Mercurial > hg
view mercurial/merge.py @ 36692:aeaf9c7f7528
py3: make gettext domain a system string
author | Yuya Nishihara <yuya@tcha.org> |
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date | Sat, 03 Mar 2018 19:12:47 -0500 |
parents | 1d99260c3a81 |
children | 658b1d28813c |
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# merge.py - directory-level update/merge handling for Mercurial # # Copyright 2006, 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 errno import hashlib import shutil import struct from .i18n import _ from .node import ( addednodeid, bin, hex, modifiednodeid, nullhex, nullid, nullrev, ) from . import ( copies, error, filemerge, match as matchmod, obsutil, pycompat, scmutil, subrepoutil, util, worker, ) _pack = struct.pack _unpack = struct.unpack def _droponode(data): # used for compatibility for v1 bits = data.split('\0') bits = bits[:-2] + bits[-1:] return '\0'.join(bits) class mergestate(object): '''track 3-way merge state of individual files The merge state is stored on disk when needed. Two files are used: one with an old format (version 1), and one with a new format (version 2). Version 2 stores a superset of the data in version 1, including new kinds of records in the future. For more about the new format, see the documentation for `_readrecordsv2`. Each record can contain arbitrary content, and has an associated type. This `type` should be a letter. If `type` is uppercase, the record is mandatory: versions of Mercurial that don't support it should abort. If `type` is lowercase, the record can be safely ignored. Currently known records: L: the node of the "local" part of the merge (hexified version) O: the node of the "other" part of the merge (hexified version) F: a file to be merged entry C: a change/delete or delete/change conflict D: a file that the external merge driver will merge internally (experimental) P: a path conflict (file vs directory) m: the external merge driver defined for this merge plus its run state (experimental) f: a (filename, dictionary) tuple of optional values for a given file X: unsupported mandatory record type (used in tests) x: unsupported advisory record type (used in tests) l: the labels for the parts of the merge. Merge driver run states (experimental): u: driver-resolved files unmarked -- needs to be run next time we're about to resolve or commit m: driver-resolved files marked -- only needs to be run before commit s: success/skipped -- does not need to be run any more Merge record states (stored in self._state, indexed by filename): u: unresolved conflict r: resolved conflict pu: unresolved path conflict (file conflicts with directory) pr: resolved path conflict d: driver-resolved conflict The resolve command transitions between 'u' and 'r' for conflicts and 'pu' and 'pr' for path conflicts. ''' statepathv1 = 'merge/state' statepathv2 = 'merge/state2' @staticmethod def clean(repo, node=None, other=None, labels=None): """Initialize a brand new merge state, removing any existing state on disk.""" ms = mergestate(repo) ms.reset(node, other, labels) return ms @staticmethod def read(repo): """Initialize the merge state, reading it from disk.""" ms = mergestate(repo) ms._read() return ms def __init__(self, repo): """Initialize the merge state. Do not use this directly! Instead call read() or clean().""" self._repo = repo self._dirty = False self._labels = None def reset(self, node=None, other=None, labels=None): self._state = {} self._stateextras = {} self._local = None self._other = None self._labels = labels for var in ('localctx', 'otherctx'): if var in vars(self): delattr(self, var) if node: self._local = node self._other = other self._readmergedriver = None if self.mergedriver: self._mdstate = 's' else: self._mdstate = 'u' shutil.rmtree(self._repo.vfs.join('merge'), True) self._results = {} self._dirty = False def _read(self): """Analyse each record content to restore a serialized state from disk This function process "record" entry produced by the de-serialization of on disk file. """ self._state = {} self._stateextras = {} self._local = None self._other = None for var in ('localctx', 'otherctx'): if var in vars(self): delattr(self, var) self._readmergedriver = None self._mdstate = 's' unsupported = set() records = self._readrecords() for rtype, record in records: if rtype == 'L': self._local = bin(record) elif rtype == 'O': self._other = bin(record) elif rtype == 'm': bits = record.split('\0', 1) mdstate = bits[1] if len(mdstate) != 1 or mdstate not in 'ums': # the merge driver should be idempotent, so just rerun it mdstate = 'u' self._readmergedriver = bits[0] self._mdstate = mdstate elif rtype in 'FDCP': bits = record.split('\0') self._state[bits[0]] = bits[1:] elif rtype == 'f': filename, rawextras = record.split('\0', 1) extraparts = rawextras.split('\0') extras = {} i = 0 while i < len(extraparts): extras[extraparts[i]] = extraparts[i + 1] i += 2 self._stateextras[filename] = extras elif rtype == 'l': labels = record.split('\0', 2) self._labels = [l for l in labels if len(l) > 0] elif not rtype.islower(): unsupported.add(rtype) self._results = {} self._dirty = False if unsupported: raise error.UnsupportedMergeRecords(unsupported) def _readrecords(self): """Read merge state from disk and return a list of record (TYPE, data) We read data from both v1 and v2 files and decide which one to use. V1 has been used by version prior to 2.9.1 and contains less data than v2. We read both versions and check if no data in v2 contradicts v1. If there is not contradiction we can safely assume that both v1 and v2 were written at the same time and use the extract data in v2. If there is contradiction we ignore v2 content as we assume an old version of Mercurial has overwritten the mergestate file and left an old v2 file around. returns list of record [(TYPE, data), ...]""" v1records = self._readrecordsv1() v2records = self._readrecordsv2() if self._v1v2match(v1records, v2records): return v2records else: # v1 file is newer than v2 file, use it # we have to infer the "other" changeset of the merge # we cannot do better than that with v1 of the format mctx = self._repo[None].parents()[-1] v1records.append(('O', mctx.hex())) # add place holder "other" file node information # nobody is using it yet so we do no need to fetch the data # if mctx was wrong `mctx[bits[-2]]` may fails. for idx, r in enumerate(v1records): if r[0] == 'F': bits = r[1].split('\0') bits.insert(-2, '') v1records[idx] = (r[0], '\0'.join(bits)) return v1records def _v1v2match(self, v1records, v2records): oldv2 = set() # old format version of v2 record for rec in v2records: if rec[0] == 'L': oldv2.add(rec) elif rec[0] == 'F': # drop the onode data (not contained in v1) oldv2.add(('F', _droponode(rec[1]))) for rec in v1records: if rec not in oldv2: return False else: return True def _readrecordsv1(self): """read on disk merge state for version 1 file returns list of record [(TYPE, data), ...] Note: the "F" data from this file are one entry short (no "other file node" entry) """ records = [] try: f = self._repo.vfs(self.statepathv1) for i, l in enumerate(f): if i == 0: records.append(('L', l[:-1])) else: records.append(('F', l[:-1])) f.close() except IOError as err: if err.errno != errno.ENOENT: raise return records def _readrecordsv2(self): """read on disk merge state for version 2 file This format is a list of arbitrary records of the form: [type][length][content] `type` is a single character, `length` is a 4 byte integer, and `content` is an arbitrary byte sequence of length `length`. Mercurial versions prior to 3.7 have a bug where if there are unsupported mandatory merge records, attempting to clear out the merge state with hg update --clean or similar aborts. The 't' record type works around that by writing out what those versions treat as an advisory record, but later versions interpret as special: the first character is the 'real' record type and everything onwards is the data. Returns list of records [(TYPE, data), ...].""" records = [] try: f = self._repo.vfs(self.statepathv2) data = f.read() off = 0 end = len(data) while off < end: rtype = data[off:off + 1] off += 1 length = _unpack('>I', data[off:(off + 4)])[0] off += 4 record = data[off:(off + length)] off += length if rtype == 't': rtype, record = record[0:1], record[1:] records.append((rtype, record)) f.close() except IOError as err: if err.errno != errno.ENOENT: raise return records @util.propertycache def mergedriver(self): # protect against the following: # - A configures a malicious merge driver in their hgrc, then # pauses the merge # - A edits their hgrc to remove references to the merge driver # - A gives a copy of their entire repo, including .hg, to B # - B inspects .hgrc and finds it to be clean # - B then continues the merge and the malicious merge driver # gets invoked configmergedriver = self._repo.ui.config('experimental', 'mergedriver') if (self._readmergedriver is not None and self._readmergedriver != configmergedriver): raise error.ConfigError( _("merge driver changed since merge started"), hint=_("revert merge driver change or abort merge")) return configmergedriver @util.propertycache def localctx(self): if self._local is None: msg = "localctx accessed but self._local isn't set" raise error.ProgrammingError(msg) return self._repo[self._local] @util.propertycache def otherctx(self): if self._other is None: msg = "otherctx accessed but self._other isn't set" raise error.ProgrammingError(msg) return self._repo[self._other] def active(self): """Whether mergestate is active. Returns True if there appears to be mergestate. This is a rough proxy for "is a merge in progress." """ # Check local variables before looking at filesystem for performance # reasons. return bool(self._local) or bool(self._state) or \ self._repo.vfs.exists(self.statepathv1) or \ self._repo.vfs.exists(self.statepathv2) def commit(self): """Write current state on disk (if necessary)""" if self._dirty: records = self._makerecords() self._writerecords(records) self._dirty = False def _makerecords(self): records = [] records.append(('L', hex(self._local))) records.append(('O', hex(self._other))) if self.mergedriver: records.append(('m', '\0'.join([ self.mergedriver, self._mdstate]))) # Write out state items. In all cases, the value of the state map entry # is written as the contents of the record. The record type depends on # the type of state that is stored, and capital-letter records are used # to prevent older versions of Mercurial that do not support the feature # from loading them. for filename, v in self._state.iteritems(): if v[0] == 'd': # Driver-resolved merge. These are stored in 'D' records. records.append(('D', '\0'.join([filename] + v))) elif v[0] in ('pu', 'pr'): # Path conflicts. These are stored in 'P' records. The current # resolution state ('pu' or 'pr') is stored within the record. records.append(('P', '\0'.join([filename] + v))) elif v[1] == nullhex or v[6] == nullhex: # Change/Delete or Delete/Change conflicts. These are stored in # 'C' records. v[1] is the local file, and is nullhex when the # file is deleted locally ('dc'). v[6] is the remote file, and # is nullhex when the file is deleted remotely ('cd'). records.append(('C', '\0'.join([filename] + v))) else: # Normal files. These are stored in 'F' records. records.append(('F', '\0'.join([filename] + v))) for filename, extras in sorted(self._stateextras.iteritems()): rawextras = '\0'.join('%s\0%s' % (k, v) for k, v in extras.iteritems()) records.append(('f', '%s\0%s' % (filename, rawextras))) if self._labels is not None: labels = '\0'.join(self._labels) records.append(('l', labels)) return records def _writerecords(self, records): """Write current state on disk (both v1 and v2)""" self._writerecordsv1(records) self._writerecordsv2(records) def _writerecordsv1(self, records): """Write current state on disk in a version 1 file""" f = self._repo.vfs(self.statepathv1, 'wb') irecords = iter(records) lrecords = next(irecords) assert lrecords[0] == 'L' f.write(hex(self._local) + '\n') for rtype, data in irecords: if rtype == 'F': f.write('%s\n' % _droponode(data)) f.close() def _writerecordsv2(self, records): """Write current state on disk in a version 2 file See the docstring for _readrecordsv2 for why we use 't'.""" # these are the records that all version 2 clients can read whitelist = 'LOF' f = self._repo.vfs(self.statepathv2, 'wb') for key, data in records: assert len(key) == 1 if key not in whitelist: key, data = 't', '%s%s' % (key, data) format = '>sI%is' % len(data) f.write(_pack(format, key, len(data), data)) f.close() def add(self, fcl, fco, fca, fd): """add a new (potentially?) conflicting file the merge state fcl: file context for local, fco: file context for remote, fca: file context for ancestors, fd: file path of the resulting merge. note: also write the local version to the `.hg/merge` directory. """ if fcl.isabsent(): hash = nullhex else: hash = hex(hashlib.sha1(fcl.path()).digest()) self._repo.vfs.write('merge/' + hash, fcl.data()) self._state[fd] = ['u', hash, fcl.path(), fca.path(), hex(fca.filenode()), fco.path(), hex(fco.filenode()), fcl.flags()] self._stateextras[fd] = {'ancestorlinknode': hex(fca.node())} self._dirty = True def addpath(self, path, frename, forigin): """add a new conflicting path to the merge state path: the path that conflicts frename: the filename the conflicting file was renamed to forigin: origin of the file ('l' or 'r' for local/remote) """ self._state[path] = ['pu', frename, forigin] self._dirty = True def __contains__(self, dfile): return dfile in self._state def __getitem__(self, dfile): return self._state[dfile][0] def __iter__(self): return iter(sorted(self._state)) def files(self): return self._state.keys() def mark(self, dfile, state): self._state[dfile][0] = state self._dirty = True def mdstate(self): return self._mdstate def unresolved(self): """Obtain the paths of unresolved files.""" for f, entry in self._state.iteritems(): if entry[0] in ('u', 'pu'): yield f def driverresolved(self): """Obtain the paths of driver-resolved files.""" for f, entry in self._state.items(): if entry[0] == 'd': yield f def extras(self, filename): return self._stateextras.setdefault(filename, {}) def _resolve(self, preresolve, dfile, wctx): """rerun merge process for file path `dfile`""" if self[dfile] in 'rd': return True, 0 stateentry = self._state[dfile] state, hash, lfile, afile, anode, ofile, onode, flags = stateentry octx = self._repo[self._other] extras = self.extras(dfile) anccommitnode = extras.get('ancestorlinknode') if anccommitnode: actx = self._repo[anccommitnode] else: actx = None fcd = self._filectxorabsent(hash, wctx, dfile) fco = self._filectxorabsent(onode, octx, ofile) # TODO: move this to filectxorabsent fca = self._repo.filectx(afile, fileid=anode, changeid=actx) # "premerge" x flags flo = fco.flags() fla = fca.flags() if 'x' in flags + flo + fla and 'l' not in flags + flo + fla: if fca.node() == nullid and flags != flo: if preresolve: self._repo.ui.warn( _('warning: cannot merge flags for %s ' 'without common ancestor - keeping local flags\n') % afile) elif flags == fla: flags = flo if preresolve: # restore local if hash != nullhex: f = self._repo.vfs('merge/' + hash) wctx[dfile].write(f.read(), flags) f.close() else: wctx[dfile].remove(ignoremissing=True) complete, r, deleted = filemerge.premerge(self._repo, wctx, self._local, lfile, fcd, fco, fca, labels=self._labels) else: complete, r, deleted = filemerge.filemerge(self._repo, wctx, self._local, lfile, fcd, fco, fca, labels=self._labels) if r is None: # no real conflict del self._state[dfile] self._stateextras.pop(dfile, None) self._dirty = True elif not r: self.mark(dfile, 'r') if complete: action = None if deleted: if fcd.isabsent(): # dc: local picked. Need to drop if present, which may # happen on re-resolves. action = 'f' else: # cd: remote picked (or otherwise deleted) action = 'r' else: if fcd.isabsent(): # dc: remote picked action = 'g' elif fco.isabsent(): # cd: local picked if dfile in self.localctx: action = 'am' else: action = 'a' # else: regular merges (no action necessary) self._results[dfile] = r, action return complete, r def _filectxorabsent(self, hexnode, ctx, f): if hexnode == nullhex: return filemerge.absentfilectx(ctx, f) else: return ctx[f] def preresolve(self, dfile, wctx): """run premerge process for dfile Returns whether the merge is complete, and the exit code.""" return self._resolve(True, dfile, wctx) def resolve(self, dfile, wctx): """run merge process (assuming premerge was run) for dfile Returns the exit code of the merge.""" return self._resolve(False, dfile, wctx)[1] def counts(self): """return counts for updated, merged and removed files in this session""" updated, merged, removed = 0, 0, 0 for r, action in self._results.itervalues(): if r is None: updated += 1 elif r == 0: if action == 'r': removed += 1 else: merged += 1 return updated, merged, removed def unresolvedcount(self): """get unresolved count for this merge (persistent)""" return len(list(self.unresolved())) def actions(self): """return lists of actions to perform on the dirstate""" actions = {'r': [], 'f': [], 'a': [], 'am': [], 'g': []} for f, (r, action) in self._results.iteritems(): if action is not None: actions[action].append((f, None, "merge result")) return actions def recordactions(self): """record remove/add/get actions in the dirstate""" branchmerge = self._repo.dirstate.p2() != nullid recordupdates(self._repo, self.actions(), branchmerge) def queueremove(self, f): """queues a file to be removed from the dirstate Meant for use by custom merge drivers.""" self._results[f] = 0, 'r' def queueadd(self, f): """queues a file to be added to the dirstate Meant for use by custom merge drivers.""" self._results[f] = 0, 'a' def queueget(self, f): """queues a file to be marked modified in the dirstate Meant for use by custom merge drivers.""" self._results[f] = 0, 'g' def _getcheckunknownconfig(repo, section, name): config = repo.ui.config(section, name) valid = ['abort', 'ignore', 'warn'] if config not in valid: validstr = ', '.join(["'" + v + "'" for v in valid]) raise error.ConfigError(_("%s.%s not valid " "('%s' is none of %s)") % (section, name, config, validstr)) return config def _checkunknownfile(repo, wctx, mctx, f, f2=None): if wctx.isinmemory(): # Nothing to do in IMM because nothing in the "working copy" can be an # unknown file. # # Note that we should bail out here, not in ``_checkunknownfiles()``, # because that function does other useful work. return False if f2 is None: f2 = f return (repo.wvfs.audit.check(f) and repo.wvfs.isfileorlink(f) and repo.dirstate.normalize(f) not in repo.dirstate and mctx[f2].cmp(wctx[f])) class _unknowndirschecker(object): """ Look for any unknown files or directories that may have a path conflict with a file. If any path prefix of the file exists as a file or link, then it conflicts. If the file itself is a directory that contains any file that is not tracked, then it conflicts. Returns the shortest path at which a conflict occurs, or None if there is no conflict. """ def __init__(self): # A set of paths known to be good. This prevents repeated checking of # dirs. It will be updated with any new dirs that are checked and found # to be safe. self._unknowndircache = set() # A set of paths that are known to be absent. This prevents repeated # checking of subdirectories that are known not to exist. It will be # updated with any new dirs that are checked and found to be absent. self._missingdircache = set() def __call__(self, repo, wctx, f): if wctx.isinmemory(): # Nothing to do in IMM for the same reason as ``_checkunknownfile``. return False # Check for path prefixes that exist as unknown files. for p in reversed(list(util.finddirs(f))): if p in self._missingdircache: return if p in self._unknowndircache: continue if repo.wvfs.audit.check(p): if (repo.wvfs.isfileorlink(p) and repo.dirstate.normalize(p) not in repo.dirstate): return p if not repo.wvfs.lexists(p): self._missingdircache.add(p) return self._unknowndircache.add(p) # Check if the file conflicts with a directory containing unknown files. if repo.wvfs.audit.check(f) and repo.wvfs.isdir(f): # Does the directory contain any files that are not in the dirstate? for p, dirs, files in repo.wvfs.walk(f): for fn in files: relf = repo.dirstate.normalize(repo.wvfs.reljoin(p, fn)) if relf not in repo.dirstate: return f return None def _checkunknownfiles(repo, wctx, mctx, force, actions, mergeforce): """ Considers any actions that care about the presence of conflicting unknown files. For some actions, the result is to abort; for others, it is to choose a different action. """ fileconflicts = set() pathconflicts = set() warnconflicts = set() abortconflicts = set() unknownconfig = _getcheckunknownconfig(repo, 'merge', 'checkunknown') ignoredconfig = _getcheckunknownconfig(repo, 'merge', 'checkignored') pathconfig = repo.ui.configbool('experimental', 'merge.checkpathconflicts') if not force: def collectconflicts(conflicts, config): if config == 'abort': abortconflicts.update(conflicts) elif config == 'warn': warnconflicts.update(conflicts) checkunknowndirs = _unknowndirschecker() for f, (m, args, msg) in actions.iteritems(): if m in ('c', 'dc'): if _checkunknownfile(repo, wctx, mctx, f): fileconflicts.add(f) elif pathconfig and f not in wctx: path = checkunknowndirs(repo, wctx, f) if path is not None: pathconflicts.add(path) elif m == 'dg': if _checkunknownfile(repo, wctx, mctx, f, args[0]): fileconflicts.add(f) allconflicts = fileconflicts | pathconflicts ignoredconflicts = set([c for c in allconflicts if repo.dirstate._ignore(c)]) unknownconflicts = allconflicts - ignoredconflicts collectconflicts(ignoredconflicts, ignoredconfig) collectconflicts(unknownconflicts, unknownconfig) else: for f, (m, args, msg) in actions.iteritems(): if m == 'cm': fl2, anc = args different = _checkunknownfile(repo, wctx, mctx, f) if repo.dirstate._ignore(f): config = ignoredconfig else: config = unknownconfig # The behavior when force is True is described by this table: # config different mergeforce | action backup # * n * | get n # * y y | merge - # abort y n | merge - (1) # warn y n | warn + get y # ignore y n | get y # # (1) this is probably the wrong behavior here -- we should # probably abort, but some actions like rebases currently # don't like an abort happening in the middle of # merge.update. if not different: actions[f] = ('g', (fl2, False), "remote created") elif mergeforce or config == 'abort': actions[f] = ('m', (f, f, None, False, anc), "remote differs from untracked local") elif config == 'abort': abortconflicts.add(f) else: if config == 'warn': warnconflicts.add(f) actions[f] = ('g', (fl2, True), "remote created") for f in sorted(abortconflicts): warn = repo.ui.warn if f in pathconflicts: if repo.wvfs.isfileorlink(f): warn(_("%s: untracked file conflicts with directory\n") % f) else: warn(_("%s: untracked directory conflicts with file\n") % f) else: warn(_("%s: untracked file differs\n") % f) if abortconflicts: raise error.Abort(_("untracked files in working directory " "differ from files in requested revision")) for f in sorted(warnconflicts): if repo.wvfs.isfileorlink(f): repo.ui.warn(_("%s: replacing untracked file\n") % f) else: repo.ui.warn(_("%s: replacing untracked files in directory\n") % f) for f, (m, args, msg) in actions.iteritems(): if m == 'c': backup = (f in fileconflicts or f in pathconflicts or any(p in pathconflicts for p in util.finddirs(f))) flags, = args actions[f] = ('g', (flags, backup), msg) def _forgetremoved(wctx, mctx, branchmerge): """ Forget removed files If we're jumping between revisions (as opposed to merging), and if neither the working directory nor the target rev has the file, then we need to remove it from the dirstate, to prevent the dirstate from listing the file when it is no longer in the manifest. If we're merging, and the other revision has removed a file that is not present in the working directory, we need to mark it as removed. """ actions = {} m = 'f' if branchmerge: m = 'r' for f in wctx.deleted(): if f not in mctx: actions[f] = m, None, "forget deleted" if not branchmerge: for f in wctx.removed(): if f not in mctx: actions[f] = 'f', None, "forget removed" return actions def _checkcollision(repo, wmf, actions): # build provisional merged manifest up pmmf = set(wmf) if actions: # k, dr, e and rd are no-op for m in 'a', 'am', 'f', 'g', 'cd', 'dc': for f, args, msg in actions[m]: pmmf.add(f) for f, args, msg in actions['r']: pmmf.discard(f) for f, args, msg in actions['dm']: f2, flags = args pmmf.discard(f2) pmmf.add(f) for f, args, msg in actions['dg']: pmmf.add(f) for f, args, msg in actions['m']: f1, f2, fa, move, anc = args if move: pmmf.discard(f1) pmmf.add(f) # check case-folding collision in provisional merged manifest foldmap = {} for f in pmmf: fold = util.normcase(f) if fold in foldmap: raise error.Abort(_("case-folding collision between %s and %s") % (f, foldmap[fold])) foldmap[fold] = f # check case-folding of directories foldprefix = unfoldprefix = lastfull = '' for fold, f in sorted(foldmap.items()): if fold.startswith(foldprefix) and not f.startswith(unfoldprefix): # the folded prefix matches but actual casing is different raise error.Abort(_("case-folding collision between " "%s and directory of %s") % (lastfull, f)) foldprefix = fold + '/' unfoldprefix = f + '/' lastfull = f def driverpreprocess(repo, ms, wctx, labels=None): """run the preprocess step of the merge driver, if any This is currently not implemented -- it's an extension point.""" return True def driverconclude(repo, ms, wctx, labels=None): """run the conclude step of the merge driver, if any This is currently not implemented -- it's an extension point.""" return True def _filesindirs(repo, manifest, dirs): """ Generator that yields pairs of all the files in the manifest that are found inside the directories listed in dirs, and which directory they are found in. """ for f in manifest: for p in util.finddirs(f): if p in dirs: yield f, p break def checkpathconflicts(repo, wctx, mctx, actions): """ Check if any actions introduce path conflicts in the repository, updating actions to record or handle the path conflict accordingly. """ mf = wctx.manifest() # The set of local files that conflict with a remote directory. localconflicts = set() # The set of directories that conflict with a remote file, and so may cause # conflicts if they still contain any files after the merge. remoteconflicts = set() # The set of directories that appear as both a file and a directory in the # remote manifest. These indicate an invalid remote manifest, which # can't be updated to cleanly. invalidconflicts = set() # The set of directories that contain files that are being created. createdfiledirs = set() # The set of files deleted by all the actions. deletedfiles = set() for f, (m, args, msg) in actions.items(): if m in ('c', 'dc', 'm', 'cm'): # This action may create a new local file. createdfiledirs.update(util.finddirs(f)) if mf.hasdir(f): # The file aliases a local directory. This might be ok if all # the files in the local directory are being deleted. This # will be checked once we know what all the deleted files are. remoteconflicts.add(f) # Track the names of all deleted files. if m == 'r': deletedfiles.add(f) if m == 'm': f1, f2, fa, move, anc = args if move: deletedfiles.add(f1) if m == 'dm': f2, flags = args deletedfiles.add(f2) # Check all directories that contain created files for path conflicts. for p in createdfiledirs: if p in mf: if p in mctx: # A file is in a directory which aliases both a local # and a remote file. This is an internal inconsistency # within the remote manifest. invalidconflicts.add(p) else: # A file is in a directory which aliases a local file. # We will need to rename the local file. localconflicts.add(p) if p in actions and actions[p][0] in ('c', 'dc', 'm', 'cm'): # The file is in a directory which aliases a remote file. # This is an internal inconsistency within the remote # manifest. invalidconflicts.add(p) # Rename all local conflicting files that have not been deleted. for p in localconflicts: if p not in deletedfiles: ctxname = bytes(wctx).rstrip('+') pnew = util.safename(p, ctxname, wctx, set(actions.keys())) actions[pnew] = ('pr', (p,), "local path conflict") actions[p] = ('p', (pnew, 'l'), "path conflict") if remoteconflicts: # Check if all files in the conflicting directories have been removed. ctxname = bytes(mctx).rstrip('+') for f, p in _filesindirs(repo, mf, remoteconflicts): if f not in deletedfiles: m, args, msg = actions[p] pnew = util.safename(p, ctxname, wctx, set(actions.keys())) if m in ('dc', 'm'): # Action was merge, just update target. actions[pnew] = (m, args, msg) else: # Action was create, change to renamed get action. fl = args[0] actions[pnew] = ('dg', (p, fl), "remote path conflict") actions[p] = ('p', (pnew, 'r'), "path conflict") remoteconflicts.remove(p) break if invalidconflicts: for p in invalidconflicts: repo.ui.warn(_("%s: is both a file and a directory\n") % p) raise error.Abort(_("destination manifest contains path conflicts")) def manifestmerge(repo, wctx, p2, pa, branchmerge, force, matcher, acceptremote, followcopies, forcefulldiff=False): """ Merge wctx and p2 with ancestor pa and generate merge action list branchmerge and force are as passed in to update matcher = matcher to filter file lists acceptremote = accept the incoming changes without prompting """ if matcher is not None and matcher.always(): matcher = None copy, movewithdir, diverge, renamedelete, dirmove = {}, {}, {}, {}, {} # manifests fetched in order are going to be faster, so prime the caches [x.manifest() for x in sorted(wctx.parents() + [p2, pa], key=scmutil.intrev)] if followcopies: ret = copies.mergecopies(repo, wctx, p2, pa) copy, movewithdir, diverge, renamedelete, dirmove = ret boolbm = pycompat.bytestr(bool(branchmerge)) boolf = pycompat.bytestr(bool(force)) boolm = pycompat.bytestr(bool(matcher)) repo.ui.note(_("resolving manifests\n")) repo.ui.debug(" branchmerge: %s, force: %s, partial: %s\n" % (boolbm, boolf, boolm)) repo.ui.debug(" ancestor: %s, local: %s, remote: %s\n" % (pa, wctx, p2)) m1, m2, ma = wctx.manifest(), p2.manifest(), pa.manifest() copied = set(copy.values()) copied.update(movewithdir.values()) if '.hgsubstate' in m1: # check whether sub state is modified if any(wctx.sub(s).dirty() for s in wctx.substate): m1['.hgsubstate'] = modifiednodeid # Don't use m2-vs-ma optimization if: # - ma is the same as m1 or m2, which we're just going to diff again later # - The caller specifically asks for a full diff, which is useful during bid # merge. if (pa not in ([wctx, p2] + wctx.parents()) and not forcefulldiff): # Identify which files are relevant to the merge, so we can limit the # total m1-vs-m2 diff to just those files. This has significant # performance benefits in large repositories. relevantfiles = set(ma.diff(m2).keys()) # For copied and moved files, we need to add the source file too. for copykey, copyvalue in copy.iteritems(): if copyvalue in relevantfiles: relevantfiles.add(copykey) for movedirkey in movewithdir: relevantfiles.add(movedirkey) filesmatcher = scmutil.matchfiles(repo, relevantfiles) matcher = matchmod.intersectmatchers(matcher, filesmatcher) diff = m1.diff(m2, match=matcher) if matcher is None: matcher = matchmod.always('', '') actions = {} for f, ((n1, fl1), (n2, fl2)) in diff.iteritems(): if n1 and n2: # file exists on both local and remote side if f not in ma: fa = copy.get(f, None) if fa is not None: actions[f] = ('m', (f, f, fa, False, pa.node()), "both renamed from " + fa) else: actions[f] = ('m', (f, f, None, False, pa.node()), "both created") else: a = ma[f] fla = ma.flags(f) nol = 'l' not in fl1 + fl2 + fla if n2 == a and fl2 == fla: actions[f] = ('k', (), "remote unchanged") elif n1 == a and fl1 == fla: # local unchanged - use remote if n1 == n2: # optimization: keep local content actions[f] = ('e', (fl2,), "update permissions") else: actions[f] = ('g', (fl2, False), "remote is newer") elif nol and n2 == a: # remote only changed 'x' actions[f] = ('e', (fl2,), "update permissions") elif nol and n1 == a: # local only changed 'x' actions[f] = ('g', (fl1, False), "remote is newer") else: # both changed something actions[f] = ('m', (f, f, f, False, pa.node()), "versions differ") elif n1: # file exists only on local side if f in copied: pass # we'll deal with it on m2 side elif f in movewithdir: # directory rename, move local f2 = movewithdir[f] if f2 in m2: actions[f2] = ('m', (f, f2, None, True, pa.node()), "remote directory rename, both created") else: actions[f2] = ('dm', (f, fl1), "remote directory rename - move from " + f) elif f in copy: f2 = copy[f] actions[f] = ('m', (f, f2, f2, False, pa.node()), "local copied/moved from " + f2) elif f in ma: # clean, a different, no remote if n1 != ma[f]: if acceptremote: actions[f] = ('r', None, "remote delete") else: actions[f] = ('cd', (f, None, f, False, pa.node()), "prompt changed/deleted") elif n1 == addednodeid: # This extra 'a' is added by working copy manifest to mark # the file as locally added. We should forget it instead of # deleting it. actions[f] = ('f', None, "remote deleted") else: actions[f] = ('r', None, "other deleted") elif n2: # file exists only on remote side if f in copied: pass # we'll deal with it on m1 side elif f in movewithdir: f2 = movewithdir[f] if f2 in m1: actions[f2] = ('m', (f2, f, None, False, pa.node()), "local directory rename, both created") else: actions[f2] = ('dg', (f, fl2), "local directory rename - get from " + f) elif f in copy: f2 = copy[f] if f2 in m2: actions[f] = ('m', (f2, f, f2, False, pa.node()), "remote copied from " + f2) else: actions[f] = ('m', (f2, f, f2, True, pa.node()), "remote moved from " + f2) elif f not in ma: # local unknown, remote created: the logic is described by the # following table: # # force branchmerge different | action # n * * | create # y n * | create # y y n | create # y y y | merge # # Checking whether the files are different is expensive, so we # don't do that when we can avoid it. if not force: actions[f] = ('c', (fl2,), "remote created") elif not branchmerge: actions[f] = ('c', (fl2,), "remote created") else: actions[f] = ('cm', (fl2, pa.node()), "remote created, get or merge") elif n2 != ma[f]: df = None for d in dirmove: if f.startswith(d): # new file added in a directory that was moved df = dirmove[d] + f[len(d):] break if df is not None and df in m1: actions[df] = ('m', (df, f, f, False, pa.node()), "local directory rename - respect move from " + f) elif acceptremote: actions[f] = ('c', (fl2,), "remote recreating") else: actions[f] = ('dc', (None, f, f, False, pa.node()), "prompt deleted/changed") if repo.ui.configbool('experimental', 'merge.checkpathconflicts'): # If we are merging, look for path conflicts. checkpathconflicts(repo, wctx, p2, actions) return actions, diverge, renamedelete def _resolvetrivial(repo, wctx, mctx, ancestor, actions): """Resolves false conflicts where the nodeid changed but the content remained the same.""" # We force a copy of actions.items() because we're going to mutate # actions as we resolve trivial conflicts. for f, (m, args, msg) in list(actions.items()): if m == 'cd' and f in ancestor and not wctx[f].cmp(ancestor[f]): # local did change but ended up with same content actions[f] = 'r', None, "prompt same" elif m == 'dc' and f in ancestor and not mctx[f].cmp(ancestor[f]): # remote did change but ended up with same content del actions[f] # don't get = keep local deleted def calculateupdates(repo, wctx, mctx, ancestors, branchmerge, force, acceptremote, followcopies, matcher=None, mergeforce=False): """Calculate the actions needed to merge mctx into wctx using ancestors""" # Avoid cycle. from . import sparse if len(ancestors) == 1: # default actions, diverge, renamedelete = manifestmerge( repo, wctx, mctx, ancestors[0], branchmerge, force, matcher, acceptremote, followcopies) _checkunknownfiles(repo, wctx, mctx, force, actions, mergeforce) else: # only when merge.preferancestor=* - the default repo.ui.note( _("note: merging %s and %s using bids from ancestors %s\n") % (wctx, mctx, _(' and ').join(pycompat.bytestr(anc) for anc in ancestors))) # Call for bids fbids = {} # mapping filename to bids (action method to list af actions) diverge, renamedelete = None, None for ancestor in ancestors: repo.ui.note(_('\ncalculating bids for ancestor %s\n') % ancestor) actions, diverge1, renamedelete1 = manifestmerge( repo, wctx, mctx, ancestor, branchmerge, force, matcher, acceptremote, followcopies, forcefulldiff=True) _checkunknownfiles(repo, wctx, mctx, force, actions, mergeforce) # Track the shortest set of warning on the theory that bid # merge will correctly incorporate more information if diverge is None or len(diverge1) < len(diverge): diverge = diverge1 if renamedelete is None or len(renamedelete) < len(renamedelete1): renamedelete = renamedelete1 for f, a in sorted(actions.iteritems()): m, args, msg = a repo.ui.debug(' %s: %s -> %s\n' % (f, msg, m)) if f in fbids: d = fbids[f] if m in d: d[m].append(a) else: d[m] = [a] else: fbids[f] = {m: [a]} # Pick the best bid for each file repo.ui.note(_('\nauction for merging merge bids\n')) actions = {} dms = [] # filenames that have dm actions for f, bids in sorted(fbids.items()): # bids is a mapping from action method to list af actions # Consensus? if len(bids) == 1: # all bids are the same kind of method m, l = list(bids.items())[0] if all(a == l[0] for a in l[1:]): # len(bids) is > 1 repo.ui.note(_(" %s: consensus for %s\n") % (f, m)) actions[f] = l[0] if m == 'dm': dms.append(f) continue # If keep is an option, just do it. if 'k' in bids: repo.ui.note(_(" %s: picking 'keep' action\n") % f) actions[f] = bids['k'][0] continue # If there are gets and they all agree [how could they not?], do it. if 'g' in bids: ga0 = bids['g'][0] if all(a == ga0 for a in bids['g'][1:]): repo.ui.note(_(" %s: picking 'get' action\n") % f) actions[f] = ga0 continue # TODO: Consider other simple actions such as mode changes # Handle inefficient democrazy. repo.ui.note(_(' %s: multiple bids for merge action:\n') % f) for m, l in sorted(bids.items()): for _f, args, msg in l: repo.ui.note(' %s -> %s\n' % (msg, m)) # Pick random action. TODO: Instead, prompt user when resolving m, l = list(bids.items())[0] repo.ui.warn(_(' %s: ambiguous merge - picked %s action\n') % (f, m)) actions[f] = l[0] if m == 'dm': dms.append(f) continue # Work around 'dm' that can cause multiple actions for the same file for f in dms: dm, (f0, flags), msg = actions[f] assert dm == 'dm', dm if f0 in actions and actions[f0][0] == 'r': # We have one bid for removing a file and another for moving it. # These two could be merged as first move and then delete ... # but instead drop moving and just delete. del actions[f] repo.ui.note(_('end of auction\n\n')) _resolvetrivial(repo, wctx, mctx, ancestors[0], actions) if wctx.rev() is None: fractions = _forgetremoved(wctx, mctx, branchmerge) actions.update(fractions) prunedactions = sparse.filterupdatesactions(repo, wctx, mctx, branchmerge, actions) return prunedactions, diverge, renamedelete def _getcwd(): try: return pycompat.getcwd() except OSError as err: if err.errno == errno.ENOENT: return None raise def batchremove(repo, wctx, actions): """apply removes to the working directory yields tuples for progress updates """ verbose = repo.ui.verbose cwd = _getcwd() i = 0 for f, args, msg in actions: repo.ui.debug(" %s: %s -> r\n" % (f, msg)) if verbose: repo.ui.note(_("removing %s\n") % f) wctx[f].audit() try: wctx[f].remove(ignoremissing=True) except OSError as inst: repo.ui.warn(_("update failed to remove %s: %s!\n") % (f, inst.strerror)) if i == 100: yield i, f i = 0 i += 1 if i > 0: yield i, f if cwd and not _getcwd(): # cwd was removed in the course of removing files; print a helpful # warning. repo.ui.warn(_("current directory was removed\n" "(consider changing to repo root: %s)\n") % repo.root) def batchget(repo, mctx, wctx, actions): """apply gets to the working directory mctx is the context to get from yields tuples for progress updates """ verbose = repo.ui.verbose fctx = mctx.filectx ui = repo.ui i = 0 with repo.wvfs.backgroundclosing(ui, expectedcount=len(actions)): for f, (flags, backup), msg in actions: repo.ui.debug(" %s: %s -> g\n" % (f, msg)) if verbose: repo.ui.note(_("getting %s\n") % f) if backup: # If a file or directory exists with the same name, back that # up. Otherwise, look to see if there is a file that conflicts # with a directory this file is in, and if so, back that up. absf = repo.wjoin(f) if not repo.wvfs.lexists(f): for p in util.finddirs(f): if repo.wvfs.isfileorlink(p): absf = repo.wjoin(p) break orig = scmutil.origpath(ui, repo, absf) if repo.wvfs.lexists(absf): util.rename(absf, orig) wctx[f].clearunknown() atomictemp = ui.configbool("experimental", "update.atomic-file") wctx[f].write(fctx(f).data(), flags, backgroundclose=True, atomictemp=atomictemp) if i == 100: yield i, f i = 0 i += 1 if i > 0: yield i, f def _prefetchfiles(repo, ctx, actions): """Invoke ``scmutil.fileprefetchhooks()`` for the files relevant to the dict of merge actions. ``ctx`` is the context being merged in.""" # Skipping 'a', 'am', 'f', 'r', 'dm', 'e', 'k', 'p' and 'pr', because they # don't touch the context to be merged in. 'cd' is skipped, because # changed/deleted never resolves to something from the remote side. oplist = [actions[a] for a in 'g dc dg m'.split()] prefetch = scmutil.fileprefetchhooks prefetch(repo, ctx, [f for sublist in oplist for f, args, msg in sublist]) def applyupdates(repo, actions, wctx, mctx, overwrite, labels=None): """apply the merge action list to the working directory wctx is the working copy context mctx is the context to be merged into the working copy Return a tuple of counts (updated, merged, removed, unresolved) that describes how many files were affected by the update. """ _prefetchfiles(repo, mctx, actions) updated, merged, removed = 0, 0, 0 ms = mergestate.clean(repo, wctx.p1().node(), mctx.node(), labels) moves = [] for m, l in actions.items(): l.sort() # 'cd' and 'dc' actions are treated like other merge conflicts mergeactions = sorted(actions['cd']) mergeactions.extend(sorted(actions['dc'])) mergeactions.extend(actions['m']) for f, args, msg in mergeactions: f1, f2, fa, move, anc = args if f == '.hgsubstate': # merged internally continue if f1 is None: fcl = filemerge.absentfilectx(wctx, fa) else: repo.ui.debug(" preserving %s for resolve of %s\n" % (f1, f)) fcl = wctx[f1] if f2 is None: fco = filemerge.absentfilectx(mctx, fa) else: fco = mctx[f2] actx = repo[anc] if fa in actx: fca = actx[fa] else: # TODO: move to absentfilectx fca = repo.filectx(f1, fileid=nullrev) ms.add(fcl, fco, fca, f) if f1 != f and move: moves.append(f1) _updating = _('updating') _files = _('files') progress = repo.ui.progress # remove renamed files after safely stored for f in moves: if wctx[f].lexists(): repo.ui.debug("removing %s\n" % f) wctx[f].audit() wctx[f].remove() numupdates = sum(len(l) for m, l in actions.items() if m != 'k') z = 0 if [a for a in actions['r'] if a[0] == '.hgsubstate']: subrepoutil.submerge(repo, wctx, mctx, wctx, overwrite, labels) # record path conflicts for f, args, msg in actions['p']: f1, fo = args s = repo.ui.status s(_("%s: path conflict - a file or link has the same name as a " "directory\n") % f) if fo == 'l': s(_("the local file has been renamed to %s\n") % f1) else: s(_("the remote file has been renamed to %s\n") % f1) s(_("resolve manually then use 'hg resolve --mark %s'\n") % f) ms.addpath(f, f1, fo) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) # When merging in-memory, we can't support worker processes, so set the # per-item cost at 0 in that case. cost = 0 if wctx.isinmemory() else 0.001 # remove in parallel (must come before resolving path conflicts and getting) prog = worker.worker(repo.ui, cost, batchremove, (repo, wctx), actions['r']) for i, item in prog: z += i progress(_updating, z, item=item, total=numupdates, unit=_files) removed = len(actions['r']) # resolve path conflicts (must come before getting) for f, args, msg in actions['pr']: repo.ui.debug(" %s: %s -> pr\n" % (f, msg)) f0, = args if wctx[f0].lexists(): repo.ui.note(_("moving %s to %s\n") % (f0, f)) wctx[f].audit() wctx[f].write(wctx.filectx(f0).data(), wctx.filectx(f0).flags()) wctx[f0].remove() z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) # get in parallel prog = worker.worker(repo.ui, cost, batchget, (repo, mctx, wctx), actions['g']) for i, item in prog: z += i progress(_updating, z, item=item, total=numupdates, unit=_files) updated = len(actions['g']) if [a for a in actions['g'] if a[0] == '.hgsubstate']: subrepoutil.submerge(repo, wctx, mctx, wctx, overwrite, labels) # forget (manifest only, just log it) (must come first) for f, args, msg in actions['f']: repo.ui.debug(" %s: %s -> f\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) # re-add (manifest only, just log it) for f, args, msg in actions['a']: repo.ui.debug(" %s: %s -> a\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) # re-add/mark as modified (manifest only, just log it) for f, args, msg in actions['am']: repo.ui.debug(" %s: %s -> am\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) # keep (noop, just log it) for f, args, msg in actions['k']: repo.ui.debug(" %s: %s -> k\n" % (f, msg)) # no progress # directory rename, move local for f, args, msg in actions['dm']: repo.ui.debug(" %s: %s -> dm\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) f0, flags = args repo.ui.note(_("moving %s to %s\n") % (f0, f)) wctx[f].audit() wctx[f].write(wctx.filectx(f0).data(), flags) wctx[f0].remove() updated += 1 # local directory rename, get for f, args, msg in actions['dg']: repo.ui.debug(" %s: %s -> dg\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) f0, flags = args repo.ui.note(_("getting %s to %s\n") % (f0, f)) wctx[f].write(mctx.filectx(f0).data(), flags) updated += 1 # exec for f, args, msg in actions['e']: repo.ui.debug(" %s: %s -> e\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) flags, = args wctx[f].audit() wctx[f].setflags('l' in flags, 'x' in flags) updated += 1 # the ordering is important here -- ms.mergedriver will raise if the merge # driver has changed, and we want to be able to bypass it when overwrite is # True usemergedriver = not overwrite and mergeactions and ms.mergedriver if usemergedriver: if wctx.isinmemory(): raise error.InMemoryMergeConflictsError("in-memory merge does not " "support mergedriver") ms.commit() proceed = driverpreprocess(repo, ms, wctx, labels=labels) # the driver might leave some files unresolved unresolvedf = set(ms.unresolved()) if not proceed: # XXX setting unresolved to at least 1 is a hack to make sure we # error out return updated, merged, removed, max(len(unresolvedf), 1) newactions = [] for f, args, msg in mergeactions: if f in unresolvedf: newactions.append((f, args, msg)) mergeactions = newactions try: # premerge tocomplete = [] for f, args, msg in mergeactions: repo.ui.debug(" %s: %s -> m (premerge)\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) if f == '.hgsubstate': # subrepo states need updating subrepoutil.submerge(repo, wctx, mctx, wctx.ancestor(mctx), overwrite, labels) continue wctx[f].audit() complete, r = ms.preresolve(f, wctx) if not complete: numupdates += 1 tocomplete.append((f, args, msg)) # merge for f, args, msg in tocomplete: repo.ui.debug(" %s: %s -> m (merge)\n" % (f, msg)) z += 1 progress(_updating, z, item=f, total=numupdates, unit=_files) ms.resolve(f, wctx) finally: ms.commit() unresolved = ms.unresolvedcount() if usemergedriver and not unresolved and ms.mdstate() != 's': if not driverconclude(repo, ms, wctx, labels=labels): # XXX setting unresolved to at least 1 is a hack to make sure we # error out unresolved = max(unresolved, 1) ms.commit() msupdated, msmerged, msremoved = ms.counts() updated += msupdated merged += msmerged removed += msremoved extraactions = ms.actions() if extraactions: mfiles = set(a[0] for a in actions['m']) for k, acts in extraactions.iteritems(): actions[k].extend(acts) # Remove these files from actions['m'] as well. This is important # because in recordupdates, files in actions['m'] are processed # after files in other actions, and the merge driver might add # files to those actions via extraactions above. This can lead to a # file being recorded twice, with poor results. This is especially # problematic for actions['r'] (currently only possible with the # merge driver in the initial merge process; interrupted merges # don't go through this flow). # # The real fix here is to have indexes by both file and action so # that when the action for a file is changed it is automatically # reflected in the other action lists. But that involves a more # complex data structure, so this will do for now. # # We don't need to do the same operation for 'dc' and 'cd' because # those lists aren't consulted again. mfiles.difference_update(a[0] for a in acts) actions['m'] = [a for a in actions['m'] if a[0] in mfiles] progress(_updating, None, total=numupdates, unit=_files) return updated, merged, removed, unresolved def recordupdates(repo, actions, branchmerge): "record merge actions to the dirstate" # remove (must come first) for f, args, msg in actions.get('r', []): if branchmerge: repo.dirstate.remove(f) else: repo.dirstate.drop(f) # forget (must come first) for f, args, msg in actions.get('f', []): repo.dirstate.drop(f) # resolve path conflicts for f, args, msg in actions.get('pr', []): f0, = args origf0 = repo.dirstate.copied(f0) or f0 repo.dirstate.add(f) repo.dirstate.copy(origf0, f) if f0 == origf0: repo.dirstate.remove(f0) else: repo.dirstate.drop(f0) # re-add for f, args, msg in actions.get('a', []): repo.dirstate.add(f) # re-add/mark as modified for f, args, msg in actions.get('am', []): if branchmerge: repo.dirstate.normallookup(f) else: repo.dirstate.add(f) # exec change for f, args, msg in actions.get('e', []): repo.dirstate.normallookup(f) # keep for f, args, msg in actions.get('k', []): pass # get for f, args, msg in actions.get('g', []): if branchmerge: repo.dirstate.otherparent(f) else: repo.dirstate.normal(f) # merge for f, args, msg in actions.get('m', []): f1, f2, fa, move, anc = args if branchmerge: # We've done a branch merge, mark this file as merged # so that we properly record the merger later repo.dirstate.merge(f) if f1 != f2: # copy/rename if move: repo.dirstate.remove(f1) if f1 != f: repo.dirstate.copy(f1, f) else: repo.dirstate.copy(f2, f) else: # We've update-merged a locally modified file, so # we set the dirstate to emulate a normal checkout # of that file some time in the past. Thus our # merge will appear as a normal local file # modification. if f2 == f: # file not locally copied/moved repo.dirstate.normallookup(f) if move: repo.dirstate.drop(f1) # directory rename, move local for f, args, msg in actions.get('dm', []): f0, flag = args if branchmerge: repo.dirstate.add(f) repo.dirstate.remove(f0) repo.dirstate.copy(f0, f) else: repo.dirstate.normal(f) repo.dirstate.drop(f0) # directory rename, get for f, args, msg in actions.get('dg', []): f0, flag = args if branchmerge: repo.dirstate.add(f) repo.dirstate.copy(f0, f) else: repo.dirstate.normal(f) def update(repo, node, branchmerge, force, ancestor=None, mergeancestor=False, labels=None, matcher=None, mergeforce=False, updatecheck=None, wc=None): """ Perform a merge between the working directory and the given node node = the node to update to branchmerge = whether to merge between branches force = whether to force branch merging or file overwriting matcher = a matcher to filter file lists (dirstate not updated) mergeancestor = whether it is merging with an ancestor. If true, we should accept the incoming changes for any prompts that occur. If false, merging with an ancestor (fast-forward) is only allowed between different named branches. This flag is used by rebase extension as a temporary fix and should be avoided in general. labels = labels to use for base, local and other mergeforce = whether the merge was run with 'merge --force' (deprecated): if this is True, then 'force' should be True as well. The table below shows all the behaviors of the update command given the -c/--check and -C/--clean or no options, whether the working directory is dirty, whether a revision is specified, and the relationship of the parent rev to the target rev (linear or not). Match from top first. The -n option doesn't exist on the command line, but represents the experimental.updatecheck=noconflict option. This logic is tested by test-update-branches.t. -c -C -n -m dirty rev linear | result y y * * * * * | (1) y * y * * * * | (1) y * * y * * * | (1) * y y * * * * | (1) * y * y * * * | (1) * * y y * * * | (1) * * * * * n n | x * * * * n * * | ok n n n n y * y | merge n n n n y y n | (2) n n n y y * * | merge n n y n y * * | merge if no conflict n y n n y * * | discard y n n n y * * | (3) x = can't happen * = don't-care 1 = incompatible options (checked in commands.py) 2 = abort: uncommitted changes (commit or update --clean to discard changes) 3 = abort: uncommitted changes (checked in commands.py) The merge is performed inside ``wc``, a workingctx-like objects. It defaults to repo[None] if None is passed. Return the same tuple as applyupdates(). """ # Avoid cycle. from . import sparse # This function used to find the default destination if node was None, but # that's now in destutil.py. assert node is not None if not branchmerge and not force: # TODO: remove the default once all callers that pass branchmerge=False # and force=False pass a value for updatecheck. We may want to allow # updatecheck='abort' to better suppport some of these callers. if updatecheck is None: updatecheck = 'linear' assert updatecheck in ('none', 'linear', 'noconflict') # If we're doing a partial update, we need to skip updating # the dirstate, so make a note of any partial-ness to the # update here. if matcher is None or matcher.always(): partial = False else: partial = True with repo.wlock(): if wc is None: wc = repo[None] pl = wc.parents() p1 = pl[0] pas = [None] if ancestor is not None: pas = [repo[ancestor]] overwrite = force and not branchmerge p2 = repo[node] if pas[0] is None: if repo.ui.configlist('merge', 'preferancestor') == ['*']: cahs = repo.changelog.commonancestorsheads(p1.node(), p2.node()) pas = [repo[anc] for anc in (sorted(cahs) or [nullid])] else: pas = [p1.ancestor(p2, warn=branchmerge)] fp1, fp2, xp1, xp2 = p1.node(), p2.node(), bytes(p1), bytes(p2) ### check phase if not overwrite: if len(pl) > 1: raise error.Abort(_("outstanding uncommitted merge")) ms = mergestate.read(repo) if list(ms.unresolved()): raise error.Abort(_("outstanding merge conflicts")) if branchmerge: if pas == [p2]: raise error.Abort(_("merging with a working directory ancestor" " has no effect")) elif pas == [p1]: if not mergeancestor and wc.branch() == p2.branch(): raise error.Abort(_("nothing to merge"), hint=_("use 'hg update' " "or check 'hg heads'")) if not force and (wc.files() or wc.deleted()): raise error.Abort(_("uncommitted changes"), hint=_("use 'hg status' to list changes")) if not wc.isinmemory(): for s in sorted(wc.substate): wc.sub(s).bailifchanged() elif not overwrite: if p1 == p2: # no-op update # call the hooks and exit early repo.hook('preupdate', throw=True, parent1=xp2, parent2='') repo.hook('update', parent1=xp2, parent2='', error=0) return 0, 0, 0, 0 if (updatecheck == 'linear' and pas not in ([p1], [p2])): # nonlinear dirty = wc.dirty(missing=True) if dirty: # Branching is a bit strange to ensure we do the minimal # amount of call to obsutil.foreground. foreground = obsutil.foreground(repo, [p1.node()]) # note: the <node> variable contains a random identifier if repo[node].node() in foreground: pass # allow updating to successors else: msg = _("uncommitted changes") hint = _("commit or update --clean to discard changes") raise error.UpdateAbort(msg, hint=hint) else: # Allow jumping branches if clean and specific rev given pass if overwrite: pas = [wc] elif not branchmerge: pas = [p1] # deprecated config: merge.followcopies followcopies = repo.ui.configbool('merge', 'followcopies') if overwrite: followcopies = False elif not pas[0]: followcopies = False if not branchmerge and not wc.dirty(missing=True): followcopies = False ### calculate phase actionbyfile, diverge, renamedelete = calculateupdates( repo, wc, p2, pas, branchmerge, force, mergeancestor, followcopies, matcher=matcher, mergeforce=mergeforce) if updatecheck == 'noconflict': for f, (m, args, msg) in actionbyfile.iteritems(): if m not in ('g', 'k', 'e', 'r', 'pr'): msg = _("conflicting changes") hint = _("commit or update --clean to discard changes") raise error.Abort(msg, hint=hint) # Prompt and create actions. Most of this is in the resolve phase # already, but we can't handle .hgsubstate in filemerge or # subrepoutil.submerge yet so we have to keep prompting for it. if '.hgsubstate' in actionbyfile: f = '.hgsubstate' m, args, msg = actionbyfile[f] prompts = filemerge.partextras(labels) prompts['f'] = f if m == 'cd': if repo.ui.promptchoice( _("local%(l)s changed %(f)s which other%(o)s deleted\n" "use (c)hanged version or (d)elete?" "$$ &Changed $$ &Delete") % prompts, 0): actionbyfile[f] = ('r', None, "prompt delete") elif f in p1: actionbyfile[f] = ('am', None, "prompt keep") else: actionbyfile[f] = ('a', None, "prompt keep") elif m == 'dc': f1, f2, fa, move, anc = args flags = p2[f2].flags() if repo.ui.promptchoice( _("other%(o)s changed %(f)s which local%(l)s deleted\n" "use (c)hanged version or leave (d)eleted?" "$$ &Changed $$ &Deleted") % prompts, 0) == 0: actionbyfile[f] = ('g', (flags, False), "prompt recreating") else: del actionbyfile[f] # Convert to dictionary-of-lists format actions = dict((m, []) for m in 'a am f g cd dc r dm dg m e k p pr'.split()) for f, (m, args, msg) in actionbyfile.iteritems(): if m not in actions: actions[m] = [] actions[m].append((f, args, msg)) if not util.fscasesensitive(repo.path): # check collision between files only in p2 for clean update if (not branchmerge and (force or not wc.dirty(missing=True, branch=False))): _checkcollision(repo, p2.manifest(), None) else: _checkcollision(repo, wc.manifest(), actions) # divergent renames for f, fl in sorted(diverge.iteritems()): repo.ui.warn(_("note: possible conflict - %s was renamed " "multiple times to:\n") % f) for nf in fl: repo.ui.warn(" %s\n" % nf) # rename and delete for f, fl in sorted(renamedelete.iteritems()): repo.ui.warn(_("note: possible conflict - %s was deleted " "and renamed to:\n") % f) for nf in fl: repo.ui.warn(" %s\n" % nf) ### apply phase if not branchmerge: # just jump to the new rev fp1, fp2, xp1, xp2 = fp2, nullid, xp2, '' if not partial and not wc.isinmemory(): repo.hook('preupdate', throw=True, parent1=xp1, parent2=xp2) # note that we're in the middle of an update repo.vfs.write('updatestate', p2.hex()) # Advertise fsmonitor when its presence could be useful. # # We only advertise when performing an update from an empty working # directory. This typically only occurs during initial clone. # # We give users a mechanism to disable the warning in case it is # annoying. # # We only allow on Linux and MacOS because that's where fsmonitor is # considered stable. fsmonitorwarning = repo.ui.configbool('fsmonitor', 'warn_when_unused') fsmonitorthreshold = repo.ui.configint('fsmonitor', 'warn_update_file_count') try: # avoid cycle: extensions -> cmdutil -> merge from . import extensions extensions.find('fsmonitor') fsmonitorenabled = repo.ui.config('fsmonitor', 'mode') != 'off' # We intentionally don't look at whether fsmonitor has disabled # itself because a) fsmonitor may have already printed a warning # b) we only care about the config state here. except KeyError: fsmonitorenabled = False if (fsmonitorwarning and not fsmonitorenabled and p1.node() == nullid and len(actions['g']) >= fsmonitorthreshold and pycompat.sysplatform.startswith(('linux', 'darwin'))): repo.ui.warn( _('(warning: large working directory being used without ' 'fsmonitor enabled; enable fsmonitor to improve performance; ' 'see "hg help -e fsmonitor")\n')) stats = applyupdates(repo, actions, wc, p2, overwrite, labels=labels) if not partial and not wc.isinmemory(): with repo.dirstate.parentchange(): repo.setparents(fp1, fp2) recordupdates(repo, actions, branchmerge) # update completed, clear state util.unlink(repo.vfs.join('updatestate')) if not branchmerge: repo.dirstate.setbranch(p2.branch()) # If we're updating to a location, clean up any stale temporary includes # (ex: this happens during hg rebase --abort). if not branchmerge: sparse.prunetemporaryincludes(repo) if not partial: repo.hook('update', parent1=xp1, parent2=xp2, error=stats[3]) return stats def graft(repo, ctx, pctx, labels, keepparent=False): """Do a graft-like merge. This is a merge where the merge ancestor is chosen such that one or more changesets are grafted onto the current changeset. In addition to the merge, this fixes up the dirstate to include only a single parent (if keepparent is False) and tries to duplicate any renames/copies appropriately. ctx - changeset to rebase pctx - merge base, usually ctx.p1() labels - merge labels eg ['local', 'graft'] keepparent - keep second parent if any """ # If we're grafting a descendant onto an ancestor, be sure to pass # mergeancestor=True to update. This does two things: 1) allows the merge if # the destination is the same as the parent of the ctx (so we can use graft # to copy commits), and 2) informs update that the incoming changes are # newer than the destination so it doesn't prompt about "remote changed foo # which local deleted". mergeancestor = repo.changelog.isancestor(repo['.'].node(), ctx.node()) stats = update(repo, ctx.node(), True, True, pctx.node(), mergeancestor=mergeancestor, labels=labels) pother = nullid parents = ctx.parents() if keepparent and len(parents) == 2 and pctx in parents: parents.remove(pctx) pother = parents[0].node() with repo.dirstate.parentchange(): repo.setparents(repo['.'].node(), pother) repo.dirstate.write(repo.currenttransaction()) # fix up dirstate for copies and renames copies.duplicatecopies(repo, repo[None], ctx.rev(), pctx.rev()) return stats