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|
# Copyright (C) 2005, 2009 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 collections import deque
from cStringIO import StringIO
import bzrlib
from bzrlib import (
conflicts as _mod_conflicts,
delta,
osutils,
revision as _mod_revision,
rules,
symbol_versioning,
)
from bzrlib.decorators import needs_read_lock
from bzrlib.errors import BzrError, BzrCheckError, NoSuchId
from bzrlib import errors
from bzrlib.inventory import Inventory, InventoryFile
from bzrlib.inter import InterObject
from bzrlib.osutils import fingerprint_file
import bzrlib.revision
from bzrlib.symbol_versioning import deprecated_function, deprecated_in
from bzrlib.trace import mutter, note
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.
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 changes_from(self, other, want_unchanged=False, specific_files=None,
extra_trees=None, require_versioned=False, include_root=False,
want_unversioned=False):
"""Return a TreeDelta of the changes from other to this tree.
:param other: A tree to compare with.
: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 want_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: An optional boolean (defaults to False). When
supplied and True all the 'specific_files' must be versioned, or
a PathsNotVersionedError will be thrown.
:param want_unversioned: Scan for unversioned paths.
The comparison will be performed by an InterTree object looked up on
self and other.
"""
# Martin observes that Tree.changes_from returns a TreeDelta and this
# may confuse people, because the class name of the returned object is
# a synonym of the object referenced in the method name.
return InterTree.get(other, self).compare(
want_unchanged=want_unchanged,
specific_files=specific_files,
extra_trees=extra_trees,
require_versioned=require_versioned,
include_root=include_root,
want_unversioned=want_unversioned,
)
@symbol_versioning.deprecated_method(symbol_versioning.one_three)
def _iter_changes(self, *args, **kwargs):
return self.iter_changes(*args, **kwargs)
def iter_changes(self, from_tree, include_unchanged=False,
specific_files=None, pb=None, extra_trees=None,
require_versioned=True, want_unversioned=False):
intertree = InterTree.get(from_tree, self)
return intertree.iter_changes(include_unchanged, specific_files, pb,
extra_trees, require_versioned, want_unversioned=want_unversioned)
def conflicts(self):
"""Get a list of the conflicts in the tree.
Each conflict is an instance of bzrlib.conflicts.Conflict.
"""
return _mod_conflicts.ConflictList()
def extras(self):
"""For trees that can have unversioned files, return all such paths."""
return []
def get_parent_ids(self):
"""Get the parent ids for this tree.
:return: a list of parent ids. [] is returned to indicate
a tree with no parents.
:raises: BzrError if the parents are not known.
"""
raise NotImplementedError(self.get_parent_ids)
def has_filename(self, filename):
"""True if the tree has given filename."""
raise NotImplementedError(self.has_filename)
def has_id(self, file_id):
return self.inventory.has_id(file_id)
def __contains__(self, file_id):
return self.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)
def is_ignored(self, filename):
"""Check whether the filename is ignored by this tree.
:param filename: The relative filename within the tree.
:return: True if the filename is ignored.
"""
return False
def __iter__(self):
return iter(self.inventory)
def all_file_ids(self):
"""Iterate through all file ids, including ids for missing files."""
return set(self.inventory)
def id2path(self, file_id):
"""Return the path for a file id.
:raises NoSuchId:
"""
return self.inventory.id2path(file_id)
def is_control_filename(self, filename):
"""True if filename is the name of a control file in this tree.
:param filename: A filename within the tree. This is a relative path
from the root of this tree.
This is true IF and ONLY IF the filename is part of the meta data
that bzr controls in this tree. I.E. a random .bzr directory placed
on disk will not be a control file for this tree.
"""
return self.bzrdir.is_control_filename(filename)
@needs_read_lock
def iter_entries_by_dir(self, specific_file_ids=None):
"""Walk the tree in 'by_dir' order.
This will yield each entry in the tree as a (path, entry) tuple.
The order that they are yielded is:
Directories are walked in a depth-first lexicographical order,
however, whenever a directory is reached, all of its direct child
nodes are yielded in lexicographical order before yielding the
grandchildren.
For example, in the tree::
a/
b/
c
d/
e
f/
g
The yield order (ignoring root) would be::
a, f, a/b, a/d, a/b/c, a/d/e, f/g
"""
return self.inventory.iter_entries_by_dir(
specific_file_ids=specific_file_ids)
def iter_references(self):
for path, entry in self.iter_entries_by_dir():
if entry.kind == 'tree-reference':
yield path, entry.file_id
def kind(self, file_id):
raise NotImplementedError("Tree subclass %s must implement kind"
% self.__class__.__name__)
def stored_kind(self, file_id):
"""File kind stored for this file_id.
May not match kind on disk for working trees. Always available
for versioned files, even when the file itself is missing.
"""
return self.kind(file_id)
def path_content_summary(self, path):
"""Get a summary of the information about path.
:param path: A relative path within the tree.
:return: A tuple containing kind, size, exec, sha1-or-link.
Kind is always present (see tree.kind()).
size is present if kind is file, None otherwise.
exec is None unless kind is file and the platform supports the 'x'
bit.
sha1-or-link is the link target if kind is symlink, or the sha1 if
it can be obtained without reading the file.
"""
raise NotImplementedError(self.path_content_summary)
def get_reference_revision(self, file_id, path=None):
raise NotImplementedError("Tree subclass %s must implement "
"get_reference_revision"
% self.__class__.__name__)
def _comparison_data(self, entry, path):
"""Return a tuple of kind, executable, stat_value for a file.
entry may be None if there is no inventory entry for the file, but
path must always be supplied.
kind is None if there is no file present (even if an inventory id is
present). executable is False for non-file entries.
"""
raise NotImplementedError(self._comparison_data)
def _file_size(self, entry, stat_value):
raise NotImplementedError(self._file_size)
def _get_inventory(self):
return self._inventory
def get_file(self, file_id, path=None):
"""Return a file object for the file file_id in the tree.
If both file_id and path are defined, it is implementation defined as
to which one is used.
"""
raise NotImplementedError(self.get_file)
def get_file_text(self, file_id, path=None):
"""Return the byte content of a file.
:param file_id: The file_id of the file.
:param path: The path of the file.
If both file_id and path are supplied, an implementation may use
either one.
"""
my_file = self.get_file(file_id, path)
try:
return my_file.read()
finally:
my_file.close()
def get_file_lines(self, file_id, path=None):
"""Return the content of a file, as lines.
:param file_id: The file_id of the file.
:param path: The path of the file.
If both file_id and path are supplied, an implementation may use
either one.
"""
return osutils.split_lines(self.get_file_text(file_id, path))
def get_file_mtime(self, file_id, path=None):
"""Return the modification time for a file.
:param file_id: The handle for this file.
:param path: The path that this file can be found at.
These must point to the same object.
"""
raise NotImplementedError(self.get_file_mtime)
def get_file_size(self, file_id):
"""Return the size of a file in bytes.
This applies only to regular files. If invoked on directories or
symlinks, it will return None.
:param file_id: The file-id of the file
"""
raise NotImplementedError(self.get_file_size)
def get_file_by_path(self, path):
return self.get_file(self._inventory.path2id(path), path)
def iter_files_bytes(self, desired_files):
"""Iterate through file contents.
Files will not necessarily be returned in the order they occur in
desired_files. No specific order is guaranteed.
Yields pairs of identifier, bytes_iterator. identifier is an opaque
value supplied by the caller as part of desired_files. It should
uniquely identify the file version in the caller's context. (Examples:
an index number or a TreeTransform trans_id.)
bytes_iterator is an iterable of bytestrings for the file. The
kind of iterable and length of the bytestrings are unspecified, but for
this implementation, it is a tuple containing a single bytestring with
the complete text of the file.
:param desired_files: a list of (file_id, identifier) pairs
"""
for file_id, identifier in desired_files:
# We wrap the string in a tuple so that we can return an iterable
# of bytestrings. (Technically, a bytestring is also an iterable
# of bytestrings, but iterating through each character is not
# performant.)
cur_file = (self.get_file_text(file_id),)
yield identifier, cur_file
def get_symlink_target(self, file_id):
"""Get the target for a given file_id.
It is assumed that the caller already knows that file_id is referencing
a symlink.
:param file_id: Handle for the symlink entry.
:return: The path the symlink points to.
"""
raise NotImplementedError(self.get_symlink_target)
def get_canonical_inventory_paths(self, paths):
"""Like get_canonical_inventory_path() but works on multiple items.
:param paths: A sequence of paths relative to the root of the tree.
:return: A list of paths, with each item the corresponding input path
adjusted to account for existing elements that match case
insensitively.
"""
return list(self._yield_canonical_inventory_paths(paths))
def get_canonical_inventory_path(self, path):
"""Returns the first inventory item that case-insensitively matches path.
If a path matches exactly, it is returned. If no path matches exactly
but more than one path matches case-insensitively, it is implementation
defined which is returned.
If no path matches case-insensitively, the input path is returned, but
with as many path entries that do exist changed to their canonical
form.
If you need to resolve many names from the same tree, you should
use get_canonical_inventory_paths() to avoid O(N) behaviour.
:param path: A paths relative to the root of the tree.
:return: The input path adjusted to account for existing elements
that match case insensitively.
"""
return self._yield_canonical_inventory_paths([path]).next()
def _yield_canonical_inventory_paths(self, paths):
for path in paths:
# First, if the path as specified exists exactly, just use it.
if self.path2id(path) is not None:
yield path
continue
# go walkin...
cur_id = self.get_root_id()
cur_path = ''
bit_iter = iter(path.split("/"))
for elt in bit_iter:
lelt = elt.lower()
for child in self.iter_children(cur_id):
try:
child_base = os.path.basename(self.id2path(child))
if child_base.lower() == lelt:
cur_id = child
cur_path = osutils.pathjoin(cur_path, child_base)
break
except NoSuchId:
# before a change is committed we can see this error...
continue
else:
# got to the end of this directory and no entries matched.
# Return what matched so far, plus the rest as specified.
cur_path = osutils.pathjoin(cur_path, elt, *list(bit_iter))
break
yield cur_path
# all done.
def get_root_id(self):
"""Return the file_id for the root of this tree."""
raise NotImplementedError(self.get_root_id)
def annotate_iter(self, file_id,
default_revision=_mod_revision.CURRENT_REVISION):
"""Return an iterator of revision_id, line tuples.
For working trees (and mutable trees in general), the special
revision_id 'current:' will be used for lines that are new in this
tree, e.g. uncommitted changes.
:param file_id: The file to produce an annotated version from
:param default_revision: For lines that don't match a basis, mark them
with this revision id. Not all implementations will make use of
this value.
"""
raise NotImplementedError(self.annotate_iter)
def _get_plan_merge_data(self, file_id, other, base):
from bzrlib import merge, versionedfile
vf = versionedfile._PlanMergeVersionedFile(file_id)
last_revision_a = self._get_file_revision(file_id, vf, 'this:')
last_revision_b = other._get_file_revision(file_id, vf, 'other:')
if base is None:
last_revision_base = None
else:
last_revision_base = base._get_file_revision(file_id, vf, 'base:')
return vf, last_revision_a, last_revision_b, last_revision_base
def plan_file_merge(self, file_id, other, base=None):
"""Generate a merge plan based on annotations.
If the file contains uncommitted changes in this tree, they will be
attributed to the 'current:' pseudo-revision. If the file contains
uncommitted changes in the other tree, they will be assigned to the
'other:' pseudo-revision.
"""
data = self._get_plan_merge_data(file_id, other, base)
vf, last_revision_a, last_revision_b, last_revision_base = data
return vf.plan_merge(last_revision_a, last_revision_b,
last_revision_base)
def plan_file_lca_merge(self, file_id, other, base=None):
"""Generate a merge plan based lca-newness.
If the file contains uncommitted changes in this tree, they will be
attributed to the 'current:' pseudo-revision. If the file contains
uncommitted changes in the other tree, they will be assigned to the
'other:' pseudo-revision.
"""
data = self._get_plan_merge_data(file_id, other, base)
vf, last_revision_a, last_revision_b, last_revision_base = data
return vf.plan_lca_merge(last_revision_a, last_revision_b,
last_revision_base)
def _iter_parent_trees(self):
"""Iterate through parent trees, defaulting to Tree.revision_tree."""
for revision_id in self.get_parent_ids():
try:
yield self.revision_tree(revision_id)
except errors.NoSuchRevisionInTree:
yield self.repository.revision_tree(revision_id)
@staticmethod
def _file_revision(revision_tree, file_id):
"""Determine the revision associated with a file in a given tree."""
revision_tree.lock_read()
try:
return revision_tree.inventory[file_id].revision
finally:
revision_tree.unlock()
def _get_file_revision(self, file_id, vf, tree_revision):
"""Ensure that file_id, tree_revision is in vf to plan the merge."""
if getattr(self, '_repository', None) is None:
last_revision = tree_revision
parent_keys = [(file_id, self._file_revision(t, file_id)) for t in
self._iter_parent_trees()]
vf.add_lines((file_id, last_revision), parent_keys,
self.get_file(file_id).readlines())
repo = self.branch.repository
base_vf = repo.texts
else:
last_revision = self._file_revision(self, file_id)
base_vf = self._repository.texts
if base_vf not in vf.fallback_versionedfiles:
vf.fallback_versionedfiles.append(base_vf)
return last_revision
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 is not 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"])
@needs_read_lock
def path2id(self, path):
"""Return the id for path in this tree."""
return self._inventory.path2id(path)
def paths2ids(self, paths, trees=[], require_versioned=True):
"""Return all the ids that can be reached by walking from paths.
Each path is looked up in this tree and any extras provided in
trees, and this is repeated recursively: the children in an extra tree
of a directory that has been renamed under a provided path in this tree
are all returned, even if none exist under a provided path in this
tree, and vice versa.
:param paths: An iterable of paths to start converting to ids from.
Alternatively, if paths is None, no ids should be calculated and None
will be returned. This is offered to make calling the api unconditional
for code that *might* take a list of files.
:param trees: Additional trees to consider.
:param require_versioned: If False, do not raise NotVersionedError if
an element of paths is not versioned in this tree and all of trees.
"""
return find_ids_across_trees(paths, [self] + list(trees), require_versioned)
def iter_children(self, file_id):
entry = self.iter_entries_by_dir([file_id]).next()[1]
for child in getattr(entry, 'children', {}).itervalues():
yield child.file_id
@symbol_versioning.deprecated_method(symbol_versioning.one_six)
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 revision_tree(self, revision_id):
"""Obtain a revision tree for the revision revision_id.
The intention of this method is to allow access to possibly cached
tree data. Implementors of this method should raise NoSuchRevision if
the tree is not locally available, even if they could obtain the
tree via a repository or some other means. Callers are responsible
for finding the ultimate source for a revision tree.
:param revision_id: The revision_id of the requested tree.
:return: A Tree.
:raises: NoSuchRevision if the tree cannot be obtained.
"""
raise errors.NoSuchRevisionInTree(self, revision_id)
def unknowns(self):
"""What files are present in this tree and unknown.
:return: an iterator over the unknown files.
"""
return iter([])
def unlock(self):
pass
def filter_unversioned_files(self, paths):
"""Filter out paths that are 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)))
def walkdirs(self, prefix=""):
"""Walk the contents of this tree from path down.
This yields all the data about the contents of a directory at a time.
After each directory has been yielded, if the caller has mutated the
list to exclude some directories, they are then not descended into.
The data yielded is of the form:
((directory-relpath, directory-path-from-root, directory-fileid),
[(relpath, basename, kind, lstat, path_from_tree_root, file_id,
versioned_kind), ...]),
- directory-relpath is the containing dirs relpath from prefix
- directory-path-from-root is the containing dirs path from /
- directory-fileid is the id of the directory if it is versioned.
- relpath is the relative path within the subtree being walked.
- basename is the basename
- kind is the kind of the file now. If unknonwn then the file is not
present within the tree - but it may be recorded as versioned. See
versioned_kind.
- lstat is the stat data *if* the file was statted.
- path_from_tree_root is the path from the root of the tree.
- file_id is the file_id if the entry is versioned.
- versioned_kind is the kind of the file as last recorded in the
versioning system. If 'unknown' the file is not versioned.
One of 'kind' and 'versioned_kind' must not be 'unknown'.
:param prefix: Start walking from prefix within the tree rather than
at the root. This allows one to walk a subtree but get paths that are
relative to a tree rooted higher up.
:return: an iterator over the directory data.
"""
raise NotImplementedError(self.walkdirs)
def supports_content_filtering(self):
return False
def iter_search_rules(self, path_names, pref_names=None,
_default_searcher=rules._per_user_searcher):
"""Find the preferences for filenames in a tree.
:param path_names: an iterable of paths to find attributes for.
Paths are given relative to the root of the tree.
:param pref_names: the list of preferences to lookup - None for all
:param _default_searcher: private parameter to assist testing - don't use
:return: an iterator of tuple sequences, one per path-name.
See _RulesSearcher.get_items for details on the tuple sequence.
"""
searcher = self._get_rules_searcher(_default_searcher)
if searcher is not None:
if pref_names is not None:
for path in path_names:
yield searcher.get_selected_items(path, pref_names)
else:
for path in path_names:
yield searcher.get_items(path)
@needs_read_lock
def _get_rules_searcher(self, default_searcher):
"""Get the RulesSearcher for this tree given the default one."""
searcher = default_searcher
return searcher
######################################################################
# 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.
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?'
@deprecated_function(deprecated_in((1, 9, 0)))
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)
def find_ids_across_trees(filenames, trees, require_versioned=True):
"""Find the ids corresponding to specified filenames.
All matches in all trees will be used, and all children of matched
directories will be used.
:param filenames: The filenames to find file_ids for (if None, returns
None)
:param trees: The trees to find file_ids within
:param require_versioned: if true, all specified filenames must occur in
at least one tree.
:return: a set of file ids for the specified filenames and their children.
"""
if not filenames:
return None
specified_path_ids = _find_ids_across_trees(filenames, trees,
require_versioned)
return _find_children_across_trees(specified_path_ids, trees)
def _find_ids_across_trees(filenames, trees, require_versioned):
"""Find the ids corresponding to specified filenames.
All matches in all trees will be used, but subdirectories are not scanned.
:param filenames: The filenames to find file_ids for
:param trees: The trees to find file_ids within
:param require_versioned: if true, all specified filenames must occur in
at least one tree.
:return: a set of file ids for the specified filenames
"""
not_versioned = []
interesting_ids = set()
for tree_path in filenames:
not_found = True
for tree in trees:
file_id = tree.path2id(tree_path)
if file_id is not None:
interesting_ids.add(file_id)
not_found = False
if not_found:
not_versioned.append(tree_path)
if len(not_versioned) > 0 and require_versioned:
raise errors.PathsNotVersionedError(not_versioned)
return interesting_ids
def _find_children_across_trees(specified_ids, trees):
"""Return a set including specified ids and their children.
All matches in all trees will be used.
:param trees: The trees to find file_ids within
:return: a set containing all specified ids and their children
"""
interesting_ids = set(specified_ids)
pending = interesting_ids
# now handle children of interesting ids
# we loop so that we handle all children of each id in both trees
while len(pending) > 0:
new_pending = set()
for file_id in pending:
for tree in trees:
if not tree.has_id(file_id):
continue
for child_id in tree.iter_children(file_id):
if child_id not in interesting_ids:
new_pending.add(child_id)
interesting_ids.update(new_pending)
pending = new_pending
return interesting_ids
class InterTree(InterObject):
"""This class represents operations taking place between two Trees.
Its instances have methods like 'compare' and contain references to the
source and target trees these operations are to be carried out on.
Clients of bzrlib should not need to use InterTree directly, rather they
should use the convenience methods on Tree such as 'Tree.compare()' which
will pass through to InterTree as appropriate.
"""
_optimisers = []
@needs_read_lock
def compare(self, want_unchanged=False, specific_files=None,
extra_trees=None, require_versioned=False, include_root=False,
want_unversioned=False):
"""Return the changes from source to target.
:return: A TreeDelta.
: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 want_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: An optional boolean (defaults to False). When
supplied and True all the 'specific_files' must be versioned, or
a PathsNotVersionedError will be thrown.
:param want_unversioned: Scan for unversioned paths.
"""
# NB: show_status depends on being able to pass in non-versioned files
# and report them as unknown
trees = (self.source,)
if extra_trees is not None:
trees = trees + tuple(extra_trees)
# target is usually the newer tree:
specific_file_ids = self.target.paths2ids(specific_files, trees,
require_versioned=require_versioned)
if specific_files and not specific_file_ids:
# All files are unversioned, so just return an empty delta
# _compare_trees would think we want a complete delta
result = delta.TreeDelta()
fake_entry = InventoryFile('unused', 'unused', 'unused')
result.unversioned = [(path, None,
self.target._comparison_data(fake_entry, path)[0]) for path in
specific_files]
return result
return delta._compare_trees(self.source, self.target, want_unchanged,
specific_files, include_root, extra_trees=extra_trees,
require_versioned=require_versioned,
want_unversioned=want_unversioned)
def iter_changes(self, include_unchanged=False,
specific_files=None, pb=None, extra_trees=[],
require_versioned=True, want_unversioned=False):
"""Generate an iterator of changes between trees.
A tuple is returned:
(file_id, (path_in_source, path_in_target),
changed_content, versioned, parent, name, kind,
executable)
Changed_content is True if the file's content has changed. This
includes changes to its kind, and to a symlink's target.
versioned, parent, name, kind, executable are tuples of (from, to).
If a file is missing in a tree, its kind is None.
Iteration is done in parent-to-child order, relative to the target
tree.
There is no guarantee that all paths are in sorted order: the
requirement to expand the search due to renames may result in children
that should be found early being found late in the search, after
lexically later results have been returned.
:param require_versioned: Raise errors.PathsNotVersionedError if a
path in the specific_files list is not versioned in one of
source, target or extra_trees.
: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.
"""
result = []
lookup_trees = [self.source]
if extra_trees:
lookup_trees.extend(extra_trees)
if specific_files == []:
specific_file_ids = []
else:
specific_file_ids = self.target.paths2ids(specific_files,
lookup_trees, require_versioned=require_versioned)
if want_unversioned:
all_unversioned = sorted([(p.split('/'), p) for p in
self.target.extras()
if specific_files is None or
osutils.is_inside_any(specific_files, p)])
all_unversioned = deque(all_unversioned)
else:
all_unversioned = deque()
to_paths = {}
from_entries_by_dir = list(self.source.iter_entries_by_dir(
specific_file_ids=specific_file_ids))
from_data = dict((e.file_id, (p, e)) for p, e in from_entries_by_dir)
to_entries_by_dir = list(self.target.iter_entries_by_dir(
specific_file_ids=specific_file_ids))
num_entries = len(from_entries_by_dir) + len(to_entries_by_dir)
entry_count = 0
# the unversioned path lookup only occurs on real trees - where there
# can be extras. So the fake_entry is solely used to look up
# executable it values when execute is not supported.
fake_entry = InventoryFile('unused', 'unused', 'unused')
for to_path, to_entry in to_entries_by_dir:
while all_unversioned and all_unversioned[0][0] < to_path.split('/'):
unversioned_path = all_unversioned.popleft()
to_kind, to_executable, to_stat = \
self.target._comparison_data(fake_entry, unversioned_path[1])
yield (None, (None, unversioned_path[1]), True, (False, False),
(None, None),
(None, unversioned_path[0][-1]),
(None, to_kind),
(None, to_executable))
file_id = to_entry.file_id
to_paths[file_id] = to_path
entry_count += 1
changed_content = False
from_path, from_entry = from_data.get(file_id, (None, None))
from_versioned = (from_entry is not None)
if from_entry is not None:
from_versioned = True
from_name = from_entry.name
from_parent = from_entry.parent_id
from_kind, from_executable, from_stat = \
self.source._comparison_data(from_entry, from_path)
entry_count += 1
else:
from_versioned = False
from_kind = None
from_parent = None
from_name = None
from_executable = None
versioned = (from_versioned, True)
to_kind, to_executable, to_stat = \
self.target._comparison_data(to_entry, to_path)
kind = (from_kind, to_kind)
if kind[0] != kind[1]:
changed_content = True
elif from_kind == 'file':
from_size = self.source._file_size(from_entry, from_stat)
to_size = self.target._file_size(to_entry, to_stat)
if from_size != to_size:
changed_content = True
elif (self.source.get_file_sha1(file_id, from_path, from_stat) !=
self.target.get_file_sha1(file_id, to_path, to_stat)):
changed_content = True
elif from_kind == 'symlink':
if (self.source.get_symlink_target(file_id) !=
self.target.get_symlink_target(file_id)):
changed_content = True
elif from_kind == 'tree-reference':
if (self.source.get_reference_revision(file_id, from_path)
!= self.target.get_reference_revision(file_id, to_path)):
changed_content = True
parent = (from_parent, to_entry.parent_id)
name = (from_name, to_entry.name)
executable = (from_executable, to_executable)
if pb is not None:
pb.update('comparing files', entry_count, num_entries)
if (changed_content is not False or versioned[0] != versioned[1]
or parent[0] != parent[1] or name[0] != name[1] or
executable[0] != executable[1] or include_unchanged):
yield (file_id, (from_path, to_path), changed_content,
versioned, parent, name, kind, executable)
while all_unversioned:
# yield any trailing unversioned paths
unversioned_path = all_unversioned.popleft()
to_kind, to_executable, to_stat = \
self.target._comparison_data(fake_entry, unversioned_path[1])
yield (None, (None, unversioned_path[1]), True, (False, False),
(None, None),
(None, unversioned_path[0][-1]),
(None, to_kind),
(None, to_executable))
def get_to_path(to_entry):
if to_entry.parent_id is None:
to_path = '' # the root
else:
if to_entry.parent_id not in to_paths:
# recurse up
return get_to_path(self.target.inventory[to_entry.parent_id])
to_path = osutils.pathjoin(to_paths[to_entry.parent_id],
to_entry.name)
to_paths[to_entry.file_id] = to_path
return to_path
for path, from_entry in from_entries_by_dir:
file_id = from_entry.file_id
if file_id in to_paths:
# already returned
continue
if not file_id in self.target.all_file_ids():
# common case - paths we have not emitted are not present in
# target.
to_path = None
else:
to_path = get_to_path(self.target.inventory[file_id])
entry_count += 1
if pb is not None:
pb.update('comparing files', entry_count, num_entries)
versioned = (True, False)
parent = (from_entry.parent_id, None)
name = (from_entry.name, None)
from_kind, from_executable, stat_value = \
self.source._comparison_data(from_entry, path)
kind = (from_kind, None)
executable = (from_executable, None)
changed_content = from_kind is not None
# the parent's path is necessarily known at this point.
yield(file_id, (path, to_path), changed_content, versioned, parent,
name, kind, executable)
class MultiWalker(object):
"""Walk multiple trees simultaneously, getting combined results."""
# Note: This could be written to not assume you can do out-of-order
# lookups. Instead any nodes that don't match in all trees could be
# marked as 'deferred', and then returned in the final cleanup loop.
# For now, I think it is "nicer" to return things as close to the
# "master_tree" order as we can.
def __init__(self, master_tree, other_trees):
"""Create a new MultiWalker.
All trees being walked must implement "iter_entries_by_dir()", such
that they yield (path, object) tuples, where that object will have a
'.file_id' member, that can be used to check equality.
:param master_tree: All trees will be 'slaved' to the master_tree such
that nodes in master_tree will be used as 'first-pass' sync points.
Any nodes that aren't in master_tree will be merged in a second
pass.
:param other_trees: A list of other trees to walk simultaneously.
"""
self._master_tree = master_tree
self._other_trees = other_trees
# Keep track of any nodes that were properly processed just out of
# order, that way we don't return them at the end, we don't have to
# track *all* processed file_ids, just the out-of-order ones
self._out_of_order_processed = set()
@staticmethod
def _step_one(iterator):
"""Step an iter_entries_by_dir iterator.
:return: (has_more, path, ie)
If has_more is False, path and ie will be None.
"""
try:
path, ie = iterator.next()
except StopIteration:
return False, None, None
else:
return True, path, ie
@staticmethod
def _cmp_path_by_dirblock(path1, path2):
"""Compare two paths based on what directory they are in.
This generates a sort order, such that all children of a directory are
sorted together, and grandchildren are in the same order as the
children appear. But all grandchildren come after all children.
:param path1: first path
:param path2: the second path
:return: negative number if ``path1`` comes first,
0 if paths are equal
and a positive number if ``path2`` sorts first
"""
# Shortcut this special case
if path1 == path2:
return 0
# This is stolen from _dirstate_helpers_py.py, only switching it to
# Unicode objects. Consider using encode_utf8() and then using the
# optimized versions, or maybe writing optimized unicode versions.
if not isinstance(path1, unicode):
raise TypeError("'path1' must be a unicode string, not %s: %r"
% (type(path1), path1))
if not isinstance(path2, unicode):
raise TypeError("'path2' must be a unicode string, not %s: %r"
% (type(path2), path2))
return cmp(MultiWalker._path_to_key(path1),
MultiWalker._path_to_key(path2))
@staticmethod
def _path_to_key(path):
dirname, basename = osutils.split(path)
return (dirname.split(u'/'), basename)
def _lookup_by_file_id(self, extra_entries, other_tree, file_id):
"""Lookup an inventory entry by file_id.
This is called when an entry is missing in the normal order.
Generally this is because a file was either renamed, or it was
deleted/added. If the entry was found in the inventory and not in
extra_entries, it will be added to self._out_of_order_processed
:param extra_entries: A dictionary of {file_id: (path, ie)}. This
should be filled with entries that were found before they were
used. If file_id is present, it will be removed from the
dictionary.
:param other_tree: The Tree to search, in case we didn't find the entry
yet.
:param file_id: The file_id to look for
:return: (path, ie) if found or (None, None) if not present.
"""
if file_id in extra_entries:
return extra_entries.pop(file_id)
# TODO: Is id2path better as the first call, or is
# inventory[file_id] better as a first check?
try:
cur_path = other_tree.id2path(file_id)
except errors.NoSuchId:
cur_path = None
if cur_path is None:
return (None, None)
else:
self._out_of_order_processed.add(file_id)
cur_ie = other_tree.inventory[file_id]
return (cur_path, cur_ie)
def iter_all(self):
"""Match up the values in the different trees."""
for result in self._walk_master_tree():
yield result
self._finish_others()
for result in self._walk_others():
yield result
def _walk_master_tree(self):
"""First pass, walk all trees in lock-step.
When we are done, all nodes in the master_tree will have been
processed. _other_walkers, _other_entries, and _others_extra will be
set on 'self' for future processing.
"""
# This iterator has the most "inlining" done, because it tends to touch
# every file in the tree, while the others only hit nodes that don't
# match.
master_iterator = self._master_tree.iter_entries_by_dir()
other_walkers = [other.iter_entries_by_dir()
for other in self._other_trees]
other_entries = [self._step_one(walker) for walker in other_walkers]
# Track extra nodes in the other trees
others_extra = [{} for i in xrange(len(self._other_trees))]
master_has_more = True
step_one = self._step_one
lookup_by_file_id = self._lookup_by_file_id
out_of_order_processed = self._out_of_order_processed
while master_has_more:
(master_has_more, path, master_ie) = step_one(master_iterator)
if not master_has_more:
break
file_id = master_ie.file_id
other_values = []
other_values_append = other_values.append
next_other_entries = []
next_other_entries_append = next_other_entries.append
for idx, (other_has_more, other_path, other_ie) in enumerate(other_entries):
if not other_has_more:
other_values_append(lookup_by_file_id(
others_extra[idx], self._other_trees[idx], file_id))
next_other_entries_append((False, None, None))
elif file_id == other_ie.file_id:
# This is the critical code path, as most of the entries
# should match between most trees.
other_values_append((other_path, other_ie))
next_other_entries_append(step_one(other_walkers[idx]))
else:
# This walker did not match, step it until it either
# matches, or we know we are past the current walker.
other_walker = other_walkers[idx]
other_extra = others_extra[idx]
while (other_has_more and
self._cmp_path_by_dirblock(other_path, path) < 0):
other_file_id = other_ie.file_id
if other_file_id not in out_of_order_processed:
other_extra[other_file_id] = (other_path, other_ie)
other_has_more, other_path, other_ie = \
step_one(other_walker)
if other_has_more and other_ie.file_id == file_id:
# We ended up walking to this point, match and step
# again
other_values_append((other_path, other_ie))
other_has_more, other_path, other_ie = \
step_one(other_walker)
else:
# This record isn't in the normal order, see if it
# exists at all.
other_values_append(lookup_by_file_id(
other_extra, self._other_trees[idx], file_id))
next_other_entries_append((other_has_more, other_path,
other_ie))
other_entries = next_other_entries
# We've matched all the walkers, yield this datapoint
yield path, file_id, master_ie, other_values
self._other_walkers = other_walkers
self._other_entries = other_entries
self._others_extra = others_extra
def _finish_others(self):
"""Finish walking the other iterators, so we get all entries."""
for idx, info in enumerate(self._other_entries):
other_extra = self._others_extra[idx]
(other_has_more, other_path, other_ie) = info
while other_has_more:
other_file_id = other_ie.file_id
if other_file_id not in self._out_of_order_processed:
other_extra[other_file_id] = (other_path, other_ie)
other_has_more, other_path, other_ie = \
self._step_one(self._other_walkers[idx])
del self._other_entries
def _walk_others(self):
"""Finish up by walking all the 'deferred' nodes."""
# TODO: One alternative would be to grab all possible unprocessed
# file_ids, and then sort by path, and then yield them. That
# might ensure better ordering, in case a caller strictly
# requires parents before children.
for idx, other_extra in enumerate(self._others_extra):
others = sorted(other_extra.itervalues(),
key=lambda x: self._path_to_key(x[0]))
for other_path, other_ie in others:
file_id = other_ie.file_id
# We don't need to check out_of_order_processed here, because
# the lookup_by_file_id will be removing anything processed
# from the extras cache
other_extra.pop(file_id)
other_values = [(None, None) for i in xrange(idx)]
other_values.append((other_path, other_ie))
for alt_idx, alt_extra in enumerate(self._others_extra[idx+1:]):
alt_idx = alt_idx + idx + 1
alt_extra = self._others_extra[alt_idx]
alt_tree = self._other_trees[alt_idx]
other_values.append(self._lookup_by_file_id(
alt_extra, alt_tree, file_id))
yield other_path, file_id, None, other_values
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