Mercurial > hg
view mercurial/dirstate.py @ 25193:ccb1623266eb stable
context: don't complain about a matcher's subrepo paths in changectx.walk()
Previously, the first added test printed the following:
$ hg files -S -r '.^' sub1/sub2/folder
sub1/sub2/folder: no such file in rev 9bb10eebee29
sub1/sub2/folder: no such file in rev 9bb10eebee29
sub1/sub2/folder/test.txt
One warning occured each time a subrepo was crossed into.
The second test ensures that the matcher copy stays in place. Without the copy,
the bad() function becomes an increasingly longer chain, and no message would be
printed out for a file missing in the subrepo because the predicate would match
in one of the replaced methods. Manifest doesn't know anything about subrepos,
so it needs help ignoring subrepos when complaining about bad files.
author | Matt Harbison <matt_harbison@yahoo.com> |
---|---|
date | Sun, 17 May 2015 01:06:10 -0400 |
parents | cb981009d697 |
children | 6eb4bdad198f |
line wrap: on
line source
# dirstate.py - working directory tracking for 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 node import nullid from i18n import _ import scmutil, util, ignore, osutil, parsers, encoding, pathutil import os, stat, errno propertycache = util.propertycache filecache = scmutil.filecache _rangemask = 0x7fffffff dirstatetuple = parsers.dirstatetuple class repocache(filecache): """filecache for files in .hg/""" def join(self, obj, fname): return obj._opener.join(fname) class rootcache(filecache): """filecache for files in the repository root""" def join(self, obj, fname): return obj._join(fname) class dirstate(object): def __init__(self, opener, ui, root, validate): '''Create a new dirstate object. opener is an open()-like callable that can be used to open the dirstate file; root is the root of the directory tracked by the dirstate. ''' self._opener = opener self._validate = validate self._root = root # ntpath.join(root, '') of Python 2.7.9 does not add sep if root is # UNC path pointing to root share (issue4557) self._rootdir = pathutil.normasprefix(root) self._dirty = False self._dirtypl = False self._lastnormaltime = 0 self._ui = ui self._filecache = {} self._parentwriters = 0 def beginparentchange(self): '''Marks the beginning of a set of changes that involve changing the dirstate parents. If there is an exception during this time, the dirstate will not be written when the wlock is released. This prevents writing an incoherent dirstate where the parent doesn't match the contents. ''' self._parentwriters += 1 def endparentchange(self): '''Marks the end of a set of changes that involve changing the dirstate parents. Once all parent changes have been marked done, the wlock will be free to write the dirstate on release. ''' if self._parentwriters > 0: self._parentwriters -= 1 def pendingparentchange(self): '''Returns true if the dirstate is in the middle of a set of changes that modify the dirstate parent. ''' return self._parentwriters > 0 @propertycache def _map(self): '''Return the dirstate contents as a map from filename to (state, mode, size, time).''' self._read() return self._map @propertycache def _copymap(self): self._read() return self._copymap @propertycache def _filefoldmap(self): try: makefilefoldmap = parsers.make_file_foldmap except AttributeError: pass else: return makefilefoldmap(self._map, util.normcasespec, util.normcasefallback) f = {} normcase = util.normcase for name, s in self._map.iteritems(): if s[0] != 'r': f[normcase(name)] = name f['.'] = '.' # prevents useless util.fspath() invocation return f @propertycache def _dirfoldmap(self): f = {} normcase = util.normcase for name in self._dirs: f[normcase(name)] = name return f @repocache('branch') def _branch(self): try: return self._opener.read("branch").strip() or "default" except IOError, inst: if inst.errno != errno.ENOENT: raise return "default" @propertycache def _pl(self): try: fp = self._opener("dirstate") st = fp.read(40) fp.close() l = len(st) if l == 40: return st[:20], st[20:40] elif l > 0 and l < 40: raise util.Abort(_('working directory state appears damaged!')) except IOError, err: if err.errno != errno.ENOENT: raise return [nullid, nullid] @propertycache def _dirs(self): return util.dirs(self._map, 'r') def dirs(self): return self._dirs @rootcache('.hgignore') def _ignore(self): files = [self._join('.hgignore')] for name, path in self._ui.configitems("ui"): if name == 'ignore' or name.startswith('ignore.'): # we need to use os.path.join here rather than self._join # because path is arbitrary and user-specified files.append(os.path.join(self._rootdir, util.expandpath(path))) return ignore.ignore(self._root, files, self._ui.warn) @propertycache def _slash(self): return self._ui.configbool('ui', 'slash') and os.sep != '/' @propertycache def _checklink(self): return util.checklink(self._root) @propertycache def _checkexec(self): return util.checkexec(self._root) @propertycache def _checkcase(self): return not util.checkcase(self._join('.hg')) def _join(self, f): # much faster than os.path.join() # it's safe because f is always a relative path return self._rootdir + f def flagfunc(self, buildfallback): if self._checklink and self._checkexec: def f(x): try: st = os.lstat(self._join(x)) if util.statislink(st): return 'l' if util.statisexec(st): return 'x' except OSError: pass return '' return f fallback = buildfallback() if self._checklink: def f(x): if os.path.islink(self._join(x)): return 'l' if 'x' in fallback(x): return 'x' return '' return f if self._checkexec: def f(x): if 'l' in fallback(x): return 'l' if util.isexec(self._join(x)): return 'x' return '' return f else: return fallback @propertycache def _cwd(self): return os.getcwd() def getcwd(self): cwd = self._cwd if cwd == self._root: return '' # self._root ends with a path separator if self._root is '/' or 'C:\' rootsep = self._root if not util.endswithsep(rootsep): rootsep += os.sep if cwd.startswith(rootsep): return cwd[len(rootsep):] else: # we're outside the repo. return an absolute path. return cwd def pathto(self, f, cwd=None): if cwd is None: cwd = self.getcwd() path = util.pathto(self._root, cwd, f) if self._slash: return util.pconvert(path) return path def __getitem__(self, key): '''Return the current state of key (a filename) in the dirstate. States are: n normal m needs merging r marked for removal a marked for addition ? not tracked ''' return self._map.get(key, ("?",))[0] def __contains__(self, key): return key in self._map def __iter__(self): for x in sorted(self._map): yield x def iteritems(self): return self._map.iteritems() def parents(self): return [self._validate(p) for p in self._pl] def p1(self): return self._validate(self._pl[0]) def p2(self): return self._validate(self._pl[1]) def branch(self): return encoding.tolocal(self._branch) def setparents(self, p1, p2=nullid): """Set dirstate parents to p1 and p2. When moving from two parents to one, 'm' merged entries a adjusted to normal and previous copy records discarded and returned by the call. See localrepo.setparents() """ if self._parentwriters == 0: raise ValueError("cannot set dirstate parent without " "calling dirstate.beginparentchange") self._dirty = self._dirtypl = True oldp2 = self._pl[1] self._pl = p1, p2 copies = {} if oldp2 != nullid and p2 == nullid: for f, s in self._map.iteritems(): # Discard 'm' markers when moving away from a merge state if s[0] == 'm': if f in self._copymap: copies[f] = self._copymap[f] self.normallookup(f) # Also fix up otherparent markers elif s[0] == 'n' and s[2] == -2: if f in self._copymap: copies[f] = self._copymap[f] self.add(f) return copies def setbranch(self, branch): self._branch = encoding.fromlocal(branch) f = self._opener('branch', 'w', atomictemp=True) try: f.write(self._branch + '\n') f.close() # make sure filecache has the correct stat info for _branch after # replacing the underlying file ce = self._filecache['_branch'] if ce: ce.refresh() except: # re-raises f.discard() raise def _read(self): self._map = {} self._copymap = {} try: st = self._opener.read("dirstate") except IOError, err: if err.errno != errno.ENOENT: raise return if not st: return # Python's garbage collector triggers a GC each time a certain number # of container objects (the number being defined by # gc.get_threshold()) are allocated. parse_dirstate creates a tuple # for each file in the dirstate. The C version then immediately marks # them as not to be tracked by the collector. However, this has no # effect on when GCs are triggered, only on what objects the GC looks # into. This means that O(number of files) GCs are unavoidable. # Depending on when in the process's lifetime the dirstate is parsed, # this can get very expensive. As a workaround, disable GC while # parsing the dirstate. # # (we cannot decorate the function directly since it is in a C module) parse_dirstate = util.nogc(parsers.parse_dirstate) p = parse_dirstate(self._map, self._copymap, st) if not self._dirtypl: self._pl = p def invalidate(self): for a in ("_map", "_copymap", "_filefoldmap", "_dirfoldmap", "_branch", "_pl", "_dirs", "_ignore"): if a in self.__dict__: delattr(self, a) self._lastnormaltime = 0 self._dirty = False self._parentwriters = 0 def copy(self, source, dest): """Mark dest as a copy of source. Unmark dest if source is None.""" if source == dest: return self._dirty = True if source is not None: self._copymap[dest] = source elif dest in self._copymap: del self._copymap[dest] def copied(self, file): return self._copymap.get(file, None) def copies(self): return self._copymap def _droppath(self, f): if self[f] not in "?r" and "_dirs" in self.__dict__: self._dirs.delpath(f) def _addpath(self, f, state, mode, size, mtime): oldstate = self[f] if state == 'a' or oldstate == 'r': scmutil.checkfilename(f) if f in self._dirs: raise util.Abort(_('directory %r already in dirstate') % f) # shadows for d in util.finddirs(f): if d in self._dirs: break if d in self._map and self[d] != 'r': raise util.Abort( _('file %r in dirstate clashes with %r') % (d, f)) if oldstate in "?r" and "_dirs" in self.__dict__: self._dirs.addpath(f) self._dirty = True self._map[f] = dirstatetuple(state, mode, size, mtime) def normal(self, f): '''Mark a file normal and clean.''' s = os.lstat(self._join(f)) mtime = int(s.st_mtime) self._addpath(f, 'n', s.st_mode, s.st_size & _rangemask, mtime & _rangemask) if f in self._copymap: del self._copymap[f] if mtime > self._lastnormaltime: # Remember the most recent modification timeslot for status(), # to make sure we won't miss future size-preserving file content # modifications that happen within the same timeslot. self._lastnormaltime = mtime def normallookup(self, f): '''Mark a file normal, but possibly dirty.''' if self._pl[1] != nullid and f in self._map: # if there is a merge going on and the file was either # in state 'm' (-1) or coming from other parent (-2) before # being removed, restore that state. entry = self._map[f] if entry[0] == 'r' and entry[2] in (-1, -2): source = self._copymap.get(f) if entry[2] == -1: self.merge(f) elif entry[2] == -2: self.otherparent(f) if source: self.copy(source, f) return if entry[0] == 'm' or entry[0] == 'n' and entry[2] == -2: return self._addpath(f, 'n', 0, -1, -1) if f in self._copymap: del self._copymap[f] def otherparent(self, f): '''Mark as coming from the other parent, always dirty.''' if self._pl[1] == nullid: raise util.Abort(_("setting %r to other parent " "only allowed in merges") % f) if f in self and self[f] == 'n': # merge-like self._addpath(f, 'm', 0, -2, -1) else: # add-like self._addpath(f, 'n', 0, -2, -1) if f in self._copymap: del self._copymap[f] def add(self, f): '''Mark a file added.''' self._addpath(f, 'a', 0, -1, -1) if f in self._copymap: del self._copymap[f] def remove(self, f): '''Mark a file removed.''' self._dirty = True self._droppath(f) size = 0 if self._pl[1] != nullid and f in self._map: # backup the previous state entry = self._map[f] if entry[0] == 'm': # merge size = -1 elif entry[0] == 'n' and entry[2] == -2: # other parent size = -2 self._map[f] = dirstatetuple('r', 0, size, 0) if size == 0 and f in self._copymap: del self._copymap[f] def merge(self, f): '''Mark a file merged.''' if self._pl[1] == nullid: return self.normallookup(f) return self.otherparent(f) def drop(self, f): '''Drop a file from the dirstate''' if f in self._map: self._dirty = True self._droppath(f) del self._map[f] def _discoverpath(self, path, normed, ignoremissing, exists, storemap): if exists is None: exists = os.path.lexists(os.path.join(self._root, path)) if not exists: # Maybe a path component exists if not ignoremissing and '/' in path: d, f = path.rsplit('/', 1) d = self._normalize(d, False, ignoremissing, None) folded = d + "/" + f else: # No path components, preserve original case folded = path else: # recursively normalize leading directory components # against dirstate if '/' in normed: d, f = normed.rsplit('/', 1) d = self._normalize(d, False, ignoremissing, True) r = self._root + "/" + d folded = d + "/" + util.fspath(f, r) else: folded = util.fspath(normed, self._root) storemap[normed] = folded return folded def _normalizefile(self, path, isknown, ignoremissing=False, exists=None): normed = util.normcase(path) folded = self._filefoldmap.get(normed, None) if folded is None: if isknown: folded = path else: folded = self._discoverpath(path, normed, ignoremissing, exists, self._filefoldmap) return folded def _normalize(self, path, isknown, ignoremissing=False, exists=None): normed = util.normcase(path) folded = self._filefoldmap.get(normed, None) if folded is None: folded = self._dirfoldmap.get(normed, None) if folded is None: if isknown: folded = path else: # store discovered result in dirfoldmap so that future # normalizefile calls don't start matching directories folded = self._discoverpath(path, normed, ignoremissing, exists, self._dirfoldmap) return folded def normalize(self, path, isknown=False, ignoremissing=False): ''' normalize the case of a pathname when on a casefolding filesystem isknown specifies whether the filename came from walking the disk, to avoid extra filesystem access. If ignoremissing is True, missing path are returned unchanged. Otherwise, we try harder to normalize possibly existing path components. The normalized case is determined based on the following precedence: - version of name already stored in the dirstate - version of name stored on disk - version provided via command arguments ''' if self._checkcase: return self._normalize(path, isknown, ignoremissing) return path def clear(self): self._map = {} if "_dirs" in self.__dict__: delattr(self, "_dirs") self._copymap = {} self._pl = [nullid, nullid] self._lastnormaltime = 0 self._dirty = True def rebuild(self, parent, allfiles, changedfiles=None): changedfiles = changedfiles or allfiles oldmap = self._map self.clear() for f in allfiles: if f not in changedfiles: self._map[f] = oldmap[f] else: if 'x' in allfiles.flags(f): self._map[f] = dirstatetuple('n', 0777, -1, 0) else: self._map[f] = dirstatetuple('n', 0666, -1, 0) self._pl = (parent, nullid) self._dirty = True def write(self): if not self._dirty: return # enough 'delaywrite' prevents 'pack_dirstate' from dropping # timestamp of each entries in dirstate, because of 'now > mtime' delaywrite = self._ui.configint('debug', 'dirstate.delaywrite', 0) if delaywrite > 0: import time # to avoid useless import time.sleep(delaywrite) st = self._opener("dirstate", "w", atomictemp=True) # use the modification time of the newly created temporary file as the # filesystem's notion of 'now' now = util.fstat(st).st_mtime st.write(parsers.pack_dirstate(self._map, self._copymap, self._pl, now)) st.close() self._lastnormaltime = 0 self._dirty = self._dirtypl = False def _dirignore(self, f): if f == '.': return False if self._ignore(f): return True for p in util.finddirs(f): if self._ignore(p): return True return False def _walkexplicit(self, match, subrepos): '''Get stat data about the files explicitly specified by match. Return a triple (results, dirsfound, dirsnotfound). - results is a mapping from filename to stat result. It also contains listings mapping subrepos and .hg to None. - dirsfound is a list of files found to be directories. - dirsnotfound is a list of files that the dirstate thinks are directories and that were not found.''' def badtype(mode): kind = _('unknown') if stat.S_ISCHR(mode): kind = _('character device') elif stat.S_ISBLK(mode): kind = _('block device') elif stat.S_ISFIFO(mode): kind = _('fifo') elif stat.S_ISSOCK(mode): kind = _('socket') elif stat.S_ISDIR(mode): kind = _('directory') return _('unsupported file type (type is %s)') % kind matchedir = match.explicitdir badfn = match.bad dmap = self._map lstat = os.lstat getkind = stat.S_IFMT dirkind = stat.S_IFDIR regkind = stat.S_IFREG lnkkind = stat.S_IFLNK join = self._join dirsfound = [] foundadd = dirsfound.append dirsnotfound = [] notfoundadd = dirsnotfound.append if not match.isexact() and self._checkcase: normalize = self._normalize else: normalize = None files = sorted(match.files()) subrepos.sort() i, j = 0, 0 while i < len(files) and j < len(subrepos): subpath = subrepos[j] + "/" if files[i] < subpath: i += 1 continue while i < len(files) and files[i].startswith(subpath): del files[i] j += 1 if not files or '.' in files: files = ['.'] results = dict.fromkeys(subrepos) results['.hg'] = None alldirs = None for ff in files: # constructing the foldmap is expensive, so don't do it for the # common case where files is ['.'] if normalize and ff != '.': nf = normalize(ff, False, True) else: nf = ff if nf in results: continue try: st = lstat(join(nf)) kind = getkind(st.st_mode) if kind == dirkind: if nf in dmap: # file replaced by dir on disk but still in dirstate results[nf] = None if matchedir: matchedir(nf) foundadd((nf, ff)) elif kind == regkind or kind == lnkkind: results[nf] = st else: badfn(ff, badtype(kind)) if nf in dmap: results[nf] = None except OSError, inst: # nf not found on disk - it is dirstate only if nf in dmap: # does it exactly match a missing file? results[nf] = None else: # does it match a missing directory? if alldirs is None: alldirs = util.dirs(dmap) if nf in alldirs: if matchedir: matchedir(nf) notfoundadd(nf) else: badfn(ff, inst.strerror) return results, dirsfound, dirsnotfound def walk(self, match, subrepos, unknown, ignored, full=True): ''' Walk recursively through the directory tree, finding all files matched by match. If full is False, maybe skip some known-clean files. Return a dict mapping filename to stat-like object (either mercurial.osutil.stat instance or return value of os.stat()). ''' # full is a flag that extensions that hook into walk can use -- this # implementation doesn't use it at all. This satisfies the contract # because we only guarantee a "maybe". if ignored: ignore = util.never dirignore = util.never elif unknown: ignore = self._ignore dirignore = self._dirignore else: # if not unknown and not ignored, drop dir recursion and step 2 ignore = util.always dirignore = util.always matchfn = match.matchfn matchalways = match.always() matchtdir = match.traversedir dmap = self._map listdir = osutil.listdir lstat = os.lstat dirkind = stat.S_IFDIR regkind = stat.S_IFREG lnkkind = stat.S_IFLNK join = self._join exact = skipstep3 = False if match.isexact(): # match.exact exact = True dirignore = util.always # skip step 2 elif match.files() and not match.anypats(): # match.match, no patterns skipstep3 = True if not exact and self._checkcase: normalize = self._normalize normalizefile = self._normalizefile skipstep3 = False else: normalize = self._normalize normalizefile = None # step 1: find all explicit files results, work, dirsnotfound = self._walkexplicit(match, subrepos) skipstep3 = skipstep3 and not (work or dirsnotfound) work = [d for d in work if not dirignore(d[0])] # step 2: visit subdirectories def traverse(work, alreadynormed): wadd = work.append while work: nd = work.pop() skip = None if nd == '.': nd = '' else: skip = '.hg' try: entries = listdir(join(nd), stat=True, skip=skip) except OSError, inst: if inst.errno in (errno.EACCES, errno.ENOENT): match.bad(self.pathto(nd), inst.strerror) continue raise for f, kind, st in entries: if normalizefile: # even though f might be a directory, we're only # interested in comparing it to files currently in the # dmap -- therefore normalizefile is enough nf = normalizefile(nd and (nd + "/" + f) or f, True, True) else: nf = nd and (nd + "/" + f) or f if nf not in results: if kind == dirkind: if not ignore(nf): if matchtdir: matchtdir(nf) wadd(nf) if nf in dmap and (matchalways or matchfn(nf)): results[nf] = None elif kind == regkind or kind == lnkkind: if nf in dmap: if matchalways or matchfn(nf): results[nf] = st elif ((matchalways or matchfn(nf)) and not ignore(nf)): # unknown file -- normalize if necessary if not alreadynormed: nf = normalize(nf, False, True) results[nf] = st elif nf in dmap and (matchalways or matchfn(nf)): results[nf] = None for nd, d in work: # alreadynormed means that processwork doesn't have to do any # expensive directory normalization alreadynormed = not normalize or nd == d traverse([d], alreadynormed) for s in subrepos: del results[s] del results['.hg'] # step 3: visit remaining files from dmap if not skipstep3 and not exact: # If a dmap file is not in results yet, it was either # a) not matching matchfn b) ignored, c) missing, or d) under a # symlink directory. if not results and matchalways: visit = dmap.keys() else: visit = [f for f in dmap if f not in results and matchfn(f)] visit.sort() if unknown: # unknown == True means we walked all dirs under the roots # that wasn't ignored, and everything that matched was stat'ed # and is already in results. # The rest must thus be ignored or under a symlink. audit_path = pathutil.pathauditor(self._root) for nf in iter(visit): # If a stat for the same file was already added with a # different case, don't add one for this, since that would # make it appear as if the file exists under both names # on disk. if (normalizefile and normalizefile(nf, True, True) in results): results[nf] = None # Report ignored items in the dmap as long as they are not # under a symlink directory. elif audit_path.check(nf): try: results[nf] = lstat(join(nf)) # file was just ignored, no links, and exists except OSError: # file doesn't exist results[nf] = None else: # It's either missing or under a symlink directory # which we in this case report as missing results[nf] = None else: # We may not have walked the full directory tree above, # so stat and check everything we missed. nf = iter(visit).next for st in util.statfiles([join(i) for i in visit]): results[nf()] = st return results def status(self, match, subrepos, ignored, clean, unknown): '''Determine the status of the working copy relative to the dirstate and return a pair of (unsure, status), where status is of type scmutil.status and: unsure: files that might have been modified since the dirstate was written, but need to be read to be sure (size is the same but mtime differs) status.modified: files that have definitely been modified since the dirstate was written (different size or mode) status.clean: files that have definitely not been modified since the dirstate was written ''' listignored, listclean, listunknown = ignored, clean, unknown lookup, modified, added, unknown, ignored = [], [], [], [], [] removed, deleted, clean = [], [], [] dmap = self._map ladd = lookup.append # aka "unsure" madd = modified.append aadd = added.append uadd = unknown.append iadd = ignored.append radd = removed.append dadd = deleted.append cadd = clean.append mexact = match.exact dirignore = self._dirignore checkexec = self._checkexec copymap = self._copymap lastnormaltime = self._lastnormaltime # We need to do full walks when either # - we're listing all clean files, or # - match.traversedir does something, because match.traversedir should # be called for every dir in the working dir full = listclean or match.traversedir is not None for fn, st in self.walk(match, subrepos, listunknown, listignored, full=full).iteritems(): if fn not in dmap: if (listignored or mexact(fn)) and dirignore(fn): if listignored: iadd(fn) else: uadd(fn) continue # This is equivalent to 'state, mode, size, time = dmap[fn]' but not # written like that for performance reasons. dmap[fn] is not a # Python tuple in compiled builds. The CPython UNPACK_SEQUENCE # opcode has fast paths when the value to be unpacked is a tuple or # a list, but falls back to creating a full-fledged iterator in # general. That is much slower than simply accessing and storing the # tuple members one by one. t = dmap[fn] state = t[0] mode = t[1] size = t[2] time = t[3] if not st and state in "nma": dadd(fn) elif state == 'n': mtime = int(st.st_mtime) if (size >= 0 and ((size != st.st_size and size != st.st_size & _rangemask) or ((mode ^ st.st_mode) & 0100 and checkexec)) or size == -2 # other parent or fn in copymap): madd(fn) elif time != mtime and time != mtime & _rangemask: ladd(fn) elif mtime == lastnormaltime: # fn may have just been marked as normal and it may have # changed in the same second without changing its size. # This can happen if we quickly do multiple commits. # Force lookup, so we don't miss such a racy file change. ladd(fn) elif listclean: cadd(fn) elif state == 'm': madd(fn) elif state == 'a': aadd(fn) elif state == 'r': radd(fn) return (lookup, scmutil.status(modified, added, removed, deleted, unknown, ignored, clean)) def matches(self, match): ''' return files in the dirstate (in whatever state) filtered by match ''' dmap = self._map if match.always(): return dmap.keys() files = match.files() if match.isexact(): # fast path -- filter the other way around, since typically files is # much smaller than dmap return [f for f in files if f in dmap] if not match.anypats() and util.all(fn in dmap for fn in files): # fast path -- all the values are known to be files, so just return # that return list(files) return [f for f in dmap if match(f)]