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filemap.py
382 lines | 13.4 KiB | text/x-python | PythonLexer
# Copyright 2007 Bryan O'Sullivan <bos@serpentine.com>
# Copyright 2007 Alexis S. L. Carvalho <alexis@cecm.usp.br>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
import shlex
from mercurial.i18n import _
from mercurial import util
from common import SKIPREV, converter_source
def rpairs(name):
e = len(name)
while e != -1:
yield name[:e], name[e + 1:]
e = name.rfind('/', 0, e)
yield '.', name
class filemapper(object):
'''Map and filter filenames when importing.
A name can be mapped to itself, a new name, or None (omit from new
repository).'''
def __init__(self, ui, path=None):
self.ui = ui
self.include = {}
self.exclude = {}
self.rename = {}
if path:
if self.parse(path):
raise util.Abort(_('errors in filemap'))
def parse(self, path):
errs = 0
def check(name, mapping, listname):
if not name:
self.ui.warn(_('%s:%d: path to %s is missing\n') %
(lex.infile, lex.lineno, listname))
return 1
if name in mapping:
self.ui.warn(_('%s:%d: %r already in %s list\n') %
(lex.infile, lex.lineno, name, listname))
return 1
if (name.startswith('/') or
name.endswith('/') or
'//' in name):
self.ui.warn(_('%s:%d: superfluous / in %s %r\n') %
(lex.infile, lex.lineno, listname, name))
return 1
return 0
lex = shlex.shlex(open(path), path, True)
lex.wordchars += '!@#$%^&*()-=+[]{}|;:,./<>?'
cmd = lex.get_token()
while cmd:
if cmd == 'include':
name = lex.get_token()
errs += check(name, self.exclude, 'exclude')
self.include[name] = name
elif cmd == 'exclude':
name = lex.get_token()
errs += check(name, self.include, 'include')
errs += check(name, self.rename, 'rename')
self.exclude[name] = name
elif cmd == 'rename':
src = lex.get_token()
dest = lex.get_token()
errs += check(src, self.exclude, 'exclude')
self.rename[src] = dest
elif cmd == 'source':
errs += self.parse(lex.get_token())
else:
self.ui.warn(_('%s:%d: unknown directive %r\n') %
(lex.infile, lex.lineno, cmd))
errs += 1
cmd = lex.get_token()
return errs
def lookup(self, name, mapping):
for pre, suf in rpairs(name):
try:
return mapping[pre], pre, suf
except KeyError:
pass
return '', name, ''
def __call__(self, name):
if self.include:
inc = self.lookup(name, self.include)[0]
else:
inc = name
if self.exclude:
exc = self.lookup(name, self.exclude)[0]
else:
exc = ''
if (not self.include and exc) or (len(inc) <= len(exc)):
return None
newpre, pre, suf = self.lookup(name, self.rename)
if newpre:
if newpre == '.':
return suf
if suf:
if newpre.endswith('/'):
return newpre + suf
return newpre + '/' + suf
return newpre
return name
def active(self):
return bool(self.include or self.exclude or self.rename)
# This class does two additional things compared to a regular source:
#
# - Filter and rename files. This is mostly wrapped by the filemapper
# class above. We hide the original filename in the revision that is
# returned by getchanges to be able to find things later in getfile.
#
# - Return only revisions that matter for the files we're interested in.
# This involves rewriting the parents of the original revision to
# create a graph that is restricted to those revisions.
#
# This set of revisions includes not only revisions that directly
# touch files we're interested in, but also merges that merge two
# or more interesting revisions.
class filemap_source(converter_source):
def __init__(self, ui, baseconverter, filemap):
super(filemap_source, self).__init__(ui)
self.base = baseconverter
self.filemapper = filemapper(ui, filemap)
self.commits = {}
# if a revision rev has parent p in the original revision graph, then
# rev will have parent self.parentmap[p] in the restricted graph.
self.parentmap = {}
# self.wantedancestors[rev] is the set of all ancestors of rev that
# are in the restricted graph.
self.wantedancestors = {}
self.convertedorder = None
self._rebuilt = False
self.origparents = {}
self.children = {}
self.seenchildren = {}
def before(self):
self.base.before()
def after(self):
self.base.after()
def setrevmap(self, revmap):
# rebuild our state to make things restartable
#
# To avoid calling getcommit for every revision that has already
# been converted, we rebuild only the parentmap, delaying the
# rebuild of wantedancestors until we need it (i.e. until a
# merge).
#
# We assume the order argument lists the revisions in
# topological order, so that we can infer which revisions were
# wanted by previous runs.
self._rebuilt = not revmap
seen = {SKIPREV: SKIPREV}
dummyset = set()
converted = []
for rev in revmap.order:
mapped = revmap[rev]
wanted = mapped not in seen
if wanted:
seen[mapped] = rev
self.parentmap[rev] = rev
else:
self.parentmap[rev] = seen[mapped]
self.wantedancestors[rev] = dummyset
arg = seen[mapped]
if arg == SKIPREV:
arg = None
converted.append((rev, wanted, arg))
self.convertedorder = converted
return self.base.setrevmap(revmap)
def rebuild(self):
if self._rebuilt:
return True
self._rebuilt = True
self.parentmap.clear()
self.wantedancestors.clear()
self.seenchildren.clear()
for rev, wanted, arg in self.convertedorder:
if rev not in self.origparents:
self.origparents[rev] = self.getcommit(rev).parents
if arg is not None:
self.children[arg] = self.children.get(arg, 0) + 1
for rev, wanted, arg in self.convertedorder:
parents = self.origparents[rev]
if wanted:
self.mark_wanted(rev, parents)
else:
self.mark_not_wanted(rev, arg)
self._discard(arg, *parents)
return True
def getheads(self):
return self.base.getheads()
def getcommit(self, rev):
# We want to save a reference to the commit objects to be able
# to rewrite their parents later on.
c = self.commits[rev] = self.base.getcommit(rev)
for p in c.parents:
self.children[p] = self.children.get(p, 0) + 1
return c
def _cachedcommit(self, rev):
if rev in self.commits:
return self.commits[rev]
return self.base.getcommit(rev)
def _discard(self, *revs):
for r in revs:
if r is None:
continue
self.seenchildren[r] = self.seenchildren.get(r, 0) + 1
if self.seenchildren[r] == self.children[r]:
del self.wantedancestors[r]
del self.parentmap[r]
del self.seenchildren[r]
if self._rebuilt:
del self.children[r]
def wanted(self, rev, i):
# Return True if we're directly interested in rev.
#
# i is an index selecting one of the parents of rev (if rev
# has no parents, i is None). getchangedfiles will give us
# the list of files that are different in rev and in the parent
# indicated by i. If we're interested in any of these files,
# we're interested in rev.
try:
files = self.base.getchangedfiles(rev, i)
except NotImplementedError:
raise util.Abort(_("source repository doesn't support --filemap"))
for f in files:
if self.filemapper(f):
return True
return False
def mark_not_wanted(self, rev, p):
# Mark rev as not interesting and update data structures.
if p is None:
# A root revision. Use SKIPREV to indicate that it doesn't
# map to any revision in the restricted graph. Put SKIPREV
# in the set of wanted ancestors to simplify code elsewhere
self.parentmap[rev] = SKIPREV
self.wantedancestors[rev] = set((SKIPREV,))
return
# Reuse the data from our parent.
self.parentmap[rev] = self.parentmap[p]
self.wantedancestors[rev] = self.wantedancestors[p]
def mark_wanted(self, rev, parents):
# Mark rev ss wanted and update data structures.
# rev will be in the restricted graph, so children of rev in
# the original graph should still have rev as a parent in the
# restricted graph.
self.parentmap[rev] = rev
# The set of wanted ancestors of rev is the union of the sets
# of wanted ancestors of its parents. Plus rev itself.
wrev = set()
for p in parents:
wrev.update(self.wantedancestors[p])
wrev.add(rev)
self.wantedancestors[rev] = wrev
def getchanges(self, rev):
parents = self.commits[rev].parents
if len(parents) > 1:
self.rebuild()
# To decide whether we're interested in rev we:
#
# - calculate what parents rev will have if it turns out we're
# interested in it. If it's going to have more than 1 parent,
# we're interested in it.
#
# - otherwise, we'll compare it with the single parent we found.
# If any of the files we're interested in is different in the
# the two revisions, we're interested in rev.
# A parent p is interesting if its mapped version (self.parentmap[p]):
# - is not SKIPREV
# - is still not in the list of parents (we don't want duplicates)
# - is not an ancestor of the mapped versions of the other parents
mparents = []
wp = None
for i, p1 in enumerate(parents):
mp1 = self.parentmap[p1]
if mp1 == SKIPREV or mp1 in mparents:
continue
for p2 in parents:
if p1 == p2 or mp1 == self.parentmap[p2]:
continue
if mp1 in self.wantedancestors[p2]:
break
else:
mparents.append(mp1)
wp = i
if wp is None and parents:
wp = 0
self.origparents[rev] = parents
closed = False
if 'close' in self.commits[rev].extra:
# A branch closing revision is only useful if one of its
# parents belong to the branch being closed
branch = self.commits[rev].branch
pbranches = [self._cachedcommit(p).branch for p in mparents]
if branch in pbranches:
closed = True
if len(mparents) < 2 and not closed and not self.wanted(rev, wp):
# We don't want this revision.
# Update our state and tell the convert process to map this
# revision to the same revision its parent as mapped to.
p = None
if parents:
p = parents[wp]
self.mark_not_wanted(rev, p)
self.convertedorder.append((rev, False, p))
self._discard(*parents)
return self.parentmap[rev]
# We want this revision.
# Rewrite the parents of the commit object
self.commits[rev].parents = mparents
self.mark_wanted(rev, parents)
self.convertedorder.append((rev, True, None))
self._discard(*parents)
# Get the real changes and do the filtering/mapping. To be
# able to get the files later on in getfile, we hide the
# original filename in the rev part of the return value.
changes, copies = self.base.getchanges(rev)
newnames = {}
files = []
for f, r in changes:
newf = self.filemapper(f)
if newf:
files.append((newf, (f, r)))
newnames[f] = newf
ncopies = {}
for c in copies:
newc = self.filemapper(c)
if newc:
newsource = self.filemapper(copies[c])
if newsource:
ncopies[newc] = newsource
return files, ncopies
def getfile(self, name, rev):
realname, realrev = rev
return self.base.getfile(realname, realrev)
def gettags(self):
return self.base.gettags()
def hasnativeorder(self):
return self.base.hasnativeorder()
def lookuprev(self, rev):
return self.base.lookuprev(rev)
def getbookmarks(self):
return self.base.getbookmarks()