Add EdgeMap and private generic EntityMap, update tests
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@@ -0,0 +1,261 @@
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#[cfg(test)]
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#[macro_export]
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macro_rules! vertex_map_tests {
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($T:ty) => {
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#[test]
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fn initial_values_are_default() {
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let mut graph = <$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 map = graph.vertex_map(42);
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assert_eq!(map[v1], 42);
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assert_eq!(map[v2], 42);
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}
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#[test]
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fn write_and_read() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let mut map = graph.vertex_map(0);
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map[v1] = 7;
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assert_eq!(map[v1], 7);
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assert_eq!(map[v2], 0);
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}
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#[test]
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fn lazy_growth_on_read() {
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let mut graph = <$T>::new();
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graph.add_vertex();
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let map = graph.vertex_map(99);
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let v = graph.add_vertex();
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assert_eq!(map[v], 99);
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}
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#[test]
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fn lazy_growth_on_write() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let mut map = graph.vertex_map(0);
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let v2 = graph.add_vertex();
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map[v2] = 7;
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assert_eq!(map[v1], 0);
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assert_eq!(map[v2], 7);
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}
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#[test]
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fn sync_expands_to_new_vertices() {
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let mut graph = <$T>::new();
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graph.add_vertex();
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let mut map = graph.vertex_map(42);
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let initial_len = map.inner.data.len();
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while graph.vertex_capacity() <= initial_len {
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graph.add_vertex();
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}
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assert!(
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map.inner.data.len() < graph.vertex_capacity(),
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"precondition: map is stale before sync"
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);
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map.sync(&graph);
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assert_eq!(map.inner.data.len(), graph.vertex_capacity());
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}
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#[test]
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fn sync_does_not_overwrite_existing_values() {
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let mut graph = <$T>::new();
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let v = graph.add_vertex();
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let mut map = graph.vertex_map(0);
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map[v] = 5;
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graph.add_vertex();
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map.sync(&graph);
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assert_eq!(map[v], 5);
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}
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};
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}
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#[cfg(test)]
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#[macro_export]
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macro_rules! vertex_map_deletion_tests {
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($T:ty) => {
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#[test]
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fn surviving_vertex_readable_after_delete() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let mut map = graph.vertex_map(0);
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map[v1] = 1;
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map[v2] = 2;
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graph.delete_vertex(v2);
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assert_eq!(map[v1], 1);
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}
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#[test]
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fn capacity_does_not_shrink_after_delete() {
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let mut graph = <$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 mut map = graph.vertex_map(0);
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map[v1] = 5;
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let capacity_before = graph.vertex_capacity();
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graph.delete_vertex(v2);
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map.sync(&graph);
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assert_eq!(map.inner.data.len(), capacity_before);
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assert_eq!(map[v1], 5);
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}
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#[test]
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fn reused_slot_returns_old_value() {
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let mut graph = <$T>::new();
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graph.add_vertex();
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let v1 = graph.add_vertex();
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let mut map = graph.vertex_map(0);
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map[v1] = 99;
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graph.delete_vertex(v1);
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let v2 = graph.add_vertex();
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// VertexMap uses raw indices, not vertex identity. A new vertex v2 reusing the slot
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// of previously deleted v1 sees the old value. Callers must reinitialize stale slots
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// after deletion.
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assert_eq!(map[v2], 99);
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}
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};
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}
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#[cfg(test)]
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#[macro_export]
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macro_rules! edge_map_tests {
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($T:ty) => {
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#[test]
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fn initial_values_are_default() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let e1 = graph.add_edge(v1, v2);
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let e2 = graph.add_edge(v1, v2);
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let map = graph.edge_map(42);
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assert_eq!(map[e1], 42);
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assert_eq!(map[e2], 42);
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}
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#[test]
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fn write_and_read() {
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let mut graph = <$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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let mut map = graph.edge_map(0);
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map[e1] = 7;
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assert_eq!(map[e1], 7);
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assert_eq!(map[e2], 0);
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}
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#[test]
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fn lazy_growth_on_read() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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graph.add_edge(v1, v2);
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let map = graph.edge_map(99);
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let e = graph.add_edge(v1, v2);
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assert_eq!(map[e], 99);
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}
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#[test]
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fn lazy_growth_on_write() {
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let mut graph = <$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 mut map = graph.edge_map(0);
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let e2 = graph.add_edge(v1, v2);
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map[e2] = 7;
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assert_eq!(map[e1], 0);
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assert_eq!(map[e2], 7);
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}
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#[test]
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fn sync_expands_to_new_edges() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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graph.add_edge(v1, v2);
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let mut map = graph.edge_map(42);
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let initial_len = map.inner.data.len();
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while graph.edge_capacity() <= initial_len {
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graph.add_edge(v1, v2);
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}
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assert!(
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map.inner.data.len() < graph.edge_capacity(),
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"precondition: map is stale before sync"
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);
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map.sync(&graph);
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assert_eq!(map.inner.data.len(), graph.edge_capacity());
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}
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#[test]
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fn sync_does_not_overwrite_existing_values() {
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let mut graph = <$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 mut map = graph.edge_map(0);
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map[e] = 5;
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graph.add_edge(v1, v2);
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map.sync(&graph);
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assert_eq!(map[e], 5);
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}
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};
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}
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#[cfg(test)]
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#[macro_export]
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macro_rules! edge_map_deletion_tests {
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($T:ty) => {
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#[test]
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fn surviving_edge_readable_after_delete() {
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let mut graph = <$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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let mut map = graph.edge_map(0);
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map[e1] = 1;
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map[e2] = 2;
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graph.delete_edge(e2);
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assert_eq!(map[e1], 1);
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}
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#[test]
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fn capacity_does_not_shrink_after_delete() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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let e1 = graph.add_edge(v1, v2);
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let e2 = graph.add_edge(v1, v2);
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let mut map = graph.edge_map(0);
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map[e1] = 5;
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let capacity_before = graph.edge_capacity();
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graph.delete_edge(e2);
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map.sync(&graph);
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assert_eq!(map.inner.data.len(), capacity_before);
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assert_eq!(map[e1], 5);
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}
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#[test]
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fn reused_slot_returns_old_value() {
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let mut graph = <$T>::new();
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let v1 = graph.add_vertex();
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let v2 = graph.add_vertex();
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graph.add_edge(v1, v2);
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let e1 = graph.add_edge(v1, v2);
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let mut map = graph.edge_map(0);
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map[e1] = 99;
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graph.delete_edge(e1);
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let e2 = graph.add_edge(v1, v2);
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// EdgeMap uses raw indices, not edge identity. Because to_index uses arr_idx/2,
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// both halves of a deleted edge pair map to the same index, so a new edge reusing
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// either slot sees the old value. Callers must reinitialize stale slots after deletion.
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assert_eq!(map[e2], 99);
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}
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};
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}
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