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rust-dagops: range of revisions...
Georges Racinet -
r42353:3bdb21bb default
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@@ -13,7 +13,8 b''
13 13 //! - Similarly *relative roots* of a collection of `Revision`, we mean
14 14 //! those whose parents, if any, don't belong to the collection.
15 15 use super::{Graph, GraphError, Revision, NULL_REVISION};
16 use std::collections::HashSet;
16 use crate::ancestors::AncestorsIterator;
17 use std::collections::{BTreeSet, HashSet};
17 18
18 19 fn remove_parents(
19 20 graph: &impl Graph,
@@ -80,6 +81,71 b' pub fn retain_heads('
80 81 Ok(())
81 82 }
82 83
84 /// Compute the topological range between two collections of revisions
85 ///
86 /// This is equivalent to the revset `<roots>::<heads>`.
87 ///
88 /// Currently, the given `Graph` has to implement `Clone`, which means
89 /// actually cloning just a reference-counted Python pointer if
90 /// it's passed over through `rust-cpython`. This is due to the internal
91 /// use of `AncestorsIterator`
92 ///
93 /// # Algorithmic details
94 ///
95 /// This is a two-pass swipe inspired from what `reachableroots2` from
96 /// `mercurial.cext.parsers` does to obtain the same results.
97 ///
98 /// - first, we climb up the DAG from `heads` in topological order, keeping
99 /// them in the vector `heads_ancestors` vector, and adding any element of
100 /// `roots` we find among them to the resulting range.
101 /// - Then, we iterate on that recorded vector so that a revision is always
102 /// emitted after its parents and add all revisions whose parents are already
103 /// in the range to the results.
104 ///
105 /// # Performance notes
106 ///
107 /// The main difference with the C implementation is that
108 /// the latter uses a flat array with bit flags, instead of complex structures
109 /// like `HashSet`, making it faster in most scenarios. In theory, it's
110 /// possible that the present implementation could be more memory efficient
111 /// for very large repositories with many branches.
112 pub fn range(
113 graph: &(impl Graph + Clone),
114 roots: impl IntoIterator<Item = Revision>,
115 heads: impl IntoIterator<Item = Revision>,
116 ) -> Result<BTreeSet<Revision>, GraphError> {
117 let mut range = BTreeSet::new();
118 let roots: HashSet<Revision> = roots.into_iter().collect();
119 let min_root: Revision = match roots.iter().cloned().min() {
120 None => {
121 return Ok(range);
122 }
123 Some(r) => r,
124 };
125
126 // Internally, AncestorsIterator currently maintains a `HashSet`
127 // of all seen revision, which is also what we record, albeit in an ordered
128 // way. There's room for improvement on this duplication.
129 let ait = AncestorsIterator::new(graph.clone(), heads, min_root, true)?;
130 let mut heads_ancestors: Vec<Revision> = Vec::new();
131 for revres in ait {
132 let rev = revres?;
133 if roots.contains(&rev) {
134 range.insert(rev);
135 }
136 heads_ancestors.push(rev);
137 }
138
139 for rev in heads_ancestors.into_iter().rev() {
140 for parent in graph.parents(rev)?.iter() {
141 if *parent != NULL_REVISION && range.contains(parent) {
142 range.insert(rev);
143 }
144 }
145 }
146 Ok(range)
147 }
148
83 149 #[cfg(test)]
84 150 mod tests {
85 151
@@ -137,4 +203,29 b' mod tests {'
137 203 Ok(())
138 204 }
139 205
206 /// Apply `range()` and convert the result into a Vec for easier comparison
207 fn range_vec(
208 graph: impl Graph + Clone,
209 roots: &[Revision],
210 heads: &[Revision],
211 ) -> Result<Vec<Revision>, GraphError> {
212 range(&graph, roots.iter().cloned(), heads.iter().cloned())
213 .map(|bs| bs.into_iter().collect())
214 }
215
216 #[test]
217 fn test_range() -> Result<(), GraphError> {
218 assert_eq!(range_vec(SampleGraph, &[0], &[4])?, vec![0, 1, 2, 4]);
219 assert_eq!(range_vec(SampleGraph, &[0], &[8])?, vec![]);
220 assert_eq!(
221 range_vec(SampleGraph, &[5, 6], &[10, 11, 13])?,
222 vec![5, 10]
223 );
224 assert_eq!(
225 range_vec(SampleGraph, &[5, 6], &[10, 12])?,
226 vec![5, 6, 9, 10, 12]
227 );
228 Ok(())
229 }
230
140 231 }
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