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cvsps.py
1070 lines | 35.5 KiB | text/x-python | PythonLexer
# Mercurial built-in replacement for cvsps.
#
# Copyright 2008, Frank Kingswood <frank@kingswood-consulting.co.uk>
#
# 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(
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