices[8]),
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(14, vertices[5], vertices[9]),
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(15, vertices[6], vertices[9]),
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(16, vertices[7], vertices[8]),
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(17, vertices[7], vertices[9]),
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];
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for (i, v1, v2) in expected {
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let (u1, u2) = graph.incident_vertices(edges[i]);
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assert!(
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(u1 == v1 && u2 == v2) || (u1 == v2 && u2 == v1),
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"unexpected incident vertices {u1:?} and {u2:?} for edges[{i}] ({:?}) after delete",
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edges[i]
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);
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}
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}
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#[test]
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fn edges_after_delete() {
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let (mut graph, vertices, edges, _) = make_test_graph();
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+1
-1
@@ -2,7 +2,6 @@ use crate::maps::{EdgeMap, VertexMap};
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// TODO: Add functions to reserve memory for vertices and edges.
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// TODO: Add iterator of incident edges for a vertex.
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// TODO: Add finding incident vertices for an edge.
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// TODO: Split out GraphTopologyAddition trait.
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pub trait GraphTopology {
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type Vertex: Copy + Eq;
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@@ -18,6 +17,7 @@ pub trait GraphTopology {
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fn are_adjacent(&self, v1: Self::Vertex, v2: Self::Vertex) -> bool;
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fn vertices(&self) -> impl Iterator<Item = Self::Vertex>;
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fn adjacent_vertices(&self, v: Self::Vertex) -> impl Iterator<Item = Self::Vertex>;
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fn incident_vertices(&self, e: Self::Edge) -> (Self::Vertex, Self::Vertex);
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fn edges(&self) -> impl Iterator<Item = Self::Edge>;
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fn incidences(&self, v: Self::Vertex) -> impl Iterator<Item = (Self::Vertex, Self::Edge)>;
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fn add_vertex(&mut self) -> Self::Vertex;
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