##// END OF EJS Templates
dirstate: expose a sparse matcher on dirstate (API)...
dirstate: expose a sparse matcher on dirstate (API) The sparse extension performs a lot of monkeypatching of dirstate to make it sparse aware. Essentially, various operations need to take the active sparse config into account. They do this by obtaining a matcher representing the sparse config and filtering paths through it. The monkeypatching is done by stuffing a reference to a repo on dirstate and calling sparse.matcher() (which takes a repo instance) during each function call. The reason this function takes a repo instance is because resolving the sparse config may require resolving file contents from filelogs, and that requires a repo. (If the current sparse config references "profile" files, the contents of those files from the dirstate's parent revisions is resolved.) I seem to recall people having strong opinions that the dirstate object not have a reference to a repo. So copying what the sparse extension does probably won't fly in core. Plus, the dirstate modifications shouldn't require a full repo: they only need a matcher. So there's no good reason to stuff a reference to the repo in dirstate. This commit exposes a sparse matcher to dirstate via a property that when looked up will call a function that eventually calls sparse.matcher(). The repo instance is bound in a closure, so it isn't exposed to dirstate. This approach is functionally similar to what the sparse extension does today, except it hides the repo instance from dirstate. The approach is not optimal because we have to call a proxy function and sparse.matcher() on every property lookup. There is room to cache the matcher instance in dirstate. After all, the matcher only changes if the dirstate's parents change or if the sparse config changes. It feels like we should be able to detect both events and update the matcher when this occurs. But for now we preserve the existing semantics so we can move the dirstate sparseness bits into core. Once in core, refactoring becomes a bit easier since it will be clearer how all these components interact. The sparse extension has been updated to use the new property. Because all references to the repo on dirstate have been removed, the code for setting it has been removed.

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dagop.py
497 lines | 18.5 KiB | text/x-python | PythonLexer
Yuya Nishihara
dagop: split module hosting DAG-related algorithms from revset...
r32903 # dagop.py - graph ancestry and topology algorithm for revset
#
# Copyright 2010 Matt Mackall <mpm@selenic.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
from __future__ import absolute_import
import heapq
from . import (
error,
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r32904 mdiff,
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r32903 node,
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r32904 patch,
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r32903 smartset,
)
baseset = smartset.baseset
generatorset = smartset.generatorset
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r33002 # possible maximum depth between null and wdir()
_maxlogdepth = 0x80000000
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r33079 def _walkrevtree(pfunc, revs, startdepth, stopdepth, reverse):
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r33078 """Walk DAG using 'pfunc' from the given 'revs' nodes
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r33079 'pfunc(rev)' should return the parent/child revisions of the given 'rev'
if 'reverse' is True/False respectively.
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r33078
Scan ends at the stopdepth (exlusive) if specified. Revisions found
earlier than the startdepth are omitted.
"""
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r33003 if startdepth is None:
startdepth = 0
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r33002 if stopdepth is None:
stopdepth = _maxlogdepth
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r33027 if stopdepth == 0:
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r33002 return
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r33027 if stopdepth < 0:
raise error.ProgrammingError('negative stopdepth')
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r33079 if reverse:
heapsign = -1 # max heap
else:
heapsign = +1 # min heap
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r33002
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r32998 # load input revs lazily to heap so earlier revisions can be yielded
# without fully computing the input revs
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r33079 revs.sort(reverse)
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r32997 irevs = iter(revs)
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r33079 pendingheap = [] # [(heapsign * rev, depth), ...] (i.e. lower depth first)
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r32903
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r32997 inputrev = next(irevs, None)
if inputrev is not None:
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r33079 heapq.heappush(pendingheap, (heapsign * inputrev, 0))
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r32903
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r33000 lastrev = None
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r32999 while pendingheap:
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r33001 currev, curdepth = heapq.heappop(pendingheap)
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r33079 currev = heapsign * currev
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r32999 if currev == inputrev:
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r32997 inputrev = next(irevs, None)
if inputrev is not None:
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r33079 heapq.heappush(pendingheap, (heapsign * inputrev, 0))
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r33003 # rescan parents until curdepth >= startdepth because queued entries
# of the same revision are iterated from the lowest depth
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r33002 foundnew = (currev != lastrev)
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r33003 if foundnew and curdepth >= startdepth:
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r33000 lastrev = currev
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r32999 yield currev
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r33002 pdepth = curdepth + 1
if foundnew and pdepth < stopdepth:
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r33077 for prev in pfunc(currev):
if prev != node.nullrev:
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r33079 heapq.heappush(pendingheap, (heapsign * prev, pdepth))
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r32903
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r33078 def _genrevancestors(repo, revs, followfirst, startdepth, stopdepth):
if followfirst:
cut = 1
else:
cut = None
cl = repo.changelog
def pfunc(rev):
try:
return cl.parentrevs(rev)[:cut]
except error.WdirUnsupported:
return (pctx.rev() for pctx in repo[rev].parents()[:cut])
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r33079 return _walkrevtree(pfunc, revs, startdepth, stopdepth, reverse=True)
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r33078
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r33003 def revancestors(repo, revs, followfirst, startdepth=None, stopdepth=None):
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r33002 """Like revlog.ancestors(), but supports additional options, includes
the given revs themselves, and returns a smartset
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r33003 Scan ends at the stopdepth (exlusive) if specified. Revisions found
earlier than the startdepth are omitted.
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r33002 """
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r33003 gen = _genrevancestors(repo, revs, followfirst, startdepth, stopdepth)
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r32997 return generatorset(gen, iterasc=False)
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r33073 def _genrevdescendants(repo, revs, followfirst):
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r32903 if followfirst:
cut = 1
else:
cut = None
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r33073 cl = repo.changelog
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r33076 first = revs.min()
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r33073 nullrev = node.nullrev
if first == nullrev:
# Are there nodes with a null first parent and a non-null
# second one? Maybe. Do we care? Probably not.
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r33075 yield first
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r33073 for i in cl:
yield i
else:
seen = set(revs)
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r33075 for i in cl.revs(first):
if i in seen:
yield i
continue
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r33073 for x in cl.parentrevs(i)[:cut]:
if x != nullrev and x in seen:
seen.add(i)
yield i
break
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r32903
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r33080 def _builddescendantsmap(repo, startrev, followfirst):
"""Build map of 'rev -> child revs', offset from startrev"""
cl = repo.changelog
nullrev = node.nullrev
descmap = [[] for _rev in xrange(startrev, len(cl))]
for currev in cl.revs(startrev + 1):
p1rev, p2rev = cl.parentrevs(currev)
if p1rev >= startrev:
descmap[p1rev - startrev].append(currev)
if not followfirst and p2rev != nullrev and p2rev >= startrev:
descmap[p2rev - startrev].append(currev)
return descmap
def _genrevdescendantsofdepth(repo, revs, followfirst, startdepth, stopdepth):
startrev = revs.min()
descmap = _builddescendantsmap(repo, startrev, followfirst)
def pfunc(rev):
return descmap[rev - startrev]
return _walkrevtree(pfunc, revs, startdepth, stopdepth, reverse=False)
def revdescendants(repo, revs, followfirst, startdepth=None, stopdepth=None):
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r33075 """Like revlog.descendants() but supports additional options, includes
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r33080 the given revs themselves, and returns a smartset
Scan ends at the stopdepth (exlusive) if specified. Revisions found
earlier than the startdepth are omitted.
"""
if startdepth is None and stopdepth is None:
gen = _genrevdescendants(repo, revs, followfirst)
else:
gen = _genrevdescendantsofdepth(repo, revs, followfirst,
startdepth, stopdepth)
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r33073 return generatorset(gen, iterasc=True)
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r32903
def _reachablerootspure(repo, minroot, roots, heads, includepath):
"""return (heads(::<roots> and ::<heads>))
If includepath is True, return (<roots>::<heads>)."""
if not roots:
return []
parentrevs = repo.changelog.parentrevs
roots = set(roots)
visit = list(heads)
reachable = set()
seen = {}
# prefetch all the things! (because python is slow)
reached = reachable.add
dovisit = visit.append
nextvisit = visit.pop
# open-code the post-order traversal due to the tiny size of
# sys.getrecursionlimit()
while visit:
rev = nextvisit()
if rev in roots:
reached(rev)
if not includepath:
continue
parents = parentrevs(rev)
seen[rev] = parents
for parent in parents:
if parent >= minroot and parent not in seen:
dovisit(parent)
if not reachable:
return baseset()
if not includepath:
return reachable
for rev in sorted(seen):
for parent in seen[rev]:
if parent in reachable:
reached(rev)
return reachable
def reachableroots(repo, roots, heads, includepath=False):
"""return (heads(::<roots> and ::<heads>))
If includepath is True, return (<roots>::<heads>)."""
if not roots:
return baseset()
minroot = roots.min()
roots = list(roots)
heads = list(heads)
try:
revs = repo.changelog.reachableroots(minroot, heads, roots, includepath)
except AttributeError:
revs = _reachablerootspure(repo, minroot, roots, heads, includepath)
revs = baseset(revs)
revs.sort()
return revs
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r32904 def _changesrange(fctx1, fctx2, linerange2, diffopts):
"""Return `(diffinrange, linerange1)` where `diffinrange` is True
if diff from fctx2 to fctx1 has changes in linerange2 and
`linerange1` is the new line range for fctx1.
"""
blocks = mdiff.allblocks(fctx1.data(), fctx2.data(), diffopts)
filteredblocks, linerange1 = mdiff.blocksinrange(blocks, linerange2)
diffinrange = any(stype == '!' for _, stype in filteredblocks)
return diffinrange, linerange1
def blockancestors(fctx, fromline, toline, followfirst=False):
"""Yield ancestors of `fctx` with respect to the block of lines within
`fromline`-`toline` range.
"""
diffopts = patch.diffopts(fctx._repo.ui)
introrev = fctx.introrev()
if fctx.rev() != introrev:
fctx = fctx.filectx(fctx.filenode(), changeid=introrev)
visit = {(fctx.linkrev(), fctx.filenode()): (fctx, (fromline, toline))}
while visit:
c, linerange2 = visit.pop(max(visit))
pl = c.parents()
if followfirst:
pl = pl[:1]
if not pl:
# The block originates from the initial revision.
yield c, linerange2
continue
inrange = False
for p in pl:
inrangep, linerange1 = _changesrange(p, c, linerange2, diffopts)
inrange = inrange or inrangep
if linerange1[0] == linerange1[1]:
# Parent's linerange is empty, meaning that the block got
# introduced in this revision; no need to go futher in this
# branch.
continue
# Set _descendantrev with 'c' (a known descendant) so that, when
# _adjustlinkrev is called for 'p', it receives this descendant
# (as srcrev) instead possibly topmost introrev.
p._descendantrev = c.rev()
visit[p.linkrev(), p.filenode()] = p, linerange1
if inrange:
yield c, linerange2
def blockdescendants(fctx, fromline, toline):
"""Yield descendants of `fctx` with respect to the block of lines within
`fromline`-`toline` range.
"""
# First possibly yield 'fctx' if it has changes in range with respect to
# its parents.
try:
c, linerange1 = next(blockancestors(fctx, fromline, toline))
except StopIteration:
pass
else:
if c == fctx:
yield c, linerange1
diffopts = patch.diffopts(fctx._repo.ui)
fl = fctx.filelog()
seen = {fctx.filerev(): (fctx, (fromline, toline))}
for i in fl.descendants([fctx.filerev()]):
c = fctx.filectx(i)
inrange = False
for x in fl.parentrevs(i):
try:
p, linerange2 = seen[x]
except KeyError:
# nullrev or other branch
continue
inrangep, linerange1 = _changesrange(c, p, linerange2, diffopts)
inrange = inrange or inrangep
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followlines: join merge parents line ranges in blockdescendants() (issue5595)...
r33284 # If revision 'i' has been seen (it's a merge) and the line range
# previously computed differs from the one we just got, we take the
# surrounding interval. This is conservative but avoids loosing
# information.
if i in seen and seen[i][1] != linerange1:
lbs, ubs = zip(linerange1, seen[i][1])
linerange1 = min(lbs), max(ubs)
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r32904 seen[i] = c, linerange1
if inrange:
yield c, linerange1
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r32903 def toposort(revs, parentsfunc, firstbranch=()):
"""Yield revisions from heads to roots one (topo) branch at a time.
This function aims to be used by a graph generator that wishes to minimize
the number of parallel branches and their interleaving.
Example iteration order (numbers show the "true" order in a changelog):
o 4
|
o 1
|
| o 3
| |
| o 2
|/
o 0
Note that the ancestors of merges are understood by the current
algorithm to be on the same branch. This means no reordering will
occur behind a merge.
"""
### Quick summary of the algorithm
#
# This function is based around a "retention" principle. We keep revisions
# in memory until we are ready to emit a whole branch that immediately
# "merges" into an existing one. This reduces the number of parallel
# branches with interleaved revisions.
#
# During iteration revs are split into two groups:
# A) revision already emitted
# B) revision in "retention". They are stored as different subgroups.
#
# for each REV, we do the following logic:
#
# 1) if REV is a parent of (A), we will emit it. If there is a
# retention group ((B) above) that is blocked on REV being
# available, we emit all the revisions out of that retention
# group first.
#
# 2) else, we'll search for a subgroup in (B) awaiting for REV to be
# available, if such subgroup exist, we add REV to it and the subgroup is
# now awaiting for REV.parents() to be available.
#
# 3) finally if no such group existed in (B), we create a new subgroup.
#
#
# To bootstrap the algorithm, we emit the tipmost revision (which
# puts it in group (A) from above).
revs.sort(reverse=True)
# Set of parents of revision that have been emitted. They can be considered
# unblocked as the graph generator is already aware of them so there is no
# need to delay the revisions that reference them.
#
# If someone wants to prioritize a branch over the others, pre-filling this
# set will force all other branches to wait until this branch is ready to be
# emitted.
unblocked = set(firstbranch)
# list of groups waiting to be displayed, each group is defined by:
#
# (revs: lists of revs waiting to be displayed,
# blocked: set of that cannot be displayed before those in 'revs')
#
# The second value ('blocked') correspond to parents of any revision in the
# group ('revs') that is not itself contained in the group. The main idea
# of this algorithm is to delay as much as possible the emission of any
# revision. This means waiting for the moment we are about to display
# these parents to display the revs in a group.
#
# This first implementation is smart until it encounters a merge: it will
# emit revs as soon as any parent is about to be emitted and can grow an
# arbitrary number of revs in 'blocked'. In practice this mean we properly
# retains new branches but gives up on any special ordering for ancestors
# of merges. The implementation can be improved to handle this better.
#
# The first subgroup is special. It corresponds to all the revision that
# were already emitted. The 'revs' lists is expected to be empty and the
# 'blocked' set contains the parents revisions of already emitted revision.
#
# You could pre-seed the <parents> set of groups[0] to a specific
# changesets to select what the first emitted branch should be.
groups = [([], unblocked)]
pendingheap = []
pendingset = set()
heapq.heapify(pendingheap)
heappop = heapq.heappop
heappush = heapq.heappush
for currentrev in revs:
# Heap works with smallest element, we want highest so we invert
if currentrev not in pendingset:
heappush(pendingheap, -currentrev)
pendingset.add(currentrev)
# iterates on pending rev until after the current rev have been
# processed.
rev = None
while rev != currentrev:
rev = -heappop(pendingheap)
pendingset.remove(rev)
# Seek for a subgroup blocked, waiting for the current revision.
matching = [i for i, g in enumerate(groups) if rev in g[1]]
if matching:
# The main idea is to gather together all sets that are blocked
# on the same revision.
#
# Groups are merged when a common blocking ancestor is
# observed. For example, given two groups:
#
# revs [5, 4] waiting for 1
# revs [3, 2] waiting for 1
#
# These two groups will be merged when we process
# 1. In theory, we could have merged the groups when
# we added 2 to the group it is now in (we could have
# noticed the groups were both blocked on 1 then), but
# the way it works now makes the algorithm simpler.
#
# We also always keep the oldest subgroup first. We can
# probably improve the behavior by having the longest set
# first. That way, graph algorithms could minimise the length
# of parallel lines their drawing. This is currently not done.
targetidx = matching.pop(0)
trevs, tparents = groups[targetidx]
for i in matching:
gr = groups[i]
trevs.extend(gr[0])
tparents |= gr[1]
# delete all merged subgroups (except the one we kept)
# (starting from the last subgroup for performance and
# sanity reasons)
for i in reversed(matching):
del groups[i]
else:
# This is a new head. We create a new subgroup for it.
targetidx = len(groups)
groups.append(([], {rev}))
gr = groups[targetidx]
# We now add the current nodes to this subgroups. This is done
# after the subgroup merging because all elements from a subgroup
# that relied on this rev must precede it.
#
# we also update the <parents> set to include the parents of the
# new nodes.
if rev == currentrev: # only display stuff in rev
gr[0].append(rev)
gr[1].remove(rev)
parents = [p for p in parentsfunc(rev) if p > node.nullrev]
gr[1].update(parents)
for p in parents:
if p not in pendingset:
pendingset.add(p)
heappush(pendingheap, -p)
# Look for a subgroup to display
#
# When unblocked is empty (if clause), we were not waiting for any
# revisions during the first iteration (if no priority was given) or
# if we emitted a whole disconnected set of the graph (reached a
# root). In that case we arbitrarily take the oldest known
# subgroup. The heuristic could probably be better.
#
# Otherwise (elif clause) if the subgroup is blocked on
# a revision we just emitted, we can safely emit it as
# well.
if not unblocked:
if len(groups) > 1: # display other subset
targetidx = 1
gr = groups[1]
elif not gr[1] & unblocked:
gr = None
if gr is not None:
# update the set of awaited revisions with the one from the
# subgroup
unblocked |= gr[1]
# output all revisions in the subgroup
for r in gr[0]:
yield r
# delete the subgroup that you just output
# unless it is groups[0] in which case you just empty it.
if targetidx:
del groups[targetidx]
else:
gr[0][:] = []
# Check if we have some subgroup waiting for revisions we are not going to
# iterate over
for g in groups:
for r in g[0]:
yield r