Mercurial > hg
view mercurial/stabletailgraph/stabletailsort.py @ 50863:264072107105
rust-status: error on non-existent files in file_set
file_set here consists of the files that were explicitly specified on
the command line. Erroring on them matches the behavior of Python
status.
author | Spencer Baugh <sbaugh@janestreet.com> |
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date | Wed, 02 Aug 2023 10:21:18 -0400 |
parents | 8fb3e942473a |
children | 1c5810ce737e |
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# stabletailsort.py - stable ordering of revisions # # Copyright 2021-2023 Pacien TRAN-GIRARD <pacien.trangirard@pacien.net> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. """ Stable-tail sort computation. The "stable-tail sort", or STS, is a reverse topological ordering of the ancestors of a node, which tends to share large suffixes with the stable-tail sort of ancestors and other nodes, giving it its name. Its properties should make it suitable for making chunks of ancestors with high reuse and incrementality for example. This module and implementation are experimental. Most functions are not yet optimised to operate on large production graphs. """ import itertools from ..node import nullrev from .. import ancestor def _sorted_parents(cl, p1, p2): """ Chooses and returns the pair (px, pt) from (p1, p2). Where "px" denotes the parent starting the "exclusive" part, and "pt" denotes the parent starting the "Tail" part. "px" is chosen as the parent with the lowest rank with the goal of minimising the size of the exclusive part and maximise the size of the tail part, hopefully reducing the overall complexity of the stable-tail sort. In case of equal ranks, the stable node ID is used as a tie-breaker. """ r1, r2 = cl.fast_rank(p1), cl.fast_rank(p2) if r1 < r2: return (p1, p2) elif r1 > r2: return (p2, p1) elif cl.node(p1) < cl.node(p2): return (p1, p2) else: return (p2, p1) def _nonoedipal_parent_revs(cl, rev): """ Returns the non-œdipal parent pair of the given revision. An œdipal merge is a merge with parents p1, p2 with either p1 in ancestors(p2) or p2 in ancestors(p1). In the first case, p1 is the œdipal parent. In the second case, p2 is the œdipal parent. Œdipal edges start empty exclusive parts. They do not bring new ancestors. As such, they can be skipped when computing any topological sort or any iteration over the ancestors of a node. The œdipal edges are eliminated here using the rank information. """ p1, p2 = cl.parentrevs(rev) if p1 == nullrev or cl.fast_rank(p2) == cl.fast_rank(rev) - 1: return p2, nullrev elif p2 == nullrev or cl.fast_rank(p1) == cl.fast_rank(rev) - 1: return p1, nullrev else: return p1, p2 def _parents(cl, rev): p1, p2 = _nonoedipal_parent_revs(cl, rev) if p2 == nullrev: return p1, p2 return _sorted_parents(cl, p1, p2) def _stable_tail_sort_naive(cl, head_rev): """ Naive topological iterator of the ancestors given by the stable-tail sort. The stable-tail sort of a node "h" is defined as the sequence: sts(h) := [h] + excl(h) + sts(pt(h)) where excl(h) := u for u in sts(px(h)) if u not in ancestors(pt(h)) This implementation uses a call-stack whose size is O(number of open merges). As such, this implementation exists mainly as a defining reference. """ cursor_rev = head_rev while cursor_rev != nullrev: yield cursor_rev px, pt = _parents(cl, cursor_rev) if pt == nullrev: cursor_rev = px else: tail_ancestors = ancestor.lazyancestors( cl.parentrevs, (pt,), inclusive=True ) exclusive_ancestors = ( a for a in _stable_tail_sort_naive(cl, px) if a not in tail_ancestors ) # Notice that excl(cur) is disjoint from ancestors(pt), # so there is no double-counting: # rank(cur) = len([cur]) + len(excl(cur)) + rank(pt) excl_part_size = cl.fast_rank(cursor_rev) - cl.fast_rank(pt) - 1 yield from itertools.islice(exclusive_ancestors, excl_part_size) cursor_rev = pt def _find_all_leaps_naive(cl, head_rev): """ Yields the leaps in the stable-tail sort of the given revision. A leap is a pair of revisions (source, target) consecutive in the stable-tail sort of a head, for which target != px(source). Leaps are yielded in the same order as encountered in the stable-tail sort, from head to root. """ sts = _stable_tail_sort_naive(cl, head_rev) prev = next(sts) for current in sts: if current != _parents(cl, prev)[0]: yield (prev, current) prev = current def _find_specific_leaps_naive(cl, head_rev): """ Returns the specific leaps in the stable-tail sort of the given revision. Specific leaps are leaps appear in the stable-tail sort of a given revision, but not in the stable-tail sort of any of its ancestors. The final leaps (leading to the pt of the considered merge) are omitted. Only merge nodes can have associated specific leaps. This implementations uses the whole leap sets of the given revision and of its parents. """ px, pt = _parents(cl, head_rev) if px == nullrev or pt == nullrev: return # linear nodes cannot have specific leaps parents_leaps = set(_find_all_leaps_naive(cl, px)) sts = _stable_tail_sort_naive(cl, head_rev) prev = next(sts) for current in sts: if current == pt: break if current != _parents(cl, prev)[0]: leap = (prev, current) if leap not in parents_leaps: yield leap prev = current