##// END OF EJS Templates
merge: mark .hgsubstate as possibly dirty before submerge for consistency...
merge: mark .hgsubstate as possibly dirty before submerge for consistency Before this patch, failure of updating subrepos may cause inconsistent ".hgsubstate". For example: 1. dirstate entry for ".hgsubstate" of the parent repo is filled with valid size/date (via "hg state" or so) 2. "hg update" is invoked at the parent repo 3. ".hgsubstate" of the parent repo is updated on the filesystem as a part of "g"(et) action in "merge.applyupdates" 4. it is assumed that size/date of ".hgsubstate" on the filesystem aren't changed from ones at (1) this is not so difficult condition, because just changing hash ids (every ids are same in length) in ".hgsubstate" doesn't change the file size of it 5. "subrepo.submerge()" is invoked to update subrepos 6. failure of updating in one of subrepos raises exception (e.g. "untracked file differs") 7. "hg update" is aborted without updating dirstate of the parent repo dirstate entry for ".hgsubstate" still holds size/date at (1) Then, ".hgsubstate" of the parent repo is treated as "CLEAN" unexpectedly, because updating ".hgsubstate" at (3) doesn't change size/date of it on the filesystem: see assumption at (4). This inconsistent ".hgsubstate" status causes unexpected behavior, for example: - "hg revert" forgets to revert ".hgsubstate" - "hg update" misunderstands that (not yet updated) subrepos diverge (then, it shows the prompt to confirm user's decision) To avoid inconsistent ".hgsubstate" status above, this patch marks ".hgsubstate" as possibly dirty before "submerge" invocation. "normallookup"-ed (= dirty) dirstate should be written out, even if processing is aborted by failure. This patch marks ".hgsubstate" as possibly dirty before "submerge", also when it is removed or merged while merging, for safety. This should prevent Mercurial from misunderstanding inconsistent ".hgsubstate" as clean. To satisfy conditions at (1) and (4) above, this patch uses "hg status --config debug.dirstate.delaywrite=2" (to fill valid size/date into dirstate) and "touch" (to fix date of the file).

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cvsps.py
897 lines | 31.6 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.
import os
import re
import cPickle as pickle
from mercurial.i18n import _
from mercurial import hook
from mercurial import util
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('/foo/bar')
'/foo/bar'
>>> getrepopath('c:/foo/bar')
'/foo/bar'
>>> getrepopath(':pserver:10/foo/bar')
'/foo/bar'
>>> getrepopath(':pserver:10c:/foo/bar')
'/foo/bar'
>>> getrepopath(':pserver:/foo/bar')
'/foo/bar'
>>> getrepopath(':pserver:c:/foo/bar')
'/foo/bar'
>>> getrepopath(':pserver:truc@foo.bar:/foo/bar')
'/foo/bar'
>>> getrepopath(':pserver:truc@foo.bar:c:/foo/bar')
'/foo/bar'
>>> getrepopath('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(':')
atposition = parts[-1].find('@')
start = 0
if atposition != -1:
start = atposition
repopath = parts[-1][parts[-1].find('/', start):]
return repopath
def createlog(ui, directory=None, root="", 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(_('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('RCS file: (.+)$')
re_01 = re.compile('cvs \\[r?log aborted\\]: (.+)$')
re_02 = re.compile('cvs (r?log|server): (.+)\n$')
re_03 = re.compile("(Cannot access.+CVSROOT)|"
"(can't create temporary directory.+)$")
re_10 = re.compile('Working file: (.+)$')
re_20 = re.compile('symbolic names:')
re_30 = re.compile('\t(.+): ([\\d.]+)$')
re_31 = re.compile('----------------------------$')
re_32 = re.compile('======================================='
'======================================$')
re_50 = re.compile('revision ([\\d.]+)(\s+locked by:\s+.+;)?$')
re_60 = re.compile(r'date:\s+(.+);\s+author:\s+(.+);\s+state:\s+(.+?);'
r'(\s+lines:\s+(\+\d+)?\s+(-\d+)?;)?'
r'(\s+commitid:\s+([^;]+);)?'
r'(.*mergepoint:\s+([^;]+);)?')
re_70 = re.compile('branches: (.+);$')
file_added_re = re.compile(r'file [^/]+ was (initially )?added on branch')
prefix = '' # 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:
prefix = open(os.path.join('CVS','Repository')).read().strip()
directory = prefix
if prefix == ".":
prefix = ""
except IOError:
raise logerror(_('not a CVS sandbox'))
if prefix and not prefix.endswith(os.sep):
prefix += os.sep
# Use the Root file in the sandbox, if it exists
try:
root = open(os.path.join('CVS','Root')).read().strip()
except IOError:
pass
if not root:
root = os.environ.get('CVSROOT', '')
# read log cache if one exists
oldlog = []
date = None
if cache:
cachedir = os.path.expanduser('~/.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(":") + [directory, "cache"]
cachefile = ['-'.join(re.findall(r'\w+', s)) for s in cachefile if s]
cachefile = os.path.join(cachedir,
'.'.join([s for s in cachefile if s]))
if cache == 'update':
try:
ui.note(_('reading cvs log cache %s\n') % cachefile)
oldlog = pickle.load(open(cachefile))
for e in oldlog:
if not (util.safehasattr(e, 'branchpoints') and
util.safehasattr(e, 'commitid') and
util.safehasattr(e, 'mergepoint')):
ui.status(_('ignoring old cache\n'))
oldlog = []
break
ui.note(_('cache has %d log entries\n') % len(oldlog))
except Exception, e:
ui.note(_('error reading cache: %r\n') % e)
if oldlog:
date = oldlog[-1].date # last commit date as a (time,tz) tuple
date = util.datestr(date, '%Y/%m/%d %H:%M:%S %1%2')
# build the CVS commandline
cmd = ['cvs', '-q']
if root:
cmd.append('-d%s' % root)
p = util.normpath(getrepopath(root))
if not p.endswith('/'):
p += '/'
if prefix:
# looks like normpath replaces "" by "."
prefix = p + util.normpath(prefix)
else:
prefix = p
cmd.append(['log', 'rlog'][rlog])
if date:
# no space between option and date string
cmd.append('-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
state = 0
store = False # set when a new record can be appended
cmd = [util.shellquote(arg) for arg in cmd]
ui.note(_("running %s\n") % (' '.join(cmd)))
ui.debug("prefix=%r directory=%r root=%r\n" % (prefix, directory, root))
pfp = util.popen(' '.join(cmd))
peek = pfp.readline()
while True:
line = peek
if line == '':
break
peek = pfp.readline()
if line.endswith('\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('/'):
filename = filename[1:]
if filename.startswith('Attic/'):
filename = filename[6:]
else:
filename = filename.replace('/Attic/', '/')
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, _('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('.')]
# 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), _('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, _('expected revision number')
e = logentry(rcs=scache(rcs),
file=scache(filename),
revision=tuple([int(x) for x in
match.group(1).split('.')]),
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, _('revision must be followed by date line')
d = match.group(1)
if d[2] == '/':
# Y2K
d = '19' + d
if len(d.split()) != 3:
# cvs log dates always in GMT
d = d + ' UTC'
e.date = util.parsedate(d, ['%y/%m/%d %H:%M:%S',
'%Y/%m/%d %H:%M:%S',
'%Y-%m-%d %H:%M:%S'])
e.author = scache(match.group(2))
e.dead = match.group(3).lower() == '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('.')
if len(myrev) == 2: # head
e.mergepoint = 'HEAD'
else:
myrev = '.'.join(myrev[:-2] + ['0', myrev[-2]])
branches = [b for b in branchmap if branchmap[b] == myrev]
assert len(branches) == 1, ('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('.')])
for x in m.group(1).split(';')]
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('\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 # 1.1 or 1.1.x.1
len(e.comment) == 1 and
file_added_re.match(e.comment[0])):
ui.debug('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('\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 branchmap.iteritems():
revparts = tuple([int(i) for i in revision.split('.')])
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)
if len(log) % 100 == 0:
ui.status(util.ellipsis('%d %s' % (len(log), e.file), 80)+'\n')
log.sort(key=lambda x: (x.rcs, x.revision))
# find parent revisions of individual files
versions = {}
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(_('log cache overlaps with new log entries,'
' re-run without cache.'))
log = oldlog + log
# write the new cachefile
ui.note(_('writing cvs log cache %s\n') % cachefile)
pickle.dump(log, open(cachefile, 'w'))
else:
log = oldlog
ui.status(_('%d log entries\n') % len(log))
hook.hook(ui, None, "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 = ("%s=%r"%(k, self.__dict__[k]) for k in sorted(self.__dict__))
return "%s(%s)"%(type(self).__name__, ", ".join(items))
def createchangeset(ui, log, fuzz=60, mergefrom=None, mergeto=None):
'''Convert log into changesets.'''
ui.status(_('creating changesets\n'))
# try to order commitids by date
mindate = {}
for e in log:
if e.commitid:
mindate[e.commitid] = min(e.date, mindate.get(e.commitid))
# Merge changesets
log.sort(key=lambda x: (mindate.get(x.commitid), x.commitid, x.comment,
x.author, x.branch, 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 = '%d %s' % (len(changesets), repr(e.comment)[1:-1])
ui.status(util.ellipsis(t, 80) + '\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('/')
r = r.file.split('/')
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(entitycompare)
# Sort changesets by date
odd = set()
def cscmp(l, r, odd=odd):
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 and the number of branchpoints in
# each changeset 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)
if not d:
d = c(len(l.entries), len(r.entries))
if not d:
d = c(len(l.branchpoints), len(r.branchpoints))
return d
changesets.sort(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 = r'{{mergetobranch ([-\w]+)}}'
if mergeto:
mergeto = re.compile(mergeto)
if mergefrom is None:
mergefrom = r'{{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 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, \
_('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 == '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 == 'HEAD':
m = None
try:
candidate = changesets[branches[m]]
except KeyError:
ui.warn(_("warning: CVS commit message references "
"non-existent branch %r:\n%s\n")
% (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 == '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='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(_('changeset %d is both before and after %d\n')
% (l.id, r.id))
ui.status(_('%d changeset entries\n') % len(changesets))
hook.hook(ui, None, "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.
'''
if opts["new_cache"]:
cache = "write"
elif opts["update_cache"]:
cache = "update"
else:
cache = None
revisions = opts["revisions"]
try:
if args:
log = []
for d in args:
log += createlog(ui, d, root=opts["root"], cache=cache)
else:
log = createlog(ui, root=opts["root"], cache=cache)
except logerror, e:
ui.write("%r\n"%e)
return
changesets = createchangeset(ui, log, opts["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["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["branches"] and (cs.branch or 'HEAD') not in opts["branches"]:
continue
if not off:
# Note: trailing spaces on several lines here are needed to have
# bug-for-bug compatibility with cvsps.
ui.write('---------------------\n')
ui.write(('PatchSet %d \n' % cs.id))
ui.write(('Date: %s\n' % util.datestr(cs.date,
'%Y/%m/%d %H:%M:%S %1%2')))
ui.write(('Author: %s\n' % cs.author))
ui.write(('Branch: %s\n' % (cs.branch or 'HEAD')))
ui.write(('Tag%s: %s \n' % (['', 's'][len(cs.tags) > 1],
','.join(cs.tags) or '(none)')))
if cs.branchpoints:
ui.write(('Branchpoints: %s \n') %
', '.join(sorted(cs.branchpoints)))
if opts["parents"] and cs.parents:
if len(cs.parents) > 1:
ui.write(('Parents: %s\n' %
(','.join([str(p.id) for p in cs.parents]))))
else:
ui.write(('Parent: %d\n' % cs.parents[0].id))
if opts["ancestors"]:
b = cs.branch
r = []
while b:
b, c = ancestors[b]
r.append('%s:%d:%d' % (b or "HEAD", c, branches[b]))
if r:
ui.write(('Ancestors: %s\n' % (','.join(r))))
ui.write(('Log:\n'))
ui.write('%s\n\n' % cs.comment)
ui.write(('Members: \n'))
for f in cs.entries:
fn = f.file
if fn.startswith(opts["prefix"]):
fn = fn[len(opts["prefix"]):]
ui.write('\t%s:%s->%s%s \n' % (
fn, '.'.join([str(x) for x in f.parent]) or 'INITIAL',
'.'.join([str(x) for x in f.revision]),
['', '(DEAD)'][f.dead]))
ui.write('\n')
# have we seen the start tag?
if revisions and off:
if revisions[0] == str(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] == str(cs.id) or \
revisions[1] in cs.tags:
break