# obsolete.py - introduce the obsolete concept in mercurial.
#
# Copyright 2011 Pierre-Yves David <pierre-yves.david@ens-lyon.org>
# Logilab SA <contact@logilab.fr>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
"""Introduce the Obsolete concept to mercurial
General concept
===============
This extension introduces the *obsolete* concept. The relation
``<changeset B> obsoletes <changeset A>`` denotes that ``<changeset B>``
is a new version of ``<changeset A>``.
The *obsolete* relations act as an history **orthogonal** to the regular
changesets history. Regular changesets history versions files. *Obsolete*
relations version changesets.
:obsolete: a changeset that has been replaced by another one.
:unstable: a changeset that is not obsolete but has an obsolete ancestor.
:suspended: an obsolete changeset with unstable descendants.
:extinct: an obsolete changeset without unstable descendants.
(subject to garbage collection)
Another name for unstable could be out of sync.
Usage and Feature
=================
New commands
------------
Note that rebased changesets are now marked obsolete instead of being stripped.
"""
from mercurial import util
try:
from mercurial import obsolete
obsolete._enabled = True
except ImportError:
raise util.Abort('Obsolete extension requires Mercurial 2.3 (or later)')
import sys
from mercurial.i18n import _
from mercurial import cmdutil
from mercurial import commands
from mercurial import context
from mercurial import discovery
from mercurial import error
from mercurial import extensions
from mercurial import localrepo
from mercurial import phases
from mercurial import revset
from mercurial import scmutil
from mercurial import templatekw
from mercurial.node import bin, short, nullid
# This extension hold the following code
#
# - Extension Helper code
# - Obsolescence cache
# - ...
# - Older format compat
#####################################################################
### Extension helper ###
#####################################################################
class exthelper(object):
"""Helper for modular extension setup
A single helper should be intanciated for each extension. Helper method are
then used as decorator for various purpose.
All decorator returns the original function and may be chained.
"""
def __init__(self):
self._uicallables = []
self._extcallables = []
self._repocallables = []
self._revsetsymbols = []
self._templatekws = []
self._commandwrappers = []
self._extcommandwrappers = []
self._functionwrappers = []
self._duckpunchers = []
def final_uisetup(self, ui):
"""Method to be used as a the extension uisetup
The following operations belong here:
- Changes to ui.__class__ . The ui object that will be used to run the
command has not yet been created. Changes made here will affect ui
objects created after this, and in particular the ui that will be
passed to runcommand
- Command wraps (extensions.wrapcommand)
- Changes that need to be visible by other extensions: because
initialization occurs in phases (all extensions run uisetup, then all
run extsetup), a change made here will be visible by other extensions
during extsetup
- Monkeypatches or function wraps (extensions.wrapfunction) of dispatch
module members
- Setup of pre-* and post-* hooks
- pushkey setup
"""
for cont, funcname, func in self._duckpunchers:
setattr(cont, funcname, func)
for command, wrapper in self._commandwrappers:
extensions.wrapcommand(commands.table, command, wrapper)
for cont, funcname, wrapper in self._functionwrappers:
extensions.wrapfunction(cont, funcname, wrapper)
for c in self._uicallables:
c(ui)
def final_extsetup(self, ui):
"""Method to be used as a the extension extsetup
The following operations belong here:
- Changes depending on the status of other extensions. (if extensions.find('mq'))
- Add a global option to all commands
- Extend revsets
"""
knownexts = {}
for name, symbol in self._revsetsymbols:
revset.symbols[name] = symbol
for name, kw in self._templatekws:
templatekw.keywords[name] = kw
for ext, command, wrapper in self._extcommandwrappers:
if ext not in knownexts:
e = extensions.find('rebase')
if e is None:
raise util.Abort('extension %s not found' %e)
knownexts[ext] = e.cmdtable
extensions.wrapcommand(knownexts[ext], commands, wrapper)
for c in self._extcallables:
c(ui)
def final_reposetup(self, ui, repo):
"""Method to be used as a the extension reposetup
The following operations belong here:
- All hooks but pre-* and post-*
- Modify configuration variables
- Changes to repo.__class__, repo.dirstate.__class__
"""
for c in self._repocallables:
c(ui, repo)
def uisetup(self, call):
"""Decorated function will be executed during uisetup
example::
@eh.uisetup
def setupbabar(ui):
print 'this is uisetup!'
"""
self._uicallables.append(call)
return call
def extsetup(self, call):
"""Decorated function will be executed during extsetup
example::
@eh.extsetup
def setupcelestine(ui):
print 'this is extsetup!'
"""
self._uicallables.append(call)
return call
def reposetup(self, call):
"""Decorated function will be executed during reposetup
example::
@eh.reposetup
def setupzephir(ui, repo):
print 'this is reposetup!'
"""
self._repocallables.append(call)
return call
def revset(self, symbolname):
"""Decorated function is a revset symbol
The name of the symbol must be given as the decorator argument.
The symbol is added during `extsetup`.
example::
@eh.revset('hidden')
def revsetbabar(repo, subset, x):
args = revset.getargs(x, 0, 0, 'babar accept no argument')
return [r for r in subset if 'babar' in repo[r].description()]
"""
def dec(symbol):
self._revsetsymbols.append((symbolname, symbol))
return symbol
return dec
def templatekw(self, keywordname):
"""Decorated function is a revset keyword
The name of the keyword must be given as the decorator argument.
The symbol is added during `extsetup`.
example::
@eh.templatekw('babar')
def kwbabar(ctx):
return 'babar'
"""
def dec(keyword):
self._templatekws.append((keywordname, keyword))
return keyword
return dec
def wrapcommand(self, command, extension=None):
"""Decorated function is a command wrapper
The name of the command must be given as the decorator argument.
The wrapping is installed during `uisetup`.
If the second option `extension` argument is provided, the wrapping
will be applied in the extension commandtable. This argument must be a
string that will be searched using `extension.find` if not found and
Abort error is raised. If the wrapping apply to an extension, it is
installed during `extsetup`
example::
@eh.wrapcommand('summary')
def wrapsummary(orig, ui, repo, *args, **kwargs):
ui.note('Barry!')
return orig(ui, repo, *args, **kwargs)
"""
def dec(wrapper):
if extension is None:
self._commandwrappers.append((command, wrapper))
else:
self._extcommandwrappers.append((extension, command, wrapper))
return wrapper
return dec
def wrapfunction(self, container, funcname):
"""Decorated function is a function wrapper
This function take two argument, the container and the name of the
function to wrap. The wrapping is performed during `uisetup`.
(there is don't support extension)
example::
@eh.function(discovery, 'checkheads')
def wrapfunction(orig, *args, **kwargs):
ui.note('His head smashed in and his heart cut out')
return orig(*args, **kwargs)
"""
def dec(wrapper):
self._functionwrappers.append((container, funcname, wrapper))
return wrapper
return dec
def addattr(self, container, funcname):
"""Decorated function is to be added to the container
This function take two argument, the container and the name of the
function to wrap. The wrapping is performed during `uisetup`.
example::
@eh.function(context.changectx, 'babar')
def babar(ctx):
return 'babar' in ctx.description
"""
def dec(func):
self._duckpunchers.append((container, funcname, func))
return func
return dec
eh = exthelper()
uisetup = eh.final_uisetup
extsetup = eh.final_extsetup
reposetup = eh.final_reposetup
#####################################################################
### Obsolescence Caching Logic ###
#####################################################################
# Obsolescence related logic can be very slow if we don't have efficient cache.
#
# This section implements a cache mechanism that did not make it into core for
# time reason. It store meaningful set of revision related to obsolescence
# (obsolete, unstabletble ...
#
# Here is:
#
# - Computation of meaningful set,
# - Cache access logic,
# - Cache invalidation logic,
# - revset and ctx using this cache.
#
### Computation of meaningful set
#
# Most set can be computed with "simple" revset.
#: { set name -> function to compute this set } mapping
#: function take a single "repo" argument.
#:
#: Use the `cachefor` decorator to register new cache function
cachefuncs = {}
def cachefor(name):
"""Decorator to register a function as computing the cache for a set"""
def decorator(func):
assert name not in cachefuncs
cachefuncs[name] = func
return func
return decorator
@cachefor('obsolete')
def _computeobsoleteset(repo):
"""the set of obsolete revision"""
obs = set()
nm = repo.changelog.nodemap
for prec in repo.obsstore.precursors:
rev = nm.get(prec)
if rev is not None:
obs.add(rev)
return set(repo.revs('%ld - public()', obs))
@cachefor('unstable')
def _computeunstableset(repo):
"""the set of non obsolete revision with obsolete parent"""
return set(repo.revs('(obsolete()::) - obsolete()'))
@cachefor('suspended')
def _computesuspendedset(repo):
"""the set of obsolete parent with non obsolete descendant"""
return set(repo.revs('obsolete() and obsolete()::unstable()'))
@cachefor('extinct')
def _computeextinctset(repo):
"""the set of obsolete parent without non obsolete descendant"""
return set(repo.revs('obsolete() - obsolete()::unstable()'))
@eh.wrapfunction(obsolete.obsstore, '__init__')
def _initobsstorecache(orig, obsstore, *args, **kwargs):
"""add a caches attributes to obsstore"""
obsstore.caches = {}
return orig(obsstore, *args, **kwargs)
### Cache access
def getobscache(repo, name):
"""Return the set of revision that belong to the <name> set
Such access may compute the set and cache it for future use"""
if not repo.obsstore:
return ()
if name not in repo.obsstore.caches:
repo.obsstore.caches[name] = cachefuncs[name](repo)
return repo.obsstore.caches[name]
### Cache clean up
#
# To be simple we need to invalidate obsolescence cache when:
#
# - new changeset is added:
# - public phase is changed
# - obsolescence marker are added
# - strip is used a repo
def clearobscaches(repo):
"""Remove all obsolescence related cache from a repo
This remove all cache in obsstore is the obsstore already exist on the
repo.
(We could be smarter here)"""
if 'obsstore' in repo._filecache:
repo.obsstore.caches.clear()
@eh.wrapfunction(localrepo.localrepository, 'addchangegroup') # new changeset
@eh.wrapfunction(phases, 'retractboundary') # phase movement
@eh.wrapfunction(phases, 'advanceboundary') # phase movement
@eh.wrapfunction(localrepo.localrepository, 'destroyed') # strip
def wrapclearcache(orig, repo, *args, **kwargs):
try:
return orig(repo, *args, **kwargs)
finally:
# we are a bit wide here
# we could restrict to:
# advanceboundary + phase==public
# retractboundary + phase==draft
clearobscaches(repo)
@eh.wrapfunction(obsolete.obsstore, 'add') # new marker
def clearonadd(orig, obsstore, *args, **kwargs):
try:
return orig(obsstore, *args, **kwargs)
finally:
obsstore.caches.clear()
### Use the case
# Function in core that could benefic from the cache are overwritten by cache using version
# changectx method
@eh.addattr(context.changectx, 'unstable')
def unstable(ctx):
"""is the changeset unstable (have obsolete ancestor)"""
if ctx.node() is None:
return False
return ctx.rev() in getobscache(ctx._repo, 'unstable')
@eh.addattr(context.changectx, 'extinct')
def extinct(ctx):
"""is the changeset extinct by other"""
if ctx.node() is None:
return False
return ctx.rev() in getobscache(ctx._repo, 'extinct')
# revset
@eh.revset('obsolete')
def revsetobsolete(repo, subset, x):
"""``obsolete()``
Changeset is obsolete.
"""
args = revset.getargs(x, 0, 0, 'obsolete takes no argument')
obsoletes = getobscache(repo, 'obsolete')
return [r for r in subset if r in obsoletes]
@eh.revset('unstable')
def revsetunstable(repo, subset, x):
"""``unstable()``
Unstable changesets are non-obsolete with obsolete ancestors.
"""
args = revset.getargs(x, 0, 0, 'unstable takes no arguments')
unstables = getobscache(repo, 'unstable')
return [r for r in subset if r in unstables]
@eh.revset('extinct')
def revsetextinct(repo, subset, x):
"""``extinct()``
Obsolete changesets with obsolete descendants only.
"""
args = revset.getargs(x, 0, 0, 'extinct takes no arguments')
extincts = getobscache(repo, 'extinct')
return [r for r in subset if r in extincts]
#####################################################################
### Complete troubles computation logic ###
#####################################################################
# there is two kind of trouble not handled by core right now:
# - latecomer: (successors for public changeset)
# - conflicting: (two changeset try to succeed to the same precursors)
#
# This section add support for those two addition trouble
#
# - Cache computation
# - revset and ctx method
# - push warning
### Cache computation
@cachefor('latecomer')
def _computelatecomerset(repo):
"""the set of rev trying to obsolete public revision"""
query = 'allsuccessors(public()) - obsolete() - public()'
return set(repo.revs(query))
@cachefor('conflicting')
def _computeconflictingset(repo):
"""the set of rev trying to obsolete public revision"""
conflicting = set()
obsstore = repo.obsstore
newermap = {}
for ctx in repo.set('(not public()) - obsolete()'):
prec = obsstore.successors.get(ctx.node(), ())
toprocess = set(prec)
while toprocess:
prec = toprocess.pop()[0]
if prec not in newermap:
newermap[prec] = newerversion(repo, prec)
newer = [n for n in newermap[prec] if n] # filter kill
if len(newer) > 1:
conflicting.add(ctx.rev())
break
toprocess.update(obsstore.successors.get(prec, ()))
return conflicting
### changectx method
@eh.addattr(context.changectx, 'latecomer')
def latecomer(ctx):
"""is the changeset latecomer (Try to succeed to public change)"""
if ctx.node() is None:
return False
return ctx.rev() in getobscache(ctx._repo, 'latecomer')
@eh.addattr(context.changectx, 'conflicting')
def conflicting(ctx):
"""is the changeset conflicting (Try to succeed to public change)"""
if ctx.node() is None:
return False
return ctx.rev() in getobscache(ctx._repo, 'conflicting')
### revset symbol
@eh.revset('latecomer')
def revsetlatecomer(repo, subset, x):
"""``latecomer()``
Changesets marked as successors of public changesets.
"""
args = revset.getargs(x, 0, 0, 'latecomer takes no arguments')
lates = getobscache(repo, 'latecomer')
return [r for r in subset if r in lates]
@eh.revset('conflicting')
def revsetconflicting(repo, subset, x):
"""``conflicting()``
Changesets marked as successors of a same changeset.
"""
args = revset.getargs(x, 0, 0, 'conflicting takes no arguments')
conf = getobscache(repo, 'conflicting')
return [r for r in subset if r in conf]
### Discovery wrapping
@eh.wrapfunction(discovery, 'checkheads')
def wrapcheckheads(orig, repo, remote, outgoing, *args, **kwargs):
"""wrap mercurial.discovery.checkheads
* prevent latecomer and unstable to be pushed
"""
# do not push instability
for h in outgoing.missingheads:
# Checking heads is enough, obsolete descendants are either
# obsolete or unstable.
ctx = repo[h]
if ctx.latecomer():
raise util.Abort(_("push includes a latecomer changeset: %s!")
% ctx)
if ctx.conflicting():
raise util.Abort(_("push includes a conflicting changeset: %s!")
% ctx)
return orig(repo, remote, outgoing, *args, **kwargs)
#####################################################################
### Additional Utilities ###
#####################################################################
# This section contains a lot of small utility function and method
# - Function to create markers
# - useful alias pstatus and pdiff (should probably go in evolve)
# - "troubles" method on changectx
# - function to travel throught the obsolescence graph
# - function to find useful changeset to stabilize
### Marker Create
def createmarkers(repo, relations, metadata=None, flag=0):
"""Add obsolete markers between changeset in a repo
<relations> must be an iterable of (<old>, (<new>, ...)) tuple.
`old` and `news` are changectx.
Current user and date are used except if specified otherwise in the
metadata attribute.
/!\ assume the repo have been locked byt the user /!\
"""
# prepare metadata
if metadata is None:
metadata = {}
if 'date' not in metadata:
metadata['date'] = '%i %i' % util.makedate()
if 'user' not in metadata:
metadata['user'] = repo.ui.username()
# check future marker
tr = repo.transaction('add-obsolescence-marker')
try:
for prec, sucs in relations:
if not prec.mutable():
raise util.Abort("Cannot obsolete immutable changeset: %s" % prec)
nprec = prec.node()
nsucs = tuple(s.node() for s in sucs)
if nprec in nsucs:
raise util.Abort("Changeset %s cannot obsolete himself" % prec)
repo.obsstore.create(tr, nprec, nsucs, flag, metadata)
clearobscaches(repo)
tr.close()
finally:
tr.release()
### Useful alias
@eh.uisetup
def _installalias(ui):
if ui.config('alias', 'pstatus', None) is None:
ui.setconfig('alias', 'pstatus', 'status --rev .^')
if ui.config('alias', 'pdiff', None) is None:
ui.setconfig('alias', 'pdiff', 'diff --rev .^')
# - "troubles" method on changectx
@eh.addattr(context.changectx, 'troubles')
def troubles(ctx):
"""Return a tuple listing all the troubles that affect a changeset
Troubles may be "unstable", "latecomer" or "conflicting".
"""
troubles = []
if ctx.unstable():
troubles.append('unstable')
if ctx.latecomer():
troubles.append('latecomer')
if ctx.conflicting():
troubles.append('conflicting')
return tuple(troubles)
### Obsolescence graph
# XXX SOME MAJOR CLEAN UP TO DO HERE XXX
def _precursors(repo, s):
"""Precursor of a changeset"""
cs = set()
nm = repo.changelog.nodemap
markerbysubj = repo.obsstore.successors
for r in s:
for p in markerbysubj.get(repo[r].node(), ()):
pr = nm.get(p[0])
if pr is not None:
cs.add(pr)
return cs
def _allprecursors(repo, s): # XXX we need a better naming
"""transitive precursors of a subset"""
toproceed = [repo[r].node() for r in s]
seen = set()
allsubjects = repo.obsstore.successors
while toproceed:
nc = toproceed.pop()
for mark in allsubjects.get(nc, ()):
np = mark[0]
if np not in seen:
seen.add(np)
toproceed.append(np)
nm = repo.changelog.nodemap
cs = set()
for p in seen:
pr = nm.get(p)
if pr is not None:
cs.add(pr)
return cs
def _successors(repo, s):
"""Successors of a changeset"""
cs = set()
nm = repo.changelog.nodemap
markerbyobj = repo.obsstore.precursors
for r in s:
for p in markerbyobj.get(repo[r].node(), ()):
for sub in p[1]:
sr = nm.get(sub)
if sr is not None:
cs.add(sr)
return cs
def _allsuccessors(repo, s): # XXX we need a better naming
"""transitive successors of a subset"""
toproceed = [repo[r].node() for r in s]
seen = set()
allobjects = repo.obsstore.precursors
while toproceed:
nc = toproceed.pop()
for mark in allobjects.get(nc, ()):
for sub in mark[1]:
if sub not in seen:
seen.add(sub)
toproceed.append(sub)
nm = repo.changelog.nodemap
cs = set()
for s in seen:
sr = nm.get(s)
if sr is not None:
cs.add(sr)
return cs
def newerversion(repo, obs):
"""Return the newer version of an obsolete changeset"""
toproceed = set([(obs,)])
# XXX known optimization available
newer = set()
objectrels = repo.obsstore.precursors
while toproceed:
current = toproceed.pop()
assert len(current) <= 1, 'splitting not handled yet. %r' % current
current = [n for n in current if n != nullid]
if current:
n, = current
if n in objectrels:
markers = objectrels[n]
for mark in markers:
toproceed.add(tuple(mark[1]))
else:
newer.add(tuple(current))
else:
newer.add(())
return sorted(newer)
#####################################################################
### Extending revset and template ###
#####################################################################
# this section add several useful revset symbol not yet in core.
# they are subject to changes
### hidden revset is not in core yet
@eh.revset('hidden')
def revsethidden(repo, subset, x):
"""``hidden()``
Changeset is hidden.
"""
args = revset.getargs(x, 0, 0, 'hidden takes no argument')
return [r for r in subset if r in repo.hiddenrevs]
### XXX I'm not sure this revset is useful
@eh.revset('suspended')
def revsetsuspended(repo, subset, x):
"""``suspended()``
Obsolete changesets with non-obsolete descendants.
"""
args = revset.getargs(x, 0, 0, 'suspended takes no arguments')
suspended = getobscache(repo, 'suspended')
return [r for r in subset if r in suspended]
@eh.revset('precursors')
def revsetprecursors(repo, subset, x):
"""``precursors(set)``
Immediate precursors of changesets in set.
"""
s = revset.getset(repo, range(len(repo)), x)
cs = _precursors(repo, s)
return [r for r in subset if r in cs]
@eh.revset('allprecursors')
def revsetallprecursors(repo, subset, x):
"""``allprecursors(set)``
Transitive precursors of changesets in set.
"""
s = revset.getset(repo, range(len(repo)), x)
cs = _allprecursors(repo, s)
return [r for r in subset if r in cs]
@eh.revset('successors')
def revsetsuccessors(repo, subset, x):
"""``successors(set)``
Immediate successors of changesets in set.
"""
s = revset.getset(repo, range(len(repo)), x)
cs = _successors(repo, s)
return [r for r in subset if r in cs]
@eh.revset('allsuccessors')
def revsetallsuccessors(repo, subset, x):
"""``allsuccessors(set)``
Transitive successors of changesets in set.
"""
s = revset.getset(repo, range(len(repo)), x)
cs = _allsuccessors(repo, s)
return [r for r in subset if r in cs]
### template keywords
# XXX it does not handle troubles well :-/
@eh.templatekw('obsolete')
def obsoletekw(repo, ctx, templ, **args):
""":obsolete: String. The obsolescence level of the node, could be
``stable``, ``unstable``, ``suspended`` or ``extinct``.
"""
rev = ctx.rev()
if ctx.obsolete():
if ctx.extinct():
return 'extinct'
else:
return 'suspended'
elif ctx.unstable():
return 'unstable'
return 'stable'
#####################################################################
### Various trouble warning ###
#####################################################################
# This section take care of issue warning to the user when troubles appear
@eh.wrapcommand("update")
@eh.wrapcommand("pull")
def wrapmayobsoletewc(origfn, ui, repo, *args, **opts):
"""Warn that the working directory parent is an obsolete changeset"""
res = origfn(ui, repo, *args, **opts)
if repo['.'].obsolete():
ui.warn(_('Working directory parent is obsolete\n'))
return res
# XXX this could wrap transaction code
# XXX (but this is a bit a layer violation)
@eh.wrapcommand("commit")
@eh.wrapcommand("push")
@eh.wrapcommand("pull")
@eh.wrapcommand("graft")
@eh.wrapcommand("phase")
@eh.wrapcommand("unbundle")
def warnobserrors(orig, ui, repo, *args, **kwargs):
"""display warning is the command resulted in more instable changeset"""
priorunstables = len(repo.revs('unstable()'))
priorlatecomers = len(repo.revs('latecomer()'))
priorconflictings = len(repo.revs('conflicting()'))
#print orig, priorunstables
#print len(repo.revs('secret() - obsolete()'))
try:
return orig(ui, repo, *args, **kwargs)
finally:
newunstables = len(repo.revs('unstable()')) - priorunstables
newlatecomers = len(repo.revs('latecomer()')) - priorlatecomers
newconflictings = len(repo.revs('conflicting()')) - priorconflictings
#print orig, newunstables
#print len(repo.revs('secret() - obsolete()'))
if newunstables > 0:
ui.warn(_('%i new unstables changesets\n') % newunstables)
if newlatecomers > 0:
ui.warn(_('%i new latecomers changesets\n') % newlatecomers)
if newconflictings > 0:
ui.warn(_('%i new conflictings changesets\n') % newconflictings)
@eh.reposetup
def _repostabilizesetup(ui, repo):
"""Add a hint for "hg stabilize" when troubles make push fails
"""
if not repo.local():
return
opush = repo.push
class stabilizerrepo(repo.__class__):
def push(self, remote, *args, **opts):
"""wrapper around pull that pull obsolete relation"""
try:
result = opush(remote, *args, **opts)
except util.Abort, ex:
hint = _("use 'hg stabilize' to get a stable history "
"or --force to ignore warnings")
if (len(ex.args) >= 1
and ex.args[0].startswith('push includes ')
and ex.hint is None):
ex.hint = hint
raise
return result
repo.__class__ = stabilizerrepo
#####################################################################
### Core Other extension compat ###
#####################################################################
# This section make official history rewritter create obsolete marker
### commit --amend
# make commit --amend create obsolete marker
#
# The precursor is still strip from the repository.
@eh.wrapfunction(cmdutil, 'amend')
def wrapcmdutilamend(orig, ui, repo, commitfunc, old, *args, **kwargs):
oldnode = old.node()
new = orig(ui, repo, commitfunc, old, *args, **kwargs)
if new != oldnode:
lock = repo.lock()
try:
tr = repo.transaction('post-amend-obst')
try:
meta = {
'date': '%i %i' % util.makedate(),
'user': ui.username(),
}
repo.obsstore.create(tr, oldnode, [new], 0, meta)
tr.close()
clearobscaches(repo)
finally:
tr.release()
finally:
lock.release()
return new
### rebase
#
# - ignore obsolete changeset
# - create obsolete marker *instead of* striping
def buildstate(orig, repo, dest, rebaseset, *ags, **kws):
"""wrapper for rebase 's buildstate that exclude obsolete changeset"""
rebaseset = repo.revs('%ld - extinct()', rebaseset)
return orig(repo, dest, rebaseset, *ags, **kws)
def defineparents(orig, repo, rev, target, state, *args, **kwargs):
rebasestate = getattr(repo, '_rebasestate', None)
if rebasestate is not None:
repo._rebasestate = dict(state)
repo._rebasetarget = target
return orig(repo, rev, target, state, *args, **kwargs)
def concludenode(orig, repo, rev, p1, *args, **kwargs):
"""wrapper for rebase 's concludenode that set obsolete relation"""
newrev = orig(repo, rev, p1, *args, **kwargs)
rebasestate = getattr(repo, '_rebasestate', None)
if rebasestate is not None:
if newrev is not None:
nrev = repo[newrev].rev()
else:
nrev = p1
repo._rebasestate[rev] = nrev
return newrev
def cmdrebase(orig, ui, repo, *args, **kwargs):
reallykeep = kwargs.get('keep', False)
kwargs = dict(kwargs)
kwargs['keep'] = True
# We want to mark rebased revision as obsolete and set their
# replacements if any. Doing it in concludenode() prevents
# aborting the rebase, and is not called with all relevant
# revisions in --collapse case. Instead, we try to track the
# rebase state structure by sampling/updating it in
# defineparents() and concludenode(). The obsolete markers are
# added from this state after a successful call.
repo._rebasestate = {}
repo._rebasetarget = None
try:
l = repo.lock()
try:
res = orig(ui, repo, *args, **kwargs)
if not reallykeep:
# Filter nullmerge or unrebased entries
repo._rebasestate = dict(p for p in repo._rebasestate.iteritems()
if p[1] >= 0)
if not res and not kwargs.get('abort') and repo._rebasestate:
# Rebased revisions are assumed to be descendants of
# targetrev. If a source revision is mapped to targetrev
# or to another rebased revision, it must have been
# removed.
markers = []
if kwargs.get('collapse'):
# collapse assume revision disapear because they are all
# in the created revision
newrevs = set(repo._rebasestate.values())
newrevs.remove(repo._rebasetarget)
if newrevs:
# we create new revision.
# A single one by --collapse design
assert len(newrevs) == 1
new = tuple(repo[n] for n in newrevs)
else:
# every body died. no new changeset created
new = (repo[repo._rebasetarget],)
for rev, newrev in sorted(repo._rebasestate.items()):
markers.append((repo[rev], new))
else:
# no collapse assume revision disapear because they are
# contained in parent
for rev, newrev in sorted(repo._rebasestate.items()):
markers.append((repo[rev], (repo[newrev],)))
createmarkers(repo, markers)
return res
finally:
l.release()
finally:
delattr(repo, '_rebasestate')
delattr(repo, '_rebasetarget')
@eh.extsetup
def _rebasewrapping(ui):
# warning about more obsolete
try:
rebase = extensions.find('rebase')
if rebase:
entry = extensions.wrapcommand(rebase.cmdtable, 'rebase', warnobserrors)
extensions.wrapfunction(rebase, 'buildstate', buildstate)
extensions.wrapfunction(rebase, 'defineparents', defineparents)
extensions.wrapfunction(rebase, 'concludenode', concludenode)
extensions.wrapcommand(rebase.cmdtable, "rebase", cmdrebase)
except KeyError:
pass # rebase not found
#####################################################################
### Older format management ###
#####################################################################
# Code related to detection and management of older legacy format never
# handled by core
import json
@eh.reposetup
def _checkoldobsolete(ui, repo):
"""Detect that a repo still carry some old obsolete format
"""
if not repo.local():
return
for arg in sys.argv:
if 'debugc' in arg:
break
else:
data = repo.opener.tryread('obsolete-relations')
if not data:
data = repo.sopener.tryread('obsoletemarkers')
if data:
raise util.Abort('old format of obsolete marker detected!\n'
'run `hg debugconvertobsolete` once.')
def _obsdeserialise(flike):
"""read a file like object serialised with _obsserialise
this desierialize into a {subject -> objects} mapping
this was the very first format ever."""
rels = {}
for line in flike:
subhex, objhex = line.split()
subnode = bin(subhex)
if subnode == nullid:
subnode = None
rels.setdefault( subnode, set()).add(bin(objhex))
return rels
cmdtable = {}
command = cmdutil.command(cmdtable)
@command('debugconvertobsolete', [], '')
def cmddebugconvertobsolete(ui, repo):
"""import markers from an .hg/obsolete-relations file"""
cnt = 0
err = 0
l = repo.lock()
some = False
try:
unlink = []
tr = repo.transaction('convert-obsolete')
try:
repo._importoldobsolete = True
store = repo.obsstore
### very first format
try:
f = repo.opener('obsolete-relations')
try:
some = True
for line in f:
subhex, objhex = line.split()
suc = bin(subhex)
prec = bin(objhex)
sucs = (suc==nullid) and [] or [suc]
meta = {
'date': '%i %i' % util.makedate(),
'user': ui.username(),
}
try:
store.create(tr, prec, sucs, 0, meta)
cnt += 1
except ValueError:
repo.ui.write_err("invalid old marker line: %s"
% (line))
err += 1
finally:
f.close()
unlink.append(repo.join('obsolete-relations'))
except IOError:
pass
### second (json) format
data = repo.sopener.tryread('obsoletemarkers')
if data:
some = True
for oldmark in json.loads(data):
del oldmark['id'] # dropped for now
del oldmark['reason'] # unused until then
oldobject = str(oldmark.pop('object'))
oldsubjects = [str(s) for s in oldmark.pop('subjects', [])]
LOOKUP_ERRORS = (error.RepoLookupError, error.LookupError)
if len(oldobject) != 40:
try:
oldobject = repo[oldobject].node()
except LOOKUP_ERRORS:
pass
if any(len(s) != 40 for s in oldsubjects):
try:
oldsubjects = [repo[s].node() for s in oldsubjects]
except LOOKUP_ERRORS:
pass
oldmark['date'] = '%i %i' % tuple(oldmark['date'])
meta = dict((k.encode('utf-8'), v.encode('utf-8'))
for k, v in oldmark.iteritems())
try:
succs = [bin(n) for n in oldsubjects]
succs = [n for n in succs if n != nullid]
store.create(tr, bin(oldobject), succs,
0, meta)
cnt += 1
except ValueError:
repo.ui.write_err("invalid marker %s -> %s\n"
% (oldobject, oldsubjects))
err += 1
unlink.append(repo.sjoin('obsoletemarkers'))
tr.close()
for path in unlink:
util.unlink(path)
finally:
tr.release()
finally:
del repo._importoldobsolete
l.release()
if not some:
ui.warn('nothing to do\n')
ui.status('%i obsolete marker converted\n' % cnt)
if err:
ui.write_err('%i conversion failed. check you graph!\n' % err)