interfaces: introduce and use a protocol class for the `charencoding` module
See
f2832de2a46c for details when this was done for the `bdiff` module.
This lets us dump the hack where the `pure` implementation was imported during
the type checking phase to provide signatures for the module methods it
provides. Now the protocol classes are starting to shine, because these methods
are provided by `pure.charencoding` and `cext.parsers`, and references to
`cffi.charencoding` and `cext.charencoding` are forwarded to them as appropriate
by the `policy` module. But none of that matters, as long as the module
returned provides the listed methods.
The interface was copy/pasted from the `pure` module, but `jsonescapeu8fallback`
is omitted because it is accessed from the `pure` module directly when the
escaping fails in the primary module's `jsonescapeu8()`.
"""revset to select sample of repository
Hopefully this is useful to create interesting discovery cases.
"""
import collections
import random
from mercurial.i18n import _
from mercurial import (
registrar,
revset,
revsetlang,
smartset,
)
import sortedcontainers
SortedSet = sortedcontainers.SortedSet
revsetpredicate = registrar.revsetpredicate()
@revsetpredicate(b'subsetspec("<spec>")')
def subsetmarkerspec(repo, subset, x):
"""use a shorthand spec as used by search-discovery-case
Supported format are:
- "scratch-count-seed": not scratch(all(), count, "seed")
- "randomantichain-seed": ::randomantichain(all(), "seed")
- "rev-REV": "::REV"
"""
args = revsetlang.getargs(
x, 0, 1, _(b'subsetspec("spec") required an argument')
)
spec = revsetlang.getstring(args[0], _(b"spec should be a string"))
case = spec.split(b'-')
t = case[0]
if t == b'scratch':
spec_revset = b'not scratch(all(), %s, "%s")' % (case[1], case[2])
elif t == b'randomantichain':
spec_revset = b'::randomantichain(all(), "%s")' % case[1]
elif t == b'rev':
spec_revset = b'::%d' % case[1]
else:
assert False, spec
selected = repo.revs(spec_revset)
return selected & subset
@revsetpredicate(b'scratch(REVS, <count>, [seed])')
def scratch(repo, subset, x):
"""randomly remove <count> revision from the repository top
This subset is created by recursively picking changeset starting from the
heads. It can be summarized using the following algorithm::
selected = set()
for i in range(<count>):
unselected = repo.revs("not <selected>")
candidates = repo.revs("heads(<unselected>)")
pick = random.choice(candidates)
selected.add(pick)
"""
m = _(b"scratch expects revisions, count argument and an optional seed")
args = revsetlang.getargs(x, 2, 3, m)
if len(args) == 2:
x, n = args
rand = random
elif len(args) == 3:
x, n, seed = args
seed = revsetlang.getinteger(seed, _(b"seed should be a number"))
rand = random.Random(seed)
else:
assert False
n = revsetlang.getinteger(n, _(b"scratch expects a number"))
selected = set()
heads = SortedSet()
children_count = collections.defaultdict(lambda: 0)
parents = repo.changelog._uncheckedparentrevs
baseset = revset.getset(repo, smartset.fullreposet(repo), x)
baseset.sort()
for r in baseset:
heads.add(r)
p1, p2 = parents(r)
if p1 >= 0:
heads.discard(p1)
children_count[p1] += 1
if p2 >= 0:
heads.discard(p2)
children_count[p2] += 1
for h in heads:
assert children_count[h] == 0
selected = set()
for x in range(n):
if not heads:
break
pick = rand.choice(heads)
heads.remove(pick)
assert pick not in selected
selected.add(pick)
p1, p2 = parents(pick)
if p1 in children_count:
assert p1 in children_count
children_count[p1] -= 1
assert children_count[p1] >= 0
if children_count[p1] == 0:
assert p1 not in selected, (r, p1)
heads.add(p1)
if p2 in children_count:
assert p2 in children_count
children_count[p2] -= 1
assert children_count[p2] >= 0
if children_count[p2] == 0:
assert p2 not in selected, (r, p2)
heads.add(p2)
return smartset.baseset(selected) & subset
@revsetpredicate(b'randomantichain(REVS, [seed])')
def antichain(repo, subset, x):
"""Pick a random anti-chain in the repository
A antichain is a set of changeset where there isn't any element that is
either a descendant or ancestors of any other element in the set. In other
word, all the elements are independant. It can be summarized with the
following algorithm::
selected = set()
unselected = repo.revs('all()')
while unselected:
pick = random.choice(unselected)
selected.add(pick)
unselected -= repo.revs('::<pick> + <pick>::')
"""
args = revsetlang.getargs(
x, 1, 2, _(b"randomantichain expects revisions and an optional seed")
)
if len(args) == 1:
(x,) = args
rand = random
elif len(args) == 2:
x, seed = args
seed = revsetlang.getinteger(seed, _(b"seed should be a number"))
rand = random.Random(seed)
else:
assert False
cl = repo.changelog
# We already have cheap access to the parent mapping.
# However, we need to build a mapping of the children mapping
parents = repo.changelog._uncheckedparentrevs
children_map = collections.defaultdict(list)
for r in cl:
p1, p2 = parents(r)
if p1 >= 0:
children_map[p1].append(r)
if p2 >= 0:
children_map[p2].append(r)
children = children_map.__getitem__
selected = set()
undecided = SortedSet(cl)
while undecided:
# while there is "undecided content", we pick a random changeset X
# and we remove anything in `::X + X::` from undecided content
pick = rand.choice(undecided)
selected.add(pick)
undecided.remove(pick)
ancestors = set(p for p in parents(pick) if p in undecided)
descendants = set(c for c in children(pick) if c in undecided)
while ancestors:
current = ancestors.pop()
undecided.remove(current)
for p in parents(current):
if p in undecided:
ancestors.add(p)
while descendants:
current = descendants.pop()
undecided.remove(current)
for p in children(current):
if p in undecided:
ancestors.add(p)
return smartset.baseset(selected) & subset