stablerange: use repo-carried stablesortcache
That one is common to all and disk persisted
# Module dedicated to host history rewriting commands
#
# Copyright 2017 Octobus <contact@octobus.net>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
# Status: Stabilization of the API in progress
#
# The final set of command should go into core.
from __future__ import absolute_import
import random
from mercurial import (
bookmarks as bookmarksmod,
cmdutil,
commands,
context,
copies,
error,
hg,
lock as lockmod,
node,
obsolete,
patch,
phases,
scmutil,
util,
)
from mercurial.i18n import _
from . import (
compat,
exthelper,
rewriteutil,
utility,
)
eh = exthelper.exthelper()
walkopts = commands.walkopts
commitopts = commands.commitopts
commitopts2 = commands.commitopts2
mergetoolopts = commands.mergetoolopts
stringio = util.stringio
# option added by evolve
def _checknotesize(ui, opts):
""" make sure note is of valid format """
note = opts.get('note')
if not note:
return
if not compat.isobsnotesupported():
ui.warn(_("current hg version does not support storing"
" note in obsmarker\n"))
if len(note) > 255:
raise error.Abort(_("cannot store a note of more than 255 bytes"))
if '\n' in note:
raise error.Abort(_("note cannot contain a newline"))
def _resolveoptions(ui, opts):
"""modify commit options dict to handle related options
For now, all it does is figure out the commit date: respect -D unless
-d was supplied.
"""
# N.B. this is extremely similar to setupheaderopts() in mq.py
if not opts.get('date') and opts.get('current_date'):
opts['date'] = '%d %d' % util.makedate()
if not opts.get('user') and opts.get('current_user'):
opts['user'] = ui.username()
commitopts3 = [
('D', 'current-date', None,
_('record the current date as commit date')),
('U', 'current-user', None,
_('record the current user as committer')),
]
interactiveopt = [['i', 'interactive', None, _('use interactive mode')]]
@eh.command(
'^amend|refresh',
[('A', 'addremove', None,
_('mark new/missing files as added/removed before committing')),
('a', 'all', False, _("match all files")),
('e', 'edit', False, _('invoke editor on commit messages')),
('', 'extract', False, _('extract changes from the commit to the working copy')),
('', 'close-branch', None,
_('mark a branch as closed, hiding it from the branch list')),
('s', 'secret', None, _('use the secret phase for committing')),
('n', 'note', '', _('store a note on amend')),
] + walkopts + commitopts + commitopts2 + commitopts3 + interactiveopt,
_('[OPTION]... [FILE]...'))
def amend(ui, repo, *pats, **opts):
"""combine a changeset with updates and replace it with a new one
Commits a new changeset incorporating both the changes to the given files
and all the changes from the current parent changeset into the repository.
See :hg:`commit` for details about committing changes.
If you don't specify -m, the parent's message will be reused.
If --extract is specified, the behavior of `hg amend` is reversed: Changes
to selected files in the checked out revision appear again as uncommitted
changed in the working directory.
Returns 0 on success, 1 if nothing changed.
"""
_checknotesize(ui, opts)
opts = opts.copy()
if opts.get('extract'):
return uncommit(ui, repo, *pats, **opts)
else:
if opts.pop('all', False):
# add an include for all
include = list(opts.get('include'))
include.append('re:.*')
edit = opts.pop('edit', False)
log = opts.get('logfile')
opts['amend'] = True
if not (edit or opts['message'] or log):
opts['message'] = repo['.'].description()
_resolveoptions(ui, opts)
_alias, commitcmd = cmdutil.findcmd('commit', commands.table)
try:
wlock = repo.wlock()
lock = repo.lock()
rewriteutil.precheck(repo, [repo['.'].rev()], action='amend')
return commitcmd[0](ui, repo, *pats, **opts)
finally:
lockmod.release(lock, wlock)
def _touchedbetween(repo, source, dest, match=None):
touched = set()
for files in repo.status(source, dest, match=match)[:3]:
touched.update(files)
return touched
def _commitfiltered(repo, ctx, match, target=None, message=None, user=None,
date=None):
"""Recommit ctx with changed files not in match. Return the new
node identifier, or None if nothing changed.
"""
base = ctx.p1()
if target is None:
target = base
# ctx
initialfiles = _touchedbetween(repo, base, ctx)
if base == target:
affected = set(f for f in initialfiles if match(f))
newcontent = set()
else:
affected = _touchedbetween(repo, target, ctx, match=match)
newcontent = _touchedbetween(repo, target, base, match=match)
# The commit touchs all existing files
# + all file that needs a new content
# - the file affected bny uncommit with the same content than base.
files = (initialfiles - affected) | newcontent
if not newcontent and files == initialfiles:
return None
# Filter copies
copied = copies.pathcopies(target, ctx)
copied = dict((dst, src) for dst, src in copied.iteritems()
if dst in files)
def filectxfn(repo, memctx, path, contentctx=ctx, redirect=newcontent):
if path in redirect:
return filectxfn(repo, memctx, path, contentctx=target, redirect=())
if path not in contentctx:
return None
fctx = contentctx[path]
flags = fctx.flags()
mctx = compat.memfilectx(repo, memctx, fctx, flags, copied, path)
return mctx
if message is None:
message = ctx.description()
if not user:
user = ctx.user()
if not date:
date = ctx.date()
new = context.memctx(repo,
parents=[base.node(), node.nullid],
text=message,
files=files,
filectxfn=filectxfn,
user=user,
date=date,
extra=ctx.extra())
# commitctx always create a new revision, no need to check
newid = repo.commitctx(new)
return newid
def _uncommitdirstate(repo, oldctx, match, interactive):
"""Fix the dirstate after switching the working directory from
oldctx to a copy of oldctx not containing changed files matched by
match.
"""
ctx = repo['.']
ds = repo.dirstate
copies = dict(ds.copies())
if interactive:
# In interactive cases, we will find the status between oldctx and ctx
# and considering only the files which are changed between oldctx and
# ctx, and the status of what changed between oldctx and ctx will help
# us in defining the exact behavior
m, a, r = repo.status(oldctx, ctx, match=match)[:3]
for f in m:
# These are files which are modified between oldctx and ctx which
# contains two cases: 1) Were modified in oldctx and some
# modifications are uncommitted
# 2) Were added in oldctx but some part is uncommitted (this cannot
# contain the case when added files are uncommitted completely as
# that will result in status as removed not modified.)
# Also any modifications to a removed file will result the status as
# added, so we have only two cases. So in either of the cases, the
# resulting status can be modified or clean.
if ds[f] == 'r':
# But the file is removed in the working directory, leaving that
# as removed
continue
ds.normallookup(f)
for f in a:
# These are the files which are added between oldctx and ctx(new
# one), which means the files which were removed in oldctx
# but uncommitted completely while making the ctx
# This file should be marked as removed if the working directory
# does not adds it back. If it's adds it back, we do a normallookup.
# The file can't be removed in working directory, because it was
# removed in oldctx
if ds[f] == 'a':
ds.normallookup(f)
continue
ds.remove(f)
for f in r:
# These are files which are removed between oldctx and ctx, which
# means the files which were added in oldctx and were completely
# uncommitted in ctx. If a added file is partially uncommitted, that
# would have resulted in modified status, not removed.
# So a file added in a commit, and uncommitting that addition must
# result in file being stated as unknown.
if ds[f] == 'r':
# The working directory say it's removed, so lets make the file
# unknown
ds.drop(f)
continue
ds.add(f)
else:
m, a, r = repo.status(oldctx.p1(), oldctx, match=match)[:3]
for f in m:
if ds[f] == 'r':
# modified + removed -> removed
continue
ds.normallookup(f)
for f in a:
if ds[f] == 'r':
# added + removed -> unknown
ds.drop(f)
elif ds[f] != 'a':
ds.add(f)
for f in r:
if ds[f] == 'a':
# removed + added -> normal
ds.normallookup(f)
elif ds[f] != 'r':
ds.remove(f)
# Merge old parent and old working dir copies
oldcopies = {}
if interactive:
# Interactive had different meaning of the variables so restoring the
# original meaning to use them
m, a, r = repo.status(oldctx.p1(), oldctx, match=match)[:3]
for f in (m + a):
src = oldctx[f].renamed()
if src:
oldcopies[f] = src[0]
oldcopies.update(copies)
copies = dict((dst, oldcopies.get(src, src))
for dst, src in oldcopies.iteritems())
# Adjust the dirstate copies
for dst, src in copies.iteritems():
if (src not in ctx or dst in ctx or ds[dst] != 'a'):
src = None
ds.copy(src, dst)
@eh.command(
'uncommit',
[('a', 'all', None, _('uncommit all changes when no arguments given')),
('i', 'interactive', False, _('interactive mode to uncommit (EXPERIMENTAL)')),
('r', 'rev', '', _('revert commit content to REV instead')),
('n', 'note', '', _('store a note on uncommit')),
] + commands.walkopts + commitopts + commitopts2 + commitopts3,
_('[OPTION]... [NAME]'))
def uncommit(ui, repo, *pats, **opts):
"""move changes from parent revision to working directory
Changes to selected files in the checked out revision appear again as
uncommitted changed in the working directory. A new revision
without the selected changes is created, becomes the checked out
revision, and obsoletes the previous one.
The --include option specifies patterns to uncommit.
The --exclude option specifies patterns to keep in the commit.
The --rev argument let you change the commit file to a content of another
revision. It still does not change the content of your file in the working
directory.
.. container:: verbose
The --interactive option lets you select hunks interactively to uncommit.
You can uncommit parts of file using this option.
Return 0 if changed files are uncommitted.
"""
_checknotesize(ui, opts)
_resolveoptions(ui, opts) # process commitopts3
interactive = opts.get('interactive')
wlock = lock = tr = None
try:
wlock = repo.wlock()
lock = repo.lock()
wctx = repo[None]
if len(wctx.parents()) <= 0:
raise error.Abort(_("cannot uncommit null changeset"))
if len(wctx.parents()) > 1:
raise error.Abort(_("cannot uncommit while merging"))
old = repo['.']
rewriteutil.precheck(repo, [repo['.'].rev()], action='uncommit')
if len(old.parents()) > 1:
raise error.Abort(_("cannot uncommit merge changeset"))
oldphase = old.phase()
rev = None
if opts.get('rev'):
rev = scmutil.revsingle(repo, opts.get('rev'))
ctx = repo[None]
if ctx.p1() == rev or ctx.p2() == rev:
raise error.Abort(_("cannot uncommit to parent changeset"))
onahead = old.rev() in repo.changelog.headrevs()
disallowunstable = not obsolete.isenabled(repo,
obsolete.allowunstableopt)
if disallowunstable and not onahead:
raise error.Abort(_("cannot uncommit in the middle of a stack"))
# Recommit the filtered changeset
tr = repo.transaction('uncommit')
updatebookmarks = rewriteutil.bookmarksupdater(repo, old.node(), tr)
if interactive:
opts['all'] = True
match = scmutil.match(old, pats, opts)
newid = _interactiveuncommit(ui, repo, old, match)
else:
newid = None
includeorexclude = opts.get('include') or opts.get('exclude')
if (pats or includeorexclude or opts.get('all')):
match = scmutil.match(old, pats, opts)
if not (opts['message'] or opts['logfile']):
opts['message'] = old.description()
message = cmdutil.logmessage(ui, opts)
newid = _commitfiltered(repo, old, match, target=rev,
message=message, user=opts.get('user'),
date=opts.get('date'))
if newid is None:
raise error.Abort(_('nothing to uncommit'),
hint=_("use --all to uncommit all files"))
# metadata to be stored in obsmarker
metadata = {}
if opts.get('note'):
metadata['note'] = opts['note']
obsolete.createmarkers(repo, [(old, (repo[newid],))], metadata=metadata)
phases.retractboundary(repo, tr, oldphase, [newid])
with repo.dirstate.parentchange():
repo.dirstate.setparents(newid, node.nullid)
_uncommitdirstate(repo, old, match, interactive)
updatebookmarks(newid)
if not repo[newid].files():
ui.warn(_("new changeset is empty\n"))
ui.status(_("(use 'hg prune .' to remove it)\n"))
tr.close()
finally:
lockmod.release(tr, lock, wlock)
def _interactiveuncommit(ui, repo, old, match):
""" The function which contains all the logic for interactively uncommiting
a commit. This function makes a temporary commit with the chunks which user
selected to uncommit. After that the diff of the parent and that commit is
applied to the working directory and committed again which results in the
new commit which should be one after uncommitted.
"""
# create a temporary commit with hunks user selected
tempnode = _createtempcommit(ui, repo, old, match)
diffopts = patch.difffeatureopts(repo.ui, whitespace=True)
diffopts.nodates = True
diffopts.git = True
fp = stringio()
for chunk, label in patch.diffui(repo, tempnode, old.node(), None,
opts=diffopts):
fp.write(chunk)
fp.seek(0)
newnode = _patchtocommit(ui, repo, old, fp)
# creating obs marker temp -> ()
obsolete.createmarkers(repo, [(repo[tempnode], ())])
return newnode
def _createtempcommit(ui, repo, old, match):
""" Creates a temporary commit for `uncommit --interative` which contains
the hunks which were selected by the user to uncommit.
"""
pold = old.p1()
# The logic to interactively selecting something copied from
# cmdutil.revert()
diffopts = patch.difffeatureopts(repo.ui, whitespace=True)
diffopts.nodates = True
diffopts.git = True
diff = patch.diff(repo, pold.node(), old.node(), match, opts=diffopts)
originalchunks = patch.parsepatch(diff)
# XXX: The interactive selection is buggy and does not let you
# uncommit a removed file partially.
# TODO: wrap the operations in mercurial/patch.py and mercurial/crecord.py
# to add uncommit as an operation taking care of BC.
chunks, opts = cmdutil.recordfilter(repo.ui, originalchunks,
operation='discard')
if not chunks:
raise error.Abort(_("nothing selected to uncommit"))
fp = stringio()
for c in chunks:
c.write(fp)
fp.seek(0)
oldnode = node.hex(old.node())[:12]
message = 'temporary commit for uncommiting %s' % oldnode
tempnode = _patchtocommit(ui, repo, old, fp, message, oldnode)
return tempnode
def _patchtocommit(ui, repo, old, fp, message=None, extras=None):
""" A function which will apply the patch to the working directory and
make a commit whose parents are same as that of old argument. The message
argument tells us whether to use the message of the old commit or a
different message which is passed. Returns the node of new commit made.
"""
pold = old.p1()
parents = (old.p1().node(), old.p2().node())
date = old.date()
branch = old.branch()
user = old.user()
extra = old.extra()
if extras:
extra['uncommit_source'] = extras
if not message:
message = old.description()
store = patch.filestore()
try:
files = set()
try:
patch.patchrepo(ui, repo, pold, store, fp, 1, '',
files=files, eolmode=None)
except patch.PatchError as err:
raise error.Abort(str(err))
finally:
del fp
memctx = context.memctx(repo, parents, message, files=files,
filectxfn=store,
user=user,
date=date,
branch=branch,
extra=extra)
newcm = memctx.commit()
finally:
store.close()
return newcm
@eh.command(
'^fold|squash',
[('r', 'rev', [], _("revision to fold")),
('', 'exact', None, _("only fold specified revisions")),
('', 'from', None, _("fold revisions linearly to working copy parent")),
('n', 'note', '', _('store a note on fold')),
] + commitopts + commitopts2 + commitopts3,
_('hg fold [OPTION]... [-r] REV'))
def fold(ui, repo, *revs, **opts):
"""fold multiple revisions into a single one
With --from, folds all the revisions linearly between the given revisions
and the parent of the working directory.
With --exact, folds only the specified revisions while ignoring the
parent of the working directory. In this case, the given revisions must
form a linear unbroken chain.
.. container:: verbose
Some examples:
- Fold the current revision with its parent::
hg fold --from .^
- Fold all draft revisions with working directory parent::
hg fold --from 'draft()'
See :hg:`help phases` for more about draft revisions and
:hg:`help revsets` for more about the `draft()` keyword
- Fold revisions between 3 and 6 with the working directory parent::
hg fold --from 3::6
- Fold revisions 3 and 4::
hg fold "3 + 4" --exact
- Only fold revisions linearly between foo and @::
hg fold foo::@ --exact
"""
_checknotesize(ui, opts)
_resolveoptions(ui, opts)
revs = list(revs)
revs.extend(opts['rev'])
if not revs:
raise error.Abort(_('no revisions specified'))
revs = scmutil.revrange(repo, revs)
if opts['from'] and opts['exact']:
raise error.Abort(_('cannot use both --from and --exact'))
elif opts['from']:
# Try to extend given revision starting from the working directory
extrevs = repo.revs('(%ld::.) or (.::%ld)', revs, revs)
discardedrevs = [r for r in revs if r not in extrevs]
if discardedrevs:
msg = _("cannot fold non-linear revisions")
hint = _("given revisions are unrelated to parent of working"
" directory")
raise error.Abort(msg, hint=hint)
revs = extrevs
elif opts['exact']:
# Nothing to do; "revs" is already set correctly
pass
else:
raise error.Abort(_('must specify either --from or --exact'))
if not revs:
raise error.Abort(_('specified revisions evaluate to an empty set'),
hint=_('use different revision arguments'))
elif len(revs) == 1:
ui.write_err(_('single revision specified, nothing to fold\n'))
return 1
wlock = lock = None
try:
wlock = repo.wlock()
lock = repo.lock()
root, head = rewriteutil.foldcheck(repo, revs)
tr = repo.transaction('fold')
try:
commitopts = opts.copy()
allctx = [repo[r] for r in revs]
targetphase = max(c.phase() for c in allctx)
if commitopts.get('message') or commitopts.get('logfile'):
commitopts['edit'] = False
else:
msgs = ["HG: This is a fold of %d changesets." % len(allctx)]
msgs += ["HG: Commit message of changeset %s.\n\n%s\n" %
(c.rev(), c.description()) for c in allctx]
commitopts['message'] = "\n".join(msgs)
commitopts['edit'] = True
metadata = {}
if opts.get('note'):
metadata['note'] = opts['note']
newid, unusedvariable = rewriteutil.rewrite(repo, root, allctx,
head,
[root.p1().node(),
root.p2().node()],
commitopts=commitopts)
phases.retractboundary(repo, tr, targetphase, [newid])
obsolete.createmarkers(repo, [(ctx, (repo[newid],))
for ctx in allctx], metadata=metadata)
tr.close()
finally:
tr.release()
ui.status('%i changesets folded\n' % len(revs))
if repo['.'].rev() in revs:
hg.update(repo, newid)
finally:
lockmod.release(lock, wlock)
@eh.command(
'metaedit',
[('r', 'rev', [], _("revision to edit")),
('', 'fold', None, _("also fold specified revisions into one")),
('n', 'note', '', _('store a note on metaedit')),
] + commitopts + commitopts2 + commitopts3,
_('hg metaedit [OPTION]... [-r] [REV]'))
def metaedit(ui, repo, *revs, **opts):
"""edit commit information
Edits the commit information for the specified revisions. By default, edits
commit information for the working directory parent.
With --fold, also folds multiple revisions into one if necessary. In this
case, the given revisions must form a linear unbroken chain.
.. container:: verbose
Some examples:
- Edit the commit message for the working directory parent::
hg metaedit
- Change the username for the working directory parent::
hg metaedit --user 'New User <new-email@example.com>'
- Combine all draft revisions that are ancestors of foo but not of @ into
one::
hg metaedit --fold 'draft() and only(foo,@)'
See :hg:`help phases` for more about draft revisions, and
:hg:`help revsets` for more about the `draft()` and `only()` keywords.
"""
_checknotesize(ui, opts)
_resolveoptions(ui, opts)
revs = list(revs)
revs.extend(opts['rev'])
if not revs:
if opts['fold']:
raise error.Abort(_('revisions must be specified with --fold'))
revs = ['.']
wlock = lock = None
try:
wlock = repo.wlock()
lock = repo.lock()
revs = scmutil.revrange(repo, revs)
if not opts['fold'] and len(revs) > 1:
# TODO: handle multiple revisions. This is somewhat tricky because
# if we want to edit a series of commits:
#
# a ---- b ---- c
#
# we need to rewrite a first, then directly rewrite b on top of the
# new a, then rewrite c on top of the new b. So we need to handle
# revisions in topological order.
raise error.Abort(_('editing multiple revisions without --fold is '
'not currently supported'))
if opts['fold']:
root, head = rewriteutil.foldcheck(repo, revs)
else:
if repo.revs("%ld and public()", revs):
raise error.Abort(_('cannot edit commit information for public '
'revisions'))
newunstable = rewriteutil.disallowednewunstable(repo, revs)
if newunstable:
msg = _('cannot edit commit information in the middle'
' of a stack')
hint = _('%s will become unstable and new unstable changes'
' are not allowed')
hint %= repo[newunstable.first()]
raise error.Abort(msg, hint=hint)
root = head = repo[revs.first()]
wctx = repo[None]
p1 = wctx.p1()
tr = repo.transaction('metaedit')
newp1 = None
try:
commitopts = opts.copy()
allctx = [repo[r] for r in revs]
targetphase = max(c.phase() for c in allctx)
if commitopts.get('message') or commitopts.get('logfile'):
commitopts['edit'] = False
else:
if opts['fold']:
msgs = ["HG: This is a fold of %d changesets." % len(allctx)]
msgs += ["HG: Commit message of changeset %s.\n\n%s\n" %
(c.rev(), c.description()) for c in allctx]
else:
msgs = [head.description()]
commitopts['message'] = "\n".join(msgs)
commitopts['edit'] = True
# TODO: if the author and message are the same, don't create a new
# hash. Right now we create a new hash because the date can be
# different.
newid, created = rewriteutil.rewrite(repo, root, allctx, head,
[root.p1().node(),
root.p2().node()],
commitopts=commitopts)
if created:
if p1.rev() in revs:
newp1 = newid
# metadata to be stored on obsmarker
metadata = {}
if opts.get('note'):
metadata['note'] = opts['note']
phases.retractboundary(repo, tr, targetphase, [newid])
obsolete.createmarkers(repo, [(ctx, (repo[newid],))
for ctx in allctx],
metadata=metadata)
else:
ui.status(_("nothing changed\n"))
tr.close()
finally:
tr.release()
if opts['fold']:
ui.status('%i changesets folded\n' % len(revs))
if newp1 is not None:
hg.update(repo, newp1)
finally:
lockmod.release(lock, wlock)
metadataopts = [
('d', 'date', '',
_('record the specified date in metadata'), _('DATE')),
('u', 'user', '',
_('record the specified user in metadata'), _('USER')),
]
def _getmetadata(**opts):
metadata = {}
date = opts.get('date')
user = opts.get('user')
if date:
metadata['date'] = '%i %i' % util.parsedate(date)
if user:
metadata['user'] = user
return metadata
@eh.command(
'^prune|obsolete',
[('n', 'new', [], _("successor changeset (DEPRECATED)")),
('s', 'succ', [], _("successor changeset")),
('r', 'rev', [], _("revisions to prune")),
('k', 'keep', None, _("does not modify working copy during prune")),
('n', 'note', '', _('store a note on prune')),
('', 'biject', False, _("do a 1-1 map between rev and successor ranges")),
('', 'fold', False,
_("record a fold (multiple precursors, one successors)")),
('', 'split', False,
_("record a split (on precursor, multiple successors)")),
('B', 'bookmark', [], _("remove revs only reachable from given"
" bookmark"))] + metadataopts,
_('[OPTION] [-r] REV...'))
# XXX -U --noupdate option to prevent wc update and or bookmarks update ?
def cmdprune(ui, repo, *revs, **opts):
"""hide changesets by marking them obsolete
Pruned changesets are obsolete with no successors. If they also have no
descendants, they are hidden (invisible to all commands).
Non-obsolete descendants of pruned changesets become "unstable". Use :hg:`evolve`
to handle this situation.
When you prune the parent of your working copy, Mercurial updates the working
copy to a non-obsolete parent.
You can use ``--succ`` to tell Mercurial that a newer version (successor) of the
pruned changeset exists. Mercurial records successor revisions in obsolescence
markers.
You can use the ``--biject`` option to specify a 1-1 mapping (bijection) between
revisions to pruned (precursor) and successor changesets. This option may be
removed in a future release (with the functionality provided automatically).
If you specify multiple revisions in ``--succ``, you are recording a "split" and
must acknowledge it by passing ``--split``. Similarly, when you prune multiple
changesets with a single successor, you must pass the ``--fold`` option.
"""
_checknotesize(ui, opts)
revs = scmutil.revrange(repo, list(revs) + opts.get('rev'))
succs = opts['new'] + opts['succ']
bookmarks = set(opts.get('bookmark'))
metadata = _getmetadata(**opts)
biject = opts.get('biject')
fold = opts.get('fold')
split = opts.get('split')
options = [o for o in ('biject', 'fold', 'split') if opts.get(o)]
if 1 < len(options):
raise error.Abort(_("can only specify one of %s") % ', '.join(options))
if bookmarks:
reachablefrombookmark = rewriteutil.reachablefrombookmark
repomarks, revs = reachablefrombookmark(repo, revs, bookmarks)
if not revs:
# no revisions to prune - delete bookmark immediately
rewriteutil.deletebookmark(repo, repomarks, bookmarks)
if not revs:
raise error.Abort(_('nothing to prune'))
wlock = lock = tr = None
try:
wlock = repo.wlock()
lock = repo.lock()
rewriteutil.precheck(repo, revs, 'touch')
tr = repo.transaction('prune')
# defines pruned changesets
precs = []
revs.sort()
for p in revs:
cp = repo[p]
precs.append(cp)
if not precs:
raise error.Abort('nothing to prune')
# defines successors changesets
sucs = scmutil.revrange(repo, succs)
sucs.sort()
sucs = tuple(repo[n] for n in sucs)
if not biject and len(sucs) > 1 and len(precs) > 1:
msg = "Can't use multiple successors for multiple precursors"
hint = _("use --biject to mark a series as a replacement"
" for another")
raise error.Abort(msg, hint=hint)
elif biject and len(sucs) != len(precs):
msg = "Can't use %d successors for %d precursors" \
% (len(sucs), len(precs))
raise error.Abort(msg)
elif (len(precs) == 1 and len(sucs) > 1) and not split:
msg = "please add --split if you want to do a split"
raise error.Abort(msg)
elif len(sucs) == 1 and len(precs) > 1 and not fold:
msg = "please add --fold if you want to do a fold"
raise error.Abort(msg)
elif biject:
relations = [(p, (s,)) for p, s in zip(precs, sucs)]
else:
relations = [(p, sucs) for p in precs]
wdp = repo['.']
if len(sucs) == 1 and len(precs) == 1 and wdp in precs:
# '.' killed, so update to the successor
newnode = sucs[0]
else:
# update to an unkilled parent
newnode = wdp
while newnode in precs or newnode.obsolete():
newnode = newnode.parents()[0]
if newnode.node() != wdp.node():
if opts.get('keep', False):
# This is largely the same as the implementation in
# strip.stripcmd(). We might want to refactor this somewhere
# common at some point.
# only reset the dirstate for files that would actually change
# between the working context and uctx
descendantrevs = repo.revs("%d::." % newnode.rev())
changedfiles = []
for rev in descendantrevs:
# blindly reset the files, regardless of what actually
# changed
changedfiles.extend(repo[rev].files())
# reset files that only changed in the dirstate too
dirstate = repo.dirstate
dirchanges = [f for f in dirstate if dirstate[f] != 'n']
changedfiles.extend(dirchanges)
repo.dirstate.rebuild(newnode.node(), newnode.manifest(),
changedfiles)
dirstate.write(tr)
else:
bookactive = repo._activebookmark
# Active bookmark that we don't want to delete (with -B option)
# we deactivate and move it before the update and reactivate it
# after
movebookmark = bookactive and not bookmarks
if movebookmark:
bookmarksmod.deactivate(repo)
bmchanges = [(bookactive, newnode.node())]
compat.bookmarkapplychanges(repo, tr, bmchanges)
commands.update(ui, repo, newnode.rev())
ui.status(_('working directory now at %s\n')
% ui.label(str(newnode), 'evolve.node'))
if movebookmark:
bookmarksmod.activate(repo, bookactive)
# update bookmarks
if bookmarks:
rewriteutil.deletebookmark(repo, repomarks, bookmarks)
# store note in metadata
if opts.get('note'):
metadata['note'] = opts['note']
# create markers
obsolete.createmarkers(repo, relations, metadata=metadata)
# informs that changeset have been pruned
ui.status(_('%i changesets pruned\n') % len(precs))
for ctx in repo.unfiltered().set('bookmark() and %ld', precs):
# used to be:
#
# ldest = list(repo.set('max((::%d) - obsolete())', ctx))
# if ldest:
# c = ldest[0]
#
# but then revset took a lazy arrow in the knee and became much
# slower. The new forms makes as much sense and a much faster.
for dest in ctx.ancestors():
if not dest.obsolete():
bookmarksupdater = rewriteutil.bookmarksupdater
updatebookmarks = bookmarksupdater(repo, ctx.node(), tr)
updatebookmarks(dest.node())
break
tr.close()
finally:
lockmod.release(tr, lock, wlock)
@eh.command(
'^split',
[('r', 'rev', [], _("revision to split")),
('n', 'note', '', _("store a note on split")),
] + commitopts + commitopts2 + commitopts3,
_('hg split [OPTION]... [-r] REV'))
def cmdsplit(ui, repo, *revs, **opts):
"""split a changeset into smaller changesets
By default, split the current revision by prompting for all its hunks to be
redistributed into new changesets.
Use --rev to split a given changeset instead.
"""
_checknotesize(ui, opts)
_resolveoptions(ui, opts)
tr = wlock = lock = None
newcommits = []
revarg = (list(revs) + opts.get('rev')) or ['.']
if len(revarg) != 1:
msg = _("more than one revset is given")
hnt = _("use either `hg split <rs>` or `hg split --rev <rs>`, not both")
raise error.Abort(msg, hint=hnt)
# Save the current branch to restore it in the end
savedbranch = repo.dirstate.branch()
try:
wlock = repo.wlock()
lock = repo.lock()
rev = scmutil.revsingle(repo, revarg[0])
cmdutil.bailifchanged(repo)
rewriteutil.precheck(repo, [rev], action='split')
tr = repo.transaction('split')
ctx = repo[rev]
if len(ctx.parents()) > 1:
raise error.Abort(_("cannot split merge commits"))
prev = ctx.p1()
bmupdate = rewriteutil.bookmarksupdater(repo, ctx.node(), tr)
bookactive = repo._activebookmark
if bookactive is not None:
repo.ui.status(_("(leaving bookmark %s)\n") % repo._activebookmark)
bookmarksmod.deactivate(repo)
# Prepare the working directory
rewriteutil.presplitupdate(repo, ui, prev, ctx)
def haschanges():
modified, added, removed, deleted = repo.status()[:4]
return modified or added or removed or deleted
msg = ("HG: This is the original pre-split commit message. "
"Edit it as appropriate.\n\n")
msg += ctx.description()
opts['message'] = msg
opts['edit'] = True
if not opts['user']:
opts['user'] = ctx.user()
# Set the right branch
# XXX-TODO: Find a way to set the branch without altering the dirstate
repo.dirstate.setbranch(ctx.branch())
while haschanges():
pats = ()
cmdutil.dorecord(ui, repo, commands.commit, 'commit', False,
cmdutil.recordfilter, *pats, **opts)
# TODO: Does no seem like the best way to do this
# We should make dorecord return the newly created commit
newcommits.append(repo['.'])
if haschanges():
if ui.prompt('Done splitting? [yN]', default='n') == 'y':
commands.commit(ui, repo, **opts)
newcommits.append(repo['.'])
break
else:
ui.status(_("no more change to split\n"))
if newcommits:
tip = repo[newcommits[-1]]
bmupdate(tip.node())
if bookactive is not None:
bookmarksmod.activate(repo, bookactive)
metadata = {}
if opts.get('note'):
metadata['note'] = opts['note']
obsolete.createmarkers(repo, [(repo[rev], newcommits)],
metadata=metadata)
tr.close()
finally:
# Restore the old branch
repo.dirstate.setbranch(savedbranch)
lockmod.release(tr, lock, wlock)
@eh.command(
'touch',
[('r', 'rev', [], 'revision to update'),
('n', 'note', '', _('store a note on touch')),
('D', 'duplicate', False,
'do not mark the new revision as successor of the old one'),
('A', 'allowdivergence', False,
'mark the new revision as successor of the old one potentially creating '
'divergence')],
# allow to choose the seed ?
_('[-r] revs'))
def touch(ui, repo, *revs, **opts):
"""create successors identical to their predecessors but the changeset ID
This is used to "resurrect" changesets
"""
_checknotesize(ui, opts)
duplicate = opts['duplicate']
allowdivergence = opts['allowdivergence']
revs = list(revs)
revs.extend(opts['rev'])
if not revs:
revs = ['.']
revs = scmutil.revrange(repo, revs)
if not revs:
ui.write_err('no revision to touch\n')
return 1
if not duplicate:
rewriteutil.precheck(repo, revs, touch)
tmpl = utility.shorttemplate
displayer = cmdutil.show_changeset(ui, repo, {'template': tmpl})
wlock = lock = tr = None
try:
wlock = repo.wlock()
lock = repo.lock()
tr = repo.transaction('touch')
revs.sort() # ensure parent are run first
newmapping = {}
for r in revs:
ctx = repo[r]
extra = ctx.extra().copy()
extra['__touch-noise__'] = random.randint(0, 0xffffffff)
# search for touched parent
p1 = ctx.p1().node()
p2 = ctx.p2().node()
p1 = newmapping.get(p1, p1)
p2 = newmapping.get(p2, p2)
if not (duplicate or allowdivergence):
# The user hasn't yet decided what to do with the revived
# cset, let's ask
sset = compat.successorssets(repo, ctx.node())
nodivergencerisk = (len(sset) == 0 or
(len(sset) == 1 and
len(sset[0]) == 1 and
repo[sset[0][0]].rev() == ctx.rev()
))
if nodivergencerisk:
duplicate = False
else:
displayer.show(ctx)
index = ui.promptchoice(
_("reviving this changeset will create divergence"
" unless you make a duplicate.\n(a)llow divergence or"
" (d)uplicate the changeset? $$ &Allowdivergence $$ "
"&Duplicate"), 0)
choice = ['allowdivergence', 'duplicate'][index]
if choice == 'allowdivergence':
duplicate = False
else:
duplicate = True
extradict = {'extra': extra}
new, unusedvariable = rewriteutil.rewrite(repo, ctx, [], ctx,
[p1, p2],
commitopts=extradict)
# store touched version to help potential children
newmapping[ctx.node()] = new
if not duplicate:
metadata = {}
if opts.get('note'):
metadata['note'] = opts['note']
obsolete.createmarkers(repo, [(ctx, (repo[new],))],
metadata=metadata)
phases.retractboundary(repo, tr, ctx.phase(), [new])
if ctx in repo[None].parents():
with repo.dirstate.parentchange():
repo.dirstate.setparents(new, node.nullid)
tr.close()
finally:
lockmod.release(tr, lock, wlock)