upstream/mercurial-mirror Files · mercurial/extensions.py

dirstate: ignore symlinks when fs cannot handle them (issue1888)...

dirstate: ignore symlinks when fs cannot handle them (issue1888) When the filesystem cannot handle the executable bit, we currently ignore it completely when looking for modified files. Similarly, it is impossible to set or clear the bit when the filesystem ignores it. This patch makes Mercurial treat symbolic links the same way. Symlinks are a little different since they manifest themselves as small files containing a filename (the symlink target). On Windows, these files show up as regular files, and on Linux and Mac they show up as real symlinks. Issue1888 presents a case where the symlink files are better ignored from the Windows side. A Linux client creates symlinks in a working copy which is shared over a network between Linux and Windows clients. The Samba server is helpful and defererences the symlink when the Windows client looks at it. This means that Mercurial on the Windows side sees file content instead of a file name in the symlink, and hence flags the link as modified. Ignoring the change would be much more helpful, similarly to how Mercurial does not report any changes when executable bits are ignored in a checkout on Windows. An initial checkout of a symbolic link on a file system that cannot handle symbolic links will still result in a regular file containing the target file name as its content. Sharing such a checkout with a Linux client will not turn the file into a symlink automatically, but 'hg revert' can fix that. After the revert, the Windows client will see the correct file content (provided by the Samba server when it follows the link on the Linux side) and otherwise ignore the change. Running 'hg perfstatus' 10 times gives these results: Before: After: min: 0.544703 min: 0.546549 med: 0.547592 med: 0.548881 avg: 0.549146 avg: 0.548549 max: 0.564112 max: 0.551504 The median time is increased about 0.24%.

Dan Villiom Podlaski Christiansen - - Load All Authors

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      # extensions.py - extension handling for mercurial

      #

      # Copyright 2005-2007 Matt Mackall <mpm@selenic.com>

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      import imp, os

      import util, cmdutil, help, error

      from i18n import _, gettext

      _extensions = {}

      _order = []

      def extensions():

          for name in _order:

              module = _extensions[name]

              if module:

                  yield name, module

      def find(name):

          '''return module with given extension name'''

          try:

              return _extensions[name]

          except KeyError:

              for k, v in _extensions.iteritems():

                  if k.endswith('.' + name) or k.endswith('/' + name):

                      return v

              raise KeyError(name)

      def loadpath(path, module_name):

          module_name = module_name.replace('.', '_')

          path = util.expandpath(path)

          if os.path.isdir(path):

              # module/__init__.py style

              d, f = os.path.split(path.rstrip('/'))

              fd, fpath, desc = imp.find_module(f, [d])

              return imp.load_module(module_name, fd, fpath, desc)

          else:

              return imp.load_source(module_name, path)

      def load(ui, name, path):

          # unused ui argument kept for backwards compatibility

          if name.startswith('hgext.') or name.startswith('hgext/'):

              shortname = name[6:]

          else:

              shortname = name

          if shortname in _extensions:

              return

          _extensions[shortname] = None

          if path:

              # the module will be loaded in sys.modules

              # choose an unique name so that it doesn't

              # conflicts with other modules

              mod = loadpath(path, 'hgext.%s' % name)

          else:

              def importh(name):

                  mod = __import__(name)

                  components = name.split('.')

                  for comp in components[1:]:

                      mod = getattr(mod, comp)

                  return mod

              try:

                  mod = importh("hgext.%s" % name)

              except ImportError:

                  mod = importh(name)

          _extensions[shortname] = mod

          _order.append(shortname)

      def loadall(ui):

          result = ui.configitems("extensions")

          newindex = len(_order)

          for (name, path) in result:

              if path:

                  if path[0] == '!':

                      continue

              try:

                  load(ui, name, path)

              except KeyboardInterrupt:

                  raise

              except Exception, inst:

                  if path:

                      ui.warn(_("*** failed to import extension %s from %s: %s\n")

                              % (name, path, inst))

                  else:

                      ui.warn(_("*** failed to import extension %s: %s\n")

                              % (name, inst))

                  if ui.traceback():

                      return 1

          for name in _order[newindex:]:

              uisetup = getattr(_extensions[name], 'uisetup', None)

              if uisetup:

                  uisetup(ui)

          for name in _order[newindex:]:

              extsetup = getattr(_extensions[name], 'extsetup', None)

              if extsetup:

                  try:

                      extsetup(ui)

                  except TypeError:

                      if extsetup.func_code.co_argcount != 0:

                          raise

                      extsetup() # old extsetup with no ui argument

      def wrapcommand(table, command, wrapper):

          '''Wrap the command named `command' in table

          Replace command in the command table with wrapper. The wrapped command will

          be inserted into the command table specified by the table argument.

          The wrapper will be called like

            wrapper(orig, *args, **kwargs)

          where orig is the original (wrapped) function, and *args, **kwargs

          are the arguments passed to it.

          '''

          assert hasattr(wrapper, '__call__')

          aliases, entry = cmdutil.findcmd(command, table)

          for alias, e in table.iteritems():

              if e is entry:

                  key = alias

                  break

          origfn = entry[0]

          def wrap(*args, **kwargs):

              return util.checksignature(wrapper)(

                  util.checksignature(origfn), *args, **kwargs)

          wrap.__doc__ = getattr(origfn, '__doc__')

          wrap.__module__ = getattr(origfn, '__module__')

          newentry = list(entry)

          newentry[0] = wrap

          table[key] = tuple(newentry)

          return entry

      def wrapfunction(container, funcname, wrapper):

          '''Wrap the function named funcname in container

          Replace the funcname member in the given container with the specified

          wrapper. The container is typically a module, class, or instance.

          The wrapper will be called like

            wrapper(orig, *args, **kwargs)

          where orig is the original (wrapped) function, and *args, **kwargs

          are the arguments passed to it.

          Wrapping methods of the repository object is not recommended since

          it conflicts with extensions that extend the repository by

          subclassing. All extensions that need to extend methods of

          localrepository should use this subclassing trick: namely,

          reposetup() should look like

            def reposetup(ui, repo):

                class myrepo(repo.__class__):

                    def whatever(self, *args, **kwargs):

                        [...extension stuff...]

                        super(myrepo, self).whatever(*args, **kwargs)

                        [...extension stuff...]

                repo.__class__ = myrepo

          In general, combining wrapfunction() with subclassing does not

          work. Since you cannot control what other extensions are loaded by

          your end users, you should play nicely with others by using the

          subclass trick.

          '''

          assert hasattr(wrapper, '__call__')

          def wrap(*args, **kwargs):

              return wrapper(origfn, *args, **kwargs)

          origfn = getattr(container, funcname)

          assert hasattr(origfn, '__call__')

          setattr(container, funcname, wrap)

          return origfn

      def _disabledpaths(strip_init=False):

          '''find paths of disabled extensions. returns a dict of {name: path}

          removes /__init__.py from packages if strip_init is True'''

          import hgext

          extpath = os.path.dirname(os.path.abspath(hgext.__file__))

          try: # might not be a filesystem path

              files = os.listdir(extpath)

          except OSError:

              return {}

          exts = {}

          for e in files:

              if e.endswith('.py'):

                  name = e.rsplit('.', 1)[0]

                  path = os.path.join(extpath, e)

              else:

                  name = e

                  path = os.path.join(extpath, e, '__init__.py')

                  if not os.path.exists(path):

                      continue

                  if strip_init:

                      path = os.path.dirname(path)

              if name in exts or name in _order or name == '__init__':

                  continue

              exts[name] = path

          return exts

      def _disabledhelp(path):

          '''retrieve help synopsis of a disabled extension (without importing)'''

          try:

              file = open(path)

          except IOError:

              return

          else:

              doc = help.moduledoc(file)

              file.close()

          if doc: # extracting localized synopsis

              return gettext(doc).splitlines()[0]

          else:

              return _('(no help text available)')

      def disabled():

          '''find disabled extensions from hgext

          returns a dict of {name: desc}, and the max name length'''

          paths = _disabledpaths()

          if not paths:

              return None, 0

          exts = {}

          maxlength = 0

          for name, path in paths.iteritems():

              doc = _disabledhelp(path)

              if not doc:

                  continue

              exts[name] = doc

              if len(name) > maxlength:

                  maxlength = len(name)

          return exts, maxlength

      def disabledext(name):

          '''find a specific disabled extension from hgext. returns desc'''

          paths = _disabledpaths()

          if name in paths:

              return _disabledhelp(paths[name])

      def disabledcmd(cmd, strict=False):

          '''import disabled extensions until cmd is found.

          returns (cmdname, extname, doc)'''

          paths = _disabledpaths(strip_init=True)

          if not paths:

              raise error.UnknownCommand(cmd)

          def findcmd(cmd, name, path):

              try:

                  mod = loadpath(path, 'hgext.%s' % name)

              except Exception:

                  return

              try:

                  aliases, entry = cmdutil.findcmd(cmd,

                      getattr(mod, 'cmdtable', {}), strict)

              except (error.AmbiguousCommand, error.UnknownCommand):

                  return

              for c in aliases:

                  if c.startswith(cmd):

                      cmd = c

                      break

              else:

                  cmd = aliases[0]

              return (cmd, name, mod)

          # first, search for an extension with the same name as the command

          path = paths.pop(cmd, None)

          if path:

              ext = findcmd(cmd, cmd, path)

              if ext:

                  return ext

          # otherwise, interrogate each extension until there's a match

          for name, path in paths.iteritems():

              ext = findcmd(cmd, name, path)

              if ext:

                  return ext

          raise error.UnknownCommand(cmd)

      def enabled():

          '''return a dict of {name: desc} of extensions, and the max name length'''

          exts = {}

          maxlength = 0

          for ename, ext in extensions():

              doc = (gettext(ext.__doc__) or _('(no help text available)'))

              ename = ename.split('.')[-1]

              maxlength = max(len(ename), maxlength)

              exts[ename] = doc.splitlines()[0].strip()

          return exts, maxlength

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				# extensions.py - extension handling for mercurial
				#
				# Copyright 2005-2007 Matt Mackall <mpm@selenic.com>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				import imp, os
				import util, cmdutil, help, error
				from i18n import _, gettext

				_extensions = {}
				_order = []

				def extensions():
				for name in _order:
				module = _extensions[name]
				if module:
				yield name, module

				def find(name):
				'''return module with given extension name'''
				try:
				return _extensions[name]
				except KeyError:
				for k, v in _extensions.iteritems():
				if k.endswith('.' + name) or k.endswith('/' + name):
				return v
				raise KeyError(name)

				def loadpath(path, module_name):
				module_name = module_name.replace('.', '_')
				path = util.expandpath(path)
				if os.path.isdir(path):
				# module/__init__.py style
				d, f = os.path.split(path.rstrip('/'))
				fd, fpath, desc = imp.find_module(f, [d])
				return imp.load_module(module_name, fd, fpath, desc)
				else:
				return imp.load_source(module_name, path)

				def load(ui, name, path):
				# unused ui argument kept for backwards compatibility
				if name.startswith('hgext.') or name.startswith('hgext/'):
				shortname = name[6:]
				else:
				shortname = name
				if shortname in _extensions:
				return
				_extensions[shortname] = None
				if path:
				# the module will be loaded in sys.modules
				# choose an unique name so that it doesn't
				# conflicts with other modules
				mod = loadpath(path, 'hgext.%s' % name)
				else:
				def importh(name):
				mod = __import__(name)
				components = name.split('.')
				for comp in components[1:]:
				mod = getattr(mod, comp)
				return mod
				try:
				mod = importh("hgext.%s" % name)
				except ImportError:
				mod = importh(name)
				_extensions[shortname] = mod
				_order.append(shortname)

				def loadall(ui):
				result = ui.configitems("extensions")
				newindex = len(_order)
				for (name, path) in result:
				if path:
				if path[0] == '!':
				continue
				try:
				load(ui, name, path)
				except KeyboardInterrupt:
				raise
				except Exception, inst:
				if path:
				ui.warn(_("*** failed to import extension %s from %s: %s\n")
				% (name, path, inst))
				else:
				ui.warn(_("*** failed to import extension %s: %s\n")
				% (name, inst))
				if ui.traceback():
				return 1

				for name in _order[newindex:]:
				uisetup = getattr(_extensions[name], 'uisetup', None)
				if uisetup:
				uisetup(ui)

				for name in _order[newindex:]:
				extsetup = getattr(_extensions[name], 'extsetup', None)
				if extsetup:
				try:
				extsetup(ui)
				except TypeError:
				if extsetup.func_code.co_argcount != 0:
				raise
				extsetup() # old extsetup with no ui argument

				def wrapcommand(table, command, wrapper):
				'''Wrap the command named `command' in table

				Replace command in the command table with wrapper. The wrapped command will
				be inserted into the command table specified by the table argument.

				The wrapper will be called like

				wrapper(orig, args, *kwargs)

				where orig is the original (wrapped) function, and args, *kwargs
				are the arguments passed to it.
				'''
				assert hasattr(wrapper, '__call__')
				aliases, entry = cmdutil.findcmd(command, table)
				for alias, e in table.iteritems():
				if e is entry:
				key = alias
				break

				origfn = entry[0]
				def wrap(args, *kwargs):
				return util.checksignature(wrapper)(
				util.checksignature(origfn), args, *kwargs)

				wrap.__doc__ = getattr(origfn, '__doc__')
				wrap.__module__ = getattr(origfn, '__module__')

				newentry = list(entry)
				newentry[0] = wrap
				table[key] = tuple(newentry)
				return entry

				def wrapfunction(container, funcname, wrapper):
				'''Wrap the function named funcname in container

				Replace the funcname member in the given container with the specified
				wrapper. The container is typically a module, class, or instance.

				The wrapper will be called like

				wrapper(orig, args, *kwargs)

				where orig is the original (wrapped) function, and args, *kwargs
				are the arguments passed to it.

				Wrapping methods of the repository object is not recommended since
				it conflicts with extensions that extend the repository by
				subclassing. All extensions that need to extend methods of
				localrepository should use this subclassing trick: namely,
				reposetup() should look like

				def reposetup(ui, repo):
				class myrepo(repo.__class__):
				def whatever(self, args, *kwargs):
				[...extension stuff...]
				super(myrepo, self).whatever(args, *kwargs)
				[...extension stuff...]

				repo.__class__ = myrepo

				In general, combining wrapfunction() with subclassing does not
				work. Since you cannot control what other extensions are loaded by
				your end users, you should play nicely with others by using the
				subclass trick.
				'''
				assert hasattr(wrapper, '__call__')
				def wrap(args, *kwargs):
				return wrapper(origfn, args, *kwargs)

				origfn = getattr(container, funcname)
				assert hasattr(origfn, '__call__')
				setattr(container, funcname, wrap)
				return origfn

				def _disabledpaths(strip_init=False):
				'''find paths of disabled extensions. returns a dict of {name: path}
				removes /__init__.py from packages if strip_init is True'''
				import hgext
				extpath = os.path.dirname(os.path.abspath(hgext.__file__))
				try: # might not be a filesystem path
				files = os.listdir(extpath)
				except OSError:
				return {}

				exts = {}
				for e in files:
				if e.endswith('.py'):
				name = e.rsplit('.', 1)[0]
				path = os.path.join(extpath, e)
				else:
				name = e
				path = os.path.join(extpath, e, '__init__.py')
				if not os.path.exists(path):
				continue
				if strip_init:
				path = os.path.dirname(path)
				if name in exts or name in _order or name == '__init__':
				continue
				exts[name] = path
				return exts

				def _disabledhelp(path):
				'''retrieve help synopsis of a disabled extension (without importing)'''
				try:
				file = open(path)
				except IOError:
				return
				else:
				doc = help.moduledoc(file)
				file.close()

				if doc: # extracting localized synopsis
				return gettext(doc).splitlines()[0]
				else:
				return _('(no help text available)')

				def disabled():
				'''find disabled extensions from hgext
				returns a dict of {name: desc}, and the max name length'''

				paths = _disabledpaths()
				if not paths:
				return None, 0

				exts = {}
				maxlength = 0
				for name, path in paths.iteritems():
				doc = _disabledhelp(path)
				if not doc:
				continue

				exts[name] = doc
				if len(name) > maxlength:
				maxlength = len(name)

				return exts, maxlength

				def disabledext(name):
				'''find a specific disabled extension from hgext. returns desc'''
				paths = _disabledpaths()
				if name in paths:
				return _disabledhelp(paths[name])

				def disabledcmd(cmd, strict=False):
				'''import disabled extensions until cmd is found.
				returns (cmdname, extname, doc)'''

				paths = _disabledpaths(strip_init=True)
				if not paths:
				raise error.UnknownCommand(cmd)

				def findcmd(cmd, name, path):
				try:
				mod = loadpath(path, 'hgext.%s' % name)
				except Exception:
				return
				try:
				aliases, entry = cmdutil.findcmd(cmd,
				getattr(mod, 'cmdtable', {}), strict)
				except (error.AmbiguousCommand, error.UnknownCommand):
				return
				for c in aliases:
				if c.startswith(cmd):
				cmd = c
				break
				else:
				cmd = aliases[0]
				return (cmd, name, mod)

				# first, search for an extension with the same name as the command
				path = paths.pop(cmd, None)
				if path:
				ext = findcmd(cmd, cmd, path)
				if ext:
				return ext

				# otherwise, interrogate each extension until there's a match
				for name, path in paths.iteritems():
				ext = findcmd(cmd, name, path)
				if ext:
				return ext

				raise error.UnknownCommand(cmd)

				def enabled():
				'''return a dict of {name: desc} of extensions, and the max name length'''
				exts = {}
				maxlength = 0
				for ename, ext in extensions():
				doc = (gettext(ext.__doc__) or _('(no help text available)'))
				ename = ename.split('.')[-1]
				maxlength = max(len(ename), maxlength)
				exts[ename] = doc.splitlines()[0].strip()

				return exts, maxlength