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# Copyright (C) 2005 Canonical Ltd
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
"""Tree classes, representing directory at point in time.
"""
import os
from cStringIO import StringIO
import bzrlib
from bzrlib.trace import mutter, note
from bzrlib.errors import BzrError, BzrCheckError
from bzrlib.inventory import Inventory
from bzrlib.osutils import appendpath, fingerprint_file
class Tree(object):
"""Abstract file tree.
There are several subclasses:
* `WorkingTree` exists as files on disk editable by the user.
* `RevisionTree` is a tree as recorded at some point in the past.
* `EmptyTree`
Trees contain an `Inventory` object, and also know how to retrieve
file texts mentioned in the inventory, either from a working
directory or from a store.
It is possible for trees to contain files that are not described
in their inventory or vice versa; for this use `filenames()`.
Trees can be compared, etc, regardless of whether they are working
trees or versioned trees.
"""
def has_filename(self, filename):
"""True if the tree has given filename."""
raise NotImplementedError()
def has_id(self, file_id):
return self.inventory.has_id(file_id)
def has_or_had_id(self, file_id):
if file_id == self.inventory.root.file_id:
return True
return self.inventory.has_id(file_id)
__contains__ = has_id
def __iter__(self):
return iter(self.inventory)
def id2path(self, file_id):
return self.inventory.id2path(file_id)
def kind(self, file_id):
raise NotImplementedError("subclasses must implement kind")
def _get_inventory(self):
return self._inventory
def get_file_by_path(self, path):
return self.get_file(self._inventory.path2id(path))
inventory = property(_get_inventory,
doc="Inventory of this Tree")
def _check_retrieved(self, ie, f):
if not __debug__:
return
fp = fingerprint_file(f)
f.seek(0)
if ie.text_size != None:
if ie.text_size != fp['size']:
raise BzrError("mismatched size for file %r in %r" % (ie.file_id, self._store),
["inventory expects %d bytes" % ie.text_size,
"file is actually %d bytes" % fp['size'],
"store is probably damaged/corrupt"])
if ie.text_sha1 != fp['sha1']:
raise BzrError("wrong SHA-1 for file %r in %r" % (ie.file_id, self._store),
["inventory expects %s" % ie.text_sha1,
"file is actually %s" % fp['sha1'],
"store is probably damaged/corrupt"])
def print_file(self, file_id):
"""Print file with id `file_id` to stdout."""
import sys
sys.stdout.write(self.get_file_text(file_id))
def lock_read(self):
pass
def unlock(self):
pass
def filter_unversioned_files(self, paths):
"""Filter out paths that are not versioned.
:return: set of paths.
"""
# NB: we specifically *don't* call self.has_filename, because for
# WorkingTrees that can indicate files that exist on disk but that
# are not versioned.
pred = self.inventory.has_filename
return set((p for p in paths if not pred(p)))
class RevisionTree(Tree):
"""Tree viewing a previous revision.
File text can be retrieved from the text store.
TODO: Some kind of `__repr__` method, but a good one
probably means knowing the branch and revision number,
or at least passing a description to the constructor.
"""
def __init__(self, branch, inv, revision_id):
self._branch = branch
self._weave_store = branch.weave_store
self._inventory = inv
self._revision_id = revision_id
def get_weave(self, file_id):
return self._weave_store.get_weave(file_id,
self._branch.get_transaction())
def get_file_lines(self, file_id):
ie = self._inventory[file_id]
weave = self.get_weave(file_id)
return weave.get_lines(ie.revision)
def get_file_text(self, file_id):
return ''.join(self.get_file_lines(file_id))
def get_file(self, file_id):
return StringIO(self.get_file_text(file_id))
def get_file_size(self, file_id):
return self._inventory[file_id].text_size
def get_file_sha1(self, file_id):
ie = self._inventory[file_id]
if ie.kind == "file":
return ie.text_sha1
def is_executable(self, file_id):
ie = self._inventory[file_id]
if ie.kind != "file":
return None
return self._inventory[file_id].executable
def has_filename(self, filename):
return bool(self.inventory.path2id(filename))
def list_files(self):
# The only files returned by this are those from the version
for path, entry in self.inventory.iter_entries():
yield path, 'V', entry.kind, entry.file_id, entry
def get_symlink_target(self, file_id):
ie = self._inventory[file_id]
return ie.symlink_target;
def kind(self, file_id):
return self._inventory[file_id].kind
def lock_read(self):
self._branch.lock_read()
def unlock(self):
self._branch.unlock()
class EmptyTree(Tree):
def __init__(self):
self._inventory = Inventory()
def get_symlink_target(self, file_id):
return None
def has_filename(self, filename):
return False
def kind(self, file_id):
assert self._inventory[file_id].kind == "root_directory"
return "root_directory"
def list_files(self):
return iter([])
def __contains__(self, file_id):
return file_id in self._inventory
def get_file_sha1(self, file_id):
assert self._inventory[file_id].kind == "root_directory"
return None
######################################################################
# diff
# TODO: Merge these two functions into a single one that can operate
# on either a whole tree or a set of files.
# TODO: Return the diff in order by filename, not by category or in
# random order. Can probably be done by lock-stepping through the
# filenames from both trees.
def file_status(filename, old_tree, new_tree):
"""Return single-letter status, old and new names for a file.
The complexity here is in deciding how to represent renames;
many complex cases are possible.
"""
old_inv = old_tree.inventory
new_inv = new_tree.inventory
new_id = new_inv.path2id(filename)
old_id = old_inv.path2id(filename)
if not new_id and not old_id:
# easy: doesn't exist in either; not versioned at all
if new_tree.is_ignored(filename):
return 'I', None, None
else:
return '?', None, None
elif new_id:
# There is now a file of this name, great.
pass
else:
# There is no longer a file of this name, but we can describe
# what happened to the file that used to have
# this name. There are two possibilities: either it was
# deleted entirely, or renamed.
assert old_id
if new_inv.has_id(old_id):
return 'X', old_inv.id2path(old_id), new_inv.id2path(old_id)
else:
return 'D', old_inv.id2path(old_id), None
# if the file_id is new in this revision, it is added
if new_id and not old_inv.has_id(new_id):
return 'A'
# if there used to be a file of this name, but that ID has now
# disappeared, it is deleted
if old_id and not new_inv.has_id(old_id):
return 'D'
return 'wtf?'
def find_renames(old_inv, new_inv):
for file_id in old_inv:
if file_id not in new_inv:
continue
old_name = old_inv.id2path(file_id)
new_name = new_inv.id2path(file_id)
if old_name != new_name:
yield (old_name, new_name)
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