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typing: consolidate "if not globals():" trick...
typing: consolidate "if not globals():" trick Removes redundant inline comments. I think pycompat is good place to host this kind of constants.

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cmdutil.py
3984 lines | 130.1 KiB | text/x-python | PythonLexer
# cmdutil.py - help for command processing in mercurial
#
# Copyright 2005-2007 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 copy as copymod
import errno
import os
import re
from .i18n import _
from .node import (
hex,
nullid,
nullrev,
short,
)
from .pycompat import (
getattr,
open,
setattr,
)
from . import (
bookmarks,
changelog,
copies,
crecord as crecordmod,
dirstateguard,
encoding,
error,
formatter,
logcmdutil,
match as matchmod,
merge as mergemod,
mergeutil,
obsolete,
patch,
pathutil,
phases,
pycompat,
repair,
revlog,
rewriteutil,
scmutil,
smartset,
state as statemod,
subrepoutil,
templatekw,
templater,
util,
vfs as vfsmod,
)
from .utils import (
dateutil,
stringutil,
)
if pycompat.TYPE_CHECKING:
from typing import (
Any,
Dict,
)
for t in (Any, Dict):
assert t
stringio = util.stringio
# templates of common command options
dryrunopts = [
(b'n', b'dry-run', None, _(b'do not perform actions, just print output')),
]
confirmopts = [
(b'', b'confirm', None, _(b'ask before applying actions')),
]
remoteopts = [
(b'e', b'ssh', b'', _(b'specify ssh command to use'), _(b'CMD')),
(
b'',
b'remotecmd',
b'',
_(b'specify hg command to run on the remote side'),
_(b'CMD'),
),
(
b'',
b'insecure',
None,
_(b'do not verify server certificate (ignoring web.cacerts config)'),
),
]
walkopts = [
(
b'I',
b'include',
[],
_(b'include names matching the given patterns'),
_(b'PATTERN'),
),
(
b'X',
b'exclude',
[],
_(b'exclude names matching the given patterns'),
_(b'PATTERN'),
),
]
commitopts = [
(b'm', b'message', b'', _(b'use text as commit message'), _(b'TEXT')),
(b'l', b'logfile', b'', _(b'read commit message from file'), _(b'FILE')),
]
commitopts2 = [
(
b'd',
b'date',
b'',
_(b'record the specified date as commit date'),
_(b'DATE'),
),
(
b'u',
b'user',
b'',
_(b'record the specified user as committer'),
_(b'USER'),
),
]
commitopts3 = [
(b'D', b'currentdate', None, _(b'record the current date as commit date')),
(b'U', b'currentuser', None, _(b'record the current user as committer')),
]
formatteropts = [
(b'T', b'template', b'', _(b'display with template'), _(b'TEMPLATE')),
]
templateopts = [
(
b'',
b'style',
b'',
_(b'display using template map file (DEPRECATED)'),
_(b'STYLE'),
),
(b'T', b'template', b'', _(b'display with template'), _(b'TEMPLATE')),
]
logopts = [
(b'p', b'patch', None, _(b'show patch')),
(b'g', b'git', None, _(b'use git extended diff format')),
(b'l', b'limit', b'', _(b'limit number of changes displayed'), _(b'NUM')),
(b'M', b'no-merges', None, _(b'do not show merges')),
(b'', b'stat', None, _(b'output diffstat-style summary of changes')),
(b'G', b'graph', None, _(b"show the revision DAG")),
] + templateopts
diffopts = [
(b'a', b'text', None, _(b'treat all files as text')),
(b'g', b'git', None, _(b'use git extended diff format')),
(b'', b'binary', None, _(b'generate binary diffs in git mode (default)')),
(b'', b'nodates', None, _(b'omit dates from diff headers')),
]
diffwsopts = [
(
b'w',
b'ignore-all-space',
None,
_(b'ignore white space when comparing lines'),
),
(
b'b',
b'ignore-space-change',
None,
_(b'ignore changes in the amount of white space'),
),
(
b'B',
b'ignore-blank-lines',
None,
_(b'ignore changes whose lines are all blank'),
),
(
b'Z',
b'ignore-space-at-eol',
None,
_(b'ignore changes in whitespace at EOL'),
),
]
diffopts2 = (
[
(b'', b'noprefix', None, _(b'omit a/ and b/ prefixes from filenames')),
(
b'p',
b'show-function',
None,
_(b'show which function each change is in'),
),
(b'', b'reverse', None, _(b'produce a diff that undoes the changes')),
]
+ diffwsopts
+ [
(
b'U',
b'unified',
b'',
_(b'number of lines of context to show'),
_(b'NUM'),
),
(b'', b'stat', None, _(b'output diffstat-style summary of changes')),
(
b'',
b'root',
b'',
_(b'produce diffs relative to subdirectory'),
_(b'DIR'),
),
]
)
mergetoolopts = [
(b't', b'tool', b'', _(b'specify merge tool'), _(b'TOOL')),
]
similarityopts = [
(
b's',
b'similarity',
b'',
_(b'guess renamed files by similarity (0<=s<=100)'),
_(b'SIMILARITY'),
)
]
subrepoopts = [(b'S', b'subrepos', None, _(b'recurse into subrepositories'))]
debugrevlogopts = [
(b'c', b'changelog', False, _(b'open changelog')),
(b'm', b'manifest', False, _(b'open manifest')),
(b'', b'dir', b'', _(b'open directory manifest')),
]
# special string such that everything below this line will be ingored in the
# editor text
_linebelow = b"^HG: ------------------------ >8 ------------------------$"
def resolvecommitoptions(ui, opts):
"""modify commit options dict to handle related options
The return value indicates that ``rewrite.update-timestamp`` is the reason
the ``date`` option is set.
"""
if opts.get(b'date') and opts.get(b'currentdate'):
raise error.Abort(_(b'--date and --currentdate are mutually exclusive'))
if opts.get(b'user') and opts.get(b'currentuser'):
raise error.Abort(_(b'--user and --currentuser are mutually exclusive'))
datemaydiffer = False # date-only change should be ignored?
if opts.get(b'currentdate'):
opts[b'date'] = b'%d %d' % dateutil.makedate()
elif (
not opts.get(b'date')
and ui.configbool(b'rewrite', b'update-timestamp')
and opts.get(b'currentdate') is None
):
opts[b'date'] = b'%d %d' % dateutil.makedate()
datemaydiffer = True
if opts.get(b'currentuser'):
opts[b'user'] = ui.username()
return datemaydiffer
def checknotesize(ui, opts):
""" make sure note is of valid format """
note = opts.get(b'note')
if not note:
return
if len(note) > 255:
raise error.Abort(_(b"cannot store a note of more than 255 bytes"))
if b'\n' in note:
raise error.Abort(_(b"note cannot contain a newline"))
def ishunk(x):
hunkclasses = (crecordmod.uihunk, patch.recordhunk)
return isinstance(x, hunkclasses)
def newandmodified(chunks, originalchunks):
newlyaddedandmodifiedfiles = set()
alsorestore = set()
for chunk in chunks:
if (
ishunk(chunk)
and chunk.header.isnewfile()
and chunk not in originalchunks
):
newlyaddedandmodifiedfiles.add(chunk.header.filename())
alsorestore.update(
set(chunk.header.files()) - {chunk.header.filename()}
)
return newlyaddedandmodifiedfiles, alsorestore
def parsealiases(cmd):
return cmd.split(b"|")
def setupwrapcolorwrite(ui):
# wrap ui.write so diff output can be labeled/colorized
def wrapwrite(orig, *args, **kw):
label = kw.pop('label', b'')
for chunk, l in patch.difflabel(lambda: args):
orig(chunk, label=label + l)
oldwrite = ui.write
def wrap(*args, **kwargs):
return wrapwrite(oldwrite, *args, **kwargs)
setattr(ui, 'write', wrap)
return oldwrite
def filterchunks(ui, originalhunks, usecurses, testfile, match, operation=None):
try:
if usecurses:
if testfile:
recordfn = crecordmod.testdecorator(
testfile, crecordmod.testchunkselector
)
else:
recordfn = crecordmod.chunkselector
return crecordmod.filterpatch(
ui, originalhunks, recordfn, operation
)
except crecordmod.fallbackerror as e:
ui.warn(b'%s\n' % e.message) # pytype: disable=attribute-error
ui.warn(_(b'falling back to text mode\n'))
return patch.filterpatch(ui, originalhunks, match, operation)
def recordfilter(ui, originalhunks, match, operation=None):
""" Prompts the user to filter the originalhunks and return a list of
selected hunks.
*operation* is used for to build ui messages to indicate the user what
kind of filtering they are doing: reverting, committing, shelving, etc.
(see patch.filterpatch).
"""
usecurses = crecordmod.checkcurses(ui)
testfile = ui.config(b'experimental', b'crecordtest')
oldwrite = setupwrapcolorwrite(ui)
try:
newchunks, newopts = filterchunks(
ui, originalhunks, usecurses, testfile, match, operation
)
finally:
ui.write = oldwrite
return newchunks, newopts
def dorecord(
ui, repo, commitfunc, cmdsuggest, backupall, filterfn, *pats, **opts
):
opts = pycompat.byteskwargs(opts)
if not ui.interactive():
if cmdsuggest:
msg = _(b'running non-interactively, use %s instead') % cmdsuggest
else:
msg = _(b'running non-interactively')
raise error.Abort(msg)
# make sure username is set before going interactive
if not opts.get(b'user'):
ui.username() # raise exception, username not provided
def recordfunc(ui, repo, message, match, opts):
"""This is generic record driver.
Its job is to interactively filter local changes, and
accordingly prepare working directory into a state in which the
job can be delegated to a non-interactive commit command such as
'commit' or 'qrefresh'.
After the actual job is done by non-interactive command, the
working directory is restored to its original state.
In the end we'll record interesting changes, and everything else
will be left in place, so the user can continue working.
"""
if not opts.get(b'interactive-unshelve'):
checkunfinished(repo, commit=True)
wctx = repo[None]
merge = len(wctx.parents()) > 1
if merge:
raise error.Abort(
_(
b'cannot partially commit a merge '
b'(use "hg commit" instead)'
)
)
def fail(f, msg):
raise error.Abort(b'%s: %s' % (f, msg))
force = opts.get(b'force')
if not force:
match = matchmod.badmatch(match, fail)
status = repo.status(match=match)
overrides = {(b'ui', b'commitsubrepos'): True}
with repo.ui.configoverride(overrides, b'record'):
# subrepoutil.precommit() modifies the status
tmpstatus = scmutil.status(
copymod.copy(status.modified),
copymod.copy(status.added),
copymod.copy(status.removed),
copymod.copy(status.deleted),
copymod.copy(status.unknown),
copymod.copy(status.ignored),
copymod.copy(status.clean), # pytype: disable=wrong-arg-count
)
# Force allows -X subrepo to skip the subrepo.
subs, commitsubs, newstate = subrepoutil.precommit(
repo.ui, wctx, tmpstatus, match, force=True
)
for s in subs:
if s in commitsubs:
dirtyreason = wctx.sub(s).dirtyreason(True)
raise error.Abort(dirtyreason)
if not force:
repo.checkcommitpatterns(wctx, match, status, fail)
diffopts = patch.difffeatureopts(
ui,
opts=opts,
whitespace=True,
section=b'commands',
configprefix=b'commit.interactive.',
)
diffopts.nodates = True
diffopts.git = True
diffopts.showfunc = True
originaldiff = patch.diff(repo, changes=status, opts=diffopts)
originalchunks = patch.parsepatch(originaldiff)
match = scmutil.match(repo[None], pats)
# 1. filter patch, since we are intending to apply subset of it
try:
chunks, newopts = filterfn(ui, originalchunks, match)
except error.PatchError as err:
raise error.Abort(_(b'error parsing patch: %s') % err)
opts.update(newopts)
# We need to keep a backup of files that have been newly added and
# modified during the recording process because there is a previous
# version without the edit in the workdir. We also will need to restore
# files that were the sources of renames so that the patch application
# works.
newlyaddedandmodifiedfiles, alsorestore = newandmodified(
chunks, originalchunks
)
contenders = set()
for h in chunks:
try:
contenders.update(set(h.files()))
except AttributeError:
pass
changed = status.modified + status.added + status.removed
newfiles = [f for f in changed if f in contenders]
if not newfiles:
ui.status(_(b'no changes to record\n'))
return 0
modified = set(status.modified)
# 2. backup changed files, so we can restore them in the end
if backupall:
tobackup = changed
else:
tobackup = [
f
for f in newfiles
if f in modified or f in newlyaddedandmodifiedfiles
]
backups = {}
if tobackup:
backupdir = repo.vfs.join(b'record-backups')
try:
os.mkdir(backupdir)
except OSError as err:
if err.errno != errno.EEXIST:
raise
try:
# backup continues
for f in tobackup:
fd, tmpname = pycompat.mkstemp(
prefix=f.replace(b'/', b'_') + b'.', dir=backupdir
)
os.close(fd)
ui.debug(b'backup %r as %r\n' % (f, tmpname))
util.copyfile(repo.wjoin(f), tmpname, copystat=True)
backups[f] = tmpname
fp = stringio()
for c in chunks:
fname = c.filename()
if fname in backups:
c.write(fp)
dopatch = fp.tell()
fp.seek(0)
# 2.5 optionally review / modify patch in text editor
if opts.get(b'review', False):
patchtext = (
crecordmod.diffhelptext
+ crecordmod.patchhelptext
+ fp.read()
)
reviewedpatch = ui.edit(
patchtext, b"", action=b"diff", repopath=repo.path
)
fp.truncate(0)
fp.write(reviewedpatch)
fp.seek(0)
[os.unlink(repo.wjoin(c)) for c in newlyaddedandmodifiedfiles]
# 3a. apply filtered patch to clean repo (clean)
if backups:
# Equivalent to hg.revert
m = scmutil.matchfiles(repo, set(backups.keys()) | alsorestore)
mergemod.update(
repo,
repo.dirstate.p1(),
branchmerge=False,
force=True,
matcher=m,
)
# 3b. (apply)
if dopatch:
try:
ui.debug(b'applying patch\n')
ui.debug(fp.getvalue())
patch.internalpatch(ui, repo, fp, 1, eolmode=None)
except error.PatchError as err:
raise error.Abort(pycompat.bytestr(err))
del fp
# 4. We prepared working directory according to filtered
# patch. Now is the time to delegate the job to
# commit/qrefresh or the like!
# Make all of the pathnames absolute.
newfiles = [repo.wjoin(nf) for nf in newfiles]
return commitfunc(ui, repo, *newfiles, **pycompat.strkwargs(opts))
finally:
# 5. finally restore backed-up files
try:
dirstate = repo.dirstate
for realname, tmpname in pycompat.iteritems(backups):
ui.debug(b'restoring %r to %r\n' % (tmpname, realname))
if dirstate[realname] == b'n':
# without normallookup, restoring timestamp
# may cause partially committed files
# to be treated as unmodified
dirstate.normallookup(realname)
# copystat=True here and above are a hack to trick any
# editors that have f open that we haven't modified them.
#
# Also note that this racy as an editor could notice the
# file's mtime before we've finished writing it.
util.copyfile(tmpname, repo.wjoin(realname), copystat=True)
os.unlink(tmpname)
if tobackup:
os.rmdir(backupdir)
except OSError:
pass
def recordinwlock(ui, repo, message, match, opts):
with repo.wlock():
return recordfunc(ui, repo, message, match, opts)
return commit(ui, repo, recordinwlock, pats, opts)
class dirnode(object):
"""
Represent a directory in user working copy with information required for
the purpose of tersing its status.
path is the path to the directory, without a trailing '/'
statuses is a set of statuses of all files in this directory (this includes
all the files in all the subdirectories too)
files is a list of files which are direct child of this directory
subdirs is a dictionary of sub-directory name as the key and it's own
dirnode object as the value
"""
def __init__(self, dirpath):
self.path = dirpath
self.statuses = set()
self.files = []
self.subdirs = {}
def _addfileindir(self, filename, status):
"""Add a file in this directory as a direct child."""
self.files.append((filename, status))
def addfile(self, filename, status):
"""
Add a file to this directory or to its direct parent directory.
If the file is not direct child of this directory, we traverse to the
directory of which this file is a direct child of and add the file
there.
"""
# the filename contains a path separator, it means it's not the direct
# child of this directory
if b'/' in filename:
subdir, filep = filename.split(b'/', 1)
# does the dirnode object for subdir exists
if subdir not in self.subdirs:
subdirpath = pathutil.join(self.path, subdir)
self.subdirs[subdir] = dirnode(subdirpath)
# try adding the file in subdir
self.subdirs[subdir].addfile(filep, status)
else:
self._addfileindir(filename, status)
if status not in self.statuses:
self.statuses.add(status)
def iterfilepaths(self):
"""Yield (status, path) for files directly under this directory."""
for f, st in self.files:
yield st, pathutil.join(self.path, f)
def tersewalk(self, terseargs):
"""
Yield (status, path) obtained by processing the status of this
dirnode.
terseargs is the string of arguments passed by the user with `--terse`
flag.
Following are the cases which can happen:
1) All the files in the directory (including all the files in its
subdirectories) share the same status and the user has asked us to terse
that status. -> yield (status, dirpath). dirpath will end in '/'.
2) Otherwise, we do following:
a) Yield (status, filepath) for all the files which are in this
directory (only the ones in this directory, not the subdirs)
b) Recurse the function on all the subdirectories of this
directory
"""
if len(self.statuses) == 1:
onlyst = self.statuses.pop()
# Making sure we terse only when the status abbreviation is
# passed as terse argument
if onlyst in terseargs:
yield onlyst, self.path + b'/'
return
# add the files to status list
for st, fpath in self.iterfilepaths():
yield st, fpath
# recurse on the subdirs
for dirobj in self.subdirs.values():
for st, fpath in dirobj.tersewalk(terseargs):
yield st, fpath
def tersedir(statuslist, terseargs):
"""
Terse the status if all the files in a directory shares the same status.
statuslist is scmutil.status() object which contains a list of files for
each status.
terseargs is string which is passed by the user as the argument to `--terse`
flag.
The function makes a tree of objects of dirnode class, and at each node it
stores the information required to know whether we can terse a certain
directory or not.
"""
# the order matters here as that is used to produce final list
allst = (b'm', b'a', b'r', b'd', b'u', b'i', b'c')
# checking the argument validity
for s in pycompat.bytestr(terseargs):
if s not in allst:
raise error.Abort(_(b"'%s' not recognized") % s)
# creating a dirnode object for the root of the repo
rootobj = dirnode(b'')
pstatus = (
b'modified',
b'added',
b'deleted',
b'clean',
b'unknown',
b'ignored',
b'removed',
)
tersedict = {}
for attrname in pstatus:
statuschar = attrname[0:1]
for f in getattr(statuslist, attrname):
rootobj.addfile(f, statuschar)
tersedict[statuschar] = []
# we won't be tersing the root dir, so add files in it
for st, fpath in rootobj.iterfilepaths():
tersedict[st].append(fpath)
# process each sub-directory and build tersedict
for subdir in rootobj.subdirs.values():
for st, f in subdir.tersewalk(terseargs):
tersedict[st].append(f)
tersedlist = []
for st in allst:
tersedict[st].sort()
tersedlist.append(tersedict[st])
return scmutil.status(*tersedlist)
def _commentlines(raw):
'''Surround lineswith a comment char and a new line'''
lines = raw.splitlines()
commentedlines = [b'# %s' % line for line in lines]
return b'\n'.join(commentedlines) + b'\n'
def _conflictsmsg(repo):
mergestate = mergemod.mergestate.read(repo)
if not mergestate.active():
return
m = scmutil.match(repo[None])
unresolvedlist = [f for f in mergestate.unresolved() if m(f)]
if unresolvedlist:
mergeliststr = b'\n'.join(
[
b' %s' % util.pathto(repo.root, encoding.getcwd(), path)
for path in sorted(unresolvedlist)
]
)
msg = (
_(
'''Unresolved merge conflicts:
%s
To mark files as resolved: hg resolve --mark FILE'''
)
% mergeliststr
)
else:
msg = _(b'No unresolved merge conflicts.')
return _commentlines(msg)
def morestatus(repo, fm):
statetuple = statemod.getrepostate(repo)
label = b'status.morestatus'
if statetuple:
state, helpfulmsg = statetuple
statemsg = _(b'The repository is in an unfinished *%s* state.') % state
fm.plain(b'%s\n' % _commentlines(statemsg), label=label)
conmsg = _conflictsmsg(repo)
if conmsg:
fm.plain(b'%s\n' % conmsg, label=label)
if helpfulmsg:
fm.plain(b'%s\n' % _commentlines(helpfulmsg), label=label)
def findpossible(cmd, table, strict=False):
"""
Return cmd -> (aliases, command table entry)
for each matching command.
Return debug commands (or their aliases) only if no normal command matches.
"""
choice = {}
debugchoice = {}
if cmd in table:
# short-circuit exact matches, "log" alias beats "log|history"
keys = [cmd]
else:
keys = table.keys()
allcmds = []
for e in keys:
aliases = parsealiases(e)
allcmds.extend(aliases)
found = None
if cmd in aliases:
found = cmd
elif not strict:
for a in aliases:
if a.startswith(cmd):
found = a
break
if found is not None:
if aliases[0].startswith(b"debug") or found.startswith(b"debug"):
debugchoice[found] = (aliases, table[e])
else:
choice[found] = (aliases, table[e])
if not choice and debugchoice:
choice = debugchoice
return choice, allcmds
def findcmd(cmd, table, strict=True):
"""Return (aliases, command table entry) for command string."""
choice, allcmds = findpossible(cmd, table, strict)
if cmd in choice:
return choice[cmd]
if len(choice) > 1:
clist = sorted(choice)
raise error.AmbiguousCommand(cmd, clist)
if choice:
return list(choice.values())[0]
raise error.UnknownCommand(cmd, allcmds)
def changebranch(ui, repo, revs, label):
""" Change the branch name of given revs to label """
with repo.wlock(), repo.lock(), repo.transaction(b'branches'):
# abort in case of uncommitted merge or dirty wdir
bailifchanged(repo)
revs = scmutil.revrange(repo, revs)
if not revs:
raise error.Abort(b"empty revision set")
roots = repo.revs(b'roots(%ld)', revs)
if len(roots) > 1:
raise error.Abort(
_(b"cannot change branch of non-linear revisions")
)
rewriteutil.precheck(repo, revs, b'change branch of')
root = repo[roots.first()]
rpb = {parent.branch() for parent in root.parents()}
if label not in rpb and label in repo.branchmap():
raise error.Abort(_(b"a branch of the same name already exists"))
if repo.revs(b'obsolete() and %ld', revs):
raise error.Abort(
_(b"cannot change branch of a obsolete changeset")
)
# make sure only topological heads
if repo.revs(b'heads(%ld) - head()', revs):
raise error.Abort(_(b"cannot change branch in middle of a stack"))
replacements = {}
# avoid import cycle mercurial.cmdutil -> mercurial.context ->
# mercurial.subrepo -> mercurial.cmdutil
from . import context
for rev in revs:
ctx = repo[rev]
oldbranch = ctx.branch()
# check if ctx has same branch
if oldbranch == label:
continue
def filectxfn(repo, newctx, path):
try:
return ctx[path]
except error.ManifestLookupError:
return None
ui.debug(
b"changing branch of '%s' from '%s' to '%s'\n"
% (hex(ctx.node()), oldbranch, label)
)
extra = ctx.extra()
extra[b'branch_change'] = hex(ctx.node())
# While changing branch of set of linear commits, make sure that
# we base our commits on new parent rather than old parent which
# was obsoleted while changing the branch
p1 = ctx.p1().node()
p2 = ctx.p2().node()
if p1 in replacements:
p1 = replacements[p1][0]
if p2 in replacements:
p2 = replacements[p2][0]
mc = context.memctx(
repo,
(p1, p2),
ctx.description(),
ctx.files(),
filectxfn,
user=ctx.user(),
date=ctx.date(),
extra=extra,
branch=label,
)
newnode = repo.commitctx(mc)
replacements[ctx.node()] = (newnode,)
ui.debug(b'new node id is %s\n' % hex(newnode))
# create obsmarkers and move bookmarks
scmutil.cleanupnodes(
repo, replacements, b'branch-change', fixphase=True
)
# move the working copy too
wctx = repo[None]
# in-progress merge is a bit too complex for now.
if len(wctx.parents()) == 1:
newid = replacements.get(wctx.p1().node())
if newid is not None:
# avoid import cycle mercurial.cmdutil -> mercurial.hg ->
# mercurial.cmdutil
from . import hg
hg.update(repo, newid[0], quietempty=True)
ui.status(_(b"changed branch on %d changesets\n") % len(replacements))
def findrepo(p):
while not os.path.isdir(os.path.join(p, b".hg")):
oldp, p = p, os.path.dirname(p)
if p == oldp:
return None
return p
def bailifchanged(repo, merge=True, hint=None):
""" enforce the precondition that working directory must be clean.
'merge' can be set to false if a pending uncommitted merge should be
ignored (such as when 'update --check' runs).
'hint' is the usual hint given to Abort exception.
"""
if merge and repo.dirstate.p2() != nullid:
raise error.Abort(_(b'outstanding uncommitted merge'), hint=hint)
st = repo.status()
if st.modified or st.added or st.removed or st.deleted:
raise error.Abort(_(b'uncommitted changes'), hint=hint)
ctx = repo[None]
for s in sorted(ctx.substate):
ctx.sub(s).bailifchanged(hint=hint)
def logmessage(ui, opts):
""" get the log message according to -m and -l option """
message = opts.get(b'message')
logfile = opts.get(b'logfile')
if message and logfile:
raise error.Abort(
_(b'options --message and --logfile are mutually exclusive')
)
if not message and logfile:
try:
if isstdiofilename(logfile):
message = ui.fin.read()
else:
message = b'\n'.join(util.readfile(logfile).splitlines())
except IOError as inst:
raise error.Abort(
_(b"can't read commit message '%s': %s")
% (logfile, encoding.strtolocal(inst.strerror))
)
return message
def mergeeditform(ctxorbool, baseformname):
"""return appropriate editform name (referencing a committemplate)
'ctxorbool' is either a ctx to be committed, or a bool indicating whether
merging is committed.
This returns baseformname with '.merge' appended if it is a merge,
otherwise '.normal' is appended.
"""
if isinstance(ctxorbool, bool):
if ctxorbool:
return baseformname + b".merge"
elif len(ctxorbool.parents()) > 1:
return baseformname + b".merge"
return baseformname + b".normal"
def getcommiteditor(
edit=False, finishdesc=None, extramsg=None, editform=b'', **opts
):
"""get appropriate commit message editor according to '--edit' option
'finishdesc' is a function to be called with edited commit message
(= 'description' of the new changeset) just after editing, but
before checking empty-ness. It should return actual text to be
stored into history. This allows to change description before
storing.
'extramsg' is a extra message to be shown in the editor instead of
'Leave message empty to abort commit' line. 'HG: ' prefix and EOL
is automatically added.
'editform' is a dot-separated list of names, to distinguish
the purpose of commit text editing.
'getcommiteditor' returns 'commitforceeditor' regardless of
'edit', if one of 'finishdesc' or 'extramsg' is specified, because
they are specific for usage in MQ.
"""
if edit or finishdesc or extramsg:
return lambda r, c, s: commitforceeditor(
r, c, s, finishdesc=finishdesc, extramsg=extramsg, editform=editform
)
elif editform:
return lambda r, c, s: commiteditor(r, c, s, editform=editform)
else:
return commiteditor
def _escapecommandtemplate(tmpl):
parts = []
for typ, start, end in templater.scantemplate(tmpl, raw=True):
if typ == b'string':
parts.append(stringutil.escapestr(tmpl[start:end]))
else:
parts.append(tmpl[start:end])
return b''.join(parts)
def rendercommandtemplate(ui, tmpl, props):
r"""Expand a literal template 'tmpl' in a way suitable for command line
'\' in outermost string is not taken as an escape character because it
is a directory separator on Windows.
>>> from . import ui as uimod
>>> ui = uimod.ui()
>>> rendercommandtemplate(ui, b'c:\\{path}', {b'path': b'foo'})
'c:\\foo'
>>> rendercommandtemplate(ui, b'{"c:\\{path}"}', {'path': b'foo'})
'c:{path}'
"""
if not tmpl:
return tmpl
t = formatter.maketemplater(ui, _escapecommandtemplate(tmpl))
return t.renderdefault(props)
def rendertemplate(ctx, tmpl, props=None):
"""Expand a literal template 'tmpl' byte-string against one changeset
Each props item must be a stringify-able value or a callable returning
such value, i.e. no bare list nor dict should be passed.
"""
repo = ctx.repo()
tres = formatter.templateresources(repo.ui, repo)
t = formatter.maketemplater(
repo.ui, tmpl, defaults=templatekw.keywords, resources=tres
)
mapping = {b'ctx': ctx}
if props:
mapping.update(props)
return t.renderdefault(mapping)
def _buildfntemplate(pat, total=None, seqno=None, revwidth=None, pathname=None):
r"""Convert old-style filename format string to template string
>>> _buildfntemplate(b'foo-%b-%n.patch', seqno=0)
'foo-{reporoot|basename}-{seqno}.patch'
>>> _buildfntemplate(b'%R{tags % "{tag}"}%H')
'{rev}{tags % "{tag}"}{node}'
'\' in outermost strings has to be escaped because it is a directory
separator on Windows:
>>> _buildfntemplate(b'c:\\tmp\\%R\\%n.patch', seqno=0)
'c:\\\\tmp\\\\{rev}\\\\{seqno}.patch'
>>> _buildfntemplate(b'\\\\foo\\bar.patch')
'\\\\\\\\foo\\\\bar.patch'
>>> _buildfntemplate(b'\\{tags % "{tag}"}')
'\\\\{tags % "{tag}"}'
but inner strings follow the template rules (i.e. '\' is taken as an
escape character):
>>> _buildfntemplate(br'{"c:\tmp"}', seqno=0)
'{"c:\\tmp"}'
"""
expander = {
b'H': b'{node}',
b'R': b'{rev}',
b'h': b'{node|short}',
b'm': br'{sub(r"[^\w]", "_", desc|firstline)}',
b'r': b'{if(revwidth, pad(rev, revwidth, "0", left=True), rev)}',
b'%': b'%',
b'b': b'{reporoot|basename}',
}
if total is not None:
expander[b'N'] = b'{total}'
if seqno is not None:
expander[b'n'] = b'{seqno}'
if total is not None and seqno is not None:
expander[b'n'] = b'{pad(seqno, total|stringify|count, "0", left=True)}'
if pathname is not None:
expander[b's'] = b'{pathname|basename}'
expander[b'd'] = b'{if(pathname|dirname, pathname|dirname, ".")}'
expander[b'p'] = b'{pathname}'
newname = []
for typ, start, end in templater.scantemplate(pat, raw=True):
if typ != b'string':
newname.append(pat[start:end])
continue
i = start
while i < end:
n = pat.find(b'%', i, end)
if n < 0:
newname.append(stringutil.escapestr(pat[i:end]))
break
newname.append(stringutil.escapestr(pat[i:n]))
if n + 2 > end:
raise error.Abort(
_(b"incomplete format spec in output filename")
)
c = pat[n + 1 : n + 2]
i = n + 2
try:
newname.append(expander[c])
except KeyError:
raise error.Abort(
_(b"invalid format spec '%%%s' in output filename") % c
)
return b''.join(newname)
def makefilename(ctx, pat, **props):
if not pat:
return pat
tmpl = _buildfntemplate(pat, **props)
# BUG: alias expansion shouldn't be made against template fragments
# rewritten from %-format strings, but we have no easy way to partially
# disable the expansion.
return rendertemplate(ctx, tmpl, pycompat.byteskwargs(props))
def isstdiofilename(pat):
"""True if the given pat looks like a filename denoting stdin/stdout"""
return not pat or pat == b'-'
class _unclosablefile(object):
def __init__(self, fp):
self._fp = fp
def close(self):
pass
def __iter__(self):
return iter(self._fp)
def __getattr__(self, attr):
return getattr(self._fp, attr)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, exc_tb):
pass
def makefileobj(ctx, pat, mode=b'wb', **props):
writable = mode not in (b'r', b'rb')
if isstdiofilename(pat):
repo = ctx.repo()
if writable:
fp = repo.ui.fout
else:
fp = repo.ui.fin
return _unclosablefile(fp)
fn = makefilename(ctx, pat, **props)
return open(fn, mode)
def openstorage(repo, cmd, file_, opts, returnrevlog=False):
"""opens the changelog, manifest, a filelog or a given revlog"""
cl = opts[b'changelog']
mf = opts[b'manifest']
dir = opts[b'dir']
msg = None
if cl and mf:
msg = _(b'cannot specify --changelog and --manifest at the same time')
elif cl and dir:
msg = _(b'cannot specify --changelog and --dir at the same time')
elif cl or mf or dir:
if file_:
msg = _(b'cannot specify filename with --changelog or --manifest')
elif not repo:
msg = _(
b'cannot specify --changelog or --manifest or --dir '
b'without a repository'
)
if msg:
raise error.Abort(msg)
r = None
if repo:
if cl:
r = repo.unfiltered().changelog
elif dir:
if b'treemanifest' not in repo.requirements:
raise error.Abort(
_(
b"--dir can only be used on repos with "
b"treemanifest enabled"
)
)
if not dir.endswith(b'/'):
dir = dir + b'/'
dirlog = repo.manifestlog.getstorage(dir)
if len(dirlog):
r = dirlog
elif mf:
r = repo.manifestlog.getstorage(b'')
elif file_:
filelog = repo.file(file_)
if len(filelog):
r = filelog
# Not all storage may be revlogs. If requested, try to return an actual
# revlog instance.
if returnrevlog:
if isinstance(r, revlog.revlog):
pass
elif util.safehasattr(r, b'_revlog'):
r = r._revlog # pytype: disable=attribute-error
elif r is not None:
raise error.Abort(_(b'%r does not appear to be a revlog') % r)
if not r:
if not returnrevlog:
raise error.Abort(_(b'cannot give path to non-revlog'))
if not file_:
raise error.CommandError(cmd, _(b'invalid arguments'))
if not os.path.isfile(file_):
raise error.Abort(_(b"revlog '%s' not found") % file_)
r = revlog.revlog(
vfsmod.vfs(encoding.getcwd(), audit=False), file_[:-2] + b".i"
)
return r
def openrevlog(repo, cmd, file_, opts):
"""Obtain a revlog backing storage of an item.
This is similar to ``openstorage()`` except it always returns a revlog.
In most cases, a caller cares about the main storage object - not the
revlog backing it. Therefore, this function should only be used by code
that needs to examine low-level revlog implementation details. e.g. debug
commands.
"""
return openstorage(repo, cmd, file_, opts, returnrevlog=True)
def copy(ui, repo, pats, opts, rename=False):
# called with the repo lock held
#
# hgsep => pathname that uses "/" to separate directories
# ossep => pathname that uses os.sep to separate directories
cwd = repo.getcwd()
targets = {}
after = opts.get(b"after")
dryrun = opts.get(b"dry_run")
wctx = repo[None]
uipathfn = scmutil.getuipathfn(repo, legacyrelativevalue=True)
def walkpat(pat):
srcs = []
if after:
badstates = b'?'
else:
badstates = b'?r'
m = scmutil.match(wctx, [pat], opts, globbed=True)
for abs in wctx.walk(m):
state = repo.dirstate[abs]
rel = uipathfn(abs)
exact = m.exact(abs)
if state in badstates:
if exact and state == b'?':
ui.warn(_(b'%s: not copying - file is not managed\n') % rel)
if exact and state == b'r':
ui.warn(
_(
b'%s: not copying - file has been marked for'
b' remove\n'
)
% rel
)
continue
# abs: hgsep
# rel: ossep
srcs.append((abs, rel, exact))
return srcs
# abssrc: hgsep
# relsrc: ossep
# otarget: ossep
def copyfile(abssrc, relsrc, otarget, exact):
abstarget = pathutil.canonpath(repo.root, cwd, otarget)
if b'/' in abstarget:
# We cannot normalize abstarget itself, this would prevent
# case only renames, like a => A.
abspath, absname = abstarget.rsplit(b'/', 1)
abstarget = repo.dirstate.normalize(abspath) + b'/' + absname
reltarget = repo.pathto(abstarget, cwd)
target = repo.wjoin(abstarget)
src = repo.wjoin(abssrc)
state = repo.dirstate[abstarget]
scmutil.checkportable(ui, abstarget)
# check for collisions
prevsrc = targets.get(abstarget)
if prevsrc is not None:
ui.warn(
_(b'%s: not overwriting - %s collides with %s\n')
% (
reltarget,
repo.pathto(abssrc, cwd),
repo.pathto(prevsrc, cwd),
)
)
return True # report a failure
# check for overwrites
exists = os.path.lexists(target)
samefile = False
if exists and abssrc != abstarget:
if repo.dirstate.normalize(abssrc) == repo.dirstate.normalize(
abstarget
):
if not rename:
ui.warn(_(b"%s: can't copy - same file\n") % reltarget)
return True # report a failure
exists = False
samefile = True
if not after and exists or after and state in b'mn':
if not opts[b'force']:
if state in b'mn':
msg = _(b'%s: not overwriting - file already committed\n')
if after:
flags = b'--after --force'
else:
flags = b'--force'
if rename:
hint = (
_(
b"('hg rename %s' to replace the file by "
b'recording a rename)\n'
)
% flags
)
else:
hint = (
_(
b"('hg copy %s' to replace the file by "
b'recording a copy)\n'
)
% flags
)
else:
msg = _(b'%s: not overwriting - file exists\n')
if rename:
hint = _(
b"('hg rename --after' to record the rename)\n"
)
else:
hint = _(b"('hg copy --after' to record the copy)\n")
ui.warn(msg % reltarget)
ui.warn(hint)
return True # report a failure
if after:
if not exists:
if rename:
ui.warn(
_(b'%s: not recording move - %s does not exist\n')
% (relsrc, reltarget)
)
else:
ui.warn(
_(b'%s: not recording copy - %s does not exist\n')
% (relsrc, reltarget)
)
return True # report a failure
elif not dryrun:
try:
if exists:
os.unlink(target)
targetdir = os.path.dirname(target) or b'.'
if not os.path.isdir(targetdir):
os.makedirs(targetdir)
if samefile:
tmp = target + b"~hgrename"
os.rename(src, tmp)
os.rename(tmp, target)
else:
# Preserve stat info on renames, not on copies; this matches
# Linux CLI behavior.
util.copyfile(src, target, copystat=rename)
srcexists = True
except IOError as inst:
if inst.errno == errno.ENOENT:
ui.warn(_(b'%s: deleted in working directory\n') % relsrc)
srcexists = False
else:
ui.warn(
_(b'%s: cannot copy - %s\n')
% (relsrc, encoding.strtolocal(inst.strerror))
)
return True # report a failure
if ui.verbose or not exact:
if rename:
ui.status(_(b'moving %s to %s\n') % (relsrc, reltarget))
else:
ui.status(_(b'copying %s to %s\n') % (relsrc, reltarget))
targets[abstarget] = abssrc
# fix up dirstate
scmutil.dirstatecopy(
ui, repo, wctx, abssrc, abstarget, dryrun=dryrun, cwd=cwd
)
if rename and not dryrun:
if not after and srcexists and not samefile:
rmdir = repo.ui.configbool(b'experimental', b'removeemptydirs')
repo.wvfs.unlinkpath(abssrc, rmdir=rmdir)
wctx.forget([abssrc])
# pat: ossep
# dest ossep
# srcs: list of (hgsep, hgsep, ossep, bool)
# return: function that takes hgsep and returns ossep
def targetpathfn(pat, dest, srcs):
if os.path.isdir(pat):
abspfx = pathutil.canonpath(repo.root, cwd, pat)
abspfx = util.localpath(abspfx)
if destdirexists:
striplen = len(os.path.split(abspfx)[0])
else:
striplen = len(abspfx)
if striplen:
striplen += len(pycompat.ossep)
res = lambda p: os.path.join(dest, util.localpath(p)[striplen:])
elif destdirexists:
res = lambda p: os.path.join(
dest, os.path.basename(util.localpath(p))
)
else:
res = lambda p: dest
return res
# pat: ossep
# dest ossep
# srcs: list of (hgsep, hgsep, ossep, bool)
# return: function that takes hgsep and returns ossep
def targetpathafterfn(pat, dest, srcs):
if matchmod.patkind(pat):
# a mercurial pattern
res = lambda p: os.path.join(
dest, os.path.basename(util.localpath(p))
)
else:
abspfx = pathutil.canonpath(repo.root, cwd, pat)
if len(abspfx) < len(srcs[0][0]):
# A directory. Either the target path contains the last
# component of the source path or it does not.
def evalpath(striplen):
score = 0
for s in srcs:
t = os.path.join(dest, util.localpath(s[0])[striplen:])
if os.path.lexists(t):
score += 1
return score
abspfx = util.localpath(abspfx)
striplen = len(abspfx)
if striplen:
striplen += len(pycompat.ossep)
if os.path.isdir(os.path.join(dest, os.path.split(abspfx)[1])):
score = evalpath(striplen)
striplen1 = len(os.path.split(abspfx)[0])
if striplen1:
striplen1 += len(pycompat.ossep)
if evalpath(striplen1) > score:
striplen = striplen1
res = lambda p: os.path.join(dest, util.localpath(p)[striplen:])
else:
# a file
if destdirexists:
res = lambda p: os.path.join(
dest, os.path.basename(util.localpath(p))
)
else:
res = lambda p: dest
return res
pats = scmutil.expandpats(pats)
if not pats:
raise error.Abort(_(b'no source or destination specified'))
if len(pats) == 1:
raise error.Abort(_(b'no destination specified'))
dest = pats.pop()
destdirexists = os.path.isdir(dest) and not os.path.islink(dest)
if not destdirexists:
if len(pats) > 1 or matchmod.patkind(pats[0]):
raise error.Abort(
_(
b'with multiple sources, destination must be an '
b'existing directory'
)
)
if util.endswithsep(dest):
raise error.Abort(_(b'destination %s is not a directory') % dest)
tfn = targetpathfn
if after:
tfn = targetpathafterfn
copylist = []
for pat in pats:
srcs = walkpat(pat)
if not srcs:
continue
copylist.append((tfn(pat, dest, srcs), srcs))
if not copylist:
raise error.Abort(_(b'no files to copy'))
errors = 0
for targetpath, srcs in copylist:
for abssrc, relsrc, exact in srcs:
if copyfile(abssrc, relsrc, targetpath(abssrc), exact):
errors += 1
return errors != 0
## facility to let extension process additional data into an import patch
# list of identifier to be executed in order
extrapreimport = [] # run before commit
extrapostimport = [] # run after commit
# mapping from identifier to actual import function
#
# 'preimport' are run before the commit is made and are provided the following
# arguments:
# - repo: the localrepository instance,
# - patchdata: data extracted from patch header (cf m.patch.patchheadermap),
# - extra: the future extra dictionary of the changeset, please mutate it,
# - opts: the import options.
# XXX ideally, we would just pass an ctx ready to be computed, that would allow
# mutation of in memory commit and more. Feel free to rework the code to get
# there.
extrapreimportmap = {}
# 'postimport' are run after the commit is made and are provided the following
# argument:
# - ctx: the changectx created by import.
extrapostimportmap = {}
def tryimportone(ui, repo, patchdata, parents, opts, msgs, updatefunc):
"""Utility function used by commands.import to import a single patch
This function is explicitly defined here to help the evolve extension to
wrap this part of the import logic.
The API is currently a bit ugly because it a simple code translation from
the import command. Feel free to make it better.
:patchdata: a dictionary containing parsed patch data (such as from
``patch.extract()``)
:parents: nodes that will be parent of the created commit
:opts: the full dict of option passed to the import command
:msgs: list to save commit message to.
(used in case we need to save it when failing)
:updatefunc: a function that update a repo to a given node
updatefunc(<repo>, <node>)
"""
# avoid cycle context -> subrepo -> cmdutil
from . import context
tmpname = patchdata.get(b'filename')
message = patchdata.get(b'message')
user = opts.get(b'user') or patchdata.get(b'user')
date = opts.get(b'date') or patchdata.get(b'date')
branch = patchdata.get(b'branch')
nodeid = patchdata.get(b'nodeid')
p1 = patchdata.get(b'p1')
p2 = patchdata.get(b'p2')
nocommit = opts.get(b'no_commit')
importbranch = opts.get(b'import_branch')
update = not opts.get(b'bypass')
strip = opts[b"strip"]
prefix = opts[b"prefix"]
sim = float(opts.get(b'similarity') or 0)
if not tmpname:
return None, None, False
rejects = False
cmdline_message = logmessage(ui, opts)
if cmdline_message:
# pickup the cmdline msg
message = cmdline_message
elif message:
# pickup the patch msg
message = message.strip()
else:
# launch the editor
message = None
ui.debug(b'message:\n%s\n' % (message or b''))
if len(parents) == 1:
parents.append(repo[nullid])
if opts.get(b'exact'):
if not nodeid or not p1:
raise error.Abort(_(b'not a Mercurial patch'))
p1 = repo[p1]
p2 = repo[p2 or nullid]
elif p2:
try:
p1 = repo[p1]
p2 = repo[p2]
# Without any options, consider p2 only if the
# patch is being applied on top of the recorded
# first parent.
if p1 != parents[0]:
p1 = parents[0]
p2 = repo[nullid]
except error.RepoError:
p1, p2 = parents
if p2.node() == nullid:
ui.warn(
_(
b"warning: import the patch as a normal revision\n"
b"(use --exact to import the patch as a merge)\n"
)
)
else:
p1, p2 = parents
n = None
if update:
if p1 != parents[0]:
updatefunc(repo, p1.node())
if p2 != parents[1]:
repo.setparents(p1.node(), p2.node())
if opts.get(b'exact') or importbranch:
repo.dirstate.setbranch(branch or b'default')
partial = opts.get(b'partial', False)
files = set()
try:
patch.patch(
ui,
repo,
tmpname,
strip=strip,
prefix=prefix,
files=files,
eolmode=None,
similarity=sim / 100.0,
)
except error.PatchError as e:
if not partial:
raise error.Abort(pycompat.bytestr(e))
if partial:
rejects = True
files = list(files)
if nocommit:
if message:
msgs.append(message)
else:
if opts.get(b'exact') or p2:
# If you got here, you either use --force and know what
# you are doing or used --exact or a merge patch while
# being updated to its first parent.
m = None
else:
m = scmutil.matchfiles(repo, files or [])
editform = mergeeditform(repo[None], b'import.normal')
if opts.get(b'exact'):
editor = None
else:
editor = getcommiteditor(
editform=editform, **pycompat.strkwargs(opts)
)
extra = {}
for idfunc in extrapreimport:
extrapreimportmap[idfunc](repo, patchdata, extra, opts)
overrides = {}
if partial:
overrides[(b'ui', b'allowemptycommit')] = True
if opts.get(b'secret'):
overrides[(b'phases', b'new-commit')] = b'secret'
with repo.ui.configoverride(overrides, b'import'):
n = repo.commit(
message, user, date, match=m, editor=editor, extra=extra
)
for idfunc in extrapostimport:
extrapostimportmap[idfunc](repo[n])
else:
if opts.get(b'exact') or importbranch:
branch = branch or b'default'
else:
branch = p1.branch()
store = patch.filestore()
try:
files = set()
try:
patch.patchrepo(
ui,
repo,
p1,
store,
tmpname,
strip,
prefix,
files,
eolmode=None,
)
except error.PatchError as e:
raise error.Abort(stringutil.forcebytestr(e))
if opts.get(b'exact'):
editor = None
else:
editor = getcommiteditor(editform=b'import.bypass')
memctx = context.memctx(
repo,
(p1.node(), p2.node()),
message,
files=files,
filectxfn=store,
user=user,
date=date,
branch=branch,
editor=editor,
)
n = memctx.commit()
finally:
store.close()
if opts.get(b'exact') and nocommit:
# --exact with --no-commit is still useful in that it does merge
# and branch bits
ui.warn(_(b"warning: can't check exact import with --no-commit\n"))
elif opts.get(b'exact') and (not n or hex(n) != nodeid):
raise error.Abort(_(b'patch is damaged or loses information'))
msg = _(b'applied to working directory')
if n:
# i18n: refers to a short changeset id
msg = _(b'created %s') % short(n)
return msg, n, rejects
# facility to let extensions include additional data in an exported patch
# list of identifiers to be executed in order
extraexport = []
# mapping from identifier to actual export function
# function as to return a string to be added to the header or None
# it is given two arguments (sequencenumber, changectx)
extraexportmap = {}
def _exportsingle(repo, ctx, fm, match, switch_parent, seqno, diffopts):
node = scmutil.binnode(ctx)
parents = [p.node() for p in ctx.parents() if p]
branch = ctx.branch()
if switch_parent:
parents.reverse()
if parents:
prev = parents[0]
else:
prev = nullid
fm.context(ctx=ctx)
fm.plain(b'# HG changeset patch\n')
fm.write(b'user', b'# User %s\n', ctx.user())
fm.plain(b'# Date %d %d\n' % ctx.date())
fm.write(b'date', b'# %s\n', fm.formatdate(ctx.date()))
fm.condwrite(
branch and branch != b'default', b'branch', b'# Branch %s\n', branch
)
fm.write(b'node', b'# Node ID %s\n', hex(node))
fm.plain(b'# Parent %s\n' % hex(prev))
if len(parents) > 1:
fm.plain(b'# Parent %s\n' % hex(parents[1]))
fm.data(parents=fm.formatlist(pycompat.maplist(hex, parents), name=b'node'))
# TODO: redesign extraexportmap function to support formatter
for headerid in extraexport:
header = extraexportmap[headerid](seqno, ctx)
if header is not None:
fm.plain(b'# %s\n' % header)
fm.write(b'desc', b'%s\n', ctx.description().rstrip())
fm.plain(b'\n')
if fm.isplain():
chunkiter = patch.diffui(repo, prev, node, match, opts=diffopts)
for chunk, label in chunkiter:
fm.plain(chunk, label=label)
else:
chunkiter = patch.diff(repo, prev, node, match, opts=diffopts)
# TODO: make it structured?
fm.data(diff=b''.join(chunkiter))
def _exportfile(repo, revs, fm, dest, switch_parent, diffopts, match):
"""Export changesets to stdout or a single file"""
for seqno, rev in enumerate(revs, 1):
ctx = repo[rev]
if not dest.startswith(b'<'):
repo.ui.note(b"%s\n" % dest)
fm.startitem()
_exportsingle(repo, ctx, fm, match, switch_parent, seqno, diffopts)
def _exportfntemplate(
repo, revs, basefm, fntemplate, switch_parent, diffopts, match
):
"""Export changesets to possibly multiple files"""
total = len(revs)
revwidth = max(len(str(rev)) for rev in revs)
filemap = util.sortdict() # filename: [(seqno, rev), ...]
for seqno, rev in enumerate(revs, 1):
ctx = repo[rev]
dest = makefilename(
ctx, fntemplate, total=total, seqno=seqno, revwidth=revwidth
)
filemap.setdefault(dest, []).append((seqno, rev))
for dest in filemap:
with formatter.maybereopen(basefm, dest) as fm:
repo.ui.note(b"%s\n" % dest)
for seqno, rev in filemap[dest]:
fm.startitem()
ctx = repo[rev]
_exportsingle(
repo, ctx, fm, match, switch_parent, seqno, diffopts
)
def _prefetchchangedfiles(repo, revs, match):
allfiles = set()
for rev in revs:
for file in repo[rev].files():
if not match or match(file):
allfiles.add(file)
scmutil.prefetchfiles(repo, revs, scmutil.matchfiles(repo, allfiles))
def export(
repo,
revs,
basefm,
fntemplate=b'hg-%h.patch',
switch_parent=False,
opts=None,
match=None,
):
'''export changesets as hg patches
Args:
repo: The repository from which we're exporting revisions.
revs: A list of revisions to export as revision numbers.
basefm: A formatter to which patches should be written.
fntemplate: An optional string to use for generating patch file names.
switch_parent: If True, show diffs against second parent when not nullid.
Default is false, which always shows diff against p1.
opts: diff options to use for generating the patch.
match: If specified, only export changes to files matching this matcher.
Returns:
Nothing.
Side Effect:
"HG Changeset Patch" data is emitted to one of the following
destinations:
fntemplate specified: Each rev is written to a unique file named using
the given template.
Otherwise: All revs will be written to basefm.
'''
_prefetchchangedfiles(repo, revs, match)
if not fntemplate:
_exportfile(
repo, revs, basefm, b'<unnamed>', switch_parent, opts, match
)
else:
_exportfntemplate(
repo, revs, basefm, fntemplate, switch_parent, opts, match
)
def exportfile(repo, revs, fp, switch_parent=False, opts=None, match=None):
"""Export changesets to the given file stream"""
_prefetchchangedfiles(repo, revs, match)
dest = getattr(fp, 'name', b'<unnamed>')
with formatter.formatter(repo.ui, fp, b'export', {}) as fm:
_exportfile(repo, revs, fm, dest, switch_parent, opts, match)
def showmarker(fm, marker, index=None):
"""utility function to display obsolescence marker in a readable way
To be used by debug function."""
if index is not None:
fm.write(b'index', b'%i ', index)
fm.write(b'prednode', b'%s ', hex(marker.prednode()))
succs = marker.succnodes()
fm.condwrite(
succs,
b'succnodes',
b'%s ',
fm.formatlist(map(hex, succs), name=b'node'),
)
fm.write(b'flag', b'%X ', marker.flags())
parents = marker.parentnodes()
if parents is not None:
fm.write(
b'parentnodes',
b'{%s} ',
fm.formatlist(map(hex, parents), name=b'node', sep=b', '),
)
fm.write(b'date', b'(%s) ', fm.formatdate(marker.date()))
meta = marker.metadata().copy()
meta.pop(b'date', None)
smeta = pycompat.rapply(pycompat.maybebytestr, meta)
fm.write(
b'metadata', b'{%s}', fm.formatdict(smeta, fmt=b'%r: %r', sep=b', ')
)
fm.plain(b'\n')
def finddate(ui, repo, date):
"""Find the tipmost changeset that matches the given date spec"""
df = dateutil.matchdate(date)
m = scmutil.matchall(repo)
results = {}
def prep(ctx, fns):
d = ctx.date()
if df(d[0]):
results[ctx.rev()] = d
for ctx in walkchangerevs(repo, m, {b'rev': None}, prep):
rev = ctx.rev()
if rev in results:
ui.status(
_(b"found revision %d from %s\n")
% (rev, dateutil.datestr(results[rev]))
)
return b'%d' % rev
raise error.Abort(_(b"revision matching date not found"))
def increasingwindows(windowsize=8, sizelimit=512):
while True:
yield windowsize
if windowsize < sizelimit:
windowsize *= 2
def _walkrevs(repo, opts):
# Default --rev value depends on --follow but --follow behavior
# depends on revisions resolved from --rev...
follow = opts.get(b'follow') or opts.get(b'follow_first')
if opts.get(b'rev'):
revs = scmutil.revrange(repo, opts[b'rev'])
elif follow and repo.dirstate.p1() == nullid:
revs = smartset.baseset()
elif follow:
revs = repo.revs(b'reverse(:.)')
else:
revs = smartset.spanset(repo)
revs.reverse()
return revs
class FileWalkError(Exception):
pass
def walkfilerevs(repo, match, follow, revs, fncache):
'''Walks the file history for the matched files.
Returns the changeset revs that are involved in the file history.
Throws FileWalkError if the file history can't be walked using
filelogs alone.
'''
wanted = set()
copies = []
minrev, maxrev = min(revs), max(revs)
def filerevs(filelog, last):
"""
Only files, no patterns. Check the history of each file.
Examines filelog entries within minrev, maxrev linkrev range
Returns an iterator yielding (linkrev, parentlinkrevs, copied)
tuples in backwards order
"""
cl_count = len(repo)
revs = []
for j in pycompat.xrange(0, last + 1):
linkrev = filelog.linkrev(j)
if linkrev < minrev:
continue
# only yield rev for which we have the changelog, it can
# happen while doing "hg log" during a pull or commit
if linkrev >= cl_count:
break
parentlinkrevs = []
for p in filelog.parentrevs(j):
if p != nullrev:
parentlinkrevs.append(filelog.linkrev(p))
n = filelog.node(j)
revs.append(
(linkrev, parentlinkrevs, follow and filelog.renamed(n))
)
return reversed(revs)
def iterfiles():
pctx = repo[b'.']
for filename in match.files():
if follow:
if filename not in pctx:
raise error.Abort(
_(
b'cannot follow file not in parent '
b'revision: "%s"'
)
% filename
)
yield filename, pctx[filename].filenode()
else:
yield filename, None
for filename_node in copies:
yield filename_node
for file_, node in iterfiles():
filelog = repo.file(file_)
if not len(filelog):
if node is None:
# A zero count may be a directory or deleted file, so
# try to find matching entries on the slow path.
if follow:
raise error.Abort(
_(b'cannot follow nonexistent file: "%s"') % file_
)
raise FileWalkError(b"Cannot walk via filelog")
else:
continue
if node is None:
last = len(filelog) - 1
else:
last = filelog.rev(node)
# keep track of all ancestors of the file
ancestors = {filelog.linkrev(last)}
# iterate from latest to oldest revision
for rev, flparentlinkrevs, copied in filerevs(filelog, last):
if not follow:
if rev > maxrev:
continue
else:
# Note that last might not be the first interesting
# rev to us:
# if the file has been changed after maxrev, we'll
# have linkrev(last) > maxrev, and we still need
# to explore the file graph
if rev not in ancestors:
continue
# XXX insert 1327 fix here
if flparentlinkrevs:
ancestors.update(flparentlinkrevs)
fncache.setdefault(rev, []).append(file_)
wanted.add(rev)
if copied:
copies.append(copied)
return wanted
class _followfilter(object):
def __init__(self, repo, onlyfirst=False):
self.repo = repo
self.startrev = nullrev
self.roots = set()
self.onlyfirst = onlyfirst
def match(self, rev):
def realparents(rev):
if self.onlyfirst:
return self.repo.changelog.parentrevs(rev)[0:1]
else:
return filter(
lambda x: x != nullrev, self.repo.changelog.parentrevs(rev)
)
if self.startrev == nullrev:
self.startrev = rev
return True
if rev > self.startrev:
# forward: all descendants
if not self.roots:
self.roots.add(self.startrev)
for parent in realparents(rev):
if parent in self.roots:
self.roots.add(rev)
return True
else:
# backwards: all parents
if not self.roots:
self.roots.update(realparents(self.startrev))
if rev in self.roots:
self.roots.remove(rev)
self.roots.update(realparents(rev))
return True
return False
def walkchangerevs(repo, match, opts, prepare):
'''Iterate over files and the revs in which they changed.
Callers most commonly need to iterate backwards over the history
in which they are interested. Doing so has awful (quadratic-looking)
performance, so we use iterators in a "windowed" way.
We walk a window of revisions in the desired order. Within the
window, we first walk forwards to gather data, then in the desired
order (usually backwards) to display it.
This function returns an iterator yielding contexts. Before
yielding each context, the iterator will first call the prepare
function on each context in the window in forward order.'''
allfiles = opts.get(b'all_files')
follow = opts.get(b'follow') or opts.get(b'follow_first')
revs = _walkrevs(repo, opts)
if not revs:
return []
wanted = set()
slowpath = match.anypats() or (not match.always() and opts.get(b'removed'))
fncache = {}
change = repo.__getitem__
# First step is to fill wanted, the set of revisions that we want to yield.
# When it does not induce extra cost, we also fill fncache for revisions in
# wanted: a cache of filenames that were changed (ctx.files()) and that
# match the file filtering conditions.
if match.always() or allfiles:
# No files, no patterns. Display all revs.
wanted = revs
elif not slowpath:
# We only have to read through the filelog to find wanted revisions
try:
wanted = walkfilerevs(repo, match, follow, revs, fncache)
except FileWalkError:
slowpath = True
# We decided to fall back to the slowpath because at least one
# of the paths was not a file. Check to see if at least one of them
# existed in history, otherwise simply return
for path in match.files():
if path == b'.' or path in repo.store:
break
else:
return []
if slowpath:
# We have to read the changelog to match filenames against
# changed files
if follow:
raise error.Abort(
_(b'can only follow copies/renames for explicit filenames')
)
# The slow path checks files modified in every changeset.
# This is really slow on large repos, so compute the set lazily.
class lazywantedset(object):
def __init__(self):
self.set = set()
self.revs = set(revs)
# No need to worry about locality here because it will be accessed
# in the same order as the increasing window below.
def __contains__(self, value):
if value in self.set:
return True
elif not value in self.revs:
return False
else:
self.revs.discard(value)
ctx = change(value)
if allfiles:
matches = list(ctx.manifest().walk(match))
else:
matches = [f for f in ctx.files() if match(f)]
if matches:
fncache[value] = matches
self.set.add(value)
return True
return False
def discard(self, value):
self.revs.discard(value)
self.set.discard(value)
wanted = lazywantedset()
# it might be worthwhile to do this in the iterator if the rev range
# is descending and the prune args are all within that range
for rev in opts.get(b'prune', ()):
rev = repo[rev].rev()
ff = _followfilter(repo)
stop = min(revs[0], revs[-1])
for x in pycompat.xrange(rev, stop - 1, -1):
if ff.match(x):
wanted = wanted - [x]
# Now that wanted is correctly initialized, we can iterate over the
# revision range, yielding only revisions in wanted.
def iterate():
if follow and match.always():
ff = _followfilter(repo, onlyfirst=opts.get(b'follow_first'))
def want(rev):
return ff.match(rev) and rev in wanted
else:
def want(rev):
return rev in wanted
it = iter(revs)
stopiteration = False
for windowsize in increasingwindows():
nrevs = []
for i in pycompat.xrange(windowsize):
rev = next(it, None)
if rev is None:
stopiteration = True
break
elif want(rev):
nrevs.append(rev)
for rev in sorted(nrevs):
fns = fncache.get(rev)
ctx = change(rev)
if not fns:
def fns_generator():
if allfiles:
fiter = iter(ctx)
else:
fiter = ctx.files()
for f in fiter:
if match(f):
yield f
fns = fns_generator()
prepare(ctx, fns)
for rev in nrevs:
yield change(rev)
if stopiteration:
break
return iterate()
def add(ui, repo, match, prefix, uipathfn, explicitonly, **opts):
bad = []
badfn = lambda x, y: bad.append(x) or match.bad(x, y)
names = []
wctx = repo[None]
cca = None
abort, warn = scmutil.checkportabilityalert(ui)
if abort or warn:
cca = scmutil.casecollisionauditor(ui, abort, repo.dirstate)
match = repo.narrowmatch(match, includeexact=True)
badmatch = matchmod.badmatch(match, badfn)
dirstate = repo.dirstate
# We don't want to just call wctx.walk here, since it would return a lot of
# clean files, which we aren't interested in and takes time.
for f in sorted(
dirstate.walk(
badmatch,
subrepos=sorted(wctx.substate),
unknown=True,
ignored=False,
full=False,
)
):
exact = match.exact(f)
if exact or not explicitonly and f not in wctx and repo.wvfs.lexists(f):
if cca:
cca(f)
names.append(f)
if ui.verbose or not exact:
ui.status(
_(b'adding %s\n') % uipathfn(f), label=b'ui.addremove.added'
)
for subpath in sorted(wctx.substate):
sub = wctx.sub(subpath)
try:
submatch = matchmod.subdirmatcher(subpath, match)
subprefix = repo.wvfs.reljoin(prefix, subpath)
subuipathfn = scmutil.subdiruipathfn(subpath, uipathfn)
if opts.get('subrepos'):
bad.extend(
sub.add(ui, submatch, subprefix, subuipathfn, False, **opts)
)
else:
bad.extend(
sub.add(ui, submatch, subprefix, subuipathfn, True, **opts)
)
except error.LookupError:
ui.status(
_(b"skipping missing subrepository: %s\n") % uipathfn(subpath)
)
if not opts.get('dry_run'):
rejected = wctx.add(names, prefix)
bad.extend(f for f in rejected if f in match.files())
return bad
def addwebdirpath(repo, serverpath, webconf):
webconf[serverpath] = repo.root
repo.ui.debug(b'adding %s = %s\n' % (serverpath, repo.root))
for r in repo.revs(b'filelog("path:.hgsub")'):
ctx = repo[r]
for subpath in ctx.substate:
ctx.sub(subpath).addwebdirpath(serverpath, webconf)
def forget(
ui, repo, match, prefix, uipathfn, explicitonly, dryrun, interactive
):
if dryrun and interactive:
raise error.Abort(_(b"cannot specify both --dry-run and --interactive"))
bad = []
badfn = lambda x, y: bad.append(x) or match.bad(x, y)
wctx = repo[None]
forgot = []
s = repo.status(match=matchmod.badmatch(match, badfn), clean=True)
forget = sorted(s.modified + s.added + s.deleted + s.clean)
if explicitonly:
forget = [f for f in forget if match.exact(f)]
for subpath in sorted(wctx.substate):
sub = wctx.sub(subpath)
submatch = matchmod.subdirmatcher(subpath, match)
subprefix = repo.wvfs.reljoin(prefix, subpath)
subuipathfn = scmutil.subdiruipathfn(subpath, uipathfn)
try:
subbad, subforgot = sub.forget(
submatch,
subprefix,
subuipathfn,
dryrun=dryrun,
interactive=interactive,
)
bad.extend([subpath + b'/' + f for f in subbad])
forgot.extend([subpath + b'/' + f for f in subforgot])
except error.LookupError:
ui.status(
_(b"skipping missing subrepository: %s\n") % uipathfn(subpath)
)
if not explicitonly:
for f in match.files():
if f not in repo.dirstate and not repo.wvfs.isdir(f):
if f not in forgot:
if repo.wvfs.exists(f):
# Don't complain if the exact case match wasn't given.
# But don't do this until after checking 'forgot', so
# that subrepo files aren't normalized, and this op is
# purely from data cached by the status walk above.
if repo.dirstate.normalize(f) in repo.dirstate:
continue
ui.warn(
_(
b'not removing %s: '
b'file is already untracked\n'
)
% uipathfn(f)
)
bad.append(f)
if interactive:
responses = _(
b'[Ynsa?]'
b'$$ &Yes, forget this file'
b'$$ &No, skip this file'
b'$$ &Skip remaining files'
b'$$ Include &all remaining files'
b'$$ &? (display help)'
)
for filename in forget[:]:
r = ui.promptchoice(
_(b'forget %s %s') % (uipathfn(filename), responses)
)
if r == 4: # ?
while r == 4:
for c, t in ui.extractchoices(responses)[1]:
ui.write(b'%s - %s\n' % (c, encoding.lower(t)))
r = ui.promptchoice(
_(b'forget %s %s') % (uipathfn(filename), responses)
)
if r == 0: # yes
continue
elif r == 1: # no
forget.remove(filename)
elif r == 2: # Skip
fnindex = forget.index(filename)
del forget[fnindex:]
break
elif r == 3: # All
break
for f in forget:
if ui.verbose or not match.exact(f) or interactive:
ui.status(
_(b'removing %s\n') % uipathfn(f), label=b'ui.addremove.removed'
)
if not dryrun:
rejected = wctx.forget(forget, prefix)
bad.extend(f for f in rejected if f in match.files())
forgot.extend(f for f in forget if f not in rejected)
return bad, forgot
def files(ui, ctx, m, uipathfn, fm, fmt, subrepos):
ret = 1
needsfctx = ui.verbose or {b'size', b'flags'} & fm.datahint()
for f in ctx.matches(m):
fm.startitem()
fm.context(ctx=ctx)
if needsfctx:
fc = ctx[f]
fm.write(b'size flags', b'% 10d % 1s ', fc.size(), fc.flags())
fm.data(path=f)
fm.plain(fmt % uipathfn(f))
ret = 0
for subpath in sorted(ctx.substate):
submatch = matchmod.subdirmatcher(subpath, m)
subuipathfn = scmutil.subdiruipathfn(subpath, uipathfn)
if subrepos or m.exact(subpath) or any(submatch.files()):
sub = ctx.sub(subpath)
try:
recurse = m.exact(subpath) or subrepos
if (
sub.printfiles(ui, submatch, subuipathfn, fm, fmt, recurse)
== 0
):
ret = 0
except error.LookupError:
ui.status(
_(b"skipping missing subrepository: %s\n")
% uipathfn(subpath)
)
return ret
def remove(
ui, repo, m, prefix, uipathfn, after, force, subrepos, dryrun, warnings=None
):
ret = 0
s = repo.status(match=m, clean=True)
modified, added, deleted, clean = s.modified, s.added, s.deleted, s.clean
wctx = repo[None]
if warnings is None:
warnings = []
warn = True
else:
warn = False
subs = sorted(wctx.substate)
progress = ui.makeprogress(
_(b'searching'), total=len(subs), unit=_(b'subrepos')
)
for subpath in subs:
submatch = matchmod.subdirmatcher(subpath, m)
subprefix = repo.wvfs.reljoin(prefix, subpath)
subuipathfn = scmutil.subdiruipathfn(subpath, uipathfn)
if subrepos or m.exact(subpath) or any(submatch.files()):
progress.increment()
sub = wctx.sub(subpath)
try:
if sub.removefiles(
submatch,
subprefix,
subuipathfn,
after,
force,
subrepos,
dryrun,
warnings,
):
ret = 1
except error.LookupError:
warnings.append(
_(b"skipping missing subrepository: %s\n")
% uipathfn(subpath)
)
progress.complete()
# warn about failure to delete explicit files/dirs
deleteddirs = pathutil.dirs(deleted)
files = m.files()
progress = ui.makeprogress(
_(b'deleting'), total=len(files), unit=_(b'files')
)
for f in files:
def insubrepo():
for subpath in wctx.substate:
if f.startswith(subpath + b'/'):
return True
return False
progress.increment()
isdir = f in deleteddirs or wctx.hasdir(f)
if f in repo.dirstate or isdir or f == b'.' or insubrepo() or f in subs:
continue
if repo.wvfs.exists(f):
if repo.wvfs.isdir(f):
warnings.append(
_(b'not removing %s: no tracked files\n') % uipathfn(f)
)
else:
warnings.append(
_(b'not removing %s: file is untracked\n') % uipathfn(f)
)
# missing files will generate a warning elsewhere
ret = 1
progress.complete()
if force:
list = modified + deleted + clean + added
elif after:
list = deleted
remaining = modified + added + clean
progress = ui.makeprogress(
_(b'skipping'), total=len(remaining), unit=_(b'files')
)
for f in remaining:
progress.increment()
if ui.verbose or (f in files):
warnings.append(
_(b'not removing %s: file still exists\n') % uipathfn(f)
)
ret = 1
progress.complete()
else:
list = deleted + clean
progress = ui.makeprogress(
_(b'skipping'), total=(len(modified) + len(added)), unit=_(b'files')
)
for f in modified:
progress.increment()
warnings.append(
_(
b'not removing %s: file is modified (use -f'
b' to force removal)\n'
)
% uipathfn(f)
)
ret = 1
for f in added:
progress.increment()
warnings.append(
_(
b"not removing %s: file has been marked for add"
b" (use 'hg forget' to undo add)\n"
)
% uipathfn(f)
)
ret = 1
progress.complete()
list = sorted(list)
progress = ui.makeprogress(
_(b'deleting'), total=len(list), unit=_(b'files')
)
for f in list:
if ui.verbose or not m.exact(f):
progress.increment()
ui.status(
_(b'removing %s\n') % uipathfn(f), label=b'ui.addremove.removed'
)
progress.complete()
if not dryrun:
with repo.wlock():
if not after:
for f in list:
if f in added:
continue # we never unlink added files on remove
rmdir = repo.ui.configbool(
b'experimental', b'removeemptydirs'
)
repo.wvfs.unlinkpath(f, ignoremissing=True, rmdir=rmdir)
repo[None].forget(list)
if warn:
for warning in warnings:
ui.warn(warning)
return ret
def _catfmtneedsdata(fm):
return not fm.datahint() or b'data' in fm.datahint()
def _updatecatformatter(fm, ctx, matcher, path, decode):
"""Hook for adding data to the formatter used by ``hg cat``.
Extensions (e.g., lfs) can wrap this to inject keywords/data, but must call
this method first."""
# data() can be expensive to fetch (e.g. lfs), so don't fetch it if it
# wasn't requested.
data = b''
if _catfmtneedsdata(fm):
data = ctx[path].data()
if decode:
data = ctx.repo().wwritedata(path, data)
fm.startitem()
fm.context(ctx=ctx)
fm.write(b'data', b'%s', data)
fm.data(path=path)
def cat(ui, repo, ctx, matcher, basefm, fntemplate, prefix, **opts):
err = 1
opts = pycompat.byteskwargs(opts)
def write(path):
filename = None
if fntemplate:
filename = makefilename(
ctx, fntemplate, pathname=os.path.join(prefix, path)
)
# attempt to create the directory if it does not already exist
try:
os.makedirs(os.path.dirname(filename))
except OSError:
pass
with formatter.maybereopen(basefm, filename) as fm:
_updatecatformatter(fm, ctx, matcher, path, opts.get(b'decode'))
# Automation often uses hg cat on single files, so special case it
# for performance to avoid the cost of parsing the manifest.
if len(matcher.files()) == 1 and not matcher.anypats():
file = matcher.files()[0]
mfl = repo.manifestlog
mfnode = ctx.manifestnode()
try:
if mfnode and mfl[mfnode].find(file)[0]:
if _catfmtneedsdata(basefm):
scmutil.prefetchfiles(repo, [ctx.rev()], matcher)
write(file)
return 0
except KeyError:
pass
if _catfmtneedsdata(basefm):
scmutil.prefetchfiles(repo, [ctx.rev()], matcher)
for abs in ctx.walk(matcher):
write(abs)
err = 0
uipathfn = scmutil.getuipathfn(repo, legacyrelativevalue=True)
for subpath in sorted(ctx.substate):
sub = ctx.sub(subpath)
try:
submatch = matchmod.subdirmatcher(subpath, matcher)
subprefix = os.path.join(prefix, subpath)
if not sub.cat(
submatch,
basefm,
fntemplate,
subprefix,
**pycompat.strkwargs(opts)
):
err = 0
except error.RepoLookupError:
ui.status(
_(b"skipping missing subrepository: %s\n") % uipathfn(subpath)
)
return err
def commit(ui, repo, commitfunc, pats, opts):
'''commit the specified files or all outstanding changes'''
date = opts.get(b'date')
if date:
opts[b'date'] = dateutil.parsedate(date)
message = logmessage(ui, opts)
matcher = scmutil.match(repo[None], pats, opts)
dsguard = None
# extract addremove carefully -- this function can be called from a command
# that doesn't support addremove
if opts.get(b'addremove'):
dsguard = dirstateguard.dirstateguard(repo, b'commit')
with dsguard or util.nullcontextmanager():
if dsguard:
relative = scmutil.anypats(pats, opts)
uipathfn = scmutil.getuipathfn(repo, legacyrelativevalue=relative)
if scmutil.addremove(repo, matcher, b"", uipathfn, opts) != 0:
raise error.Abort(
_(b"failed to mark all new/missing files as added/removed")
)
return commitfunc(ui, repo, message, matcher, opts)
def samefile(f, ctx1, ctx2):
if f in ctx1.manifest():
a = ctx1.filectx(f)
if f in ctx2.manifest():
b = ctx2.filectx(f)
return not a.cmp(b) and a.flags() == b.flags()
else:
return False
else:
return f not in ctx2.manifest()
def amend(ui, repo, old, extra, pats, opts):
# avoid cycle context -> subrepo -> cmdutil
from . import context
# amend will reuse the existing user if not specified, but the obsolete
# marker creation requires that the current user's name is specified.
if obsolete.isenabled(repo, obsolete.createmarkersopt):
ui.username() # raise exception if username not set
ui.note(_(b'amending changeset %s\n') % old)
base = old.p1()
with repo.wlock(), repo.lock(), repo.transaction(b'amend'):
# Participating changesets:
#
# wctx o - workingctx that contains changes from working copy
# | to go into amending commit
# |
# old o - changeset to amend
# |
# base o - first parent of the changeset to amend
wctx = repo[None]
# Copy to avoid mutating input
extra = extra.copy()
# Update extra dict from amended commit (e.g. to preserve graft
# source)
extra.update(old.extra())
# Also update it from the from the wctx
extra.update(wctx.extra())
# date-only change should be ignored?
datemaydiffer = resolvecommitoptions(ui, opts)
date = old.date()
if opts.get(b'date'):
date = dateutil.parsedate(opts.get(b'date'))
user = opts.get(b'user') or old.user()
if len(old.parents()) > 1:
# ctx.files() isn't reliable for merges, so fall back to the
# slower repo.status() method
st = base.status(old)
files = set(st.modified) | set(st.added) | set(st.removed)
else:
files = set(old.files())
# add/remove the files to the working copy if the "addremove" option
# was specified.
matcher = scmutil.match(wctx, pats, opts)
relative = scmutil.anypats(pats, opts)
uipathfn = scmutil.getuipathfn(repo, legacyrelativevalue=relative)
if opts.get(b'addremove') and scmutil.addremove(
repo, matcher, b"", uipathfn, opts
):
raise error.Abort(
_(b"failed to mark all new/missing files as added/removed")
)
# Check subrepos. This depends on in-place wctx._status update in
# subrepo.precommit(). To minimize the risk of this hack, we do
# nothing if .hgsub does not exist.
if b'.hgsub' in wctx or b'.hgsub' in old:
subs, commitsubs, newsubstate = subrepoutil.precommit(
ui, wctx, wctx._status, matcher
)
# amend should abort if commitsubrepos is enabled
assert not commitsubs
if subs:
subrepoutil.writestate(repo, newsubstate)
ms = mergemod.mergestate.read(repo)
mergeutil.checkunresolved(ms)
filestoamend = set(f for f in wctx.files() if matcher(f))
changes = len(filestoamend) > 0
if changes:
# Recompute copies (avoid recording a -> b -> a)
copied = copies.pathcopies(base, wctx, matcher)
if old.p2:
copied.update(copies.pathcopies(old.p2(), wctx, matcher))
# Prune files which were reverted by the updates: if old
# introduced file X and the file was renamed in the working
# copy, then those two files are the same and
# we can discard X from our list of files. Likewise if X
# was removed, it's no longer relevant. If X is missing (aka
# deleted), old X must be preserved.
files.update(filestoamend)
files = [
f
for f in files
if (f not in filestoamend or not samefile(f, wctx, base))
]
def filectxfn(repo, ctx_, path):
try:
# If the file being considered is not amongst the files
# to be amended, we should return the file context from the
# old changeset. This avoids issues when only some files in
# the working copy are being amended but there are also
# changes to other files from the old changeset.
if path not in filestoamend:
return old.filectx(path)
# Return None for removed files.
if path in wctx.removed():
return None
fctx = wctx[path]
flags = fctx.flags()
mctx = context.memfilectx(
repo,
ctx_,
fctx.path(),
fctx.data(),
islink=b'l' in flags,
isexec=b'x' in flags,
copysource=copied.get(path),
)
return mctx
except KeyError:
return None
else:
ui.note(_(b'copying changeset %s to %s\n') % (old, base))
# Use version of files as in the old cset
def filectxfn(repo, ctx_, path):
try:
return old.filectx(path)
except KeyError:
return None
# See if we got a message from -m or -l, if not, open the editor with
# the message of the changeset to amend.
message = logmessage(ui, opts)
editform = mergeeditform(old, b'commit.amend')
if not message:
message = old.description()
# Default if message isn't provided and --edit is not passed is to
# invoke editor, but allow --no-edit. If somehow we don't have any
# description, let's always start the editor.
doedit = not message or opts.get(b'edit') in [True, None]
else:
# Default if message is provided is to not invoke editor, but allow
# --edit.
doedit = opts.get(b'edit') is True
editor = getcommiteditor(edit=doedit, editform=editform)
pureextra = extra.copy()
extra[b'amend_source'] = old.hex()
new = context.memctx(
repo,
parents=[base.node(), old.p2().node()],
text=message,
files=files,
filectxfn=filectxfn,
user=user,
date=date,
extra=extra,
editor=editor,
)
newdesc = changelog.stripdesc(new.description())
if (
(not changes)
and newdesc == old.description()
and user == old.user()
and (date == old.date() or datemaydiffer)
and pureextra == old.extra()
):
# nothing changed. continuing here would create a new node
# anyway because of the amend_source noise.
#
# This not what we expect from amend.
return old.node()
commitphase = None
if opts.get(b'secret'):
commitphase = phases.secret
newid = repo.commitctx(new)
# Reroute the working copy parent to the new changeset
repo.setparents(newid, nullid)
mapping = {old.node(): (newid,)}
obsmetadata = None
if opts.get(b'note'):
obsmetadata = {b'note': encoding.fromlocal(opts[b'note'])}
backup = ui.configbool(b'rewrite', b'backup-bundle')
scmutil.cleanupnodes(
repo,
mapping,
b'amend',
metadata=obsmetadata,
fixphase=True,
targetphase=commitphase,
backup=backup,
)
# Fixing the dirstate because localrepo.commitctx does not update
# it. This is rather convenient because we did not need to update
# the dirstate for all the files in the new commit which commitctx
# could have done if it updated the dirstate. Now, we can
# selectively update the dirstate only for the amended files.
dirstate = repo.dirstate
# Update the state of the files which were added and
# and modified in the amend to "normal" in the dirstate.
normalfiles = set(wctx.modified() + wctx.added()) & filestoamend
for f in normalfiles:
dirstate.normal(f)
# Update the state of files which were removed in the amend
# to "removed" in the dirstate.
removedfiles = set(wctx.removed()) & filestoamend
for f in removedfiles:
dirstate.drop(f)
return newid
def commiteditor(repo, ctx, subs, editform=b''):
if ctx.description():
return ctx.description()
return commitforceeditor(
repo, ctx, subs, editform=editform, unchangedmessagedetection=True
)
def commitforceeditor(
repo,
ctx,
subs,
finishdesc=None,
extramsg=None,
editform=b'',
unchangedmessagedetection=False,
):
if not extramsg:
extramsg = _(b"Leave message empty to abort commit.")
forms = [e for e in editform.split(b'.') if e]
forms.insert(0, b'changeset')
templatetext = None
while forms:
ref = b'.'.join(forms)
if repo.ui.config(b'committemplate', ref):
templatetext = committext = buildcommittemplate(
repo, ctx, subs, extramsg, ref
)
break
forms.pop()
else:
committext = buildcommittext(repo, ctx, subs, extramsg)
# run editor in the repository root
olddir = encoding.getcwd()
os.chdir(repo.root)
# make in-memory changes visible to external process
tr = repo.currenttransaction()
repo.dirstate.write(tr)
pending = tr and tr.writepending() and repo.root
editortext = repo.ui.edit(
committext,
ctx.user(),
ctx.extra(),
editform=editform,
pending=pending,
repopath=repo.path,
action=b'commit',
)
text = editortext
# strip away anything below this special string (used for editors that want
# to display the diff)
stripbelow = re.search(_linebelow, text, flags=re.MULTILINE)
if stripbelow:
text = text[: stripbelow.start()]
text = re.sub(b"(?m)^HG:.*(\n|$)", b"", text)
os.chdir(olddir)
if finishdesc:
text = finishdesc(text)
if not text.strip():
raise error.Abort(_(b"empty commit message"))
if unchangedmessagedetection and editortext == templatetext:
raise error.Abort(_(b"commit message unchanged"))
return text
def buildcommittemplate(repo, ctx, subs, extramsg, ref):
ui = repo.ui
spec = formatter.templatespec(ref, None, None)
t = logcmdutil.changesettemplater(ui, repo, spec)
t.t.cache.update(
(k, templater.unquotestring(v))
for k, v in repo.ui.configitems(b'committemplate')
)
if not extramsg:
extramsg = b'' # ensure that extramsg is string
ui.pushbuffer()
t.show(ctx, extramsg=extramsg)
return ui.popbuffer()
def hgprefix(msg):
return b"\n".join([b"HG: %s" % a for a in msg.split(b"\n") if a])
def buildcommittext(repo, ctx, subs, extramsg):
edittext = []
modified, added, removed = ctx.modified(), ctx.added(), ctx.removed()
if ctx.description():
edittext.append(ctx.description())
edittext.append(b"")
edittext.append(b"") # Empty line between message and comments.
edittext.append(
hgprefix(
_(
b"Enter commit message."
b" Lines beginning with 'HG:' are removed."
)
)
)
edittext.append(hgprefix(extramsg))
edittext.append(b"HG: --")
edittext.append(hgprefix(_(b"user: %s") % ctx.user()))
if ctx.p2():
edittext.append(hgprefix(_(b"branch merge")))
if ctx.branch():
edittext.append(hgprefix(_(b"branch '%s'") % ctx.branch()))
if bookmarks.isactivewdirparent(repo):
edittext.append(hgprefix(_(b"bookmark '%s'") % repo._activebookmark))
edittext.extend([hgprefix(_(b"subrepo %s") % s) for s in subs])
edittext.extend([hgprefix(_(b"added %s") % f) for f in added])
edittext.extend([hgprefix(_(b"changed %s") % f) for f in modified])
edittext.extend([hgprefix(_(b"removed %s") % f) for f in removed])
if not added and not modified and not removed:
edittext.append(hgprefix(_(b"no files changed")))
edittext.append(b"")
return b"\n".join(edittext)
def commitstatus(repo, node, branch, bheads=None, opts=None):
if opts is None:
opts = {}
ctx = repo[node]
parents = ctx.parents()
if (
not opts.get(b'amend')
and bheads
and node not in bheads
and not [
x for x in parents if x.node() in bheads and x.branch() == branch
]
):
repo.ui.status(_(b'created new head\n'))
# The message is not printed for initial roots. For the other
# changesets, it is printed in the following situations:
#
# Par column: for the 2 parents with ...
# N: null or no parent
# B: parent is on another named branch
# C: parent is a regular non head changeset
# H: parent was a branch head of the current branch
# Msg column: whether we print "created new head" message
# In the following, it is assumed that there already exists some
# initial branch heads of the current branch, otherwise nothing is
# printed anyway.
#
# Par Msg Comment
# N N y additional topo root
#
# B N y additional branch root
# C N y additional topo head
# H N n usual case
#
# B B y weird additional branch root
# C B y branch merge
# H B n merge with named branch
#
# C C y additional head from merge
# C H n merge with a head
#
# H H n head merge: head count decreases
if not opts.get(b'close_branch'):
for r in parents:
if r.closesbranch() and r.branch() == branch:
repo.ui.status(
_(b'reopening closed branch head %d\n') % r.rev()
)
if repo.ui.debugflag:
repo.ui.write(
_(b'committed changeset %d:%s\n') % (ctx.rev(), ctx.hex())
)
elif repo.ui.verbose:
repo.ui.write(_(b'committed changeset %d:%s\n') % (ctx.rev(), ctx))
def postcommitstatus(repo, pats, opts):
return repo.status(match=scmutil.match(repo[None], pats, opts))
def revert(ui, repo, ctx, parents, *pats, **opts):
opts = pycompat.byteskwargs(opts)
parent, p2 = parents
node = ctx.node()
mf = ctx.manifest()
if node == p2:
parent = p2
# need all matching names in dirstate and manifest of target rev,
# so have to walk both. do not print errors if files exist in one
# but not other. in both cases, filesets should be evaluated against
# workingctx to get consistent result (issue4497). this means 'set:**'
# cannot be used to select missing files from target rev.
# `names` is a mapping for all elements in working copy and target revision
# The mapping is in the form:
# <abs path in repo> -> (<path from CWD>, <exactly specified by matcher?>)
names = {}
uipathfn = scmutil.getuipathfn(repo, legacyrelativevalue=True)
with repo.wlock():
## filling of the `names` mapping
# walk dirstate to fill `names`
interactive = opts.get(b'interactive', False)
wctx = repo[None]
m = scmutil.match(wctx, pats, opts)
# we'll need this later
targetsubs = sorted(s for s in wctx.substate if m(s))
if not m.always():
matcher = matchmod.badmatch(m, lambda x, y: False)
for abs in wctx.walk(matcher):
names[abs] = m.exact(abs)
# walk target manifest to fill `names`
def badfn(path, msg):
if path in names:
return
if path in ctx.substate:
return
path_ = path + b'/'
for f in names:
if f.startswith(path_):
return
ui.warn(b"%s: %s\n" % (uipathfn(path), msg))
for abs in ctx.walk(matchmod.badmatch(m, badfn)):
if abs not in names:
names[abs] = m.exact(abs)
# Find status of all file in `names`.
m = scmutil.matchfiles(repo, names)
changes = repo.status(
node1=node, match=m, unknown=True, ignored=True, clean=True
)
else:
changes = repo.status(node1=node, match=m)
for kind in changes:
for abs in kind:
names[abs] = m.exact(abs)
m = scmutil.matchfiles(repo, names)
modified = set(changes.modified)
added = set(changes.added)
removed = set(changes.removed)
_deleted = set(changes.deleted)
unknown = set(changes.unknown)
unknown.update(changes.ignored)
clean = set(changes.clean)
modadded = set()
# We need to account for the state of the file in the dirstate,
# even when we revert against something else than parent. This will
# slightly alter the behavior of revert (doing back up or not, delete
# or just forget etc).
if parent == node:
dsmodified = modified
dsadded = added
dsremoved = removed
# store all local modifications, useful later for rename detection
localchanges = dsmodified | dsadded
modified, added, removed = set(), set(), set()
else:
changes = repo.status(node1=parent, match=m)
dsmodified = set(changes.modified)
dsadded = set(changes.added)
dsremoved = set(changes.removed)
# store all local modifications, useful later for rename detection
localchanges = dsmodified | dsadded
# only take into account for removes between wc and target
clean |= dsremoved - removed
dsremoved &= removed
# distinct between dirstate remove and other
removed -= dsremoved
modadded = added & dsmodified
added -= modadded
# tell newly modified apart.
dsmodified &= modified
dsmodified |= modified & dsadded # dirstate added may need backup
modified -= dsmodified
# We need to wait for some post-processing to update this set
# before making the distinction. The dirstate will be used for
# that purpose.
dsadded = added
# in case of merge, files that are actually added can be reported as
# modified, we need to post process the result
if p2 != nullid:
mergeadd = set(dsmodified)
for path in dsmodified:
if path in mf:
mergeadd.remove(path)
dsadded |= mergeadd
dsmodified -= mergeadd
# if f is a rename, update `names` to also revert the source
for f in localchanges:
src = repo.dirstate.copied(f)
# XXX should we check for rename down to target node?
if src and src not in names and repo.dirstate[src] == b'r':
dsremoved.add(src)
names[src] = True
# determine the exact nature of the deleted changesets
deladded = set(_deleted)
for path in _deleted:
if path in mf:
deladded.remove(path)
deleted = _deleted - deladded
# distinguish between file to forget and the other
added = set()
for abs in dsadded:
if repo.dirstate[abs] != b'a':
added.add(abs)
dsadded -= added
for abs in deladded:
if repo.dirstate[abs] == b'a':
dsadded.add(abs)
deladded -= dsadded
# For files marked as removed, we check if an unknown file is present at
# the same path. If a such file exists it may need to be backed up.
# Making the distinction at this stage helps have simpler backup
# logic.
removunk = set()
for abs in removed:
target = repo.wjoin(abs)
if os.path.lexists(target):
removunk.add(abs)
removed -= removunk
dsremovunk = set()
for abs in dsremoved:
target = repo.wjoin(abs)
if os.path.lexists(target):
dsremovunk.add(abs)
dsremoved -= dsremovunk
# action to be actually performed by revert
# (<list of file>, message>) tuple
actions = {
b'revert': ([], _(b'reverting %s\n')),
b'add': ([], _(b'adding %s\n')),
b'remove': ([], _(b'removing %s\n')),
b'drop': ([], _(b'removing %s\n')),
b'forget': ([], _(b'forgetting %s\n')),
b'undelete': ([], _(b'undeleting %s\n')),
b'noop': (None, _(b'no changes needed to %s\n')),
b'unknown': (None, _(b'file not managed: %s\n')),
}
# "constant" that convey the backup strategy.
# All set to `discard` if `no-backup` is set do avoid checking
# no_backup lower in the code.
# These values are ordered for comparison purposes
backupinteractive = 3 # do backup if interactively modified
backup = 2 # unconditionally do backup
check = 1 # check if the existing file differs from target
discard = 0 # never do backup
if opts.get(b'no_backup'):
backupinteractive = backup = check = discard
if interactive:
dsmodifiedbackup = backupinteractive
else:
dsmodifiedbackup = backup
tobackup = set()
backupanddel = actions[b'remove']
if not opts.get(b'no_backup'):
backupanddel = actions[b'drop']
disptable = (
# dispatch table:
# file state
# action
# make backup
## Sets that results that will change file on disk
# Modified compared to target, no local change
(modified, actions[b'revert'], discard),
# Modified compared to target, but local file is deleted
(deleted, actions[b'revert'], discard),
# Modified compared to target, local change
(dsmodified, actions[b'revert'], dsmodifiedbackup),
# Added since target
(added, actions[b'remove'], discard),
# Added in working directory
(dsadded, actions[b'forget'], discard),
# Added since target, have local modification
(modadded, backupanddel, backup),
# Added since target but file is missing in working directory
(deladded, actions[b'drop'], discard),
# Removed since target, before working copy parent
(removed, actions[b'add'], discard),
# Same as `removed` but an unknown file exists at the same path
(removunk, actions[b'add'], check),
# Removed since targe, marked as such in working copy parent
(dsremoved, actions[b'undelete'], discard),
# Same as `dsremoved` but an unknown file exists at the same path
(dsremovunk, actions[b'undelete'], check),
## the following sets does not result in any file changes
# File with no modification
(clean, actions[b'noop'], discard),
# Existing file, not tracked anywhere
(unknown, actions[b'unknown'], discard),
)
for abs, exact in sorted(names.items()):
# target file to be touch on disk (relative to cwd)
target = repo.wjoin(abs)
# search the entry in the dispatch table.
# if the file is in any of these sets, it was touched in the working
# directory parent and we are sure it needs to be reverted.
for table, (xlist, msg), dobackup in disptable:
if abs not in table:
continue
if xlist is not None:
xlist.append(abs)
if dobackup:
# If in interactive mode, don't automatically create
# .orig files (issue4793)
if dobackup == backupinteractive:
tobackup.add(abs)
elif backup <= dobackup or wctx[abs].cmp(ctx[abs]):
absbakname = scmutil.backuppath(ui, repo, abs)
bakname = os.path.relpath(
absbakname, start=repo.root
)
ui.note(
_(b'saving current version of %s as %s\n')
% (uipathfn(abs), uipathfn(bakname))
)
if not opts.get(b'dry_run'):
if interactive:
util.copyfile(target, absbakname)
else:
util.rename(target, absbakname)
if opts.get(b'dry_run'):
if ui.verbose or not exact:
ui.status(msg % uipathfn(abs))
elif exact:
ui.warn(msg % uipathfn(abs))
break
if not opts.get(b'dry_run'):
needdata = (b'revert', b'add', b'undelete')
oplist = [actions[name][0] for name in needdata]
prefetch = scmutil.prefetchfiles
matchfiles = scmutil.matchfiles
prefetch(
repo,
[ctx.rev()],
matchfiles(repo, [f for sublist in oplist for f in sublist]),
)
match = scmutil.match(repo[None], pats)
_performrevert(
repo,
parents,
ctx,
names,
uipathfn,
actions,
match,
interactive,
tobackup,
)
if targetsubs:
# Revert the subrepos on the revert list
for sub in targetsubs:
try:
wctx.sub(sub).revert(
ctx.substate[sub], *pats, **pycompat.strkwargs(opts)
)
except KeyError:
raise error.Abort(
b"subrepository '%s' does not exist in %s!"
% (sub, short(ctx.node()))
)
def _performrevert(
repo,
parents,
ctx,
names,
uipathfn,
actions,
match,
interactive=False,
tobackup=None,
):
"""function that actually perform all the actions computed for revert
This is an independent function to let extension to plug in and react to
the imminent revert.
Make sure you have the working directory locked when calling this function.
"""
parent, p2 = parents
node = ctx.node()
excluded_files = []
def checkout(f):
fc = ctx[f]
repo.wwrite(f, fc.data(), fc.flags())
def doremove(f):
try:
rmdir = repo.ui.configbool(b'experimental', b'removeemptydirs')
repo.wvfs.unlinkpath(f, rmdir=rmdir)
except OSError:
pass
repo.dirstate.remove(f)
def prntstatusmsg(action, f):
exact = names[f]
if repo.ui.verbose or not exact:
repo.ui.status(actions[action][1] % uipathfn(f))
audit_path = pathutil.pathauditor(repo.root, cached=True)
for f in actions[b'forget'][0]:
if interactive:
choice = repo.ui.promptchoice(
_(b"forget added file %s (Yn)?$$ &Yes $$ &No") % uipathfn(f)
)
if choice == 0:
prntstatusmsg(b'forget', f)
repo.dirstate.drop(f)
else:
excluded_files.append(f)
else:
prntstatusmsg(b'forget', f)
repo.dirstate.drop(f)
for f in actions[b'remove'][0]:
audit_path(f)
if interactive:
choice = repo.ui.promptchoice(
_(b"remove added file %s (Yn)?$$ &Yes $$ &No") % uipathfn(f)
)
if choice == 0:
prntstatusmsg(b'remove', f)
doremove(f)
else:
excluded_files.append(f)
else:
prntstatusmsg(b'remove', f)
doremove(f)
for f in actions[b'drop'][0]:
audit_path(f)
prntstatusmsg(b'drop', f)
repo.dirstate.remove(f)
normal = None
if node == parent:
# We're reverting to our parent. If possible, we'd like status
# to report the file as clean. We have to use normallookup for
# merges to avoid losing information about merged/dirty files.
if p2 != nullid:
normal = repo.dirstate.normallookup
else:
normal = repo.dirstate.normal
newlyaddedandmodifiedfiles = set()
if interactive:
# Prompt the user for changes to revert
torevert = [f for f in actions[b'revert'][0] if f not in excluded_files]
m = scmutil.matchfiles(repo, torevert)
diffopts = patch.difffeatureopts(
repo.ui,
whitespace=True,
section=b'commands',
configprefix=b'revert.interactive.',
)
diffopts.nodates = True
diffopts.git = True
operation = b'apply'
if node == parent:
if repo.ui.configbool(
b'experimental', b'revert.interactive.select-to-keep'
):
operation = b'keep'
else:
operation = b'discard'
if operation == b'apply':
diff = patch.diff(repo, None, ctx.node(), m, opts=diffopts)
else:
diff = patch.diff(repo, ctx.node(), None, m, opts=diffopts)
originalchunks = patch.parsepatch(diff)
try:
chunks, opts = recordfilter(
repo.ui, originalchunks, match, operation=operation
)
if operation == b'discard':
chunks = patch.reversehunks(chunks)
except error.PatchError as err:
raise error.Abort(_(b'error parsing patch: %s') % err)
# FIXME: when doing an interactive revert of a copy, there's no way of
# performing a partial revert of the added file, the only option is
# "remove added file <name> (Yn)?", so we don't need to worry about the
# alsorestore value. Ideally we'd be able to partially revert
# copied/renamed files.
newlyaddedandmodifiedfiles, unusedalsorestore = newandmodified(
chunks, originalchunks
)
if tobackup is None:
tobackup = set()
# Apply changes
fp = stringio()
# chunks are serialized per file, but files aren't sorted
for f in sorted(set(c.header.filename() for c in chunks if ishunk(c))):
prntstatusmsg(b'revert', f)
files = set()
for c in chunks:
if ishunk(c):
abs = c.header.filename()
# Create a backup file only if this hunk should be backed up
if c.header.filename() in tobackup:
target = repo.wjoin(abs)
bakname = scmutil.backuppath(repo.ui, repo, abs)
util.copyfile(target, bakname)
tobackup.remove(abs)
if abs not in files:
files.add(abs)
if operation == b'keep':
checkout(abs)
c.write(fp)
dopatch = fp.tell()
fp.seek(0)
if dopatch:
try:
patch.internalpatch(repo.ui, repo, fp, 1, eolmode=None)
except error.PatchError as err:
raise error.Abort(pycompat.bytestr(err))
del fp
else:
for f in actions[b'revert'][0]:
prntstatusmsg(b'revert', f)
checkout(f)
if normal:
normal(f)
for f in actions[b'add'][0]:
# Don't checkout modified files, they are already created by the diff
if f not in newlyaddedandmodifiedfiles:
prntstatusmsg(b'add', f)
checkout(f)
repo.dirstate.add(f)
normal = repo.dirstate.normallookup
if node == parent and p2 == nullid:
normal = repo.dirstate.normal
for f in actions[b'undelete'][0]:
if interactive:
choice = repo.ui.promptchoice(
_(b"add back removed file %s (Yn)?$$ &Yes $$ &No") % f
)
if choice == 0:
prntstatusmsg(b'undelete', f)
checkout(f)
normal(f)
else:
excluded_files.append(f)
else:
prntstatusmsg(b'undelete', f)
checkout(f)
normal(f)
copied = copies.pathcopies(repo[parent], ctx)
for f in (
actions[b'add'][0] + actions[b'undelete'][0] + actions[b'revert'][0]
):
if f in copied:
repo.dirstate.copy(copied[f], f)
# a list of (ui, repo, otherpeer, opts, missing) functions called by
# commands.outgoing. "missing" is "missing" of the result of
# "findcommonoutgoing()"
outgoinghooks = util.hooks()
# a list of (ui, repo) functions called by commands.summary
summaryhooks = util.hooks()
# a list of (ui, repo, opts, changes) functions called by commands.summary.
#
# functions should return tuple of booleans below, if 'changes' is None:
# (whether-incomings-are-needed, whether-outgoings-are-needed)
#
# otherwise, 'changes' is a tuple of tuples below:
# - (sourceurl, sourcebranch, sourcepeer, incoming)
# - (desturl, destbranch, destpeer, outgoing)
summaryremotehooks = util.hooks()
def checkunfinished(repo, commit=False, skipmerge=False):
'''Look for an unfinished multistep operation, like graft, and abort
if found. It's probably good to check this right before
bailifchanged().
'''
# Check for non-clearable states first, so things like rebase will take
# precedence over update.
for state in statemod._unfinishedstates:
if (
state._clearable
or (commit and state._allowcommit)
or state._reportonly
):
continue
if state.isunfinished(repo):
raise error.Abort(state.msg(), hint=state.hint())
for s in statemod._unfinishedstates:
if (
not s._clearable
or (commit and s._allowcommit)
or (s._opname == b'merge' and skipmerge)
or s._reportonly
):
continue
if s.isunfinished(repo):
raise error.Abort(s.msg(), hint=s.hint())
def clearunfinished(repo):
'''Check for unfinished operations (as above), and clear the ones
that are clearable.
'''
for state in statemod._unfinishedstates:
if state._reportonly:
continue
if not state._clearable and state.isunfinished(repo):
raise error.Abort(state.msg(), hint=state.hint())
for s in statemod._unfinishedstates:
if s._opname == b'merge' or state._reportonly:
continue
if s._clearable and s.isunfinished(repo):
util.unlink(repo.vfs.join(s._fname))
def getunfinishedstate(repo):
''' Checks for unfinished operations and returns statecheck object
for it'''
for state in statemod._unfinishedstates:
if state.isunfinished(repo):
return state
return None
def howtocontinue(repo):
'''Check for an unfinished operation and return the command to finish
it.
statemod._unfinishedstates list is checked for an unfinished operation
and the corresponding message to finish it is generated if a method to
continue is supported by the operation.
Returns a (msg, warning) tuple. 'msg' is a string and 'warning' is
a boolean.
'''
contmsg = _(b"continue: %s")
for state in statemod._unfinishedstates:
if not state._continueflag:
continue
if state.isunfinished(repo):
return contmsg % state.continuemsg(), True
if repo[None].dirty(missing=True, merge=False, branch=False):
return contmsg % _(b"hg commit"), False
return None, None
def checkafterresolved(repo):
'''Inform the user about the next action after completing hg resolve
If there's a an unfinished operation that supports continue flag,
howtocontinue will yield repo.ui.warn as the reporter.
Otherwise, it will yield repo.ui.note.
'''
msg, warning = howtocontinue(repo)
if msg is not None:
if warning:
repo.ui.warn(b"%s\n" % msg)
else:
repo.ui.note(b"%s\n" % msg)
def wrongtooltocontinue(repo, task):
'''Raise an abort suggesting how to properly continue if there is an
active task.
Uses howtocontinue() to find the active task.
If there's no task (repo.ui.note for 'hg commit'), it does not offer
a hint.
'''
after = howtocontinue(repo)
hint = None
if after[1]:
hint = after[0]
raise error.Abort(_(b'no %s in progress') % task, hint=hint)
def abortgraft(ui, repo, graftstate):
"""abort the interrupted graft and rollbacks to the state before interrupted
graft"""
if not graftstate.exists():
raise error.Abort(_(b"no interrupted graft to abort"))
statedata = readgraftstate(repo, graftstate)
newnodes = statedata.get(b'newnodes')
if newnodes is None:
# and old graft state which does not have all the data required to abort
# the graft
raise error.Abort(_(b"cannot abort using an old graftstate"))
# changeset from which graft operation was started
if len(newnodes) > 0:
startctx = repo[newnodes[0]].p1()
else:
startctx = repo[b'.']
# whether to strip or not
cleanup = False
from . import hg
if newnodes:
newnodes = [repo[r].rev() for r in newnodes]
cleanup = True
# checking that none of the newnodes turned public or is public
immutable = [c for c in newnodes if not repo[c].mutable()]
if immutable:
repo.ui.warn(
_(b"cannot clean up public changesets %s\n")
% b', '.join(bytes(repo[r]) for r in immutable),
hint=_(b"see 'hg help phases' for details"),
)
cleanup = False
# checking that no new nodes are created on top of grafted revs
desc = set(repo.changelog.descendants(newnodes))
if desc - set(newnodes):
repo.ui.warn(
_(
b"new changesets detected on destination "
b"branch, can't strip\n"
)
)
cleanup = False
if cleanup:
with repo.wlock(), repo.lock():
hg.updaterepo(repo, startctx.node(), overwrite=True)
# stripping the new nodes created
strippoints = [
c.node() for c in repo.set(b"roots(%ld)", newnodes)
]
repair.strip(repo.ui, repo, strippoints, backup=False)
if not cleanup:
# we don't update to the startnode if we can't strip
startctx = repo[b'.']
hg.updaterepo(repo, startctx.node(), overwrite=True)
ui.status(_(b"graft aborted\n"))
ui.status(_(b"working directory is now at %s\n") % startctx.hex()[:12])
graftstate.delete()
return 0
def readgraftstate(repo, graftstate):
# type: (Any, statemod.cmdstate) -> Dict[bytes, Any]
"""read the graft state file and return a dict of the data stored in it"""
try:
return graftstate.read()
except error.CorruptedState:
nodes = repo.vfs.read(b'graftstate').splitlines()
return {b'nodes': nodes}
def hgabortgraft(ui, repo):
""" abort logic for aborting graft using 'hg abort'"""
with repo.wlock():
graftstate = statemod.cmdstate(repo, b'graftstate')
return abortgraft(ui, repo, graftstate)