# Mercurial built-in replacement for cvsps. # # Copyright 2008, Frank Kingswood # # 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 functools import os import re from mercurial.i18n import _ from mercurial.pycompat import open from mercurial import ( encoding, error, hook, pycompat, util, ) from mercurial.utils import ( dateutil, procutil, stringutil, ) pickle = util.pickle class logentry(object): """Class logentry has the following attributes: .author - author name as CVS knows it .branch - name of branch this revision is on .branches - revision tuple of branches starting at this revision .comment - commit message .commitid - CVS commitid or None .date - the commit date as a (time, tz) tuple .dead - true if file revision is dead .file - Name of file .lines - a tuple (+lines, -lines) or None .parent - Previous revision of this entry .rcs - name of file as returned from CVS .revision - revision number as tuple .tags - list of tags on the file .synthetic - is this a synthetic "file ... added on ..." revision? .mergepoint - the branch that has been merged from (if present in rlog output) or None .branchpoints - the branches that start at the current entry or empty """ def __init__(self, **entries): self.synthetic = False self.__dict__.update(entries) def __repr__(self): items = ("%s=%r" % (k, self.__dict__[k]) for k in sorted(self.__dict__)) return "%s(%s)" % (type(self).__name__, ", ".join(items)) class logerror(Exception): pass def getrepopath(cvspath): """Return the repository path from a CVS path. >>> getrepopath(b'/foo/bar') '/foo/bar' >>> getrepopath(b'c:/foo/bar') '/foo/bar' >>> getrepopath(b':pserver:10/foo/bar') '/foo/bar' >>> getrepopath(b':pserver:10c:/foo/bar') '/foo/bar' >>> getrepopath(b':pserver:/foo/bar') '/foo/bar' >>> getrepopath(b':pserver:c:/foo/bar') '/foo/bar' >>> getrepopath(b':pserver:truc@foo.bar:/foo/bar') '/foo/bar' >>> getrepopath(b':pserver:truc@foo.bar:c:/foo/bar') '/foo/bar' >>> getrepopath(b'user@server/path/to/repository') '/path/to/repository' """ # According to CVS manual, CVS paths are expressed like: # [:method:][[user][:password]@]hostname[:[port]]/path/to/repository # # CVSpath is splitted into parts and then position of the first occurrence # of the '/' char after the '@' is located. The solution is the rest of the # string after that '/' sign including it parts = cvspath.split(b':') atposition = parts[-1].find(b'@') start = 0 if atposition != -1: start = atposition repopath = parts[-1][parts[-1].find(b'/', start) :] return repopath def createlog(ui, directory=None, root=b"", rlog=True, cache=None): '''Collect the CVS rlog''' # Because we store many duplicate commit log messages, reusing strings # saves a lot of memory and pickle storage space. _scache = {} def scache(s): """return a shared version of a string""" return _scache.setdefault(s, s) ui.status(_(b'collecting CVS rlog\n')) log = [] # list of logentry objects containing the CVS state # patterns to match in CVS (r)log output, by state of use re_00 = re.compile(b'RCS file: (.+)$') re_01 = re.compile(b'cvs \\[r?log aborted\\]: (.+)$') re_02 = re.compile(b'cvs (r?log|server): (.+)\n$') re_03 = re.compile( b"(Cannot access.+CVSROOT)|(can't create temporary directory.+)$" ) re_10 = re.compile(b'Working file: (.+)$') re_20 = re.compile(b'symbolic names:') re_30 = re.compile(b'\t(.+): ([\\d.]+)$') re_31 = re.compile(b'----------------------------$') re_32 = re.compile( b'=======================================' b'======================================$' ) re_50 = re.compile(br'revision ([\d.]+)(\s+locked by:\s+.+;)?$') re_60 = re.compile( br'date:\s+(.+);\s+author:\s+(.+);\s+state:\s+(.+?);' br'(\s+lines:\s+(\+\d+)?\s+(-\d+)?;)?' br'(\s+commitid:\s+([^;]+);)?' br'(.*mergepoint:\s+([^;]+);)?' ) re_70 = re.compile(b'branches: (.+);$') file_added_re = re.compile(br'file [^/]+ was (initially )?added on branch') prefix = b'' # leading path to strip of what we get from CVS if directory is None: # Current working directory # Get the real directory in the repository try: with open(os.path.join(b'CVS', b'Repository'), b'rb') as f: prefix = f.read().strip() directory = prefix if prefix == b".": prefix = b"" except IOError: raise logerror(_(b'not a CVS sandbox')) if prefix and not prefix.endswith(pycompat.ossep): prefix += pycompat.ossep # Use the Root file in the sandbox, if it exists try: root = open(os.path.join(b'CVS', b'Root'), b'rb').read().strip() except IOError: pass if not root: root = encoding.environ.get(b'CVSROOT', b'') # read log cache if one exists oldlog = [] date = None if cache: cachedir = os.path.expanduser(b'~/.hg.cvsps') if not os.path.exists(cachedir): os.mkdir(cachedir) # The cvsps cache pickle needs a uniquified name, based on the # repository location. The address may have all sort of nasties # in it, slashes, colons and such. So here we take just the # alphanumeric characters, concatenated in a way that does not # mix up the various components, so that # :pserver:user@server:/path # and # /pserver/user/server/path # are mapped to different cache file names. cachefile = root.split(b":") + [directory, b"cache"] cachefile = [b'-'.join(re.findall(br'\w+', s)) for s in cachefile if s] cachefile = os.path.join( cachedir, b'.'.join([s for s in cachefile if s]) ) if cache == b'update': try: ui.note(_(b'reading cvs log cache %s\n') % cachefile) oldlog = pickle.load(open(cachefile, b'rb')) for e in oldlog: if not ( util.safehasattr(e, b'branchpoints') and util.safehasattr(e, b'commitid') and util.safehasattr(e, b'mergepoint') ): ui.status(_(b'ignoring old cache\n')) oldlog = [] break ui.note(_(b'cache has %d log entries\n') % len(oldlog)) except Exception as e: ui.note(_(b'error reading cache: %r\n') % e) if oldlog: date = oldlog[-1].date # last commit date as a (time,tz) tuple date = dateutil.datestr(date, b'%Y/%m/%d %H:%M:%S %1%2') # build the CVS commandline cmd = [b'cvs', b'-q'] if root: cmd.append(b'-d%s' % root) p = util.normpath(getrepopath(root)) if not p.endswith(b'/'): p += b'/' if prefix: # looks like normpath replaces "" by "." prefix = p + util.normpath(prefix) else: prefix = p cmd.append([b'log', b'rlog'][rlog]) if date: # no space between option and date string cmd.append(b'-d>%s' % date) cmd.append(directory) # state machine begins here tags = {} # dictionary of revisions on current file with their tags branchmap = {} # mapping between branch names and revision numbers rcsmap = {} state = 0 store = False # set when a new record can be appended cmd = [procutil.shellquote(arg) for arg in cmd] ui.note(_(b"running %s\n") % (b' '.join(cmd))) ui.debug(b"prefix=%r directory=%r root=%r\n" % (prefix, directory, root)) pfp = procutil.popen(b' '.join(cmd), b'rb') peek = util.fromnativeeol(pfp.readline()) while True: line = peek if line == b'': break peek = util.fromnativeeol(pfp.readline()) if line.endswith(b'\n'): line = line[:-1] # ui.debug('state=%d line=%r\n' % (state, line)) if state == 0: # initial state, consume input until we see 'RCS file' match = re_00.match(line) if match: rcs = match.group(1) tags = {} if rlog: filename = util.normpath(rcs[:-2]) if filename.startswith(prefix): filename = filename[len(prefix) :] if filename.startswith(b'/'): filename = filename[1:] if filename.startswith(b'Attic/'): filename = filename[6:] else: filename = filename.replace(b'/Attic/', b'/') state = 2 continue state = 1 continue match = re_01.match(line) if match: raise logerror(match.group(1)) match = re_02.match(line) if match: raise logerror(match.group(2)) if re_03.match(line): raise logerror(line) elif state == 1: # expect 'Working file' (only when using log instead of rlog) match = re_10.match(line) assert match, _(b'RCS file must be followed by working file') filename = util.normpath(match.group(1)) state = 2 elif state == 2: # expect 'symbolic names' if re_20.match(line): branchmap = {} state = 3 elif state == 3: # read the symbolic names and store as tags match = re_30.match(line) if match: rev = [int(x) for x in match.group(2).split(b'.')] # Convert magic branch number to an odd-numbered one revn = len(rev) if revn > 3 and (revn % 2) == 0 and rev[-2] == 0: rev = rev[:-2] + rev[-1:] rev = tuple(rev) if rev not in tags: tags[rev] = [] tags[rev].append(match.group(1)) branchmap[match.group(1)] = match.group(2) elif re_31.match(line): state = 5 elif re_32.match(line): state = 0 elif state == 4: # expecting '------' separator before first revision if re_31.match(line): state = 5 else: assert not re_32.match(line), _( b'must have at least some revisions' ) elif state == 5: # expecting revision number and possibly (ignored) lock indication # we create the logentry here from values stored in states 0 to 4, # as this state is re-entered for subsequent revisions of a file. match = re_50.match(line) assert match, _(b'expected revision number') e = logentry( rcs=scache(rcs), file=scache(filename), revision=tuple([int(x) for x in match.group(1).split(b'.')]), branches=[], parent=None, commitid=None, mergepoint=None, branchpoints=set(), ) state = 6 elif state == 6: # expecting date, author, state, lines changed match = re_60.match(line) assert match, _(b'revision must be followed by date line') d = match.group(1) if d[2] == b'/': # Y2K d = b'19' + d if len(d.split()) != 3: # cvs log dates always in GMT d = d + b' UTC' e.date = dateutil.parsedate( d, [ b'%y/%m/%d %H:%M:%S', b'%Y/%m/%d %H:%M:%S', b'%Y-%m-%d %H:%M:%S', ], ) e.author = scache(match.group(2)) e.dead = match.group(3).lower() == b'dead' if match.group(5): if match.group(6): e.lines = (int(match.group(5)), int(match.group(6))) else: e.lines = (int(match.group(5)), 0) elif match.group(6): e.lines = (0, int(match.group(6))) else: e.lines = None if match.group(7): # cvs 1.12 commitid e.commitid = match.group(8) if match.group(9): # cvsnt mergepoint myrev = match.group(10).split(b'.') if len(myrev) == 2: # head e.mergepoint = b'HEAD' else: myrev = b'.'.join(myrev[:-2] + [b'0', myrev[-2]]) branches = [b for b in branchmap if branchmap[b] == myrev] assert len(branches) == 1, ( b'unknown branch: %s' % e.mergepoint ) e.mergepoint = branches[0] e.comment = [] state = 7 elif state == 7: # read the revision numbers of branches that start at this revision # or store the commit log message otherwise m = re_70.match(line) if m: e.branches = [ tuple([int(y) for y in x.strip().split(b'.')]) for x in m.group(1).split(b';') ] state = 8 elif re_31.match(line) and re_50.match(peek): state = 5 store = True elif re_32.match(line): state = 0 store = True else: e.comment.append(line) elif state == 8: # store commit log message if re_31.match(line): cpeek = peek if cpeek.endswith(b'\n'): cpeek = cpeek[:-1] if re_50.match(cpeek): state = 5 store = True else: e.comment.append(line) elif re_32.match(line): state = 0 store = True else: e.comment.append(line) # When a file is added on a branch B1, CVS creates a synthetic # dead trunk revision 1.1 so that the branch has a root. # Likewise, if you merge such a file to a later branch B2 (one # that already existed when the file was added on B1), CVS # creates a synthetic dead revision 1.1.x.1 on B2. Don't drop # these revisions now, but mark them synthetic so # createchangeset() can take care of them. if ( store and e.dead and e.revision[-1] == 1 and len(e.comment) == 1 # 1.1 or 1.1.x.1 and file_added_re.match(e.comment[0]) ): ui.debug( b'found synthetic revision in %s: %r\n' % (e.rcs, e.comment[0]) ) e.synthetic = True if store: # clean up the results and save in the log. store = False e.tags = sorted([scache(x) for x in tags.get(e.revision, [])]) e.comment = scache(b'\n'.join(e.comment)) revn = len(e.revision) if revn > 3 and (revn % 2) == 0: e.branch = tags.get(e.revision[:-1], [None])[0] else: e.branch = None # find the branches starting from this revision branchpoints = set() for branch, revision in pycompat.iteritems(branchmap): revparts = tuple([int(i) for i in revision.split(b'.')]) if len(revparts) < 2: # bad tags continue if revparts[-2] == 0 and revparts[-1] % 2 == 0: # normal branch if revparts[:-2] == e.revision: branchpoints.add(branch) elif revparts == (1, 1, 1): # vendor branch if revparts in e.branches: branchpoints.add(branch) e.branchpoints = branchpoints log.append(e) rcsmap[e.rcs.replace(b'/Attic/', b'/')] = e.rcs if len(log) % 100 == 0: ui.status( stringutil.ellipsis(b'%d %s' % (len(log), e.file), 80) + b'\n' ) log.sort(key=lambda x: (x.rcs, x.revision)) # find parent revisions of individual files versions = {} for e in sorted(oldlog, key=lambda x: (x.rcs, x.revision)): rcs = e.rcs.replace(b'/Attic/', b'/') if rcs in rcsmap: e.rcs = rcsmap[rcs] branch = e.revision[:-1] versions[(e.rcs, branch)] = e.revision for e in log: branch = e.revision[:-1] p = versions.get((e.rcs, branch), None) if p is None: p = e.revision[:-2] e.parent = p versions[(e.rcs, branch)] = e.revision # update the log cache if cache: if log: # join up the old and new logs log.sort(key=lambda x: x.date) if oldlog and oldlog[-1].date >= log[0].date: raise logerror( _( b'log cache overlaps with new log entries,' b' re-run without cache.' ) ) log = oldlog + log # write the new cachefile ui.note(_(b'writing cvs log cache %s\n') % cachefile) pickle.dump(log, open(cachefile, b'wb')) else: log = oldlog ui.status(_(b'%d log entries\n') % len(log)) encodings = ui.configlist(b'convert', b'cvsps.logencoding') if encodings: def revstr(r): # this is needed, because logentry.revision is a tuple of "int" # (e.g. (1, 2) for "1.2") return b'.'.join(pycompat.maplist(pycompat.bytestr, r)) for entry in log: comment = entry.comment for e in encodings: try: entry.comment = comment.decode(pycompat.sysstr(e)).encode( 'utf-8' ) if ui.debugflag: ui.debug( b"transcoding by %s: %s of %s\n" % (e, revstr(entry.revision), entry.file) ) break except UnicodeDecodeError: pass # try next encoding except LookupError as inst: # unknown encoding, maybe raise error.Abort( pycompat.bytestr(inst), hint=_( b'check convert.cvsps.logencoding configuration' ), ) else: raise error.Abort( _( b"no encoding can transcode" b" CVS log message for %s of %s" ) % (revstr(entry.revision), entry.file), hint=_(b'check convert.cvsps.logencoding configuration'), ) hook.hook(ui, None, b"cvslog", True, log=log) return log class changeset(object): """Class changeset has the following attributes: .id - integer identifying this changeset (list index) .author - author name as CVS knows it .branch - name of branch this changeset is on, or None .comment - commit message .commitid - CVS commitid or None .date - the commit date as a (time,tz) tuple .entries - list of logentry objects in this changeset .parents - list of one or two parent changesets .tags - list of tags on this changeset .synthetic - from synthetic revision "file ... added on branch ..." .mergepoint- the branch that has been merged from or None .branchpoints- the branches that start at the current entry or empty """ def __init__(self, **entries): self.id = None self.synthetic = False self.__dict__.update(entries) def __repr__(self): items = ( b"%s=%r" % (k, self.__dict__[k]) for k in sorted(self.__dict__) ) return b"%s(%s)" % (type(self).__name__, b", ".join(items)) def createchangeset(ui, log, fuzz=60, mergefrom=None, mergeto=None): '''Convert log into changesets.''' ui.status(_(b'creating changesets\n')) # try to order commitids by date mindate = {} for e in log: if e.commitid: if e.commitid not in mindate: mindate[e.commitid] = e.date else: mindate[e.commitid] = min(e.date, mindate[e.commitid]) # Merge changesets log.sort( key=lambda x: ( mindate.get(x.commitid, (-1, 0)), x.commitid or b'', x.comment, x.author, x.branch or b'', x.date, x.branchpoints, ) ) changesets = [] files = set() c = None for i, e in enumerate(log): # Check if log entry belongs to the current changeset or not. # Since CVS is file-centric, two different file revisions with # different branchpoints should be treated as belonging to two # different changesets (and the ordering is important and not # honoured by cvsps at this point). # # Consider the following case: # foo 1.1 branchpoints: [MYBRANCH] # bar 1.1 branchpoints: [MYBRANCH, MYBRANCH2] # # Here foo is part only of MYBRANCH, but not MYBRANCH2, e.g. a # later version of foo may be in MYBRANCH2, so foo should be the # first changeset and bar the next and MYBRANCH and MYBRANCH2 # should both start off of the bar changeset. No provisions are # made to ensure that this is, in fact, what happens. if not ( c and e.branchpoints == c.branchpoints and ( # cvs commitids (e.commitid is not None and e.commitid == c.commitid) or ( # no commitids, use fuzzy commit detection (e.commitid is None or c.commitid is None) and e.comment == c.comment and e.author == c.author and e.branch == c.branch and ( (c.date[0] + c.date[1]) <= (e.date[0] + e.date[1]) <= (c.date[0] + c.date[1]) + fuzz ) and e.file not in files ) ) ): c = changeset( comment=e.comment, author=e.author, branch=e.branch, date=e.date, entries=[], mergepoint=e.mergepoint, branchpoints=e.branchpoints, commitid=e.commitid, ) changesets.append(c) files = set() if len(changesets) % 100 == 0: t = b'%d %s' % (len(changesets), repr(e.comment)[1:-1]) ui.status(stringutil.ellipsis(t, 80) + b'\n') c.entries.append(e) files.add(e.file) c.date = e.date # changeset date is date of latest commit in it # Mark synthetic changesets for c in changesets: # Synthetic revisions always get their own changeset, because # the log message includes the filename. E.g. if you add file3 # and file4 on a branch, you get four log entries and three # changesets: # "File file3 was added on branch ..." (synthetic, 1 entry) # "File file4 was added on branch ..." (synthetic, 1 entry) # "Add file3 and file4 to fix ..." (real, 2 entries) # Hence the check for 1 entry here. c.synthetic = len(c.entries) == 1 and c.entries[0].synthetic # Sort files in each changeset def entitycompare(l, r): """Mimic cvsps sorting order""" l = l.file.split(b'/') r = r.file.split(b'/') nl = len(l) nr = len(r) n = min(nl, nr) for i in range(n): if i + 1 == nl and nl < nr: return -1 elif i + 1 == nr and nl > nr: return +1 elif l[i] < r[i]: return -1 elif l[i] > r[i]: return +1 return 0 for c in changesets: c.entries.sort(key=functools.cmp_to_key(entitycompare)) # Sort changesets by date odd = set() def cscmp(l, r): d = sum(l.date) - sum(r.date) if d: return d # detect vendor branches and initial commits on a branch le = {} for e in l.entries: le[e.rcs] = e.revision re = {} for e in r.entries: re[e.rcs] = e.revision d = 0 for e in l.entries: if re.get(e.rcs, None) == e.parent: assert not d d = 1 break for e in r.entries: if le.get(e.rcs, None) == e.parent: if d: odd.add((l, r)) d = -1 break # By this point, the changesets are sufficiently compared that # we don't really care about ordering. However, this leaves # some race conditions in the tests, so we compare on the # number of files modified, the files contained in each # changeset, and the branchpoints in the change to ensure test # output remains stable. # recommended replacement for cmp from # https://docs.python.org/3.0/whatsnew/3.0.html c = lambda x, y: (x > y) - (x < y) # Sort bigger changes first. if not d: d = c(len(l.entries), len(r.entries)) # Try sorting by filename in the change. if not d: d = c([e.file for e in l.entries], [e.file for e in r.entries]) # Try and put changes without a branch point before ones with # a branch point. if not d: d = c(len(l.branchpoints), len(r.branchpoints)) return d changesets.sort(key=functools.cmp_to_key(cscmp)) # Collect tags globaltags = {} for c in changesets: for e in c.entries: for tag in e.tags: # remember which is the latest changeset to have this tag globaltags[tag] = c for c in changesets: tags = set() for e in c.entries: tags.update(e.tags) # remember tags only if this is the latest changeset to have it c.tags = sorted(tag for tag in tags if globaltags[tag] is c) # Find parent changesets, handle {{mergetobranch BRANCHNAME}} # by inserting dummy changesets with two parents, and handle # {{mergefrombranch BRANCHNAME}} by setting two parents. if mergeto is None: mergeto = br'{{mergetobranch ([-\w]+)}}' if mergeto: mergeto = re.compile(mergeto) if mergefrom is None: mergefrom = br'{{mergefrombranch ([-\w]+)}}' if mergefrom: mergefrom = re.compile(mergefrom) versions = {} # changeset index where we saw any particular file version branches = {} # changeset index where we saw a branch n = len(changesets) i = 0 while i < n: c = changesets[i] for f in c.entries: versions[(f.rcs, f.revision)] = i p = None if c.branch in branches: p = branches[c.branch] else: # first changeset on a new branch # the parent is a changeset with the branch in its # branchpoints such that it is the latest possible # commit without any intervening, unrelated commits. for candidate in pycompat.xrange(i): if c.branch not in changesets[candidate].branchpoints: if p is not None: break continue p = candidate c.parents = [] if p is not None: p = changesets[p] # Ensure no changeset has a synthetic changeset as a parent. while p.synthetic: assert len(p.parents) <= 1, _( b'synthetic changeset cannot have multiple parents' ) if p.parents: p = p.parents[0] else: p = None break if p is not None: c.parents.append(p) if c.mergepoint: if c.mergepoint == b'HEAD': c.mergepoint = None c.parents.append(changesets[branches[c.mergepoint]]) if mergefrom: m = mergefrom.search(c.comment) if m: m = m.group(1) if m == b'HEAD': m = None try: candidate = changesets[branches[m]] except KeyError: ui.warn( _( b"warning: CVS commit message references " b"non-existent branch %r:\n%s\n" ) % (pycompat.bytestr(m), c.comment) ) if m in branches and c.branch != m and not candidate.synthetic: c.parents.append(candidate) if mergeto: m = mergeto.search(c.comment) if m: if m.groups(): m = m.group(1) if m == b'HEAD': m = None else: m = None # if no group found then merge to HEAD if m in branches and c.branch != m: # insert empty changeset for merge cc = changeset( author=c.author, branch=m, date=c.date, comment=b'convert-repo: CVS merge from branch %s' % c.branch, entries=[], tags=[], parents=[changesets[branches[m]], c], ) changesets.insert(i + 1, cc) branches[m] = i + 1 # adjust our loop counters now we have inserted a new entry n += 1 i += 2 continue branches[c.branch] = i i += 1 # Drop synthetic changesets (safe now that we have ensured no other # changesets can have them as parents). i = 0 while i < len(changesets): if changesets[i].synthetic: del changesets[i] else: i += 1 # Number changesets for i, c in enumerate(changesets): c.id = i + 1 if odd: for l, r in odd: if l.id is not None and r.id is not None: ui.warn( _(b'changeset %d is both before and after %d\n') % (l.id, r.id) ) ui.status(_(b'%d changeset entries\n') % len(changesets)) hook.hook(ui, None, b"cvschangesets", True, changesets=changesets) return changesets def debugcvsps(ui, *args, **opts): """Read CVS rlog for current directory or named path in repository, and convert the log to changesets based on matching commit log entries and dates. """ opts = pycompat.byteskwargs(opts) if opts[b"new_cache"]: cache = b"write" elif opts[b"update_cache"]: cache = b"update" else: cache = None revisions = opts[b"revisions"] try: if args: log = [] for d in args: log += createlog(ui, d, root=opts[b"root"], cache=cache) else: log = createlog(ui, root=opts[b"root"], cache=cache) except logerror as e: ui.write(b"%r\n" % e) return changesets = createchangeset(ui, log, opts[b"fuzz"]) del log # Print changesets (optionally filtered) off = len(revisions) branches = {} # latest version number in each branch ancestors = {} # parent branch for cs in changesets: if opts[b"ancestors"]: if cs.branch not in branches and cs.parents and cs.parents[0].id: ancestors[cs.branch] = ( changesets[cs.parents[0].id - 1].branch, cs.parents[0].id, ) branches[cs.branch] = cs.id # limit by branches if ( opts[b"branches"] and (cs.branch or b'HEAD') not in opts[b"branches"] ): continue if not off: # Note: trailing spaces on several lines here are needed to have # bug-for-bug compatibility with cvsps. ui.write(b'---------------------\n') ui.write((b'PatchSet %d \n' % cs.id)) ui.write( ( b'Date: %s\n' % dateutil.datestr(cs.date, b'%Y/%m/%d %H:%M:%S %1%2') ) ) ui.write((b'Author: %s\n' % cs.author)) ui.write((b'Branch: %s\n' % (cs.branch or b'HEAD'))) ui.write( ( b'Tag%s: %s \n' % ( [b'', b's'][len(cs.tags) > 1], b','.join(cs.tags) or b'(none)', ) ) ) if cs.branchpoints: ui.writenoi18n( b'Branchpoints: %s \n' % b', '.join(sorted(cs.branchpoints)) ) if opts[b"parents"] and cs.parents: if len(cs.parents) > 1: ui.write( ( b'Parents: %s\n' % (b','.join([(b"%d" % p.id) for p in cs.parents])) ) ) else: ui.write((b'Parent: %d\n' % cs.parents[0].id)) if opts[b"ancestors"]: b = cs.branch r = [] while b: b, c = ancestors[b] r.append(b'%s:%d:%d' % (b or b"HEAD", c, branches[b])) if r: ui.write((b'Ancestors: %s\n' % (b','.join(r)))) ui.writenoi18n(b'Log:\n') ui.write(b'%s\n\n' % cs.comment) ui.writenoi18n(b'Members: \n') for f in cs.entries: fn = f.file if fn.startswith(opts[b"prefix"]): fn = fn[len(opts[b"prefix"]) :] ui.write( b'\t%s:%s->%s%s \n' % ( fn, b'.'.join([b"%d" % x for x in f.parent]) or b'INITIAL', b'.'.join([(b"%d" % x) for x in f.revision]), [b'', b'(DEAD)'][f.dead], ) ) ui.write(b'\n') # have we seen the start tag? if revisions and off: if revisions[0] == (b"%d" % cs.id) or revisions[0] in cs.tags: off = False # see if we reached the end tag if len(revisions) > 1 and not off: if revisions[1] == (b"%d" % cs.id) or revisions[1] in cs.tags: break