##// END OF EJS Templates
status: keep second-ambiguous mtimes during fixup...
status: keep second-ambiguous mtimes during fixup Now that we support the feature, we can keep "second ambiguous" mtime during the fixup phase. These are the mtime that would be ambiguous if we did not had sub-second précions. See the v2 format documentation for details. Differential Revision: https://phab.mercurial-scm.org/D11847

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ancestors.rs
787 lines | 25.5 KiB | application/rls-services+xml | RustLexer
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 // ancestors.rs
//
// Copyright 2018 Georges Racinet <gracinet@anybox.fr>
//
// This software may be used and distributed according to the terms of the
// GNU General Public License version 2 or any later version.
//! Rust versions of generic DAG ancestors algorithms for Mercurial
use super::{Graph, GraphError, Revision, NULL_REVISION};
Raphaël Gomès
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r42514 use crate::dagops;
Georges Racinet
rust: translation of missingancestors...
r40995 use std::cmp::max;
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r40307 use std::collections::{BinaryHeap, HashSet};
/// Iterator over the ancestors of a given list of revisions
/// This is a generic type, defined and implemented for any Graph, so that
/// it's easy to
///
/// - unit test in pure Rust
/// - bind to main Mercurial code, potentially in several ways and have these
/// bindings evolve over time
pub struct AncestorsIterator<G: Graph> {
graph: G,
visit: BinaryHeap<Revision>,
seen: HashSet<Revision>,
stoprev: Revision,
}
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r41084 /// Lazy ancestors set, backed by AncestorsIterator
pub struct LazyAncestors<G: Graph + Clone> {
graph: G,
containsiter: AncestorsIterator<G>,
initrevs: Vec<Revision>,
stoprev: Revision,
inclusive: bool,
}
Georges Racinet
rust: translation of missingancestors...
r40995 pub struct MissingAncestors<G: Graph> {
graph: G,
bases: HashSet<Revision>,
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r41866 max_base: Revision,
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r40995 }
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r40307 impl<G: Graph> AncestorsIterator<G> {
/// Constructor.
///
/// if `inclusive` is true, then the init revisions are emitted in
/// particular, otherwise iteration starts from their parents.
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rust: use 'impl Trait' in method argument of AncestorsIterator...
r41138 pub fn new(
Georges Racinet
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r40307 graph: G,
Yuya Nishihara
rust: use 'impl Trait' in method argument of AncestorsIterator...
r41138 initrevs: impl IntoIterator<Item = Revision>,
Georges Racinet
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r40307 stoprev: Revision,
inclusive: bool,
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rust: use 'impl Trait' in method argument of AncestorsIterator...
r41138 ) -> Result<Self, GraphError> {
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r40307 let filtered_initrevs = initrevs.into_iter().filter(|&r| r >= stoprev);
if inclusive {
let visit: BinaryHeap<Revision> = filtered_initrevs.collect();
Raphaël Gomès
rust: do a clippy pass...
r45500 let seen = visit.iter().cloned().collect();
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r40307 return Ok(AncestorsIterator {
Raphaël Gomès
rust: do a clippy pass...
r45500 visit,
seen,
stoprev,
graph,
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r40307 });
}
let mut this = AncestorsIterator {
visit: BinaryHeap::new(),
seen: HashSet::new(),
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r45500 stoprev,
graph,
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r40307 };
this.seen.insert(NULL_REVISION);
for rev in filtered_initrevs {
Georges Racinet
rust: changed Graph.parents to return [Revision; 2]...
r40969 for parent in this.graph.parents(rev)?.iter().cloned() {
this.conditionally_push_rev(parent);
}
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r40307 }
Ok(this)
}
#[inline]
fn conditionally_push_rev(&mut self, rev: Revision) {
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r41863 if self.stoprev <= rev && self.seen.insert(rev) {
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r40307 self.visit.push(rev);
}
}
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r40336 /// Consumes partially the iterator to tell if the given target
/// revision
/// is in the ancestors it emits.
/// This is meant for iterators actually dedicated to that kind of
/// purpose
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r40898 pub fn contains(&mut self, target: Revision) -> Result<bool, GraphError> {
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r40336 if self.seen.contains(&target) && target != NULL_REVISION {
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r40898 return Ok(true);
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r40336 }
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r40898 for item in self {
let rev = item?;
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r40336 if rev == target {
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r40898 return Ok(true);
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r40336 }
if rev < target {
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r40898 return Ok(false);
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r40336 }
}
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r40898 Ok(false)
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r40336 }
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r41084
pub fn peek(&self) -> Option<Revision> {
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r45500 self.visit.peek().cloned()
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r41084 }
/// Tell if the iterator is about an empty set
///
/// The result does not depend whether the iterator has been consumed
/// or not.
/// This is mostly meant for iterators backing a lazy ancestors set
pub fn is_empty(&self) -> bool {
if self.visit.len() > 0 {
return false;
}
if self.seen.len() > 1 {
return false;
}
// at this point, the seen set is at most a singleton.
// If not `self.inclusive`, it's still possible that it has only
// the null revision
self.seen.is_empty() || self.seen.contains(&NULL_REVISION)
}
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r40307 }
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r41084 /// Main implementation for the iterator
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r40307 ///
/// The algorithm is the same as in `_lazyancestorsiter()` from `ancestors.py`
/// with a few non crucial differences:
///
/// - there's no filtering of invalid parent revisions. Actually, it should be
/// consistent and more efficient to filter them from the end caller.
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r40968 /// - we don't have the optimization for adjacent revisions (i.e., the case
/// where `p1 == rev - 1`), because it amounts to update the first element of
/// the heap without sifting, which Rust's BinaryHeap doesn't let us do.
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r40307 /// - we save a few pushes by comparing with `stoprev` before pushing
impl<G: Graph> Iterator for AncestorsIterator<G> {
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r40898 type Item = Result<Revision, GraphError>;
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r40307
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r40898 fn next(&mut self) -> Option<Self::Item> {
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r40847 let current = match self.visit.peek() {
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r40307 None => {
return None;
}
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r40847 Some(c) => *c,
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r40307 };
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r40969 let [p1, p2] = match self.graph.parents(current) {
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r40898 Ok(ps) => ps,
Err(e) => return Some(Err(e)),
};
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r41863 if p1 < self.stoprev || !self.seen.insert(p1) {
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r40847 self.visit.pop();
} else {
*(self.visit.peek_mut().unwrap()) = p1;
};
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rust: rename local variables in AncestorsIterator::next...
r40867 self.conditionally_push_rev(p2);
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r40898 Some(Ok(current))
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r40307 }
}
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r41084 impl<G: Graph + Clone> LazyAncestors<G> {
pub fn new(
graph: G,
initrevs: impl IntoIterator<Item = Revision>,
stoprev: Revision,
inclusive: bool,
) -> Result<Self, GraphError> {
let v: Vec<Revision> = initrevs.into_iter().collect();
Ok(LazyAncestors {
graph: graph.clone(),
containsiter: AncestorsIterator::new(
graph,
v.iter().cloned(),
stoprev,
inclusive,
)?,
initrevs: v,
Raphaël Gomès
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r45500 stoprev,
inclusive,
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r41084 })
}
pub fn contains(&mut self, rev: Revision) -> Result<bool, GraphError> {
self.containsiter.contains(rev)
}
pub fn is_empty(&self) -> bool {
self.containsiter.is_empty()
}
pub fn iter(&self) -> AncestorsIterator<G> {
// the arguments being the same as for self.containsiter, we know
// for sure that AncestorsIterator constructor can't fail
AncestorsIterator::new(
self.graph.clone(),
self.initrevs.iter().cloned(),
self.stoprev,
self.inclusive,
)
.unwrap()
}
}
Georges Racinet
rust: translation of missingancestors...
r40995 impl<G: Graph> MissingAncestors<G> {
pub fn new(graph: G, bases: impl IntoIterator<Item = Revision>) -> Self {
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r41866 let mut created = MissingAncestors {
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r45500 graph,
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r41866 bases: HashSet::new(),
max_base: NULL_REVISION,
};
created.add_bases(bases);
created
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r40995 }
pub fn has_bases(&self) -> bool {
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r41865 !self.bases.is_empty()
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rust: translation of missingancestors...
r40995 }
/// Return a reference to current bases.
///
/// This is useful in unit tests, but also setdiscovery.py does
/// read the bases attribute of a ancestor.missingancestors instance.
pub fn get_bases<'a>(&'a self) -> &'a HashSet<Revision> {
&self.bases
}
Georges Racinet
rust: MissingAncestors.basesheads()...
r41282 /// Computes the relative heads of current bases.
///
/// The object is still usable after this.
pub fn bases_heads(&self) -> Result<HashSet<Revision>, GraphError> {
dagops::heads(&self.graph, self.bases.iter())
}
/// Consumes the object and returns the relative heads of its bases.
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r41866 pub fn into_bases_heads(
mut self,
) -> Result<HashSet<Revision>, GraphError> {
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rust: MissingAncestors.basesheads()...
r41282 dagops::retain_heads(&self.graph, &mut self.bases)?;
Ok(self.bases)
}
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r41866 /// Add some revisions to `self.bases`
///
/// Takes care of keeping `self.max_base` up to date.
Georges Racinet
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r40995 pub fn add_bases(
&mut self,
new_bases: impl IntoIterator<Item = Revision>,
) {
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r41866 let mut max_base = self.max_base;
self.bases.extend(
new_bases
.into_iter()
.filter(|&rev| rev != NULL_REVISION)
.map(|r| {
if r > max_base {
max_base = r;
}
r
}),
);
self.max_base = max_base;
Georges Racinet
rust: translation of missingancestors...
r40995 }
/// Remove all ancestors of self.bases from the revs set (in place)
pub fn remove_ancestors_from(
&mut self,
revs: &mut HashSet<Revision>,
) -> Result<(), GraphError> {
revs.retain(|r| !self.bases.contains(r));
Georges Racinet
rust: stop putting NULL_REVISION in MissingAncestors.bases...
r41865 // the null revision is always an ancestor. Logically speaking
// it's debatable in case bases is empty, but the Python
// implementation always adds NULL_REVISION to bases, making it
// unconditionnally true.
Georges Racinet
rust: translation of missingancestors...
r40995 revs.remove(&NULL_REVISION);
if revs.is_empty() {
return Ok(());
}
// anything in revs > start is definitely not an ancestor of bases
// revs <= start need to be investigated
Georges Racinet
rust: itering less on MissingAncestors.bases for max()...
r41866 if self.max_base == NULL_REVISION {
return Ok(());
}
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rust: translation of missingancestors...
r40995 // whatever happens, we'll keep at least keepcount of them
// knowing this gives us a earlier stop condition than
// going all the way to the root
Georges Racinet
rust: itering less on MissingAncestors.bases for max()...
r41866 let keepcount = revs.iter().filter(|r| **r > self.max_base).count();
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r40995
Georges Racinet
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r41866 let mut curr = self.max_base;
Georges Racinet
rust: translation of missingancestors...
r40995 while curr != NULL_REVISION && revs.len() > keepcount {
if self.bases.contains(&curr) {
revs.remove(&curr);
self.add_parents(curr)?;
}
curr -= 1;
}
Ok(())
}
Georges Racinet
rust: itering less on MissingAncestors.bases for max()...
r41866 /// Add the parents of `rev` to `self.bases`
///
/// This has no effect on `self.max_base`
Georges Racinet
rust: translation of missingancestors...
r40995 #[inline]
fn add_parents(&mut self, rev: Revision) -> Result<(), GraphError> {
Georges Racinet
rust: itering less on MissingAncestors.bases for max()...
r41866 if rev == NULL_REVISION {
return Ok(());
}
Georges Racinet
rust: translation of missingancestors...
r40995 for p in self.graph.parents(rev)?.iter().cloned() {
Georges Racinet
rust: itering less on MissingAncestors.bases for max()...
r41866 // No need to bother the set with inserting NULL_REVISION over and
// over
Georges Racinet
rust: translation of missingancestors...
r40995 if p != NULL_REVISION {
self.bases.insert(p);
}
}
Ok(())
}
/// Return all the ancestors of revs that are not ancestors of self.bases
///
/// This may include elements from revs.
///
/// Equivalent to the revset (::revs - ::self.bases). Revs are returned in
/// revision number order, which is a topological order.
pub fn missing_ancestors(
&mut self,
revs: impl IntoIterator<Item = Revision>,
) -> Result<Vec<Revision>, GraphError> {
// just for convenience and comparison with Python version
let bases_visit = &mut self.bases;
let mut revs: HashSet<Revision> = revs
.into_iter()
.filter(|r| !bases_visit.contains(r))
.collect();
let revs_visit = &mut revs;
let mut both_visit: HashSet<Revision> =
revs_visit.intersection(&bases_visit).cloned().collect();
if revs_visit.is_empty() {
return Ok(Vec::new());
}
Georges Racinet
rust: itering less on MissingAncestors.bases for max()...
r41866 let max_revs = revs_visit.iter().cloned().max().unwrap();
let start = max(self.max_base, max_revs);
Georges Racinet
rust: translation of missingancestors...
r40995
// TODO heuristics for with_capacity()?
let mut missing: Vec<Revision> = Vec::new();
Yuya Nishihara
rust: use .rev() for reverse range...
r41137 for curr in (0..=start).rev() {
Georges Racinet
rust: translation of missingancestors...
r40995 if revs_visit.is_empty() {
break;
}
Georges Racinet
rust: less set lookups in MissingAncestors...
r41864 if both_visit.remove(&curr) {
Georges Racinet
rust: translation of missingancestors...
r40995 // curr's parents might have made it into revs_visit through
// another path
for p in self.graph.parents(curr)?.iter().cloned() {
if p == NULL_REVISION {
continue;
}
revs_visit.remove(&p);
bases_visit.insert(p);
both_visit.insert(p);
}
Yuya Nishihara
rust-ancestors: adjust branches and inline comments per previous change...
r41170 } else if revs_visit.remove(&curr) {
Yuya Nishihara
rust-ancestors: adjust indent level to make next change easier to follow
r41167 missing.push(curr);
for p in self.graph.parents(curr)?.iter().cloned() {
if p == NULL_REVISION {
continue;
}
Georges Racinet
rust: less set lookups in MissingAncestors...
r41864 if bases_visit.contains(&p) {
// p is already known to be an ancestor of revs_visit
revs_visit.remove(&p);
both_visit.insert(p);
} else if both_visit.contains(&p) {
// p should have been in bases_visit
Yuya Nishihara
rust-ancestors: adjust indent level to make next change easier to follow
r41167 revs_visit.remove(&p);
Georges Racinet
rust: translation of missingancestors...
r40995 bases_visit.insert(p);
Yuya Nishihara
rust-ancestors: adjust indent level to make next change easier to follow
r41167 } else {
// visit later
Yuya Nishihara
rust-ancestors: remove unreachable conditions from missing_ancestors()
r41169 revs_visit.insert(p);
Georges Racinet
rust: translation of missingancestors...
r40995 }
}
Yuya Nishihara
rust-ancestors: duplicate loop that visits parents of revs/bases...
r41168 } else if bases_visit.contains(&curr) {
for p in self.graph.parents(curr)?.iter().cloned() {
if p == NULL_REVISION {
continue;
}
Georges Racinet
rust: less set lookups in MissingAncestors...
r41864 if revs_visit.remove(&p) || both_visit.contains(&p) {
Yuya Nishihara
rust-ancestors: adjust branches and inline comments per previous change...
r41170 // p is an ancestor of bases_visit, and is implicitly
// in revs_visit, which means p is ::revs & ::bases.
Yuya Nishihara
rust-ancestors: duplicate loop that visits parents of revs/bases...
r41168 bases_visit.insert(p);
both_visit.insert(p);
} else {
Yuya Nishihara
rust-ancestors: remove unreachable conditions from missing_ancestors()
r41169 bases_visit.insert(p);
Yuya Nishihara
rust-ancestors: duplicate loop that visits parents of revs/bases...
r41168 }
}
Georges Racinet
rust: translation of missingancestors...
r40995 }
}
missing.reverse();
Ok(missing)
}
}
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 #[cfg(test)]
mod tests {
use super::*;
Georges Racinet
rust: factorized testing Graphs...
r41277 use crate::testing::{SampleGraph, VecGraph};
Georges Racinet
rust: translation of missingancestors...
r40995 use std::iter::FromIterator;
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307
fn list_ancestors<G: Graph>(
graph: G,
initrevs: Vec<Revision>,
stoprev: Revision,
inclusive: bool,
) -> Vec<Revision> {
AncestorsIterator::new(graph, initrevs, stoprev, inclusive)
.unwrap()
Georges Racinet
rust: adapted hg-core tests for iteration over Result...
r40965 .map(|res| res.unwrap())
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 .collect()
}
#[test]
/// Same tests as test-ancestor.py, without membership
/// (see also test-ancestor.py.out)
fn test_list_ancestor() {
Georges Racinet
rust: factorized testing Graphs...
r41277 assert_eq!(list_ancestors(SampleGraph, vec![], 0, false), vec![]);
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 assert_eq!(
Georges Racinet
rust: factorized testing Graphs...
r41277 list_ancestors(SampleGraph, vec![11, 13], 0, false),
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 vec![8, 7, 4, 3, 2, 1, 0]
);
assert_eq!(
Georges Racinet
rust: factorized testing Graphs...
r41277 list_ancestors(SampleGraph, vec![1, 3], 0, false),
vec![1, 0]
);
assert_eq!(
list_ancestors(SampleGraph, vec![11, 13], 0, true),
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 vec![13, 11, 8, 7, 4, 3, 2, 1, 0]
);
assert_eq!(
Georges Racinet
rust: factorized testing Graphs...
r41277 list_ancestors(SampleGraph, vec![11, 13], 6, false),
vec![8, 7]
);
assert_eq!(
list_ancestors(SampleGraph, vec![11, 13], 6, true),
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 vec![13, 11, 8, 7]
);
Georges Racinet
rust: factorized testing Graphs...
r41277 assert_eq!(
list_ancestors(SampleGraph, vec![11, 13], 11, true),
vec![13, 11]
);
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 assert_eq!(
Georges Racinet
rust: factorized testing Graphs...
r41277 list_ancestors(SampleGraph, vec![11, 13], 12, true),
vec![13]
);
assert_eq!(
list_ancestors(SampleGraph, vec![10, 1], 0, true),
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 vec![10, 5, 4, 2, 1, 0]
);
}
#[test]
/// Corner case that's not directly in test-ancestors.py, but
/// that happens quite often, as demonstrated by running the whole
/// suite.
/// For instance, run tests/test-obsolete-checkheads.t
fn test_nullrev_input() {
let mut iter =
Georges Racinet
rust: factorized testing Graphs...
r41277 AncestorsIterator::new(SampleGraph, vec![-1], 0, false).unwrap();
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 assert_eq!(iter.next(), None)
}
Georges Racinet
rust: rustlazyancestors.__contains__...
r40336 #[test]
fn test_contains() {
let mut lazy =
Georges Racinet
rust: factorized testing Graphs...
r41277 AncestorsIterator::new(SampleGraph, vec![10, 1], 0, true).unwrap();
Georges Racinet
rust: adapted hg-core tests for iteration over Result...
r40965 assert!(lazy.contains(1).unwrap());
assert!(!lazy.contains(3).unwrap());
Georges Racinet
rust: rustlazyancestors.__contains__...
r40336
let mut lazy =
Georges Racinet
rust: factorized testing Graphs...
r41277 AncestorsIterator::new(SampleGraph, vec![0], 0, false).unwrap();
Georges Racinet
rust: adapted hg-core tests for iteration over Result...
r40965 assert!(!lazy.contains(NULL_REVISION).unwrap());
Georges Racinet
rust: rustlazyancestors.__contains__...
r40336 }
Georges Racinet
rust: core implementation for lazyancestors...
r41084 #[test]
fn test_peek() {
let mut iter =
Georges Racinet
rust: factorized testing Graphs...
r41277 AncestorsIterator::new(SampleGraph, vec![10], 0, true).unwrap();
Georges Racinet
rust: core implementation for lazyancestors...
r41084 // peek() gives us the next value
assert_eq!(iter.peek(), Some(10));
// but it's not been consumed
assert_eq!(iter.next(), Some(Ok(10)));
// and iteration resumes normally
assert_eq!(iter.next(), Some(Ok(5)));
// let's drain the iterator to test peek() at the end
while iter.next().is_some() {}
assert_eq!(iter.peek(), None);
}
#[test]
fn test_empty() {
let mut iter =
Georges Racinet
rust: factorized testing Graphs...
r41277 AncestorsIterator::new(SampleGraph, vec![10], 0, true).unwrap();
Georges Racinet
rust: core implementation for lazyancestors...
r41084 assert!(!iter.is_empty());
while iter.next().is_some() {}
assert!(!iter.is_empty());
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rust: factorized testing Graphs...
r41277 let iter =
AncestorsIterator::new(SampleGraph, vec![], 0, true).unwrap();
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rust: core implementation for lazyancestors...
r41084 assert!(iter.is_empty());
// case where iter.seen == {NULL_REVISION}
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r41277 let iter =
AncestorsIterator::new(SampleGraph, vec![0], 0, false).unwrap();
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rust: core implementation for lazyancestors...
r41084 assert!(iter.is_empty());
}
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rust: pure Rust lazyancestors iterator...
r40307 /// A corrupted Graph, supporting error handling tests
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r41084 #[derive(Clone, Debug)]
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r40307 struct Corrupted;
impl Graph for Corrupted {
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rust: changed Graph.parents to return [Revision; 2]...
r40969 fn parents(&self, rev: Revision) -> Result<[Revision; 2], GraphError> {
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rust: pure Rust lazyancestors iterator...
r40307 match rev {
Georges Racinet
rust: changed Graph.parents to return [Revision; 2]...
r40969 1 => Ok([0, -1]),
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rust: pure Rust lazyancestors iterator...
r40307 r => Err(GraphError::ParentOutOfRange(r)),
}
}
}
#[test]
fn test_initrev_out_of_range() {
// inclusive=false looks up initrev's parents right away
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rust: factorized testing Graphs...
r41277 match AncestorsIterator::new(SampleGraph, vec![25], 0, false) {
Georges Racinet
rust: pure Rust lazyancestors iterator...
r40307 Ok(_) => panic!("Should have been ParentOutOfRange"),
Err(e) => assert_eq!(e, GraphError::ParentOutOfRange(25)),
}
}
#[test]
fn test_next_out_of_range() {
// inclusive=false looks up initrev's parents right away
let mut iter =
AncestorsIterator::new(Corrupted, vec![1], 0, false).unwrap();
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rust: adapted hg-core tests for iteration over Result...
r40965 assert_eq!(iter.next(), Some(Err(GraphError::ParentOutOfRange(0))));
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r40307 }
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rust: translation of missingancestors...
r40995
#[test]
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r41084 fn test_lazy_iter_contains() {
let mut lazy =
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rust: factorized testing Graphs...
r41277 LazyAncestors::new(SampleGraph, vec![11, 13], 0, false).unwrap();
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rust: core implementation for lazyancestors...
r41084
let revs: Vec<Revision> = lazy.iter().map(|r| r.unwrap()).collect();
// compare with iterator tests on the same initial revisions
assert_eq!(revs, vec![8, 7, 4, 3, 2, 1, 0]);
// contains() results are correct, unaffected by the fact that
// we consumed entirely an iterator out of lazy
assert_eq!(lazy.contains(2), Ok(true));
assert_eq!(lazy.contains(9), Ok(false));
}
#[test]
fn test_lazy_contains_iter() {
let mut lazy =
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rust: factorized testing Graphs...
r41277 LazyAncestors::new(SampleGraph, vec![11, 13], 0, false).unwrap(); // reminder: [8, 7, 4, 3, 2, 1, 0]
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rust: core implementation for lazyancestors...
r41084
assert_eq!(lazy.contains(2), Ok(true));
assert_eq!(lazy.contains(6), Ok(false));
// after consumption of 2 by the inner iterator, results stay
// consistent
assert_eq!(lazy.contains(2), Ok(true));
assert_eq!(lazy.contains(5), Ok(false));
// iter() still gives us a fresh iterator
let revs: Vec<Revision> = lazy.iter().map(|r| r.unwrap()).collect();
assert_eq!(revs, vec![8, 7, 4, 3, 2, 1, 0]);
}
#[test]
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rust: MissingAncestors.basesheads()...
r41282 /// Test constructor, add/get bases and heads
fn test_missing_bases() -> Result<(), GraphError> {
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rust: translation of missingancestors...
r40995 let mut missing_ancestors =
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rust: factorized testing Graphs...
r41277 MissingAncestors::new(SampleGraph, [5, 3, 1, 3].iter().cloned());
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rust: translation of missingancestors...
r40995 let mut as_vec: Vec<Revision> =
missing_ancestors.get_bases().iter().cloned().collect();
as_vec.sort();
assert_eq!(as_vec, [1, 3, 5]);
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rust: itering less on MissingAncestors.bases for max()...
r41866 assert_eq!(missing_ancestors.max_base, 5);
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rust: translation of missingancestors...
r40995
missing_ancestors.add_bases([3, 7, 8].iter().cloned());
as_vec = missing_ancestors.get_bases().iter().cloned().collect();
as_vec.sort();
assert_eq!(as_vec, [1, 3, 5, 7, 8]);
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r41866 assert_eq!(missing_ancestors.max_base, 8);
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rust: MissingAncestors.basesheads()...
r41282
as_vec = missing_ancestors.bases_heads()?.iter().cloned().collect();
as_vec.sort();
assert_eq!(as_vec, [3, 5, 7, 8]);
Ok(())
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rust: translation of missingancestors...
r40995 }
fn assert_missing_remove(
bases: &[Revision],
revs: &[Revision],
expected: &[Revision],
) {
let mut missing_ancestors =
Georges Racinet
rust: factorized testing Graphs...
r41277 MissingAncestors::new(SampleGraph, bases.iter().cloned());
Georges Racinet
rust: translation of missingancestors...
r40995 let mut revset: HashSet<Revision> = revs.iter().cloned().collect();
missing_ancestors
.remove_ancestors_from(&mut revset)
.unwrap();
let mut as_vec: Vec<Revision> = revset.into_iter().collect();
as_vec.sort();
assert_eq!(as_vec.as_slice(), expected);
}
#[test]
fn test_missing_remove() {
assert_missing_remove(
&[1, 2, 3, 4, 7],
Vec::from_iter(1..10).as_slice(),
&[5, 6, 8, 9],
);
assert_missing_remove(&[10], &[11, 12, 13, 14], &[11, 12, 13, 14]);
assert_missing_remove(&[7], &[1, 2, 3, 4, 5], &[3, 5]);
}
fn assert_missing_ancestors(
bases: &[Revision],
revs: &[Revision],
expected: &[Revision],
) {
let mut missing_ancestors =
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rust: factorized testing Graphs...
r41277 MissingAncestors::new(SampleGraph, bases.iter().cloned());
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rust: translation of missingancestors...
r40995 let missing = missing_ancestors
.missing_ancestors(revs.iter().cloned())
.unwrap();
assert_eq!(missing.as_slice(), expected);
}
#[test]
fn test_missing_ancestors() {
// examples taken from test-ancestors.py by having it run
// on the same graph (both naive and fast Python algs)
assert_missing_ancestors(&[10], &[11], &[3, 7, 11]);
assert_missing_ancestors(&[11], &[10], &[5, 10]);
assert_missing_ancestors(&[7], &[9, 11], &[3, 6, 9, 11]);
}
/// An interesting case found by a random generator similar to
/// the one in test-ancestor.py. An early version of Rust MissingAncestors
/// failed this, yet none of the integration tests of the whole suite
/// catched it.
#[test]
fn test_remove_ancestors_from_case1() {
let graph: VecGraph = vec![
[NULL_REVISION, NULL_REVISION],
[0, NULL_REVISION],
[1, 0],
[2, 1],
[3, NULL_REVISION],
[4, NULL_REVISION],
[5, 1],
[2, NULL_REVISION],
[7, NULL_REVISION],
[8, NULL_REVISION],
[9, NULL_REVISION],
[10, 1],
[3, NULL_REVISION],
[12, NULL_REVISION],
[13, NULL_REVISION],
[14, NULL_REVISION],
[4, NULL_REVISION],
[16, NULL_REVISION],
[17, NULL_REVISION],
[18, NULL_REVISION],
[19, 11],
[20, NULL_REVISION],
[21, NULL_REVISION],
[22, NULL_REVISION],
[23, NULL_REVISION],
[2, NULL_REVISION],
[3, NULL_REVISION],
[26, 24],
[27, NULL_REVISION],
[28, NULL_REVISION],
[12, NULL_REVISION],
[1, NULL_REVISION],
[1, 9],
[32, NULL_REVISION],
[33, NULL_REVISION],
[34, 31],
[35, NULL_REVISION],
[36, 26],
[37, NULL_REVISION],
[38, NULL_REVISION],
[39, NULL_REVISION],
[40, NULL_REVISION],
[41, NULL_REVISION],
[42, 26],
[0, NULL_REVISION],
[44, NULL_REVISION],
[45, 4],
[40, NULL_REVISION],
[47, NULL_REVISION],
[36, 0],
[49, NULL_REVISION],
[NULL_REVISION, NULL_REVISION],
[51, NULL_REVISION],
[52, NULL_REVISION],
[53, NULL_REVISION],
[14, NULL_REVISION],
[55, NULL_REVISION],
[15, NULL_REVISION],
[23, NULL_REVISION],
[58, NULL_REVISION],
[59, NULL_REVISION],
[2, NULL_REVISION],
[61, 59],
[62, NULL_REVISION],
[63, NULL_REVISION],
[NULL_REVISION, NULL_REVISION],
[65, NULL_REVISION],
[66, NULL_REVISION],
[67, NULL_REVISION],
[68, NULL_REVISION],
[37, 28],
[69, 25],
[71, NULL_REVISION],
[72, NULL_REVISION],
[50, 2],
[74, NULL_REVISION],
[12, NULL_REVISION],
[18, NULL_REVISION],
[77, NULL_REVISION],
[78, NULL_REVISION],
[79, NULL_REVISION],
[43, 33],
[81, NULL_REVISION],
[82, NULL_REVISION],
[83, NULL_REVISION],
[84, 45],
[85, NULL_REVISION],
[86, NULL_REVISION],
[NULL_REVISION, NULL_REVISION],
[88, NULL_REVISION],
[NULL_REVISION, NULL_REVISION],
[76, 83],
[44, NULL_REVISION],
[92, NULL_REVISION],
[93, NULL_REVISION],
[9, NULL_REVISION],
[95, 67],
[96, NULL_REVISION],
[97, NULL_REVISION],
[NULL_REVISION, NULL_REVISION],
];
let problem_rev = 28 as Revision;
let problem_base = 70 as Revision;
// making the problem obvious: problem_rev is a parent of problem_base
assert_eq!(graph.parents(problem_base).unwrap()[1], problem_rev);
let mut missing_ancestors: MissingAncestors<VecGraph> =
MissingAncestors::new(
graph,
[60, 26, 70, 3, 96, 19, 98, 49, 97, 47, 1, 6]
.iter()
.cloned(),
);
assert!(missing_ancestors.bases.contains(&problem_base));
let mut revs: HashSet<Revision> =
[4, 12, 41, 28, 68, 38, 1, 30, 56, 44]
.iter()
.cloned()
.collect();
missing_ancestors.remove_ancestors_from(&mut revs).unwrap();
assert!(!revs.contains(&problem_rev));
}
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rust: pure Rust lazyancestors iterator...
r40307 }