855
1080
descend(child_ie, child_path)
856
1081
descend(self.root, u'')
859
def path2id(self, relpath):
860
"""Walk down through directories to return entry of last component.
862
:param relpath: may be either a list of path components, or a single
863
string, in which case it is automatically split.
865
This returns the entry of the last component in the path,
866
which may be either a file or a directory.
868
Returns None IFF the path is not found.
870
if isinstance(relpath, basestring):
871
names = osutils.splitpath(relpath)
877
except errors.NoSuchId:
878
# root doesn't exist yet so nothing else can
884
children = getattr(parent, 'children', None)
893
return parent.file_id
895
def filter(self, specific_fileids):
896
"""Get an inventory view filtered against a set of file-ids.
898
Children of directories and parents are included.
900
The result may or may not reference the underlying inventory
901
so it should be treated as immutable.
903
interesting_parents = set()
904
for fileid in specific_fileids:
906
interesting_parents.update(self.get_idpath(fileid))
907
except errors.NoSuchId:
908
# This fileid is not in the inventory - that's ok
910
entries = self.iter_entries()
911
if self.root is None:
912
return Inventory(root_id=None)
913
other = Inventory(entries.next()[1].file_id)
914
other.root.revision = self.root.revision
915
other.revision_id = self.revision_id
916
directories_to_expand = set()
917
for path, entry in entries:
918
file_id = entry.file_id
919
if (file_id in specific_fileids
920
or entry.parent_id in directories_to_expand):
921
if entry.kind == 'directory':
922
directories_to_expand.add(file_id)
923
elif file_id not in interesting_parents:
925
other.add(entry.copy())
928
def get_idpath(self, file_id):
929
"""Return a list of file_ids for the path to an entry.
931
The list contains one element for each directory followed by
932
the id of the file itself. So the length of the returned list
933
is equal to the depth of the file in the tree, counting the
934
root directory as depth 1.
937
for parent in self._iter_file_id_parents(file_id):
938
p.insert(0, parent.file_id)
942
class Inventory(CommonInventory):
943
"""Mutable dict based in-memory inventory.
945
We never store the full path to a file, because renaming a directory
946
implicitly moves all of its contents. This class internally maintains a
947
lookup tree that allows the children under a directory to be
950
>>> inv = Inventory()
951
>>> inv.add(InventoryFile('123-123', 'hello.c', ROOT_ID))
952
InventoryFile('123-123', 'hello.c', parent_id='TREE_ROOT', sha1=None, len=None, revision=None)
953
>>> inv['123-123'].name
956
Id's may be looked up from paths:
958
>>> inv.path2id('hello.c')
963
There are iterators over the contents:
965
>>> [entry[0] for entry in inv.iter_entries()]
969
def __init__(self, root_id=ROOT_ID, revision_id=None):
970
"""Create or read an inventory.
972
If a working directory is specified, the inventory is read
973
from there. If the file is specified, read from that. If not,
974
the inventory is created empty.
976
The inventory is created with a default root directory, with
979
if root_id is not None:
980
self._set_root(InventoryDirectory(root_id, u'', None))
984
self.revision_id = revision_id
987
# More than one page of ouput is not useful anymore to debug
990
contents = repr(self._byid)
991
if len(contents) > max_len:
992
contents = contents[:(max_len-len(closing))] + closing
993
return "<Inventory object at %x, contents=%r>" % (id(self), contents)
995
def apply_delta(self, delta):
996
"""Apply a delta to this inventory.
998
See the inventory developers documentation for the theory behind
1001
If delta application fails the inventory is left in an indeterminate
1002
state and must not be used.
1004
:param delta: A list of changes to apply. After all the changes are
1005
applied the final inventory must be internally consistent, but it
1006
is ok to supply changes which, if only half-applied would have an
1007
invalid result - such as supplying two changes which rename two
1008
files, 'A' and 'B' with each other : [('A', 'B', 'A-id', a_entry),
1009
('B', 'A', 'B-id', b_entry)].
1011
Each change is a tuple, of the form (old_path, new_path, file_id,
1014
When new_path is None, the change indicates the removal of an entry
1015
from the inventory and new_entry will be ignored (using None is
1016
appropriate). If new_path is not None, then new_entry must be an
1017
InventoryEntry instance, which will be incorporated into the
1018
inventory (and replace any existing entry with the same file id).
1020
When old_path is None, the change indicates the addition of
1021
a new entry to the inventory.
1023
When neither new_path nor old_path are None, the change is a
1024
modification to an entry, such as a rename, reparent, kind change
1027
The children attribute of new_entry is ignored. This is because
1028
this method preserves children automatically across alterations to
1029
the parent of the children, and cases where the parent id of a
1030
child is changing require the child to be passed in as a separate
1031
change regardless. E.g. in the recursive deletion of a directory -
1032
the directory's children must be included in the delta, or the
1033
final inventory will be invalid.
1035
Note that a file_id must only appear once within a given delta.
1036
An AssertionError is raised otherwise.
1038
# Check that the delta is legal. It would be nice if this could be
1039
# done within the loops below but it's safer to validate the delta
1040
# before starting to mutate the inventory, as there isn't a rollback
1042
list(_check_delta_unique_ids(_check_delta_unique_new_paths(
1043
_check_delta_unique_old_paths(_check_delta_ids_match_entry(
1044
_check_delta_ids_are_valid(
1045
_check_delta_new_path_entry_both_or_None(
1049
# Remove all affected items which were in the original inventory,
1050
# starting with the longest paths, thus ensuring parents are examined
1051
# after their children, which means that everything we examine has no
1052
# modified children remaining by the time we examine it.
1053
for old_path, file_id in sorted(((op, f) for op, np, f, e in delta
1054
if op is not None), reverse=True):
1055
# Preserve unaltered children of file_id for later reinsertion.
1056
file_id_children = getattr(self[file_id], 'children', {})
1057
if len(file_id_children):
1058
children[file_id] = file_id_children
1059
if self.id2path(file_id) != old_path:
1060
raise errors.InconsistentDelta(old_path, file_id,
1061
"Entry was at wrong other path %r." % self.id2path(file_id))
1062
# Remove file_id and the unaltered children. If file_id is not
1063
# being deleted it will be reinserted back later.
1064
self.remove_recursive_id(file_id)
1065
# Insert all affected which should be in the new inventory, reattaching
1066
# their children if they had any. This is done from shortest path to
1067
# longest, ensuring that items which were modified and whose parents in
1068
# the resulting inventory were also modified, are inserted after their
1070
for new_path, f, new_entry in sorted((np, f, e) for op, np, f, e in
1071
delta if np is not None):
1072
if new_entry.kind == 'directory':
1073
# Pop the child which to allow detection of children whose
1074
# parents were deleted and which were not reattached to a new
1076
replacement = InventoryDirectory(new_entry.file_id,
1077
new_entry.name, new_entry.parent_id)
1078
replacement.revision = new_entry.revision
1079
replacement.children = children.pop(replacement.file_id, {})
1080
new_entry = replacement
1083
except errors.DuplicateFileId:
1084
raise errors.InconsistentDelta(new_path, new_entry.file_id,
1085
"New id is already present in target.")
1086
except AttributeError:
1087
raise errors.InconsistentDelta(new_path, new_entry.file_id,
1088
"Parent is not a directory.")
1089
if self.id2path(new_entry.file_id) != new_path:
1090
raise errors.InconsistentDelta(new_path, new_entry.file_id,
1091
"New path is not consistent with parent path.")
1093
# Get the parent id that was deleted
1094
parent_id, children = children.popitem()
1095
raise errors.InconsistentDelta("<deleted>", parent_id,
1096
"The file id was deleted but its children were not deleted.")
1098
def create_by_apply_delta(self, inventory_delta, new_revision_id,
1099
propagate_caches=False):
1100
"""See CHKInventory.create_by_apply_delta()"""
1101
new_inv = self.copy()
1102
new_inv.apply_delta(inventory_delta)
1103
new_inv.revision_id = new_revision_id
1106
def _set_root(self, ie):
1108
self._byid = {self.root.file_id: self.root}
1111
# TODO: jam 20051218 Should copy also copy the revision_id?
1112
entries = self.iter_entries()
1113
if self.root is None:
1114
return Inventory(root_id=None)
1115
other = Inventory(entries.next()[1].file_id)
1116
other.root.revision = self.root.revision
1117
# copy recursively so we know directories will be added before
1118
# their children. There are more efficient ways than this...
1119
for path, entry in entries:
1120
other.add(entry.copy())
1123
def _get_mutable_inventory(self):
1124
"""See CommonInventory._get_mutable_inventory."""
1125
return copy.deepcopy(self)
1128
"""Iterate over all file-ids."""
1129
return iter(self._byid)
1131
def iter_just_entries(self):
1132
"""Iterate over all entries.
1134
Unlike iter_entries(), just the entries are returned (not (path, ie))
1135
and the order of entries is undefined.
1084
def __contains__(self, file_id):
1085
"""True if this entry contains a file with given id.
1137
XXX: We may not want to merge this into bzr.dev.
1087
>>> inv = Inventory()
1088
>>> inv.add(InventoryFile('123', 'foo.c', ROOT_ID))
1089
InventoryFile('123', 'foo.c', parent_id='TREE_ROOT', sha1=None, len=None)
1139
if self.root is None:
1141
for _, ie in self._byid.iteritems():
1145
"""Returns number of entries."""
1146
return len(self._byid)
1095
file_id = osutils.safe_file_id(file_id)
1096
return (file_id in self._byid)
1148
1098
def __getitem__(self, file_id):
1149
1099
"""Return the entry for given file_id.
1151
1101
>>> inv = Inventory()
1152
1102
>>> inv.add(InventoryFile('123123', 'hello.c', ROOT_ID))
1153
InventoryFile('123123', 'hello.c', parent_id='TREE_ROOT', sha1=None, len=None, revision=None)
1103
InventoryFile('123123', 'hello.c', parent_id='TREE_ROOT', sha1=None, len=None)
1154
1104
>>> inv['123123'].name
1107
file_id = osutils.safe_file_id(file_id)
1158
1109
return self._byid[file_id]
1159
1110
except KeyError:
1359
1362
del old_parent.children[file_ie.name]
1360
1363
new_parent.children[new_name] = file_ie
1362
1365
file_ie.name = new_name
1363
1366
file_ie.parent_id = new_parent_id
1365
1368
def is_root(self, file_id):
1369
file_id = osutils.safe_file_id(file_id)
1366
1370
return self.root is not None and file_id == self.root.file_id
1369
class CHKInventory(CommonInventory):
1370
"""An inventory persisted in a CHK store.
1372
By design, a CHKInventory is immutable so many of the methods
1373
supported by Inventory - add, rename, apply_delta, etc - are *not*
1374
supported. To create a new CHKInventory, use create_by_apply_delta()
1375
or from_inventory(), say.
1377
Internally, a CHKInventory has one or two CHKMaps:
1379
* id_to_entry - a map from (file_id,) => InventoryEntry as bytes
1380
* parent_id_basename_to_file_id - a map from (parent_id, basename_utf8)
1383
The second map is optional and not present in early CHkRepository's.
1385
No caching is performed: every method call or item access will perform
1386
requests to the storage layer. As such, keep references to objects you
1390
def __init__(self, search_key_name):
1391
CommonInventory.__init__(self)
1392
self._fileid_to_entry_cache = {}
1393
self._path_to_fileid_cache = {}
1394
self._search_key_name = search_key_name
1397
def __eq__(self, other):
1398
"""Compare two sets by comparing their contents."""
1399
if not isinstance(other, CHKInventory):
1400
return NotImplemented
1402
this_key = self.id_to_entry.key()
1403
other_key = other.id_to_entry.key()
1404
this_pid_key = self.parent_id_basename_to_file_id.key()
1405
other_pid_key = other.parent_id_basename_to_file_id.key()
1406
if None in (this_key, this_pid_key, other_key, other_pid_key):
1408
return this_key == other_key and this_pid_key == other_pid_key
1410
def _entry_to_bytes(self, entry):
1411
"""Serialise entry as a single bytestring.
1413
:param Entry: An inventory entry.
1414
:return: A bytestring for the entry.
1417
ENTRY ::= FILE | DIR | SYMLINK | TREE
1418
FILE ::= "file: " COMMON SEP SHA SEP SIZE SEP EXECUTABLE
1419
DIR ::= "dir: " COMMON
1420
SYMLINK ::= "symlink: " COMMON SEP TARGET_UTF8
1421
TREE ::= "tree: " COMMON REFERENCE_REVISION
1422
COMMON ::= FILE_ID SEP PARENT_ID SEP NAME_UTF8 SEP REVISION
1425
if entry.parent_id is not None:
1426
parent_str = entry.parent_id
1429
name_str = entry.name.encode("utf8")
1430
if entry.kind == 'file':
1431
if entry.executable:
1435
return "file: %s\n%s\n%s\n%s\n%s\n%d\n%s" % (
1436
entry.file_id, parent_str, name_str, entry.revision,
1437
entry.text_sha1, entry.text_size, exec_str)
1438
elif entry.kind == 'directory':
1439
return "dir: %s\n%s\n%s\n%s" % (
1440
entry.file_id, parent_str, name_str, entry.revision)
1441
elif entry.kind == 'symlink':
1442
return "symlink: %s\n%s\n%s\n%s\n%s" % (
1443
entry.file_id, parent_str, name_str, entry.revision,
1444
entry.symlink_target.encode("utf8"))
1445
elif entry.kind == 'tree-reference':
1446
return "tree: %s\n%s\n%s\n%s\n%s" % (
1447
entry.file_id, parent_str, name_str, entry.revision,
1448
entry.reference_revision)
1450
raise ValueError("unknown kind %r" % entry.kind)
1452
def _expand_fileids_to_parents_and_children(self, file_ids):
1453
"""Give a more wholistic view starting with the given file_ids.
1455
For any file_id which maps to a directory, we will include all children
1456
of that directory. We will also include all directories which are
1457
parents of the given file_ids, but we will not include their children.
1464
fringle # fringle-id
1468
if given [foo-id] we will include
1469
TREE_ROOT as interesting parents
1471
foo-id, baz-id, frob-id, fringle-id
1475
# TODO: Pre-pass over the list of fileids to see if anything is already
1476
# deserialized in self._fileid_to_entry_cache
1478
directories_to_expand = set()
1479
children_of_parent_id = {}
1480
# It is okay if some of the fileids are missing
1481
for entry in self._getitems(file_ids):
1482
if entry.kind == 'directory':
1483
directories_to_expand.add(entry.file_id)
1484
interesting.add(entry.parent_id)
1485
children_of_parent_id.setdefault(entry.parent_id, []
1486
).append(entry.file_id)
1488
# Now, interesting has all of the direct parents, but not the
1489
# parents of those parents. It also may have some duplicates with
1491
remaining_parents = interesting.difference(file_ids)
1492
# When we hit the TREE_ROOT, we'll get an interesting parent of None,
1493
# but we don't actually want to recurse into that
1494
interesting.add(None) # this will auto-filter it in the loop
1495
remaining_parents.discard(None)
1496
while remaining_parents:
1497
next_parents = set()
1498
for entry in self._getitems(remaining_parents):
1499
next_parents.add(entry.parent_id)
1500
children_of_parent_id.setdefault(entry.parent_id, []
1501
).append(entry.file_id)
1502
# Remove any search tips we've already processed
1503
remaining_parents = next_parents.difference(interesting)
1504
interesting.update(remaining_parents)
1505
# We should probably also .difference(directories_to_expand)
1506
interesting.update(file_ids)
1507
interesting.discard(None)
1508
while directories_to_expand:
1509
# Expand directories by looking in the
1510
# parent_id_basename_to_file_id map
1511
keys = [StaticTuple(f,).intern() for f in directories_to_expand]
1512
directories_to_expand = set()
1513
items = self.parent_id_basename_to_file_id.iteritems(keys)
1514
next_file_ids = set([item[1] for item in items])
1515
next_file_ids = next_file_ids.difference(interesting)
1516
interesting.update(next_file_ids)
1517
for entry in self._getitems(next_file_ids):
1518
if entry.kind == 'directory':
1519
directories_to_expand.add(entry.file_id)
1520
children_of_parent_id.setdefault(entry.parent_id, []
1521
).append(entry.file_id)
1522
return interesting, children_of_parent_id
1524
def filter(self, specific_fileids):
1525
"""Get an inventory view filtered against a set of file-ids.
1527
Children of directories and parents are included.
1529
The result may or may not reference the underlying inventory
1530
so it should be treated as immutable.
1533
parent_to_children) = self._expand_fileids_to_parents_and_children(
1535
# There is some overlap here, but we assume that all interesting items
1536
# are in the _fileid_to_entry_cache because we had to read them to
1537
# determine if they were a dir we wanted to recurse, or just a file
1538
# This should give us all the entries we'll want to add, so start
1540
other = Inventory(self.root_id)
1541
other.root.revision = self.root.revision
1542
other.revision_id = self.revision_id
1543
if not interesting or not parent_to_children:
1544
# empty filter, or filtering entrys that don't exist
1545
# (if even 1 existed, then we would have populated
1546
# parent_to_children with at least the tree root.)
1548
cache = self._fileid_to_entry_cache
1549
remaining_children = collections.deque(parent_to_children[self.root_id])
1550
while remaining_children:
1551
file_id = remaining_children.popleft()
1553
if ie.kind == 'directory':
1554
ie = ie.copy() # We create a copy to depopulate the .children attribute
1555
# TODO: depending on the uses of 'other' we should probably alwyas
1556
# '.copy()' to prevent someone from mutating other and
1557
# invaliding our internal cache
1559
if file_id in parent_to_children:
1560
remaining_children.extend(parent_to_children[file_id])
1564
def _bytes_to_utf8name_key(bytes):
1565
"""Get the file_id, revision_id key out of bytes."""
1566
# We don't normally care about name, except for times when we want
1567
# to filter out empty names because of non rich-root...
1568
sections = bytes.split('\n')
1569
kind, file_id = sections[0].split(': ')
1570
return (sections[2], intern(file_id), intern(sections[3]))
1572
def _bytes_to_entry(self, bytes):
1573
"""Deserialise a serialised entry."""
1574
sections = bytes.split('\n')
1575
if sections[0].startswith("file: "):
1576
result = InventoryFile(sections[0][6:],
1577
sections[2].decode('utf8'),
1579
result.text_sha1 = sections[4]
1580
result.text_size = int(sections[5])
1581
result.executable = sections[6] == "Y"
1582
elif sections[0].startswith("dir: "):
1583
result = CHKInventoryDirectory(sections[0][5:],
1584
sections[2].decode('utf8'),
1586
elif sections[0].startswith("symlink: "):
1587
result = InventoryLink(sections[0][9:],
1588
sections[2].decode('utf8'),
1590
result.symlink_target = sections[4].decode('utf8')
1591
elif sections[0].startswith("tree: "):
1592
result = TreeReference(sections[0][6:],
1593
sections[2].decode('utf8'),
1595
result.reference_revision = sections[4]
1597
raise ValueError("Not a serialised entry %r" % bytes)
1598
result.file_id = intern(result.file_id)
1599
result.revision = intern(sections[3])
1600
if result.parent_id == '':
1601
result.parent_id = None
1602
self._fileid_to_entry_cache[result.file_id] = result
1605
def _get_mutable_inventory(self):
1606
"""See CommonInventory._get_mutable_inventory."""
1607
entries = self.iter_entries()
1608
inv = Inventory(None, self.revision_id)
1609
for path, inv_entry in entries:
1610
inv.add(inv_entry.copy())
1613
def create_by_apply_delta(self, inventory_delta, new_revision_id,
1614
propagate_caches=False):
1615
"""Create a new CHKInventory by applying inventory_delta to this one.
1617
See the inventory developers documentation for the theory behind
1620
:param inventory_delta: The inventory delta to apply. See
1621
Inventory.apply_delta for details.
1622
:param new_revision_id: The revision id of the resulting CHKInventory.
1623
:param propagate_caches: If True, the caches for this inventory are
1624
copied to and updated for the result.
1625
:return: The new CHKInventory.
1627
split = osutils.split
1628
result = CHKInventory(self._search_key_name)
1629
if propagate_caches:
1630
# Just propagate the path-to-fileid cache for now
1631
result._path_to_fileid_cache = dict(self._path_to_fileid_cache.iteritems())
1632
search_key_func = chk_map.search_key_registry.get(self._search_key_name)
1633
self.id_to_entry._ensure_root()
1634
maximum_size = self.id_to_entry._root_node.maximum_size
1635
result.revision_id = new_revision_id
1636
result.id_to_entry = chk_map.CHKMap(
1637
self.id_to_entry._store,
1638
self.id_to_entry.key(),
1639
search_key_func=search_key_func)
1640
result.id_to_entry._ensure_root()
1641
result.id_to_entry._root_node.set_maximum_size(maximum_size)
1642
# Change to apply to the parent_id_basename delta. The dict maps
1643
# (parent_id, basename) -> (old_key, new_value). We use a dict because
1644
# when a path has its id replaced (e.g. the root is changed, or someone
1645
# does bzr mv a b, bzr mv c a, we should output a single change to this
1646
# map rather than two.
1647
parent_id_basename_delta = {}
1648
if self.parent_id_basename_to_file_id is not None:
1649
result.parent_id_basename_to_file_id = chk_map.CHKMap(
1650
self.parent_id_basename_to_file_id._store,
1651
self.parent_id_basename_to_file_id.key(),
1652
search_key_func=search_key_func)
1653
result.parent_id_basename_to_file_id._ensure_root()
1654
self.parent_id_basename_to_file_id._ensure_root()
1655
result_p_id_root = result.parent_id_basename_to_file_id._root_node
1656
p_id_root = self.parent_id_basename_to_file_id._root_node
1657
result_p_id_root.set_maximum_size(p_id_root.maximum_size)
1658
result_p_id_root._key_width = p_id_root._key_width
1660
result.parent_id_basename_to_file_id = None
1661
result.root_id = self.root_id
1662
id_to_entry_delta = []
1663
# inventory_delta is only traversed once, so we just update the
1665
# Check for repeated file ids
1666
inventory_delta = _check_delta_unique_ids(inventory_delta)
1667
# Repeated old paths
1668
inventory_delta = _check_delta_unique_old_paths(inventory_delta)
1669
# Check for repeated new paths
1670
inventory_delta = _check_delta_unique_new_paths(inventory_delta)
1671
# Check for entries that don't match the fileid
1672
inventory_delta = _check_delta_ids_match_entry(inventory_delta)
1673
# Check for nonsense fileids
1674
inventory_delta = _check_delta_ids_are_valid(inventory_delta)
1675
# Check for new_path <-> entry consistency
1676
inventory_delta = _check_delta_new_path_entry_both_or_None(
1678
# All changed entries need to have their parents be directories and be
1679
# at the right path. This set contains (path, id) tuples.
1681
# When we delete an item, all the children of it must be either deleted
1682
# or altered in their own right. As we batch process the change via
1683
# CHKMap.apply_delta, we build a set of things to use to validate the
1687
for old_path, new_path, file_id, entry in inventory_delta:
1690
result.root_id = file_id
1691
if new_path is None:
1696
if propagate_caches:
1698
del result._path_to_fileid_cache[old_path]
1701
deletes.add(file_id)
1703
new_key = StaticTuple(file_id,)
1704
new_value = result._entry_to_bytes(entry)
1705
# Update caches. It's worth doing this whether
1706
# we're propagating the old caches or not.
1707
result._path_to_fileid_cache[new_path] = file_id
1708
parents.add((split(new_path)[0], entry.parent_id))
1709
if old_path is None:
1712
old_key = StaticTuple(file_id,)
1713
if self.id2path(file_id) != old_path:
1714
raise errors.InconsistentDelta(old_path, file_id,
1715
"Entry was at wrong other path %r." %
1716
self.id2path(file_id))
1717
altered.add(file_id)
1718
id_to_entry_delta.append(StaticTuple(old_key, new_key, new_value))
1719
if result.parent_id_basename_to_file_id is not None:
1720
# parent_id, basename changes
1721
if old_path is None:
1724
old_entry = self[file_id]
1725
old_key = self._parent_id_basename_key(old_entry)
1726
if new_path is None:
1730
new_key = self._parent_id_basename_key(entry)
1732
# If the two keys are the same, the value will be unchanged
1733
# as its always the file id for this entry.
1734
if old_key != new_key:
1735
# Transform a change into explicit delete/add preserving
1736
# a possible match on the key from a different file id.
1737
if old_key is not None:
1738
parent_id_basename_delta.setdefault(
1739
old_key, [None, None])[0] = old_key
1740
if new_key is not None:
1741
parent_id_basename_delta.setdefault(
1742
new_key, [None, None])[1] = new_value
1743
# validate that deletes are complete.
1744
for file_id in deletes:
1745
entry = self[file_id]
1746
if entry.kind != 'directory':
1748
# This loop could potentially be better by using the id_basename
1749
# map to just get the child file ids.
1750
for child in entry.children.values():
1751
if child.file_id not in altered:
1752
raise errors.InconsistentDelta(self.id2path(child.file_id),
1753
child.file_id, "Child not deleted or reparented when "
1755
result.id_to_entry.apply_delta(id_to_entry_delta)
1756
if parent_id_basename_delta:
1757
# Transform the parent_id_basename delta data into a linear delta
1758
# with only one record for a given key. Optimally this would allow
1759
# re-keying, but its simpler to just output that as a delete+add
1760
# to spend less time calculating the delta.
1762
for key, (old_key, value) in parent_id_basename_delta.iteritems():
1763
if value is not None:
1764
delta_list.append((old_key, key, value))
1766
delta_list.append((old_key, None, None))
1767
result.parent_id_basename_to_file_id.apply_delta(delta_list)
1768
parents.discard(('', None))
1769
for parent_path, parent in parents:
1771
if result[parent].kind != 'directory':
1772
raise errors.InconsistentDelta(result.id2path(parent), parent,
1773
'Not a directory, but given children')
1774
except errors.NoSuchId:
1775
raise errors.InconsistentDelta("<unknown>", parent,
1776
"Parent is not present in resulting inventory.")
1777
if result.path2id(parent_path) != parent:
1778
raise errors.InconsistentDelta(parent_path, parent,
1779
"Parent has wrong path %r." % result.path2id(parent_path))
1783
def deserialise(klass, chk_store, bytes, expected_revision_id):
1784
"""Deserialise a CHKInventory.
1786
:param chk_store: A CHK capable VersionedFiles instance.
1787
:param bytes: The serialised bytes.
1788
:param expected_revision_id: The revision ID we think this inventory is
1790
:return: A CHKInventory
1792
lines = bytes.split('\n')
1794
raise AssertionError('bytes to deserialize must end with an eol')
1796
if lines[0] != 'chkinventory:':
1797
raise ValueError("not a serialised CHKInventory: %r" % bytes)
1799
allowed_keys = frozenset(['root_id', 'revision_id', 'search_key_name',
1800
'parent_id_basename_to_file_id',
1802
for line in lines[1:]:
1803
key, value = line.split(': ', 1)
1804
if key not in allowed_keys:
1805
raise errors.BzrError('Unknown key in inventory: %r\n%r'
1808
raise errors.BzrError('Duplicate key in inventory: %r\n%r'
1811
revision_id = intern(info['revision_id'])
1812
root_id = intern(info['root_id'])
1813
search_key_name = intern(info.get('search_key_name', 'plain'))
1814
parent_id_basename_to_file_id = intern(info.get(
1815
'parent_id_basename_to_file_id', None))
1816
if not parent_id_basename_to_file_id.startswith('sha1:'):
1817
raise ValueError('parent_id_basename_to_file_id should be a sha1'
1818
' key not %r' % (parent_id_basename_to_file_id,))
1819
id_to_entry = info['id_to_entry']
1820
if not id_to_entry.startswith('sha1:'):
1821
raise ValueError('id_to_entry should be a sha1'
1822
' key not %r' % (id_to_entry,))
1824
result = CHKInventory(search_key_name)
1825
result.revision_id = revision_id
1826
result.root_id = root_id
1827
search_key_func = chk_map.search_key_registry.get(
1828
result._search_key_name)
1829
if parent_id_basename_to_file_id is not None:
1830
result.parent_id_basename_to_file_id = chk_map.CHKMap(
1831
chk_store, StaticTuple(parent_id_basename_to_file_id,),
1832
search_key_func=search_key_func)
1834
result.parent_id_basename_to_file_id = None
1836
result.id_to_entry = chk_map.CHKMap(chk_store,
1837
StaticTuple(id_to_entry,),
1838
search_key_func=search_key_func)
1839
if (result.revision_id,) != expected_revision_id:
1840
raise ValueError("Mismatched revision id and expected: %r, %r" %
1841
(result.revision_id, expected_revision_id))
1845
def from_inventory(klass, chk_store, inventory, maximum_size=0, search_key_name='plain'):
1846
"""Create a CHKInventory from an existing inventory.
1848
The content of inventory is copied into the chk_store, and a
1849
CHKInventory referencing that is returned.
1851
:param chk_store: A CHK capable VersionedFiles instance.
1852
:param inventory: The inventory to copy.
1853
:param maximum_size: The CHKMap node size limit.
1854
:param search_key_name: The identifier for the search key function
1856
result = klass(search_key_name)
1857
result.revision_id = inventory.revision_id
1858
result.root_id = inventory.root.file_id
1860
entry_to_bytes = result._entry_to_bytes
1861
parent_id_basename_key = result._parent_id_basename_key
1862
id_to_entry_dict = {}
1863
parent_id_basename_dict = {}
1864
for path, entry in inventory.iter_entries():
1865
key = StaticTuple(entry.file_id,).intern()
1866
id_to_entry_dict[key] = entry_to_bytes(entry)
1867
p_id_key = parent_id_basename_key(entry)
1868
parent_id_basename_dict[p_id_key] = entry.file_id
1870
result._populate_from_dicts(chk_store, id_to_entry_dict,
1871
parent_id_basename_dict, maximum_size=maximum_size)
1874
def _populate_from_dicts(self, chk_store, id_to_entry_dict,
1875
parent_id_basename_dict, maximum_size):
1876
search_key_func = chk_map.search_key_registry.get(self._search_key_name)
1877
root_key = chk_map.CHKMap.from_dict(chk_store, id_to_entry_dict,
1878
maximum_size=maximum_size, key_width=1,
1879
search_key_func=search_key_func)
1880
self.id_to_entry = chk_map.CHKMap(chk_store, root_key,
1882
root_key = chk_map.CHKMap.from_dict(chk_store,
1883
parent_id_basename_dict,
1884
maximum_size=maximum_size, key_width=2,
1885
search_key_func=search_key_func)
1886
self.parent_id_basename_to_file_id = chk_map.CHKMap(chk_store,
1887
root_key, search_key_func)
1889
def _parent_id_basename_key(self, entry):
1890
"""Create a key for a entry in a parent_id_basename_to_file_id index."""
1891
if entry.parent_id is not None:
1892
parent_id = entry.parent_id
1895
return StaticTuple(parent_id, entry.name.encode('utf8')).intern()
1897
def __getitem__(self, file_id):
1898
"""map a single file_id -> InventoryEntry."""
1900
raise errors.NoSuchId(self, file_id)
1901
result = self._fileid_to_entry_cache.get(file_id, None)
1902
if result is not None:
1905
return self._bytes_to_entry(
1906
self.id_to_entry.iteritems([StaticTuple(file_id,)]).next()[1])
1907
except StopIteration:
1908
# really we're passing an inventory, not a tree...
1909
raise errors.NoSuchId(self, file_id)
1911
def _getitems(self, file_ids):
1912
"""Similar to __getitem__, but lets you query for multiple.
1914
The returned order is undefined. And currently if an item doesn't
1915
exist, it isn't included in the output.
1919
for file_id in file_ids:
1920
entry = self._fileid_to_entry_cache.get(file_id, None)
1922
remaining.append(file_id)
1924
result.append(entry)
1925
file_keys = [StaticTuple(f,).intern() for f in remaining]
1926
for file_key, value in self.id_to_entry.iteritems(file_keys):
1927
entry = self._bytes_to_entry(value)
1928
result.append(entry)
1929
self._fileid_to_entry_cache[entry.file_id] = entry
1932
def has_id(self, file_id):
1933
# Perhaps have an explicit 'contains' method on CHKMap ?
1934
if self._fileid_to_entry_cache.get(file_id, None) is not None:
1937
self.id_to_entry.iteritems([StaticTuple(file_id,)]))) == 1
1939
def is_root(self, file_id):
1940
return file_id == self.root_id
1942
def _iter_file_id_parents(self, file_id):
1943
"""Yield the parents of file_id up to the root."""
1944
while file_id is not None:
1948
raise errors.NoSuchId(tree=self, file_id=file_id)
1950
file_id = ie.parent_id
1953
"""Iterate over all file-ids."""
1954
for key, _ in self.id_to_entry.iteritems():
1957
def iter_just_entries(self):
1958
"""Iterate over all entries.
1960
Unlike iter_entries(), just the entries are returned (not (path, ie))
1961
and the order of entries is undefined.
1963
XXX: We may not want to merge this into bzr.dev.
1965
for key, entry in self.id_to_entry.iteritems():
1967
ie = self._fileid_to_entry_cache.get(file_id, None)
1969
ie = self._bytes_to_entry(entry)
1970
self._fileid_to_entry_cache[file_id] = ie
1973
def iter_changes(self, basis):
1974
"""Generate a Tree.iter_changes change list between this and basis.
1976
:param basis: Another CHKInventory.
1977
:return: An iterator over the changes between self and basis, as per
1978
tree.iter_changes().
1980
# We want: (file_id, (path_in_source, path_in_target),
1981
# changed_content, versioned, parent, name, kind,
1983
for key, basis_value, self_value in \
1984
self.id_to_entry.iter_changes(basis.id_to_entry):
1986
if basis_value is not None:
1987
basis_entry = basis._bytes_to_entry(basis_value)
1988
path_in_source = basis.id2path(file_id)
1989
basis_parent = basis_entry.parent_id
1990
basis_name = basis_entry.name
1991
basis_executable = basis_entry.executable
1993
path_in_source = None
1996
basis_executable = None
1997
if self_value is not None:
1998
self_entry = self._bytes_to_entry(self_value)
1999
path_in_target = self.id2path(file_id)
2000
self_parent = self_entry.parent_id
2001
self_name = self_entry.name
2002
self_executable = self_entry.executable
2004
path_in_target = None
2007
self_executable = None
2008
if basis_value is None:
2010
kind = (None, self_entry.kind)
2011
versioned = (False, True)
2012
elif self_value is None:
2014
kind = (basis_entry.kind, None)
2015
versioned = (True, False)
2017
kind = (basis_entry.kind, self_entry.kind)
2018
versioned = (True, True)
2019
changed_content = False
2020
if kind[0] != kind[1]:
2021
changed_content = True
2022
elif kind[0] == 'file':
2023
if (self_entry.text_size != basis_entry.text_size or
2024
self_entry.text_sha1 != basis_entry.text_sha1):
2025
changed_content = True
2026
elif kind[0] == 'symlink':
2027
if self_entry.symlink_target != basis_entry.symlink_target:
2028
changed_content = True
2029
elif kind[0] == 'tree-reference':
2030
if (self_entry.reference_revision !=
2031
basis_entry.reference_revision):
2032
changed_content = True
2033
parent = (basis_parent, self_parent)
2034
name = (basis_name, self_name)
2035
executable = (basis_executable, self_executable)
2036
if (not changed_content
2037
and parent[0] == parent[1]
2038
and name[0] == name[1]
2039
and executable[0] == executable[1]):
2040
# Could happen when only the revision changed for a directory
2043
yield (file_id, (path_in_source, path_in_target), changed_content,
2044
versioned, parent, name, kind, executable)
2047
"""Return the number of entries in the inventory."""
2048
return len(self.id_to_entry)
2050
def _make_delta(self, old):
2051
"""Make an inventory delta from two inventories."""
2052
if type(old) != CHKInventory:
2053
return CommonInventory._make_delta(self, old)
2055
for key, old_value, self_value in \
2056
self.id_to_entry.iter_changes(old.id_to_entry):
2058
if old_value is not None:
2059
old_path = old.id2path(file_id)
2062
if self_value is not None:
2063
entry = self._bytes_to_entry(self_value)
2064
self._fileid_to_entry_cache[file_id] = entry
2065
new_path = self.id2path(file_id)
2069
delta.append((old_path, new_path, file_id, entry))
2072
def path2id(self, relpath):
2073
"""See CommonInventory.path2id()."""
2074
# TODO: perhaps support negative hits?
2075
result = self._path_to_fileid_cache.get(relpath, None)
2076
if result is not None:
2078
if isinstance(relpath, basestring):
2079
names = osutils.splitpath(relpath)
2082
current_id = self.root_id
2083
if current_id is None:
2085
parent_id_index = self.parent_id_basename_to_file_id
2087
for basename in names:
2088
if cur_path is None:
2091
cur_path = cur_path + '/' + basename
2092
basename_utf8 = basename.encode('utf8')
2093
file_id = self._path_to_fileid_cache.get(cur_path, None)
2095
key_filter = [StaticTuple(current_id, basename_utf8)]
2096
items = parent_id_index.iteritems(key_filter)
2097
for (parent_id, name_utf8), file_id in items:
2098
if parent_id != current_id or name_utf8 != basename_utf8:
2099
raise errors.BzrError("corrupt inventory lookup! "
2100
"%r %r %r %r" % (parent_id, current_id, name_utf8,
2105
self._path_to_fileid_cache[cur_path] = file_id
2106
current_id = file_id
2110
"""Serialise the inventory to lines."""
2111
lines = ["chkinventory:\n"]
2112
if self._search_key_name != 'plain':
2113
# custom ordering grouping things that don't change together
2114
lines.append('search_key_name: %s\n' % (self._search_key_name,))
2115
lines.append("root_id: %s\n" % self.root_id)
2116
lines.append('parent_id_basename_to_file_id: %s\n' %
2117
(self.parent_id_basename_to_file_id.key()[0],))
2118
lines.append("revision_id: %s\n" % self.revision_id)
2119
lines.append("id_to_entry: %s\n" % (self.id_to_entry.key()[0],))
2121
lines.append("revision_id: %s\n" % self.revision_id)
2122
lines.append("root_id: %s\n" % self.root_id)
2123
if self.parent_id_basename_to_file_id is not None:
2124
lines.append('parent_id_basename_to_file_id: %s\n' %
2125
(self.parent_id_basename_to_file_id.key()[0],))
2126
lines.append("id_to_entry: %s\n" % (self.id_to_entry.key()[0],))
2131
"""Get the root entry."""
2132
return self[self.root_id]
2135
class CHKInventoryDirectory(InventoryDirectory):
2136
"""A directory in an inventory."""
2138
__slots__ = ['_children', '_chk_inventory']
2140
def __init__(self, file_id, name, parent_id, chk_inventory):
2141
# Don't call InventoryDirectory.__init__ - it isn't right for this
2143
InventoryEntry.__init__(self, file_id, name, parent_id)
2144
self._children = None
2145
self._chk_inventory = chk_inventory
2149
"""Access the list of children of this directory.
2151
With a parent_id_basename_to_file_id index, loads all the children,
2152
without loads the entire index. Without is bad. A more sophisticated
2153
proxy object might be nice, to allow partial loading of children as
2154
well when specific names are accessed. (So path traversal can be
2155
written in the obvious way but not examine siblings.).
2157
if self._children is not None:
2158
return self._children
2159
# No longer supported
2160
if self._chk_inventory.parent_id_basename_to_file_id is None:
2161
raise AssertionError("Inventories without"
2162
" parent_id_basename_to_file_id are no longer supported")
2164
# XXX: Todo - use proxy objects for the children rather than loading
2165
# all when the attribute is referenced.
2166
parent_id_index = self._chk_inventory.parent_id_basename_to_file_id
2168
for (parent_id, name_utf8), file_id in parent_id_index.iteritems(
2169
key_filter=[StaticTuple(self.file_id,)]):
2170
child_keys.add(StaticTuple(file_id,))
2172
for file_id_key in child_keys:
2173
entry = self._chk_inventory._fileid_to_entry_cache.get(
2174
file_id_key[0], None)
2175
if entry is not None:
2176
result[entry.name] = entry
2177
cached.add(file_id_key)
2178
child_keys.difference_update(cached)
2179
# populate; todo: do by name
2180
id_to_entry = self._chk_inventory.id_to_entry
2181
for file_id_key, bytes in id_to_entry.iteritems(child_keys):
2182
entry = self._chk_inventory._bytes_to_entry(bytes)
2183
result[entry.name] = entry
2184
self._chk_inventory._fileid_to_entry_cache[file_id_key[0]] = entry
2185
self._children = result
2188
1373
entry_factory = {
2189
1374
'directory': InventoryDirectory,
2190
1375
'file': InventoryFile,
added
removed
bzrlib/inventory.py
