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