keyword: copy: when copied source is a symlink, follow it
1) hg cp symlink copy -> copy is a symlink.
2) cp symlink copy; hg cp -A symlink copy -> copy is a regular file.
In the second case we have to follow the symlink to its target
to find out whether we have to unexpand keywords in the copy.
Add test covering the case where the copied link's target is ignored
by keyword but has content which would match the regex for expanded
keywords to check whether we indeed leave the destination alone.
# match.py - filename matching
#
# Copyright 2008, 2009 Matt Mackall <mpm@selenic.com> and others
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
import re
import util
from i18n import _
class match(object):
def __init__(self, root, cwd, patterns, include=[], exclude=[],
default='glob', exact=False, auditor=None):
"""build an object to match a set of file patterns
arguments:
root - the canonical root of the tree you're matching against
cwd - the current working directory, if relevant
patterns - patterns to find
include - patterns to include
exclude - patterns to exclude
default - if a pattern in names has no explicit type, assume this one
exact - patterns are actually literals
a pattern is one of:
'glob:<glob>' - a glob relative to cwd
're:<regexp>' - a regular expression
'path:<path>' - a path relative to canonroot
'relglob:<glob>' - an unrooted glob (*.c matches C files in all dirs)
'relpath:<path>' - a path relative to cwd
'relre:<regexp>' - a regexp that needn't match the start of a name
'<something>' - a pattern of the specified default type
"""
self._root = root
self._cwd = cwd
self._files = []
self._anypats = bool(include or exclude)
if include:
im = _buildmatch(_normalize(include, 'glob', root, cwd, auditor),
'(?:/|$)')
if exclude:
em = _buildmatch(_normalize(exclude, 'glob', root, cwd, auditor),
'(?:/|$)')
if exact:
self._files = patterns
pm = self.exact
elif patterns:
pats = _normalize(patterns, default, root, cwd, auditor)
self._files = _roots(pats)
self._anypats = self._anypats or _anypats(pats)
pm = _buildmatch(pats, '$')
if patterns or exact:
if include:
if exclude:
m = lambda f: im(f) and not em(f) and pm(f)
else:
m = lambda f: im(f) and pm(f)
else:
if exclude:
m = lambda f: not em(f) and pm(f)
else:
m = pm
else:
if include:
if exclude:
m = lambda f: im(f) and not em(f)
else:
m = im
else:
if exclude:
m = lambda f: not em(f)
else:
m = lambda f: True
self.matchfn = m
self._fmap = set(self._files)
def __call__(self, fn):
return self.matchfn(fn)
def __iter__(self):
for f in self._files:
yield f
def bad(self, f, msg):
'''callback for each explicit file that can't be
found/accessed, with an error message
'''
pass
def dir(self, f):
pass
def missing(self, f):
pass
def exact(self, f):
return f in self._fmap
def rel(self, f):
return util.pathto(self._root, self._cwd, f)
def files(self):
return self._files
def anypats(self):
return self._anypats
class exact(match):
def __init__(self, root, cwd, files):
match.__init__(self, root, cwd, files, exact = True)
class always(match):
def __init__(self, root, cwd):
match.__init__(self, root, cwd, [])
class narrowmatcher(match):
"""Adapt a matcher to work on a subdirectory only.
The paths are remapped to remove/insert the path as needed:
>>> m1 = match('root', '', ['a.txt', 'sub/b.txt'])
>>> m2 = narrowmatcher('sub', m1)
>>> bool(m2('a.txt'))
False
>>> bool(m2('b.txt'))
True
>>> bool(m2.matchfn('a.txt'))
False
>>> bool(m2.matchfn('b.txt'))
True
>>> m2.files()
['b.txt']
>>> m2.exact('b.txt')
True
>>> m2.rel('b.txt')
'b.txt'
>>> def bad(f, msg):
... print "%s: %s" % (f, msg)
>>> m1.bad = bad
>>> m2.bad('x.txt', 'No such file')
sub/x.txt: No such file
"""
def __init__(self, path, matcher):
self._root = matcher._root
self._cwd = matcher._cwd
self._path = path
self._matcher = matcher
self._files = [f[len(path) + 1:] for f in matcher._files
if f.startswith(path + "/")]
self._anypats = matcher._anypats
self.matchfn = lambda fn: matcher.matchfn(self._path + "/" + fn)
self._fmap = set(self._files)
def bad(self, f, msg):
self._matcher.bad(self._path + "/" + f, msg)
def patkind(pat):
return _patsplit(pat, None)[0]
def _patsplit(pat, default):
"""Split a string into an optional pattern kind prefix and the
actual pattern."""
if ':' in pat:
kind, val = pat.split(':', 1)
if kind in ('re', 'glob', 'path', 'relglob', 'relpath', 'relre'):
return kind, val
return default, pat
def _globre(pat):
"convert a glob pattern into a regexp"
i, n = 0, len(pat)
res = ''
group = 0
escape = re.escape
def peek():
return i < n and pat[i]
while i < n:
c = pat[i]
i += 1
if c not in '*?[{},\\':
res += escape(c)
elif c == '*':
if peek() == '*':
i += 1
res += '.*'
else:
res += '[^/]*'
elif c == '?':
res += '.'
elif c == '[':
j = i
if j < n and pat[j] in '!]':
j += 1
while j < n and pat[j] != ']':
j += 1
if j >= n:
res += '\\['
else:
stuff = pat[i:j].replace('\\','\\\\')
i = j + 1
if stuff[0] == '!':
stuff = '^' + stuff[1:]
elif stuff[0] == '^':
stuff = '\\' + stuff
res = '%s[%s]' % (res, stuff)
elif c == '{':
group += 1
res += '(?:'
elif c == '}' and group:
res += ')'
group -= 1
elif c == ',' and group:
res += '|'
elif c == '\\':
p = peek()
if p:
i += 1
res += escape(p)
else:
res += escape(c)
else:
res += escape(c)
return res
def _regex(kind, name, tail):
'''convert a pattern into a regular expression'''
if not name:
return ''
if kind == 're':
return name
elif kind == 'path':
return '^' + re.escape(name) + '(?:/|$)'
elif kind == 'relglob':
return '(?:|.*/)' + _globre(name) + tail
elif kind == 'relpath':
return re.escape(name) + '(?:/|$)'
elif kind == 'relre':
if name.startswith('^'):
return name
return '.*' + name
return _globre(name) + tail
def _buildmatch(pats, tail):
"""build a matching function from a set of patterns"""
try:
pat = '(?:%s)' % '|'.join([_regex(k, p, tail) for (k, p) in pats])
if len(pat) > 20000:
raise OverflowError()
return re.compile(pat).match
except OverflowError:
# We're using a Python with a tiny regex engine and we
# made it explode, so we'll divide the pattern list in two
# until it works
l = len(pats)
if l < 2:
raise
a, b = _buildmatch(pats[:l//2], tail), _buildmatch(pats[l//2:], tail)
return lambda s: a(s) or b(s)
except re.error:
for k, p in pats:
try:
re.compile('(?:%s)' % _regex(k, p, tail))
except re.error:
raise util.Abort(_("invalid pattern (%s): %s") % (k, p))
raise util.Abort(_("invalid pattern"))
def _normalize(names, default, root, cwd, auditor):
pats = []
for kind, name in [_patsplit(p, default) for p in names]:
if kind in ('glob', 'relpath'):
name = util.canonpath(root, cwd, name, auditor)
elif kind in ('relglob', 'path'):
name = util.normpath(name)
pats.append((kind, name))
return pats
def _roots(patterns):
r = []
for kind, name in patterns:
if kind == 'glob': # find the non-glob prefix
root = []
for p in name.split('/'):
if '[' in p or '{' in p or '*' in p or '?' in p:
break
root.append(p)
r.append('/'.join(root) or '.')
elif kind in ('relpath', 'path'):
r.append(name or '.')
elif kind == 'relglob':
r.append('.')
return r
def _anypats(patterns):
for kind, name in patterns:
if kind in ('glob', 're', 'relglob', 'relre'):
return True