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|
# Copyright (C) 2005, 2006, 2007 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
"""WorkingTree4 format and implementation.
WorkingTree4 provides the dirstate based working tree logic.
To get a WorkingTree, call bzrdir.open_workingtree() or
WorkingTree.open(dir).
"""
from cStringIO import StringIO
import os
import sys
from bzrlib.lazy_import import lazy_import
lazy_import(globals(), """
from bisect import bisect_left
import collections
from copy import deepcopy
import errno
import itertools
import operator
import stat
from time import time
import warnings
import bzrlib
from bzrlib import (
bzrdir,
cache_utf8,
conflicts as _mod_conflicts,
debug,
delta,
dirstate,
errors,
generate_ids,
globbing,
ignores,
merge,
osutils,
revision as _mod_revision,
revisiontree,
textui,
trace,
transform,
urlutils,
xml5,
xml6,
)
import bzrlib.branch
from bzrlib.transport import get_transport
import bzrlib.ui
""")
from bzrlib import symbol_versioning
from bzrlib.decorators import needs_read_lock, needs_write_lock
from bzrlib.inventory import InventoryEntry, Inventory, ROOT_ID, entry_factory
from bzrlib.lockable_files import LockableFiles, TransportLock
from bzrlib.lockdir import LockDir
import bzrlib.mutabletree
from bzrlib.mutabletree import needs_tree_write_lock
from bzrlib.osutils import (
file_kind,
isdir,
normpath,
pathjoin,
rand_chars,
realpath,
safe_unicode,
splitpath,
)
from bzrlib.trace import mutter, note
from bzrlib.transport.local import LocalTransport
from bzrlib.tree import InterTree
from bzrlib.progress import DummyProgress, ProgressPhase
from bzrlib.revision import NULL_REVISION, CURRENT_REVISION
from bzrlib.rio import RioReader, rio_file, Stanza
from bzrlib.symbol_versioning import (deprecated_passed,
deprecated_method,
deprecated_function,
DEPRECATED_PARAMETER,
)
from bzrlib.tree import Tree
from bzrlib.workingtree import WorkingTree, WorkingTree3, WorkingTreeFormat3
# This is the Windows equivalent of ENOTDIR
# It is defined in pywin32.winerror, but we don't want a strong dependency for
# just an error code.
ERROR_PATH_NOT_FOUND = 3
ERROR_DIRECTORY = 267
class WorkingTree4(WorkingTree3):
"""This is the Format 4 working tree.
This differs from WorkingTree3 by:
- Having a consolidated internal dirstate, stored in a
randomly-accessible sorted file on disk.
- Not having a regular inventory attribute. One can be synthesized
on demand but this is expensive and should be avoided.
This is new in bzr 0.15.
"""
def __init__(self, basedir,
branch,
_control_files=None,
_format=None,
_bzrdir=None):
"""Construct a WorkingTree for basedir.
If the branch is not supplied, it is opened automatically.
If the branch is supplied, it must be the branch for this basedir.
(branch.base is not cross checked, because for remote branches that
would be meaningless).
"""
self._format = _format
self.bzrdir = _bzrdir
assert isinstance(basedir, basestring), \
"base directory %r is not a string" % basedir
basedir = safe_unicode(basedir)
mutter("opening working tree %r", basedir)
self._branch = branch
assert isinstance(self.branch, bzrlib.branch.Branch), \
"branch %r is not a Branch" % self.branch
self.basedir = realpath(basedir)
# if branch is at our basedir and is a format 6 or less
# assume all other formats have their own control files.
assert isinstance(_control_files, LockableFiles), \
"_control_files must be a LockableFiles, not %r" % _control_files
self._control_files = _control_files
self._dirty = None
#-------------
# during a read or write lock these objects are set, and are
# None the rest of the time.
self._dirstate = None
self._inventory = None
#-------------
self._setup_directory_is_tree_reference()
self._detect_case_handling()
@needs_tree_write_lock
def _add(self, files, ids, kinds):
"""See MutableTree._add."""
state = self.current_dirstate()
for f, file_id, kind in zip(files, ids, kinds):
f = f.strip('/')
if self.path2id(f):
# special case tree root handling.
if f == '' and self.path2id(f) == ROOT_ID:
state.set_path_id('', generate_ids.gen_file_id(f))
continue
if file_id is None:
file_id = generate_ids.gen_file_id(f)
# deliberately add the file with no cached stat or sha1
# - on the first access it will be gathered, and we can
# always change this once tests are all passing.
state.add(f, file_id, kind, None, '')
self._make_dirty(reset_inventory=True)
def _make_dirty(self, reset_inventory):
"""Make the tree state dirty.
:param reset_inventory: True if the cached inventory should be removed
(presuming there is one).
"""
self._dirty = True
if reset_inventory and self._inventory is not None:
self._inventory = None
@needs_tree_write_lock
def add_reference(self, sub_tree):
# use standard implementation, which calls back to self._add
#
# So we don't store the reference_revision in the working dirstate,
# it's just recorded at the moment of commit.
self._add_reference(sub_tree)
def break_lock(self):
"""Break a lock if one is present from another instance.
Uses the ui factory to ask for confirmation if the lock may be from
an active process.
This will probe the repository for its lock as well.
"""
# if the dirstate is locked by an active process, reject the break lock
# call.
try:
if self._dirstate is None:
clear = True
else:
clear = False
state = self._current_dirstate()
if state._lock_token is not None:
# we already have it locked. sheese, cant break our own lock.
raise errors.LockActive(self.basedir)
else:
try:
# try for a write lock - need permission to get one anyhow
# to break locks.
state.lock_write()
except errors.LockContention:
# oslocks fail when a process is still live: fail.
# TODO: get the locked lockdir info and give to the user to
# assist in debugging.
raise errors.LockActive(self.basedir)
else:
state.unlock()
finally:
if clear:
self._dirstate = None
self._control_files.break_lock()
self.branch.break_lock()
def _comparison_data(self, entry, path):
kind, executable, stat_value = \
WorkingTree3._comparison_data(self, entry, path)
# it looks like a plain directory, but it's really a reference -- see
# also kind()
if (self._repo_supports_tree_reference and
kind == 'directory' and
self._directory_is_tree_reference(path)):
kind = 'tree-reference'
return kind, executable, stat_value
@needs_write_lock
def commit(self, message=None, revprops=None, *args, **kwargs):
# mark the tree as dirty post commit - commit
# can change the current versioned list by doing deletes.
result = WorkingTree3.commit(self, message, revprops, *args, **kwargs)
self._make_dirty(reset_inventory=True)
return result
def current_dirstate(self):
"""Return the current dirstate object.
This is not part of the tree interface and only exposed for ease of
testing.
:raises errors.NotWriteLocked: when not in a lock.
"""
self._must_be_locked()
return self._current_dirstate()
def _current_dirstate(self):
"""Internal function that does not check lock status.
This is needed for break_lock which also needs the dirstate.
"""
if self._dirstate is not None:
return self._dirstate
local_path = self.bzrdir.get_workingtree_transport(None
).local_abspath('dirstate')
self._dirstate = dirstate.DirState.on_file(local_path)
return self._dirstate
def filter_unversioned_files(self, paths):
"""Filter out paths that are versioned.
:return: set of paths.
"""
# TODO: make a generic multi-bisect routine roughly that should list
# the paths, then process one half at a time recursively, and feed the
# results of each bisect in further still
paths = sorted(paths)
result = set()
state = self.current_dirstate()
# TODO we want a paths_to_dirblocks helper I think
for path in paths:
dirname, basename = os.path.split(path.encode('utf8'))
_, _, _, path_is_versioned = state._get_block_entry_index(
dirname, basename, 0)
if not path_is_versioned:
result.add(path)
return result
def flush(self):
"""Write all cached data to disk."""
if self._control_files._lock_mode != 'w':
raise errors.NotWriteLocked(self)
self.current_dirstate().save()
self._inventory = None
self._dirty = False
@needs_tree_write_lock
def _gather_kinds(self, files, kinds):
"""See MutableTree._gather_kinds."""
for pos, f in enumerate(files):
if kinds[pos] is None:
kinds[pos] = self._kind(f)
def _generate_inventory(self):
"""Create and set self.inventory from the dirstate object.
This is relatively expensive: we have to walk the entire dirstate.
Ideally we would not, and can deprecate this function.
"""
#: uncomment to trap on inventory requests.
# import pdb;pdb.set_trace()
state = self.current_dirstate()
state._read_dirblocks_if_needed()
root_key, current_entry = self._get_entry(path='')
current_id = root_key[2]
assert current_entry[0][0] == 'd' # directory
inv = Inventory(root_id=current_id)
# Turn some things into local variables
minikind_to_kind = dirstate.DirState._minikind_to_kind
factory = entry_factory
utf8_decode = cache_utf8._utf8_decode
inv_byid = inv._byid
# we could do this straight out of the dirstate; it might be fast
# and should be profiled - RBC 20070216
parent_ies = {'' : inv.root}
for block in state._dirblocks[1:]: # skip the root
dirname = block[0]
try:
parent_ie = parent_ies[dirname]
except KeyError:
# all the paths in this block are not versioned in this tree
continue
for key, entry in block[1]:
minikind, link_or_sha1, size, executable, stat = entry[0]
if minikind in ('a', 'r'): # absent, relocated
# a parent tree only entry
continue
name = key[1]
name_unicode = utf8_decode(name)[0]
file_id = key[2]
kind = minikind_to_kind[minikind]
inv_entry = factory[kind](file_id, name_unicode,
parent_ie.file_id)
if kind == 'file':
# This is only needed on win32, where this is the only way
# we know the executable bit.
inv_entry.executable = executable
# not strictly needed: working tree
#inv_entry.text_size = size
#inv_entry.text_sha1 = sha1
elif kind == 'directory':
# add this entry to the parent map.
parent_ies[(dirname + '/' + name).strip('/')] = inv_entry
elif kind == 'tree-reference':
assert self._repo_supports_tree_reference, \
"repository of %r " \
"doesn't support tree references " \
"required by entry %r" \
% (self, name)
inv_entry.reference_revision = link_or_sha1 or None
elif kind != 'symlink':
raise AssertionError("unknown kind %r" % kind)
# These checks cost us around 40ms on a 55k entry tree
assert file_id not in inv_byid, ('file_id %s already in'
' inventory as %s' % (file_id, inv_byid[file_id]))
assert name_unicode not in parent_ie.children
inv_byid[file_id] = inv_entry
parent_ie.children[name_unicode] = inv_entry
self._inventory = inv
def _get_entry(self, file_id=None, path=None):
"""Get the dirstate row for file_id or path.
If either file_id or path is supplied, it is used as the key to lookup.
If both are supplied, the fastest lookup is used, and an error is
raised if they do not both point at the same row.
:param file_id: An optional unicode file_id to be looked up.
:param path: An optional unicode path to be looked up.
:return: The dirstate row tuple for path/file_id, or (None, None)
"""
if file_id is None and path is None:
raise errors.BzrError('must supply file_id or path')
state = self.current_dirstate()
if path is not None:
path = path.encode('utf8')
return state._get_entry(0, fileid_utf8=file_id, path_utf8=path)
def get_file_sha1(self, file_id, path=None, stat_value=None):
# check file id is valid unconditionally.
entry = self._get_entry(file_id=file_id, path=path)
if entry[0] is None:
raise errors.NoSuchId(self, file_id)
if path is None:
path = pathjoin(entry[0][0], entry[0][1]).decode('utf8')
file_abspath = self.abspath(path)
state = self.current_dirstate()
if stat_value is None:
try:
stat_value = os.lstat(file_abspath)
except OSError, e:
if e.errno == errno.ENOENT:
return None
else:
raise
link_or_sha1 = state.update_entry(entry, file_abspath,
stat_value=stat_value)
if entry[1][0][0] == 'f':
return link_or_sha1
return None
def _get_inventory(self):
"""Get the inventory for the tree. This is only valid within a lock."""
if 'evil' in debug.debug_flags:
trace.mutter_callsite(2,
"accessing .inventory forces a size of tree translation.")
if self._inventory is not None:
return self._inventory
self._must_be_locked()
self._generate_inventory()
return self._inventory
inventory = property(_get_inventory,
doc="Inventory of this Tree")
@needs_read_lock
def get_parent_ids(self):
"""See Tree.get_parent_ids.
This implementation requests the ids list from the dirstate file.
"""
return self.current_dirstate().get_parent_ids()
def get_reference_revision(self, file_id, path=None):
# referenced tree's revision is whatever's currently there
return self.get_nested_tree(file_id, path).last_revision()
def get_nested_tree(self, file_id, path=None):
if path is None:
path = self.id2path(file_id)
# else: check file_id is at path?
return WorkingTree.open(self.abspath(path))
@needs_read_lock
def get_root_id(self):
"""Return the id of this trees root"""
return self._get_entry(path='')[0][2]
def has_id(self, file_id):
state = self.current_dirstate()
row, parents = self._get_entry(file_id=file_id)
if row is None:
return False
return osutils.lexists(pathjoin(
self.basedir, row[0].decode('utf8'), row[1].decode('utf8')))
@needs_read_lock
def id2path(self, file_id):
"Convert a file-id to a path."
state = self.current_dirstate()
entry = self._get_entry(file_id=file_id)
if entry == (None, None):
raise errors.NoSuchId(tree=self, file_id=file_id)
path_utf8 = osutils.pathjoin(entry[0][0], entry[0][1])
return path_utf8.decode('utf8')
def _is_executable_from_path_and_stat_from_basis(self, path, stat_result):
entry = self._get_entry(path=path)
if entry == (None, None):
return False # Missing entries are not executable
return entry[1][0][3] # Executable?
if not osutils.supports_executable():
def is_executable(self, file_id, path=None):
"""Test if a file is executable or not.
Note: The caller is expected to take a read-lock before calling this.
"""
entry = self._get_entry(file_id=file_id, path=path)
if entry == (None, None):
return False
return entry[1][0][3]
_is_executable_from_path_and_stat = \
_is_executable_from_path_and_stat_from_basis
else:
def is_executable(self, file_id, path=None):
"""Test if a file is executable or not.
Note: The caller is expected to take a read-lock before calling this.
"""
self._must_be_locked()
if not path:
path = self.id2path(file_id)
mode = os.lstat(self.abspath(path)).st_mode
return bool(stat.S_ISREG(mode) and stat.S_IEXEC & mode)
def all_file_ids(self):
"""See Tree.iter_all_file_ids"""
self._must_be_locked()
result = set()
for key, tree_details in self.current_dirstate()._iter_entries():
if tree_details[0][0] in ('a', 'r'): # relocated
continue
result.add(key[2])
return result
@needs_read_lock
def __iter__(self):
"""Iterate through file_ids for this tree.
file_ids are in a WorkingTree if they are in the working inventory
and the working file exists.
"""
result = []
for key, tree_details in self.current_dirstate()._iter_entries():
if tree_details[0][0] in ('a', 'r'): # absent, relocated
# not relevant to the working tree
continue
path = pathjoin(self.basedir, key[0].decode('utf8'), key[1].decode('utf8'))
if osutils.lexists(path):
result.append(key[2])
return iter(result)
def iter_references(self):
for key, tree_details in self.current_dirstate()._iter_entries():
if tree_details[0][0] in ('a', 'r'): # absent, relocated
# not relevant to the working tree
continue
if not key[1]:
# the root is not a reference.
continue
path = pathjoin(self.basedir, key[0].decode('utf8'), key[1].decode('utf8'))
try:
if self._kind(path) == 'tree-reference':
yield path, key[2]
except errors.NoSuchFile:
# path is missing on disk.
continue
def kind(self, file_id):
"""Return the kind of a file.
This is always the actual kind that's on disk, regardless of what it
was added as.
Note: The caller is expected to take a read-lock before calling this.
"""
relpath = self.id2path(file_id)
assert relpath != None, \
"path for id {%s} is None!" % file_id
return self._kind(relpath)
def _kind(self, relpath):
abspath = self.abspath(relpath)
kind = file_kind(abspath)
if (self._repo_supports_tree_reference and
kind == 'directory' and
self._directory_is_tree_reference(relpath)):
kind = 'tree-reference'
return kind
@needs_read_lock
def _last_revision(self):
"""See Mutable.last_revision."""
parent_ids = self.current_dirstate().get_parent_ids()
if parent_ids:
return parent_ids[0]
else:
return _mod_revision.NULL_REVISION
def lock_read(self):
"""See Branch.lock_read, and WorkingTree.unlock."""
self.branch.lock_read()
try:
self._control_files.lock_read()
try:
state = self.current_dirstate()
if not state._lock_token:
state.lock_read()
# set our support for tree references from the repository in
# use.
self._repo_supports_tree_reference = getattr(
self.branch.repository._format, "supports_tree_reference",
False)
except:
self._control_files.unlock()
raise
except:
self.branch.unlock()
raise
def _lock_self_write(self):
"""This should be called after the branch is locked."""
try:
self._control_files.lock_write()
try:
state = self.current_dirstate()
if not state._lock_token:
state.lock_write()
# set our support for tree references from the repository in
# use.
self._repo_supports_tree_reference = getattr(
self.branch.repository._format, "supports_tree_reference",
False)
except:
self._control_files.unlock()
raise
except:
self.branch.unlock()
raise
def lock_tree_write(self):
"""See MutableTree.lock_tree_write, and WorkingTree.unlock."""
self.branch.lock_read()
self._lock_self_write()
def lock_write(self):
"""See MutableTree.lock_write, and WorkingTree.unlock."""
self.branch.lock_write()
self._lock_self_write()
@needs_tree_write_lock
def move(self, from_paths, to_dir, after=False):
"""See WorkingTree.move()."""
result = []
if not from_paths:
return result
state = self.current_dirstate()
assert not isinstance(from_paths, basestring)
to_dir_utf8 = to_dir.encode('utf8')
to_entry_dirname, to_basename = os.path.split(to_dir_utf8)
id_index = state._get_id_index()
# check destination directory
# get the details for it
to_entry_block_index, to_entry_entry_index, dir_present, entry_present = \
state._get_block_entry_index(to_entry_dirname, to_basename, 0)
if not entry_present:
raise errors.BzrMoveFailedError('', to_dir,
errors.NotVersionedError(to_dir))
to_entry = state._dirblocks[to_entry_block_index][1][to_entry_entry_index]
# get a handle on the block itself.
to_block_index = state._ensure_block(
to_entry_block_index, to_entry_entry_index, to_dir_utf8)
to_block = state._dirblocks[to_block_index]
to_abs = self.abspath(to_dir)
if not isdir(to_abs):
raise errors.BzrMoveFailedError('',to_dir,
errors.NotADirectory(to_abs))
if to_entry[1][0][0] != 'd':
raise errors.BzrMoveFailedError('',to_dir,
errors.NotADirectory(to_abs))
if self._inventory is not None:
update_inventory = True
inv = self.inventory
to_dir_id = to_entry[0][2]
to_dir_ie = inv[to_dir_id]
else:
update_inventory = False
rollbacks = []
def move_one(old_entry, from_path_utf8, minikind, executable,
fingerprint, packed_stat, size,
to_block, to_key, to_path_utf8):
state._make_absent(old_entry)
from_key = old_entry[0]
rollbacks.append(
lambda:state.update_minimal(from_key,
minikind,
executable=executable,
fingerprint=fingerprint,
packed_stat=packed_stat,
size=size,
path_utf8=from_path_utf8))
state.update_minimal(to_key,
minikind,
executable=executable,
fingerprint=fingerprint,
packed_stat=packed_stat,
size=size,
path_utf8=to_path_utf8)
added_entry_index, _ = state._find_entry_index(to_key, to_block[1])
new_entry = to_block[1][added_entry_index]
rollbacks.append(lambda:state._make_absent(new_entry))
for from_rel in from_paths:
# from_rel is 'pathinroot/foo/bar'
from_rel_utf8 = from_rel.encode('utf8')
from_dirname, from_tail = osutils.split(from_rel)
from_dirname, from_tail_utf8 = osutils.split(from_rel_utf8)
from_entry = self._get_entry(path=from_rel)
if from_entry == (None, None):
raise errors.BzrMoveFailedError(from_rel,to_dir,
errors.NotVersionedError(path=str(from_rel)))
from_id = from_entry[0][2]
to_rel = pathjoin(to_dir, from_tail)
to_rel_utf8 = pathjoin(to_dir_utf8, from_tail_utf8)
item_to_entry = self._get_entry(path=to_rel)
if item_to_entry != (None, None):
raise errors.BzrMoveFailedError(from_rel, to_rel,
"Target is already versioned.")
if from_rel == to_rel:
raise errors.BzrMoveFailedError(from_rel, to_rel,
"Source and target are identical.")
from_missing = not self.has_filename(from_rel)
to_missing = not self.has_filename(to_rel)
if after:
move_file = False
else:
move_file = True
if to_missing:
if not move_file:
raise errors.BzrMoveFailedError(from_rel, to_rel,
errors.NoSuchFile(path=to_rel,
extra="New file has not been created yet"))
elif from_missing:
# neither path exists
raise errors.BzrRenameFailedError(from_rel, to_rel,
errors.PathsDoNotExist(paths=(from_rel, to_rel)))
else:
if from_missing: # implicitly just update our path mapping
move_file = False
elif not after:
raise errors.RenameFailedFilesExist(from_rel, to_rel)
rollbacks = []
def rollback_rename():
"""A single rename has failed, roll it back."""
# roll back everything, even if we encounter trouble doing one
# of them.
#
# TODO: at least log the other exceptions rather than just
# losing them mbp 20070307
exc_info = None
for rollback in reversed(rollbacks):
try:
rollback()
except Exception, e:
exc_info = sys.exc_info()
if exc_info:
raise exc_info[0], exc_info[1], exc_info[2]
# perform the disk move first - its the most likely failure point.
if move_file:
from_rel_abs = self.abspath(from_rel)
to_rel_abs = self.abspath(to_rel)
try:
osutils.rename(from_rel_abs, to_rel_abs)
except OSError, e:
raise errors.BzrMoveFailedError(from_rel, to_rel, e[1])
rollbacks.append(lambda: osutils.rename(to_rel_abs, from_rel_abs))
try:
# perform the rename in the inventory next if needed: its easy
# to rollback
if update_inventory:
# rename the entry
from_entry = inv[from_id]
current_parent = from_entry.parent_id
inv.rename(from_id, to_dir_id, from_tail)
rollbacks.append(
lambda: inv.rename(from_id, current_parent, from_tail))
# finally do the rename in the dirstate, which is a little
# tricky to rollback, but least likely to need it.
old_block_index, old_entry_index, dir_present, file_present = \
state._get_block_entry_index(from_dirname, from_tail_utf8, 0)
old_block = state._dirblocks[old_block_index][1]
old_entry = old_block[old_entry_index]
from_key, old_entry_details = old_entry
cur_details = old_entry_details[0]
# remove the old row
to_key = ((to_block[0],) + from_key[1:3])
minikind = cur_details[0]
move_one(old_entry, from_path_utf8=from_rel_utf8,
minikind=minikind,
executable=cur_details[3],
fingerprint=cur_details[1],
packed_stat=cur_details[4],
size=cur_details[2],
to_block=to_block,
to_key=to_key,
to_path_utf8=to_rel_utf8)
if minikind == 'd':
def update_dirblock(from_dir, to_key, to_dir_utf8):
"""Recursively update all entries in this dirblock."""
assert from_dir != '', "renaming root not supported"
from_key = (from_dir, '')
from_block_idx, present = \
state._find_block_index_from_key(from_key)
if not present:
# This is the old record, if it isn't present, then
# there is theoretically nothing to update.
# (Unless it isn't present because of lazy loading,
# but we don't do that yet)
return
from_block = state._dirblocks[from_block_idx]
to_block_index, to_entry_index, _, _ = \
state._get_block_entry_index(to_key[0], to_key[1], 0)
to_block_index = state._ensure_block(
to_block_index, to_entry_index, to_dir_utf8)
to_block = state._dirblocks[to_block_index]
# Grab a copy since move_one may update the list.
for entry in from_block[1][:]:
assert entry[0][0] == from_dir
cur_details = entry[1][0]
to_key = (to_dir_utf8, entry[0][1], entry[0][2])
from_path_utf8 = osutils.pathjoin(entry[0][0], entry[0][1])
to_path_utf8 = osutils.pathjoin(to_dir_utf8, entry[0][1])
minikind = cur_details[0]
if minikind in 'ar':
# Deleted children of a renamed directory
# Do not need to be updated.
# Children that have been renamed out of this
# directory should also not be updated
continue
move_one(entry, from_path_utf8=from_path_utf8,
minikind=minikind,
executable=cur_details[3],
fingerprint=cur_details[1],
packed_stat=cur_details[4],
size=cur_details[2],
to_block=to_block,
to_key=to_key,
to_path_utf8=to_path_utf8)
if minikind == 'd':
# We need to move all the children of this
# entry
update_dirblock(from_path_utf8, to_key,
to_path_utf8)
update_dirblock(from_rel_utf8, to_key, to_rel_utf8)
except:
rollback_rename()
raise
result.append((from_rel, to_rel))
state._dirblock_state = dirstate.DirState.IN_MEMORY_MODIFIED
self._make_dirty(reset_inventory=False)
return result
def _must_be_locked(self):
if not self._control_files._lock_count:
raise errors.ObjectNotLocked(self)
def _new_tree(self):
"""Initialize the state in this tree to be a new tree."""
self._dirty = True
@needs_read_lock
def path2id(self, path):
"""Return the id for path in this tree."""
path = path.strip('/')
entry = self._get_entry(path=path)
if entry == (None, None):
return None
return entry[0][2]
def paths2ids(self, paths, trees=[], require_versioned=True):
"""See Tree.paths2ids().
This specialisation fast-paths the case where all the trees are in the
dirstate.
"""
if paths is None:
return None
parents = self.get_parent_ids()
for tree in trees:
if not (isinstance(tree, DirStateRevisionTree) and tree._revision_id in
parents):
return super(WorkingTree4, self).paths2ids(paths, trees, require_versioned)
search_indexes = [0] + [1 + parents.index(tree._revision_id) for tree in trees]
# -- make all paths utf8 --
paths_utf8 = set()
for path in paths:
paths_utf8.add(path.encode('utf8'))
paths = paths_utf8
# -- paths is now a utf8 path set --
# -- get the state object and prepare it.
state = self.current_dirstate()
if False and (state._dirblock_state == dirstate.DirState.NOT_IN_MEMORY
and '' not in paths):
paths2ids = self._paths2ids_using_bisect
else:
paths2ids = self._paths2ids_in_memory
return paths2ids(paths, search_indexes,
require_versioned=require_versioned)
def _paths2ids_in_memory(self, paths, search_indexes,
require_versioned=True):
state = self.current_dirstate()
state._read_dirblocks_if_needed()
def _entries_for_path(path):
"""Return a list with all the entries that match path for all ids.
"""
dirname, basename = os.path.split(path)
key = (dirname, basename, '')
block_index, present = state._find_block_index_from_key(key)
if not present:
# the block which should contain path is absent.
return []
result = []
block = state._dirblocks[block_index][1]
entry_index, _ = state._find_entry_index(key, block)
# we may need to look at multiple entries at this path: walk while the paths match.
while (entry_index < len(block) and
block[entry_index][0][0:2] == key[0:2]):
result.append(block[entry_index])
entry_index += 1
return result
if require_versioned:
# -- check all supplied paths are versioned in a search tree. --
all_versioned = True
for path in paths:
path_entries = _entries_for_path(path)
if not path_entries:
# this specified path is not present at all: error
all_versioned = False
break
found_versioned = False
# for each id at this path
for entry in path_entries:
# for each tree.
for index in search_indexes:
if entry[1][index][0] != 'a': # absent
found_versioned = True
# all good: found a versioned cell
break
if not found_versioned:
# none of the indexes was not 'absent' at all ids for this
# path.
all_versioned = False
break
if not all_versioned:
raise errors.PathsNotVersionedError(paths)
# -- remove redundancy in supplied paths to prevent over-scanning --
search_paths = osutils.minimum_path_selection(paths)
# sketch:
# for all search_indexs in each path at or under each element of
# search_paths, if the detail is relocated: add the id, and add the
# relocated path as one to search if its not searched already. If the
# detail is not relocated, add the id.
searched_paths = set()
found_ids = set()
def _process_entry(entry):
"""Look at search_indexes within entry.
If a specific tree's details are relocated, add the relocation
target to search_paths if not searched already. If it is absent, do
nothing. Otherwise add the id to found_ids.
"""
for index in search_indexes:
if entry[1][index][0] == 'r': # relocated
if not osutils.is_inside_any(searched_paths, entry[1][index][1]):
search_paths.add(entry[1][index][1])
elif entry[1][index][0] != 'a': # absent
found_ids.add(entry[0][2])
while search_paths:
current_root = search_paths.pop()
searched_paths.add(current_root)
# process the entries for this containing directory: the rest will be
# found by their parents recursively.
root_entries = _entries_for_path(current_root)
if not root_entries:
# this specified path is not present at all, skip it.
continue
for entry in root_entries:
_process_entry(entry)
initial_key = (current_root, '', '')
block_index, _ = state._find_block_index_from_key(initial_key)
while (block_index < len(state._dirblocks) and
osutils.is_inside(current_root, state._dirblocks[block_index][0])):
for entry in state._dirblocks[block_index][1]:
_process_entry(entry)
block_index += 1
return found_ids
def _paths2ids_using_bisect(self, paths, search_indexes,
require_versioned=True):
state = self.current_dirstate()
found_ids = set()
split_paths = sorted(osutils.split(p) for p in paths)
found = state._bisect_recursive(split_paths)
if require_versioned:
found_dir_names = set(dir_name_id[:2] for dir_name_id in found)
for dir_name in split_paths:
if dir_name not in found_dir_names:
raise errors.PathsNotVersionedError(paths)
for dir_name_id, trees_info in found.iteritems():
for index in search_indexes:
if trees_info[index][0] not in ('r', 'a'):
found_ids.add(dir_name_id[2])
return found_ids
def read_working_inventory(self):
"""Read the working inventory.
This is a meaningless operation for dirstate, but we obey it anyhow.
"""
return self.inventory
@needs_read_lock
def revision_tree(self, revision_id):
"""See Tree.revision_tree.
WorkingTree4 supplies revision_trees for any basis tree.
"""
dirstate = self.current_dirstate()
parent_ids = dirstate.get_parent_ids()
if revision_id not in parent_ids:
raise errors.NoSuchRevisionInTree(self, revision_id)
if revision_id in dirstate.get_ghosts():
raise errors.NoSuchRevisionInTree(self, revision_id)
return DirStateRevisionTree(dirstate, revision_id,
self.branch.repository)
@needs_tree_write_lock
def set_last_revision(self, new_revision):
"""Change the last revision in the working tree."""
parents = self.get_parent_ids()
if new_revision in (NULL_REVISION, None):
assert len(parents) < 2, (
"setting the last parent to none with a pending merge is "
"unsupported.")
self.set_parent_ids([])
else:
self.set_parent_ids([new_revision] + parents[1:],
allow_leftmost_as_ghost=True)
@needs_tree_write_lock
def set_parent_ids(self, revision_ids, allow_leftmost_as_ghost=False):
"""Set the parent ids to revision_ids.
See also set_parent_trees. This api will try to retrieve the tree data
for each element of revision_ids from the trees repository. If you have
tree data already available, it is more efficient to use
set_parent_trees rather than set_parent_ids. set_parent_ids is however
an easier API to use.
:param revision_ids: The revision_ids to set as the parent ids of this
working tree. Any of these may be ghosts.
"""
trees = []
for revision_id in revision_ids:
try:
revtree = self.branch.repository.revision_tree(revision_id)
# TODO: jam 20070213 KnitVersionedFile raises
# RevisionNotPresent rather than NoSuchRevision if a
# given revision_id is not present. Should Repository be
# catching it and re-raising NoSuchRevision?
except (errors.NoSuchRevision, errors.RevisionNotPresent):
revtree = None
trees.append((revision_id, revtree))
self.set_parent_trees(trees,
allow_leftmost_as_ghost=allow_leftmost_as_ghost)
@needs_tree_write_lock
def set_parent_trees(self, parents_list, allow_leftmost_as_ghost=False):
"""Set the parents of the working tree.
:param parents_list: A list of (revision_id, tree) tuples.
If tree is None, then that element is treated as an unreachable
parent tree - i.e. a ghost.
"""
dirstate = self.current_dirstate()
if len(parents_list) > 0:
if not allow_leftmost_as_ghost and parents_list[0][1] is None:
raise errors.GhostRevisionUnusableHere(parents_list[0][0])
real_trees = []
ghosts = []
# convert absent trees to the null tree, which we convert back to
# missing on access.
for rev_id, tree in parents_list:
_mod_revision.check_not_reserved_id(rev_id)
if tree is not None:
real_trees.append((rev_id, tree))
else:
real_trees.append((rev_id,
self.branch.repository.revision_tree(None)))
ghosts.append(rev_id)
dirstate.set_parent_trees(real_trees, ghosts=ghosts)
self._make_dirty(reset_inventory=False)
def _set_root_id(self, file_id):
"""See WorkingTree.set_root_id."""
state = self.current_dirstate()
state.set_path_id('', file_id)
if state._dirblock_state == dirstate.DirState.IN_MEMORY_MODIFIED:
self._make_dirty(reset_inventory=True)
def _sha_from_stat(self, path, stat_result):
"""Get a sha digest from the tree's stat cache.
The default implementation assumes no stat cache is present.
:param path: The path.
:param stat_result: The stat result being looked up.
"""
return self.current_dirstate().sha1_from_stat(path, stat_result)
@needs_read_lock
def supports_tree_reference(self):
return self._repo_supports_tree_reference
def unlock(self):
"""Unlock in format 4 trees needs to write the entire dirstate."""
# do non-implementation specific cleanup
self._cleanup()
if self._control_files._lock_count == 1:
# eventually we should do signature checking during read locks for
# dirstate updates.
if self._control_files._lock_mode == 'w':
if self._dirty:
self.flush()
if self._dirstate is not None:
# This is a no-op if there are no modifications.
self._dirstate.save()
self._dirstate.unlock()
# TODO: jam 20070301 We shouldn't have to wipe the dirstate at this
# point. Instead, it could check if the header has been
# modified when it is locked, and if not, it can hang on to
# the data it has in memory.
self._dirstate = None
self._inventory = None
# reverse order of locking.
try:
return self._control_files.unlock()
finally:
self.branch.unlock()
@needs_tree_write_lock
def unversion(self, file_ids):
"""Remove the file ids in file_ids from the current versioned set.
When a file_id is unversioned, all of its children are automatically
unversioned.
:param file_ids: The file ids to stop versioning.
:raises: NoSuchId if any fileid is not currently versioned.
"""
if not file_ids:
return
state = self.current_dirstate()
state._read_dirblocks_if_needed()
ids_to_unversion = set(file_ids)
paths_to_unversion = set()
# sketch:
# check if the root is to be unversioned, if so, assert for now.
# walk the state marking unversioned things as absent.
# if there are any un-unversioned ids at the end, raise
for key, details in state._dirblocks[0][1]:
if (details[0][0] not in ('a', 'r') and # absent or relocated
key[2] in ids_to_unversion):
# I haven't written the code to unversion / yet - it should be
# supported.
raise errors.BzrError('Unversioning the / is not currently supported')
block_index = 0
while block_index < len(state._dirblocks):
# process one directory at a time.
block = state._dirblocks[block_index]
# first check: is the path one to remove - it or its children
delete_block = False
for path in paths_to_unversion:
if (block[0].startswith(path) and
(len(block[0]) == len(path) or
block[0][len(path)] == '/')):
# this entire block should be deleted - its the block for a
# path to unversion; or the child of one
delete_block = True
break
# TODO: trim paths_to_unversion as we pass by paths
if delete_block:
# this block is to be deleted: process it.
# TODO: we can special case the no-parents case and
# just forget the whole block.
entry_index = 0
while entry_index < len(block[1]):
# Mark this file id as having been removed
entry = block[1][entry_index]
ids_to_unversion.discard(entry[0][2])
if (entry[1][0][0] in 'ar' # don't remove absent or renamed
# entries
or not state._make_absent(entry)):
entry_index += 1
# go to the next block. (At the moment we dont delete empty
# dirblocks)
block_index += 1
continue
entry_index = 0
while entry_index < len(block[1]):
entry = block[1][entry_index]
if (entry[1][0][0] in ('a', 'r') or # absent, relocated
# ^ some parent row.
entry[0][2] not in ids_to_unversion):
# ^ not an id to unversion
entry_index += 1
continue
if entry[1][0][0] == 'd':
paths_to_unversion.add(pathjoin(entry[0][0], entry[0][1]))
if not state._make_absent(entry):
entry_index += 1
# we have unversioned this id
ids_to_unversion.remove(entry[0][2])
block_index += 1
if ids_to_unversion:
raise errors.NoSuchId(self, iter(ids_to_unversion).next())
self._make_dirty(reset_inventory=False)
# have to change the legacy inventory too.
if self._inventory is not None:
for file_id in file_ids:
self._inventory.remove_recursive_id(file_id)
@needs_tree_write_lock
def rename_one(self, from_rel, to_rel, after=False):
"""See WorkingTree.rename_one"""
self.flush()
WorkingTree.rename_one(self, from_rel, to_rel, after)
@needs_tree_write_lock
def apply_inventory_delta(self, changes):
"""See MutableTree.apply_inventory_delta"""
state = self.current_dirstate()
state.update_by_delta(changes)
self._make_dirty(reset_inventory=True)
def update_basis_by_delta(self, new_revid, delta):
"""See MutableTree.update_basis_by_delta."""
assert self.last_revision() != new_revid
self.current_dirstate().update_basis_by_delta(delta, new_revid)
@needs_read_lock
def _validate(self):
self._dirstate._validate()
@needs_tree_write_lock
def _write_inventory(self, inv):
"""Write inventory as the current inventory."""
assert not self._dirty, ("attempting to write an inventory when the "
"dirstate is dirty will cause data loss")
self.current_dirstate().set_state_from_inventory(inv)
self._make_dirty(reset_inventory=False)
if self._inventory is not None:
self._inventory = inv
self.flush()
class WorkingTreeFormat4(WorkingTreeFormat3):
"""The first consolidated dirstate working tree format.
This format:
- exists within a metadir controlling .bzr
- includes an explicit version marker for the workingtree control
files, separate from the BzrDir format
- modifies the hash cache format
- is new in bzr 0.15
- uses a LockDir to guard access to it.
"""
upgrade_recommended = False
def get_format_string(self):
"""See WorkingTreeFormat.get_format_string()."""
return "Bazaar Working Tree Format 4 (bzr 0.15)\n"
def get_format_description(self):
"""See WorkingTreeFormat.get_format_description()."""
return "Working tree format 4"
def initialize(self, a_bzrdir, revision_id=None, from_branch=None,
accelerator_tree=None, hardlink=False):
"""See WorkingTreeFormat.initialize().
:param revision_id: allows creating a working tree at a different
revision than the branch is at.
:param accelerator_tree: A tree which can be used for retrieving file
contents more quickly than the revision tree, i.e. a workingtree.
The revision tree will be used for cases where accelerator_tree's
content is different.
:param hardlink: If true, hard-link files from accelerator_tree,
where possible.
These trees get an initial random root id, if their repository supports
rich root data, TREE_ROOT otherwise.
"""
if not isinstance(a_bzrdir.transport, LocalTransport):
raise errors.NotLocalUrl(a_bzrdir.transport.base)
transport = a_bzrdir.get_workingtree_transport(self)
control_files = self._open_control_files(a_bzrdir)
control_files.create_lock()
control_files.lock_write()
control_files.put_utf8('format', self.get_format_string())
if from_branch is not None:
branch = from_branch
else:
branch = a_bzrdir.open_branch()
if revision_id is None:
revision_id = branch.last_revision()
local_path = transport.local_abspath('dirstate')
# write out new dirstate (must exist when we create the tree)
state = dirstate.DirState.initialize(local_path)
state.unlock()
del state
wt = WorkingTree4(a_bzrdir.root_transport.local_abspath('.'),
branch,
_format=self,
_bzrdir=a_bzrdir,
_control_files=control_files)
wt._new_tree()
wt.lock_tree_write()
try:
if revision_id in (None, NULL_REVISION):
if branch.repository.supports_rich_root():
wt._set_root_id(generate_ids.gen_root_id())
else:
wt._set_root_id(ROOT_ID)
wt.flush()
basis = None
# frequently, we will get here due to branching. The accelerator
# tree will be the tree from the branch, so the desired basis
# tree will often be a parent of the accelerator tree.
if accelerator_tree is not None:
try:
basis = accelerator_tree.revision_tree(revision_id)
except errors.NoSuchRevision:
pass
if basis is None:
basis = branch.repository.revision_tree(revision_id)
if revision_id == NULL_REVISION:
parents_list = []
else:
parents_list = [(revision_id, basis)]
basis.lock_read()
try:
wt.set_parent_trees(parents_list, allow_leftmost_as_ghost=True)
wt.flush()
# if the basis has a root id we have to use that; otherwise we
# use a new random one
basis_root_id = basis.get_root_id()
if basis_root_id is not None:
wt._set_root_id(basis_root_id)
wt.flush()
transform.build_tree(basis, wt, accelerator_tree,
hardlink=hardlink)
finally:
basis.unlock()
finally:
control_files.unlock()
wt.unlock()
return wt
def _open(self, a_bzrdir, control_files):
"""Open the tree itself.
:param a_bzrdir: the dir for the tree.
:param control_files: the control files for the tree.
"""
return WorkingTree4(a_bzrdir.root_transport.local_abspath('.'),
branch=a_bzrdir.open_branch(),
_format=self,
_bzrdir=a_bzrdir,
_control_files=control_files)
def __get_matchingbzrdir(self):
# please test against something that will let us do tree references
return bzrdir.format_registry.make_bzrdir(
'dirstate-with-subtree')
_matchingbzrdir = property(__get_matchingbzrdir)
class DirStateRevisionTree(Tree):
"""A revision tree pulling the inventory from a dirstate."""
def __init__(self, dirstate, revision_id, repository):
self._dirstate = dirstate
self._revision_id = revision_id
self._repository = repository
self._inventory = None
self._locked = 0
self._dirstate_locked = False
def __repr__(self):
return "<%s of %s in %s>" % \
(self.__class__.__name__, self._revision_id, self._dirstate)
def annotate_iter(self, file_id,
default_revision=_mod_revision.CURRENT_REVISION):
"""See Tree.annotate_iter"""
w = self._get_weave(file_id)
return w.annotate(self.inventory[file_id].revision)
def _get_ancestors(self, default_revision):
return set(self._repository.get_ancestry(self._revision_id,
topo_sorted=False))
def _comparison_data(self, entry, path):
"""See Tree._comparison_data."""
if entry is None:
return None, False, None
# trust the entry as RevisionTree does, but this may not be
# sensible: the entry might not have come from us?
return entry.kind, entry.executable, None
def _file_size(self, entry, stat_value):
return entry.text_size
def filter_unversioned_files(self, paths):
"""Filter out paths that are not versioned.
:return: set of paths.
"""
pred = self.has_filename
return set((p for p in paths if not pred(p)))
def get_root_id(self):
return self.path2id('')
def id2path(self, file_id):
"Convert a file-id to a path."
entry = self._get_entry(file_id=file_id)
if entry == (None, None):
raise errors.NoSuchId(tree=self, file_id=file_id)
path_utf8 = osutils.pathjoin(entry[0][0], entry[0][1])
return path_utf8.decode('utf8')
def _get_parent_index(self):
"""Return the index in the dirstate referenced by this tree."""
return self._dirstate.get_parent_ids().index(self._revision_id) + 1
def _get_entry(self, file_id=None, path=None):
"""Get the dirstate row for file_id or path.
If either file_id or path is supplied, it is used as the key to lookup.
If both are supplied, the fastest lookup is used, and an error is
raised if they do not both point at the same row.
:param file_id: An optional unicode file_id to be looked up.
:param path: An optional unicode path to be looked up.
:return: The dirstate row tuple for path/file_id, or (None, None)
"""
if file_id is None and path is None:
raise errors.BzrError('must supply file_id or path')
if path is not None:
path = path.encode('utf8')
parent_index = self._get_parent_index()
return self._dirstate._get_entry(parent_index, fileid_utf8=file_id, path_utf8=path)
def _generate_inventory(self):
"""Create and set self.inventory from the dirstate object.
(So this is only called the first time the inventory is requested for
this tree; it then remains in memory until it's out of date.)
This is relatively expensive: we have to walk the entire dirstate.
"""
assert self._locked, 'cannot generate inventory of an unlocked '\
'dirstate revision tree'
# separate call for profiling - makes it clear where the costs are.
self._dirstate._read_dirblocks_if_needed()
assert self._revision_id in self._dirstate.get_parent_ids(), \
'parent %s has disappeared from %s' % (
self._revision_id, self._dirstate.get_parent_ids())
parent_index = self._dirstate.get_parent_ids().index(self._revision_id) + 1
# This is identical now to the WorkingTree _generate_inventory except
# for the tree index use.
root_key, current_entry = self._dirstate._get_entry(parent_index, path_utf8='')
current_id = root_key[2]
assert current_entry[parent_index][0] == 'd'
inv = Inventory(root_id=current_id, revision_id=self._revision_id)
inv.root.revision = current_entry[parent_index][4]
# Turn some things into local variables
minikind_to_kind = dirstate.DirState._minikind_to_kind
factory = entry_factory
utf8_decode = cache_utf8._utf8_decode
inv_byid = inv._byid
# we could do this straight out of the dirstate; it might be fast
# and should be profiled - RBC 20070216
parent_ies = {'' : inv.root}
for block in self._dirstate._dirblocks[1:]: #skip root
dirname = block[0]
try:
parent_ie = parent_ies[dirname]
except KeyError:
# all the paths in this block are not versioned in this tree
continue
for key, entry in block[1]:
minikind, fingerprint, size, executable, revid = entry[parent_index]
if minikind in ('a', 'r'): # absent, relocated
# not this tree
continue
name = key[1]
name_unicode = utf8_decode(name)[0]
file_id = key[2]
kind = minikind_to_kind[minikind]
inv_entry = factory[kind](file_id, name_unicode,
parent_ie.file_id)
inv_entry.revision = revid
if kind == 'file':
inv_entry.executable = executable
inv_entry.text_size = size
inv_entry.text_sha1 = fingerprint
elif kind == 'directory':
parent_ies[(dirname + '/' + name).strip('/')] = inv_entry
elif kind == 'symlink':
inv_entry.executable = False
inv_entry.text_size = None
inv_entry.symlink_target = utf8_decode(fingerprint)[0]
elif kind == 'tree-reference':
inv_entry.reference_revision = fingerprint or None
else:
raise AssertionError("cannot convert entry %r into an InventoryEntry"
% entry)
# These checks cost us around 40ms on a 55k entry tree
assert file_id not in inv_byid
assert name_unicode not in parent_ie.children
inv_byid[file_id] = inv_entry
parent_ie.children[name_unicode] = inv_entry
self._inventory = inv
def get_file_mtime(self, file_id, path=None):
"""Return the modification time for this record.
We return the timestamp of the last-changed revision.
"""
# Make sure the file exists
entry = self._get_entry(file_id, path=path)
if entry == (None, None): # do we raise?
return None
parent_index = self._get_parent_index()
last_changed_revision = entry[1][parent_index][4]
return self._repository.get_revision(last_changed_revision).timestamp
def get_file_sha1(self, file_id, path=None, stat_value=None):
entry = self._get_entry(file_id=file_id, path=path)
parent_index = self._get_parent_index()
parent_details = entry[1][parent_index]
if parent_details[0] == 'f':
return parent_details[1]
return None
@symbol_versioning.deprecated_method(symbol_versioning.zero_ninety)
def get_weave(self, file_id):
return self._get_weave(file_id)
def _get_weave(self, file_id):
return self._repository.weave_store.get_weave(file_id,
self._repository.get_transaction())
def get_file(self, file_id, path=None):
return StringIO(self.get_file_text(file_id))
def get_file_lines(self, file_id):
entry = self._get_entry(file_id=file_id)[1]
if entry == None:
raise errors.NoSuchId(tree=self, file_id=file_id)
return self._get_weave(file_id).get_lines(entry[1][4])
def get_file_size(self, file_id):
return self.inventory[file_id].text_size
def get_file_text(self, file_id):
return ''.join(self.get_file_lines(file_id))
def get_reference_revision(self, file_id, path=None):
return self.inventory[file_id].reference_revision
def iter_files_bytes(self, desired_files):
"""See Tree.iter_files_bytes.
This version is implemented on top of Repository.iter_files_bytes"""
parent_index = self._get_parent_index()
repo_desired_files = []
for file_id, identifier in desired_files:
entry = self._get_entry(file_id)
if entry == (None, None):
raise errors.NoSuchId(self, file_id)
repo_desired_files.append((file_id, entry[1][parent_index][4],
identifier))
return self._repository.iter_files_bytes(repo_desired_files)
def get_symlink_target(self, file_id):
entry = self._get_entry(file_id=file_id)
parent_index = self._get_parent_index()
if entry[1][parent_index][0] != 'l':
return None
else:
# At present, none of the tree implementations supports non-ascii
# symlink targets. So we will just assume that the dirstate path is
# correct.
return entry[1][parent_index][1]
def get_revision_id(self):
"""Return the revision id for this tree."""
return self._revision_id
def _get_inventory(self):
if self._inventory is not None:
return self._inventory
self._must_be_locked()
self._generate_inventory()
return self._inventory
inventory = property(_get_inventory,
doc="Inventory of this Tree")
def get_parent_ids(self):
"""The parents of a tree in the dirstate are not cached."""
return self._repository.get_revision(self._revision_id).parent_ids
def has_filename(self, filename):
return bool(self.path2id(filename))
def kind(self, file_id):
entry = self._get_entry(file_id=file_id)[1]
if entry == None:
raise errors.NoSuchId(tree=self, file_id=file_id)
return dirstate.DirState._minikind_to_kind[entry[1][0]]
def stored_kind(self, file_id):
"""See Tree.stored_kind"""
return self.kind(file_id)
def path_content_summary(self, path):
"""See Tree.path_content_summary."""
id = self.inventory.path2id(path)
if id is None:
return ('missing', None, None, None)
entry = self._inventory[id]
kind = entry.kind
if kind == 'file':
return (kind, entry.text_size, entry.executable, entry.text_sha1)
elif kind == 'symlink':
return (kind, None, None, entry.symlink_target)
else:
return (kind, None, None, None)
def is_executable(self, file_id, path=None):
ie = self.inventory[file_id]
if ie.kind != "file":
return None
return ie.executable
def list_files(self, include_root=False):
# We use a standard implementation, because DirStateRevisionTree is
# dealing with one of the parents of the current state
inv = self._get_inventory()
entries = inv.iter_entries()
if self.inventory.root is not None and not include_root:
entries.next()
for path, entry in entries:
yield path, 'V', entry.kind, entry.file_id, entry
def lock_read(self):
"""Lock the tree for a set of operations."""
if not self._locked:
self._repository.lock_read()
if self._dirstate._lock_token is None:
self._dirstate.lock_read()
self._dirstate_locked = True
self._locked += 1
def _must_be_locked(self):
if not self._locked:
raise errors.ObjectNotLocked(self)
@needs_read_lock
def path2id(self, path):
"""Return the id for path in this tree."""
# lookup by path: faster than splitting and walking the ivnentory.
entry = self._get_entry(path=path)
if entry == (None, None):
return None
return entry[0][2]
def unlock(self):
"""Unlock, freeing any cache memory used during the lock."""
# outside of a lock, the inventory is suspect: release it.
self._locked -=1
if not self._locked:
self._inventory = None
self._locked = 0
if self._dirstate_locked:
self._dirstate.unlock()
self._dirstate_locked = False
self._repository.unlock()
def walkdirs(self, prefix=""):
# TODO: jam 20070215 This is the lazy way by using the RevisionTree
# implementation based on an inventory.
# This should be cleaned up to use the much faster Dirstate code
# So for now, we just build up the parent inventory, and extract
# it the same way RevisionTree does.
_directory = 'directory'
inv = self._get_inventory()
top_id = inv.path2id(prefix)
if top_id is None:
pending = []
else:
pending = [(prefix, top_id)]
while pending:
dirblock = []
relpath, file_id = pending.pop()
# 0 - relpath, 1- file-id
if relpath:
relroot = relpath + '/'
else:
relroot = ""
# FIXME: stash the node in pending
entry = inv[file_id]
for name, child in entry.sorted_children():
toppath = relroot + name
dirblock.append((toppath, name, child.kind, None,
child.file_id, child.kind
))
yield (relpath, entry.file_id), dirblock
# push the user specified dirs from dirblock
for dir in reversed(dirblock):
if dir[2] == _directory:
pending.append((dir[0], dir[4]))
class InterDirStateTree(InterTree):
"""Fast path optimiser for changes_from with dirstate trees.
This is used only when both trees are in the dirstate working file, and
the source is any parent within the dirstate, and the destination is
the current working tree of the same dirstate.
"""
# this could be generalized to allow comparisons between any trees in the
# dirstate, and possibly between trees stored in different dirstates.
def __init__(self, source, target):
super(InterDirStateTree, self).__init__(source, target)
if not InterDirStateTree.is_compatible(source, target):
raise Exception, "invalid source %r and target %r" % (source, target)
@staticmethod
def make_source_parent_tree(source, target):
"""Change the source tree into a parent of the target."""
revid = source.commit('record tree')
target.branch.repository.fetch(source.branch.repository, revid)
target.set_parent_ids([revid])
return target.basis_tree(), target
_matching_from_tree_format = WorkingTreeFormat4()
_matching_to_tree_format = WorkingTreeFormat4()
_test_mutable_trees_to_test_trees = make_source_parent_tree
def iter_changes(self, include_unchanged=False,
specific_files=None, pb=None, extra_trees=[],
require_versioned=True, want_unversioned=False):
"""Return the changes from source to target.
:return: An iterator that yields tuples. See InterTree.iter_changes
for details.
:param specific_files: An optional list of file paths to restrict the
comparison to. When mapping filenames to ids, all matches in all
trees (including optional extra_trees) are used, and all children of
matched directories are included.
:param include_unchanged: An optional boolean requesting the inclusion of
unchanged entries in the result.
:param extra_trees: An optional list of additional trees to use when
mapping the contents of specific_files (paths) to file_ids.
:param require_versioned: If True, all files in specific_files must be
versioned in one of source, target, extra_trees or
PathsNotVersionedError is raised.
:param want_unversioned: Should unversioned files be returned in the
output. An unversioned file is defined as one with (False, False)
for the versioned pair.
"""
utf8_decode = cache_utf8._utf8_decode
_minikind_to_kind = dirstate.DirState._minikind_to_kind
cmp_by_dirs = dirstate.cmp_by_dirs
# NB: show_status depends on being able to pass in non-versioned files
# and report them as unknown
# TODO: handle extra trees in the dirstate.
if (extra_trees or specific_files == []):
# we can't fast-path these cases (yet)
for f in super(InterDirStateTree, self).iter_changes(
include_unchanged, specific_files, pb, extra_trees,
require_versioned, want_unversioned=want_unversioned):
yield f
return
parent_ids = self.target.get_parent_ids()
assert (self.source._revision_id in parent_ids
or self.source._revision_id == NULL_REVISION), \
"revision {%s} is not stored in {%s}, but %s " \
"can only be used for trees stored in the dirstate" \
% (self.source._revision_id, self.target, self.iter_changes)
target_index = 0
if self.source._revision_id == NULL_REVISION:
source_index = None
indices = (target_index,)
else:
assert (self.source._revision_id in parent_ids), \
"Failure: source._revision_id: %s not in target.parent_ids(%s)" % (
self.source._revision_id, parent_ids)
source_index = 1 + parent_ids.index(self.source._revision_id)
indices = (source_index, target_index)
# -- make all specific_files utf8 --
if specific_files:
specific_files_utf8 = set()
for path in specific_files:
specific_files_utf8.add(path.encode('utf8'))
specific_files = specific_files_utf8
else:
specific_files = set([''])
# -- specific_files is now a utf8 path set --
# -- get the state object and prepare it.
state = self.target.current_dirstate()
state._read_dirblocks_if_needed()
def _entries_for_path(path):
"""Return a list with all the entries that match path for all ids.
"""
dirname, basename = os.path.split(path)
key = (dirname, basename, '')
block_index, present = state._find_block_index_from_key(key)
if not present:
# the block which should contain path is absent.
return []
result = []
block = state._dirblocks[block_index][1]
entry_index, _ = state._find_entry_index(key, block)
# we may need to look at multiple entries at this path: walk while the specific_files match.
while (entry_index < len(block) and
block[entry_index][0][0:2] == key[0:2]):
result.append(block[entry_index])
entry_index += 1
return result
if require_versioned:
# -- check all supplied paths are versioned in a search tree. --
all_versioned = True
for path in specific_files:
path_entries = _entries_for_path(path)
if not path_entries:
# this specified path is not present at all: error
all_versioned = False
break
found_versioned = False
# for each id at this path
for entry in path_entries:
# for each tree.
for index in indices:
if entry[1][index][0] != 'a': # absent
found_versioned = True
# all good: found a versioned cell
break
if not found_versioned:
# none of the indexes was not 'absent' at all ids for this
# path.
all_versioned = False
break
if not all_versioned:
raise errors.PathsNotVersionedError(specific_files)
# -- remove redundancy in supplied specific_files to prevent over-scanning --
search_specific_files = set()
for path in specific_files:
other_specific_files = specific_files.difference(set([path]))
if not osutils.is_inside_any(other_specific_files, path):
# this is a top level path, we must check it.
search_specific_files.add(path)
# sketch:
# compare source_index and target_index at or under each element of search_specific_files.
# follow the following comparison table. Note that we only want to do diff operations when
# the target is fdl because thats when the walkdirs logic will have exposed the pathinfo
# for the target.
# cases:
#
# Source | Target | disk | action
# r | fdlt | | add source to search, add id path move and perform
# | | | diff check on source-target
# r | fdlt | a | dangling file that was present in the basis.
# | | | ???
# r | a | | add source to search
# r | a | a |
# r | r | | this path is present in a non-examined tree, skip.
# r | r | a | this path is present in a non-examined tree, skip.
# a | fdlt | | add new id
# a | fdlt | a | dangling locally added file, skip
# a | a | | not present in either tree, skip
# a | a | a | not present in any tree, skip
# a | r | | not present in either tree at this path, skip as it
# | | | may not be selected by the users list of paths.
# a | r | a | not present in either tree at this path, skip as it
# | | | may not be selected by the users list of paths.
# fdlt | fdlt | | content in both: diff them
# fdlt | fdlt | a | deleted locally, but not unversioned - show as deleted ?
# fdlt | a | | unversioned: output deleted id for now
# fdlt | a | a | unversioned and deleted: output deleted id
# fdlt | r | | relocated in this tree, so add target to search.
# | | | Dont diff, we will see an r,fd; pair when we reach
# | | | this id at the other path.
# fdlt | r | a | relocated in this tree, so add target to search.
# | | | Dont diff, we will see an r,fd; pair when we reach
# | | | this id at the other path.
# for all search_indexs in each path at or under each element of
# search_specific_files, if the detail is relocated: add the id, and add the
# relocated path as one to search if its not searched already. If the
# detail is not relocated, add the id.
searched_specific_files = set()
NULL_PARENT_DETAILS = dirstate.DirState.NULL_PARENT_DETAILS
# Using a list so that we can access the values and change them in
# nested scope. Each one is [path, file_id, entry]
last_source_parent = [None, None]
last_target_parent = [None, None]
use_filesystem_for_exec = (sys.platform != 'win32')
# Just a sentry, so that _process_entry can say that this
# record is handled, but isn't interesting to process (unchanged)
uninteresting = object()
old_dirname_to_file_id = {}
new_dirname_to_file_id = {}
# TODO: jam 20070516 - Avoid the _get_entry lookup overhead by
# keeping a cache of directories that we have seen.
def _process_entry(entry, path_info):
"""Compare an entry and real disk to generate delta information.
:param path_info: top_relpath, basename, kind, lstat, abspath for
the path of entry. If None, then the path is considered absent.
(Perhaps we should pass in a concrete entry for this ?)
Basename is returned as a utf8 string because we expect this
tuple will be ignored, and don't want to take the time to
decode.
:return: None if these don't match
A tuple of information about the change, or
the object 'uninteresting' if these match, but are
basically identical.
"""
if source_index is None:
source_details = NULL_PARENT_DETAILS
else:
source_details = entry[1][source_index]
target_details = entry[1][target_index]
target_minikind = target_details[0]
if path_info is not None and target_minikind in 'fdlt':
assert target_index == 0
link_or_sha1 = state.update_entry(entry, abspath=path_info[4],
stat_value=path_info[3])
# The entry may have been modified by update_entry
target_details = entry[1][target_index]
target_minikind = target_details[0]
else:
link_or_sha1 = None
file_id = entry[0][2]
source_minikind = source_details[0]
if source_minikind in 'fdltr' and target_minikind in 'fdlt':
# claimed content in both: diff
# r | fdlt | | add source to search, add id path move and perform
# | | | diff check on source-target
# r | fdlt | a | dangling file that was present in the basis.
# | | | ???
if source_minikind in 'r':
# add the source to the search path to find any children it
# has. TODO ? : only add if it is a container ?
if not osutils.is_inside_any(searched_specific_files,
source_details[1]):
search_specific_files.add(source_details[1])
# generate the old path; this is needed for stating later
# as well.
old_path = source_details[1]
old_dirname, old_basename = os.path.split(old_path)
path = pathjoin(entry[0][0], entry[0][1])
old_entry = state._get_entry(source_index,
path_utf8=old_path)
# update the source details variable to be the real
# location.
if old_entry == (None, None):
raise errors.CorruptDirstate(state._filename,
"entry '%s/%s' is considered renamed from %r"
" but source does not exist\n"
"entry: %s" % (entry[0][0], entry[0][1], old_path, entry))
source_details = old_entry[1][source_index]
source_minikind = source_details[0]
else:
old_dirname = entry[0][0]
old_basename = entry[0][1]
old_path = path = None
if path_info is None:
# the file is missing on disk, show as removed.
content_change = True
target_kind = None
target_exec = False
else:
# source and target are both versioned and disk file is present.
target_kind = path_info[2]
if target_kind == 'directory':
if path is None:
old_path = path = pathjoin(old_dirname, old_basename)
new_dirname_to_file_id[path] = file_id
if source_minikind != 'd':
content_change = True
else:
# directories have no fingerprint
content_change = False
target_exec = False
elif target_kind == 'file':
if source_minikind != 'f':
content_change = True
else:
# We could check the size, but we already have the
# sha1 hash.
content_change = (link_or_sha1 != source_details[1])
# Target details is updated at update_entry time
if use_filesystem_for_exec:
# We don't need S_ISREG here, because we are sure
# we are dealing with a file.
target_exec = bool(stat.S_IEXEC & path_info[3].st_mode)
else:
target_exec = target_details[3]
elif target_kind == 'symlink':
if source_minikind != 'l':
content_change = True
else:
content_change = (link_or_sha1 != source_details[1])
target_exec = False
elif target_kind == 'tree-reference':
if source_minikind != 't':
content_change = True
else:
content_change = False
target_exec = False
else:
raise Exception, "unknown kind %s" % path_info[2]
if source_minikind == 'd':
if path is None:
old_path = path = pathjoin(old_dirname, old_basename)
old_dirname_to_file_id[old_path] = file_id
# parent id is the entry for the path in the target tree
if old_dirname == last_source_parent[0]:
source_parent_id = last_source_parent[1]
else:
try:
source_parent_id = old_dirname_to_file_id[old_dirname]
except KeyError:
source_parent_entry = state._get_entry(source_index,
path_utf8=old_dirname)
source_parent_id = source_parent_entry[0][2]
if source_parent_id == entry[0][2]:
# This is the root, so the parent is None
source_parent_id = None
else:
last_source_parent[0] = old_dirname
last_source_parent[1] = source_parent_id
new_dirname = entry[0][0]
if new_dirname == last_target_parent[0]:
target_parent_id = last_target_parent[1]
else:
try:
target_parent_id = new_dirname_to_file_id[new_dirname]
except KeyError:
# TODO: We don't always need to do the lookup, because the
# parent entry will be the same as the source entry.
target_parent_entry = state._get_entry(target_index,
path_utf8=new_dirname)
assert target_parent_entry != (None, None), (
"Could not find target parent in wt: %s\nparent of: %s"
% (new_dirname, entry))
target_parent_id = target_parent_entry[0][2]
if target_parent_id == entry[0][2]:
# This is the root, so the parent is None
target_parent_id = None
else:
last_target_parent[0] = new_dirname
last_target_parent[1] = target_parent_id
source_exec = source_details[3]
if (include_unchanged
or content_change
or source_parent_id != target_parent_id
or old_basename != entry[0][1]
or source_exec != target_exec
):
if old_path is None:
old_path = path = pathjoin(old_dirname, old_basename)
old_path_u = utf8_decode(old_path)[0]
path_u = old_path_u
else:
old_path_u = utf8_decode(old_path)[0]
if old_path == path:
path_u = old_path_u
else:
path_u = utf8_decode(path)[0]
source_kind = _minikind_to_kind[source_minikind]
return (entry[0][2],
(old_path_u, path_u),
content_change,
(True, True),
(source_parent_id, target_parent_id),
(utf8_decode(old_basename)[0], utf8_decode(entry[0][1])[0]),
(source_kind, target_kind),
(source_exec, target_exec))
else:
return uninteresting
elif source_minikind in 'a' and target_minikind in 'fdlt':
# looks like a new file
if path_info is not None:
path = pathjoin(entry[0][0], entry[0][1])
# parent id is the entry for the path in the target tree
# TODO: these are the same for an entire directory: cache em.
parent_id = state._get_entry(target_index,
path_utf8=entry[0][0])[0][2]
if parent_id == entry[0][2]:
parent_id = None
if use_filesystem_for_exec:
# We need S_ISREG here, because we aren't sure if this
# is a file or not.
target_exec = bool(
stat.S_ISREG(path_info[3].st_mode)
and stat.S_IEXEC & path_info[3].st_mode)
else:
target_exec = target_details[3]
return (entry[0][2],
(None, utf8_decode(path)[0]),
True,
(False, True),
(None, parent_id),
(None, utf8_decode(entry[0][1])[0]),
(None, path_info[2]),
(None, target_exec))
else:
# but its not on disk: we deliberately treat this as just
# never-present. (Why ?! - RBC 20070224)
pass
elif source_minikind in 'fdlt' and target_minikind in 'a':
# unversioned, possibly, or possibly not deleted: we dont care.
# if its still on disk, *and* theres no other entry at this
# path [we dont know this in this routine at the moment -
# perhaps we should change this - then it would be an unknown.
old_path = pathjoin(entry[0][0], entry[0][1])
# parent id is the entry for the path in the target tree
parent_id = state._get_entry(source_index, path_utf8=entry[0][0])[0][2]
if parent_id == entry[0][2]:
parent_id = None
return (entry[0][2],
(utf8_decode(old_path)[0], None),
True,
(True, False),
(parent_id, None),
(utf8_decode(entry[0][1])[0], None),
(_minikind_to_kind[source_minikind], None),
(source_details[3], None))
elif source_minikind in 'fdlt' and target_minikind in 'r':
# a rename; could be a true rename, or a rename inherited from
# a renamed parent. TODO: handle this efficiently. Its not
# common case to rename dirs though, so a correct but slow
# implementation will do.
if not osutils.is_inside_any(searched_specific_files, target_details[1]):
search_specific_files.add(target_details[1])
elif source_minikind in 'ra' and target_minikind in 'ra':
# neither of the selected trees contain this file,
# so skip over it. This is not currently directly tested, but
# is indirectly via test_too_much.TestCommands.test_conflicts.
pass
else:
raise AssertionError("don't know how to compare "
"source_minikind=%r, target_minikind=%r"
% (source_minikind, target_minikind))
## import pdb;pdb.set_trace()
return None
while search_specific_files:
# TODO: the pending list should be lexically sorted? the
# interface doesn't require it.
current_root = search_specific_files.pop()
current_root_unicode = current_root.decode('utf8')
searched_specific_files.add(current_root)
# process the entries for this containing directory: the rest will be
# found by their parents recursively.
root_entries = _entries_for_path(current_root)
root_abspath = self.target.abspath(current_root_unicode)
try:
root_stat = os.lstat(root_abspath)
except OSError, e:
if e.errno == errno.ENOENT:
# the path does not exist: let _process_entry know that.
root_dir_info = None
else:
# some other random error: hand it up.
raise
else:
root_dir_info = ('', current_root,
osutils.file_kind_from_stat_mode(root_stat.st_mode), root_stat,
root_abspath)
if root_dir_info[2] == 'directory':
if self.target._directory_is_tree_reference(
current_root.decode('utf8')):
root_dir_info = root_dir_info[:2] + \
('tree-reference',) + root_dir_info[3:]
if not root_entries and not root_dir_info:
# this specified path is not present at all, skip it.
continue
path_handled = False
for entry in root_entries:
result = _process_entry(entry, root_dir_info)
if result is not None:
path_handled = True
if result is not uninteresting:
yield result
if want_unversioned and not path_handled and root_dir_info:
new_executable = bool(
stat.S_ISREG(root_dir_info[3].st_mode)
and stat.S_IEXEC & root_dir_info[3].st_mode)
yield (None,
(None, current_root_unicode),
True,
(False, False),
(None, None),
(None, splitpath(current_root_unicode)[-1]),
(None, root_dir_info[2]),
(None, new_executable)
)
initial_key = (current_root, '', '')
block_index, _ = state._find_block_index_from_key(initial_key)
if block_index == 0:
# we have processed the total root already, but because the
# initial key matched it we should skip it here.
block_index +=1
if root_dir_info and root_dir_info[2] == 'tree-reference':
current_dir_info = None
else:
dir_iterator = osutils._walkdirs_utf8(root_abspath, prefix=current_root)
try:
current_dir_info = dir_iterator.next()
except OSError, e:
# on win32, python2.4 has e.errno == ERROR_DIRECTORY, but
# python 2.5 has e.errno == EINVAL,
# and e.winerror == ERROR_DIRECTORY
e_winerror = getattr(e, 'winerror', None)
win_errors = (ERROR_DIRECTORY, ERROR_PATH_NOT_FOUND)
# there may be directories in the inventory even though
# this path is not a file on disk: so mark it as end of
# iterator
if e.errno in (errno.ENOENT, errno.ENOTDIR, errno.EINVAL):
current_dir_info = None
elif (sys.platform == 'win32'
and (e.errno in win_errors
or e_winerror in win_errors)):
current_dir_info = None
else:
raise
else:
if current_dir_info[0][0] == '':
# remove .bzr from iteration
bzr_index = bisect_left(current_dir_info[1], ('.bzr',))
assert current_dir_info[1][bzr_index][0] == '.bzr'
del current_dir_info[1][bzr_index]
# walk until both the directory listing and the versioned metadata
# are exhausted.
if (block_index < len(state._dirblocks) and
osutils.is_inside(current_root, state._dirblocks[block_index][0])):
current_block = state._dirblocks[block_index]
else:
current_block = None
while (current_dir_info is not None or
current_block is not None):
if (current_dir_info and current_block
and current_dir_info[0][0] != current_block[0]):
if cmp_by_dirs(current_dir_info[0][0], current_block[0]) < 0:
# filesystem data refers to paths not covered by the dirblock.
# this has two possibilities:
# A) it is versioned but empty, so there is no block for it
# B) it is not versioned.
# if (A) then we need to recurse into it to check for
# new unknown files or directories.
# if (B) then we should ignore it, because we don't
# recurse into unknown directories.
path_index = 0
while path_index < len(current_dir_info[1]):
current_path_info = current_dir_info[1][path_index]
if want_unversioned:
if current_path_info[2] == 'directory':
if self.target._directory_is_tree_reference(
current_path_info[0].decode('utf8')):
current_path_info = current_path_info[:2] + \
('tree-reference',) + current_path_info[3:]
new_executable = bool(
stat.S_ISREG(current_path_info[3].st_mode)
and stat.S_IEXEC & current_path_info[3].st_mode)
yield (None,
(None, utf8_decode(current_path_info[0])[0]),
True,
(False, False),
(None, None),
(None, utf8_decode(current_path_info[1])[0]),
(None, current_path_info[2]),
(None, new_executable))
# dont descend into this unversioned path if it is
# a dir
if current_path_info[2] in ('directory',
'tree-reference'):
del current_dir_info[1][path_index]
path_index -= 1
path_index += 1
# This dir info has been handled, go to the next
try:
current_dir_info = dir_iterator.next()
except StopIteration:
current_dir_info = None
else:
# We have a dirblock entry for this location, but there
# is no filesystem path for this. This is most likely
# because a directory was removed from the disk.
# We don't have to report the missing directory,
# because that should have already been handled, but we
# need to handle all of the files that are contained
# within.
for current_entry in current_block[1]:
# entry referring to file not present on disk.
# advance the entry only, after processing.
result = _process_entry(current_entry, None)
if result is not None:
if result is not uninteresting:
yield result
block_index +=1
if (block_index < len(state._dirblocks) and
osutils.is_inside(current_root,
state._dirblocks[block_index][0])):
current_block = state._dirblocks[block_index]
else:
current_block = None
continue
entry_index = 0
if current_block and entry_index < len(current_block[1]):
current_entry = current_block[1][entry_index]
else:
current_entry = None
advance_entry = True
path_index = 0
if current_dir_info and path_index < len(current_dir_info[1]):
current_path_info = current_dir_info[1][path_index]
if current_path_info[2] == 'directory':
if self.target._directory_is_tree_reference(
current_path_info[0].decode('utf8')):
current_path_info = current_path_info[:2] + \
('tree-reference',) + current_path_info[3:]
else:
current_path_info = None
advance_path = True
path_handled = False
while (current_entry is not None or
current_path_info is not None):
if current_entry is None:
# the check for path_handled when the path is adnvaced
# will yield this path if needed.
pass
elif current_path_info is None:
# no path is fine: the per entry code will handle it.
result = _process_entry(current_entry, current_path_info)
if result is not None:
if result is not uninteresting:
yield result
elif (current_entry[0][1] != current_path_info[1]
or current_entry[1][target_index][0] in 'ar'):
# The current path on disk doesn't match the dirblock
# record. Either the dirblock is marked as absent, or
# the file on disk is not present at all in the
# dirblock. Either way, report about the dirblock
# entry, and let other code handle the filesystem one.
# Compare the basename for these files to determine
# which comes first
if current_path_info[1] < current_entry[0][1]:
# extra file on disk: pass for now, but only
# increment the path, not the entry
advance_entry = False
else:
# entry referring to file not present on disk.
# advance the entry only, after processing.
result = _process_entry(current_entry, None)
if result is not None:
if result is not uninteresting:
yield result
advance_path = False
else:
result = _process_entry(current_entry, current_path_info)
if result is not None:
path_handled = True
if result is not uninteresting:
yield result
if advance_entry and current_entry is not None:
entry_index += 1
if entry_index < len(current_block[1]):
current_entry = current_block[1][entry_index]
else:
current_entry = None
else:
advance_entry = True # reset the advance flaga
if advance_path and current_path_info is not None:
if not path_handled:
# unversioned in all regards
if want_unversioned:
new_executable = bool(
stat.S_ISREG(current_path_info[3].st_mode)
and stat.S_IEXEC & current_path_info[3].st_mode)
yield (None,
(None, utf8_decode(current_path_info[0])[0]),
True,
(False, False),
(None, None),
(None, utf8_decode(current_path_info[1])[0]),
(None, current_path_info[2]),
(None, new_executable))
# dont descend into this unversioned path if it is
# a dir
if current_path_info[2] in ('directory'):
del current_dir_info[1][path_index]
path_index -= 1
# dont descend the disk iterator into any tree
# paths.
if current_path_info[2] == 'tree-reference':
del current_dir_info[1][path_index]
path_index -= 1
path_index += 1
if path_index < len(current_dir_info[1]):
current_path_info = current_dir_info[1][path_index]
if current_path_info[2] == 'directory':
if self.target._directory_is_tree_reference(
current_path_info[0].decode('utf8')):
current_path_info = current_path_info[:2] + \
('tree-reference',) + current_path_info[3:]
else:
current_path_info = None
path_handled = False
else:
advance_path = True # reset the advance flagg.
if current_block is not None:
block_index += 1
if (block_index < len(state._dirblocks) and
osutils.is_inside(current_root, state._dirblocks[block_index][0])):
current_block = state._dirblocks[block_index]
else:
current_block = None
if current_dir_info is not None:
try:
current_dir_info = dir_iterator.next()
except StopIteration:
current_dir_info = None
@staticmethod
def is_compatible(source, target):
# the target must be a dirstate working tree
if not isinstance(target, WorkingTree4):
return False
# the source must be a revtreee or dirstate rev tree.
if not isinstance(source,
(revisiontree.RevisionTree, DirStateRevisionTree)):
return False
# the source revid must be in the target dirstate
if not (source._revision_id == NULL_REVISION or
source._revision_id in target.get_parent_ids()):
# TODO: what about ghosts? it may well need to
# check for them explicitly.
return False
return True
InterTree.register_optimiser(InterDirStateTree)
class Converter3to4(object):
"""Perform an in-place upgrade of format 3 to format 4 trees."""
def __init__(self):
self.target_format = WorkingTreeFormat4()
def convert(self, tree):
# lock the control files not the tree, so that we dont get tree
# on-unlock behaviours, and so that noone else diddles with the
# tree during upgrade.
tree._control_files.lock_write()
try:
tree.read_working_inventory()
self.create_dirstate_data(tree)
self.update_format(tree)
self.remove_xml_files(tree)
finally:
tree._control_files.unlock()
def create_dirstate_data(self, tree):
"""Create the dirstate based data for tree."""
local_path = tree.bzrdir.get_workingtree_transport(None
).local_abspath('dirstate')
state = dirstate.DirState.from_tree(tree, local_path)
state.save()
state.unlock()
def remove_xml_files(self, tree):
"""Remove the oldformat 3 data."""
transport = tree.bzrdir.get_workingtree_transport(None)
for path in ['basis-inventory-cache', 'inventory', 'last-revision',
'pending-merges', 'stat-cache']:
try:
transport.delete(path)
except errors.NoSuchFile:
# some files are optional - just deal.
pass
def update_format(self, tree):
"""Change the format marker."""
tree._control_files.put_utf8('format',
self.target_format.get_format_string())
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