##// END OF EJS Templates
dirstate-item: add a "second_ambiguous` flag in the mtime tuple...
dirstate-item: add a "second_ambiguous` flag in the mtime tuple This will be used to support the `mtime-second-ambiguous` flag from dirstate v2. See format documentation for details. For now, we only make it possible to store the information, no other logic have been added. Differential Revision: https://phab.mercurial-scm.org/D11842

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parsers.py
927 lines | 29.3 KiB | text/x-python | PythonLexer
# parsers.py - Python implementation of parsers.c
#
# Copyright 2009 Olivia Mackall <olivia@selenic.com> and others
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
from __future__ import absolute_import
import stat
import struct
import zlib
from ..node import (
nullrev,
sha1nodeconstants,
)
from ..thirdparty import attr
from .. import (
error,
pycompat,
revlogutils,
util,
)
from ..revlogutils import nodemap as nodemaputil
from ..revlogutils import constants as revlog_constants
stringio = pycompat.bytesio
_pack = struct.pack
_unpack = struct.unpack
_compress = zlib.compress
_decompress = zlib.decompress
# a special value used internally for `size` if the file come from the other parent
FROM_P2 = -2
# a special value used internally for `size` if the file is modified/merged/added
NONNORMAL = -1
# a special value used internally for `time` if the time is ambigeous
AMBIGUOUS_TIME = -1
# Bits of the `flags` byte inside a node in the file format
DIRSTATE_V2_WDIR_TRACKED = 1 << 0
DIRSTATE_V2_P1_TRACKED = 1 << 1
DIRSTATE_V2_P2_INFO = 1 << 2
DIRSTATE_V2_MODE_EXEC_PERM = 1 << 3
DIRSTATE_V2_MODE_IS_SYMLINK = 1 << 4
DIRSTATE_V2_HAS_FALLBACK_EXEC = 1 << 5
DIRSTATE_V2_FALLBACK_EXEC = 1 << 6
DIRSTATE_V2_HAS_FALLBACK_SYMLINK = 1 << 7
DIRSTATE_V2_FALLBACK_SYMLINK = 1 << 8
DIRSTATE_V2_EXPECTED_STATE_IS_MODIFIED = 1 << 9
DIRSTATE_V2_HAS_MODE_AND_SIZE = 1 << 10
DIRSTATE_V2_HAS_MTIME = 1 << 11
DIRSTATE_V2_MTIME_SECOND_AMBIGUOUS = 1 << 12
DIRSTATE_V2_DIRECTORY = 1 << 13
DIRSTATE_V2_ALL_UNKNOWN_RECORDED = 1 << 14
DIRSTATE_V2_ALL_IGNORED_RECORDED = 1 << 15
@attr.s(slots=True, init=False)
class DirstateItem(object):
"""represent a dirstate entry
It hold multiple attributes
# about file tracking
- wc_tracked: is the file tracked by the working copy
- p1_tracked: is the file tracked in working copy first parent
- p2_info: the file has been involved in some merge operation. Either
because it was actually merged, or because the p2 version was
ahead, or because some rename moved it there. In either case
`hg status` will want it displayed as modified.
# about the file state expected from p1 manifest:
- mode: the file mode in p1
- size: the file size in p1
These value can be set to None, which mean we don't have a meaningful value
to compare with. Either because we don't really care about them as there
`status` is known without having to look at the disk or because we don't
know these right now and a full comparison will be needed to find out if
the file is clean.
# about the file state on disk last time we saw it:
- mtime: the last known clean mtime for the file.
This value can be set to None if no cachable state exist. Either because we
do not care (see previous section) or because we could not cache something
yet.
"""
_wc_tracked = attr.ib()
_p1_tracked = attr.ib()
_p2_info = attr.ib()
_mode = attr.ib()
_size = attr.ib()
_mtime_s = attr.ib()
_mtime_ns = attr.ib()
_fallback_exec = attr.ib()
_fallback_symlink = attr.ib()
_mtime_second_ambiguous = attr.ib()
def __init__(
self,
wc_tracked=False,
p1_tracked=False,
p2_info=False,
has_meaningful_data=True,
has_meaningful_mtime=True,
parentfiledata=None,
fallback_exec=None,
fallback_symlink=None,
):
self._wc_tracked = wc_tracked
self._p1_tracked = p1_tracked
self._p2_info = p2_info
self._fallback_exec = fallback_exec
self._fallback_symlink = fallback_symlink
self._mode = None
self._size = None
self._mtime_s = None
self._mtime_ns = None
self._mtime_second_ambiguous = False
if parentfiledata is None:
has_meaningful_mtime = False
has_meaningful_data = False
elif parentfiledata[2] is None:
has_meaningful_mtime = False
if has_meaningful_data:
self._mode = parentfiledata[0]
self._size = parentfiledata[1]
if has_meaningful_mtime:
(
self._mtime_s,
self._mtime_ns,
self._mtime_second_ambiguous,
) = parentfiledata[2]
@classmethod
def from_v2_data(cls, flags, size, mtime_s, mtime_ns):
"""Build a new DirstateItem object from V2 data"""
has_mode_size = bool(flags & DIRSTATE_V2_HAS_MODE_AND_SIZE)
has_meaningful_mtime = bool(flags & DIRSTATE_V2_HAS_MTIME)
if flags & DIRSTATE_V2_MTIME_SECOND_AMBIGUOUS:
# The current code is not able to do the more subtle comparison that the
# MTIME_SECOND_AMBIGUOUS requires. So we ignore the mtime
has_meaningful_mtime = False
mode = None
if flags & +DIRSTATE_V2_EXPECTED_STATE_IS_MODIFIED:
# we do not have support for this flag in the code yet,
# force a lookup for this file.
has_mode_size = False
has_meaningful_mtime = False
fallback_exec = None
if flags & DIRSTATE_V2_HAS_FALLBACK_EXEC:
fallback_exec = flags & DIRSTATE_V2_FALLBACK_EXEC
fallback_symlink = None
if flags & DIRSTATE_V2_HAS_FALLBACK_SYMLINK:
fallback_symlink = flags & DIRSTATE_V2_FALLBACK_SYMLINK
if has_mode_size:
assert stat.S_IXUSR == 0o100
if flags & DIRSTATE_V2_MODE_EXEC_PERM:
mode = 0o755
else:
mode = 0o644
if flags & DIRSTATE_V2_MODE_IS_SYMLINK:
mode |= stat.S_IFLNK
else:
mode |= stat.S_IFREG
return cls(
wc_tracked=bool(flags & DIRSTATE_V2_WDIR_TRACKED),
p1_tracked=bool(flags & DIRSTATE_V2_P1_TRACKED),
p2_info=bool(flags & DIRSTATE_V2_P2_INFO),
has_meaningful_data=has_mode_size,
has_meaningful_mtime=has_meaningful_mtime,
parentfiledata=(mode, size, (mtime_s, mtime_ns, False)),
fallback_exec=fallback_exec,
fallback_symlink=fallback_symlink,
)
@classmethod
def from_v1_data(cls, state, mode, size, mtime):
"""Build a new DirstateItem object from V1 data
Since the dirstate-v1 format is frozen, the signature of this function
is not expected to change, unlike the __init__ one.
"""
if state == b'm':
return cls(wc_tracked=True, p1_tracked=True, p2_info=True)
elif state == b'a':
return cls(wc_tracked=True)
elif state == b'r':
if size == NONNORMAL:
p1_tracked = True
p2_info = True
elif size == FROM_P2:
p1_tracked = False
p2_info = True
else:
p1_tracked = True
p2_info = False
return cls(p1_tracked=p1_tracked, p2_info=p2_info)
elif state == b'n':
if size == FROM_P2:
return cls(wc_tracked=True, p2_info=True)
elif size == NONNORMAL:
return cls(wc_tracked=True, p1_tracked=True)
elif mtime == AMBIGUOUS_TIME:
return cls(
wc_tracked=True,
p1_tracked=True,
has_meaningful_mtime=False,
parentfiledata=(mode, size, (42, 0, False)),
)
else:
return cls(
wc_tracked=True,
p1_tracked=True,
parentfiledata=(mode, size, (mtime, 0, False)),
)
else:
raise RuntimeError(b'unknown state: %s' % state)
def set_possibly_dirty(self):
"""Mark a file as "possibly dirty"
This means the next status call will have to actually check its content
to make sure it is correct.
"""
self._mtime_s = None
self._mtime_ns = None
def set_clean(self, mode, size, mtime):
"""mark a file as "clean" cancelling potential "possibly dirty call"
Note: this function is a descendant of `dirstate.normal` and is
currently expected to be call on "normal" entry only. There are not
reason for this to not change in the future as long as the ccode is
updated to preserve the proper state of the non-normal files.
"""
self._wc_tracked = True
self._p1_tracked = True
self._mode = mode
self._size = size
self._mtime_s, self._mtime_ns, self._mtime_second_ambiguous = mtime
def set_tracked(self):
"""mark a file as tracked in the working copy
This will ultimately be called by command like `hg add`.
"""
self._wc_tracked = True
# `set_tracked` is replacing various `normallookup` call. So we mark
# the files as needing lookup
#
# Consider dropping this in the future in favor of something less broad.
self._mtime_s = None
self._mtime_ns = None
def set_untracked(self):
"""mark a file as untracked in the working copy
This will ultimately be called by command like `hg remove`.
"""
self._wc_tracked = False
self._mode = None
self._size = None
self._mtime_s = None
self._mtime_ns = None
def drop_merge_data(self):
"""remove all "merge-only" from a DirstateItem
This is to be call by the dirstatemap code when the second parent is dropped
"""
if self._p2_info:
self._p2_info = False
self._mode = None
self._size = None
self._mtime_s = None
self._mtime_ns = None
@property
def mode(self):
return self.v1_mode()
@property
def size(self):
return self.v1_size()
@property
def mtime(self):
return self.v1_mtime()
def mtime_likely_equal_to(self, other_mtime):
self_sec = self._mtime_s
if self_sec is None:
return False
self_ns = self._mtime_ns
other_sec, other_ns, second_ambiguous = other_mtime
return self_sec == other_sec and (
self_ns == other_ns or self_ns == 0 or other_ns == 0
)
@property
def state(self):
"""
States are:
n normal
m needs merging
r marked for removal
a marked for addition
XXX This "state" is a bit obscure and mostly a direct expression of the
dirstatev1 format. It would make sense to ultimately deprecate it in
favor of the more "semantic" attributes.
"""
if not self.any_tracked:
return b'?'
return self.v1_state()
@property
def has_fallback_exec(self):
"""True if "fallback" information are available for the "exec" bit
Fallback information can be stored in the dirstate to keep track of
filesystem attribute tracked by Mercurial when the underlying file
system or operating system does not support that property, (e.g.
Windows).
Not all version of the dirstate on-disk storage support preserving this
information.
"""
return self._fallback_exec is not None
@property
def fallback_exec(self):
""" "fallback" information for the executable bit
True if the file should be considered executable when we cannot get
this information from the files system. False if it should be
considered non-executable.
See has_fallback_exec for details."""
return self._fallback_exec
@fallback_exec.setter
def set_fallback_exec(self, value):
"""control "fallback" executable bit
Set to:
- True if the file should be considered executable,
- False if the file should be considered non-executable,
- None if we do not have valid fallback data.
See has_fallback_exec for details."""
if value is None:
self._fallback_exec = None
else:
self._fallback_exec = bool(value)
@property
def has_fallback_symlink(self):
"""True if "fallback" information are available for symlink status
Fallback information can be stored in the dirstate to keep track of
filesystem attribute tracked by Mercurial when the underlying file
system or operating system does not support that property, (e.g.
Windows).
Not all version of the dirstate on-disk storage support preserving this
information."""
return self._fallback_symlink is not None
@property
def fallback_symlink(self):
""" "fallback" information for symlink status
True if the file should be considered executable when we cannot get
this information from the files system. False if it should be
considered non-executable.
See has_fallback_exec for details."""
return self._fallback_symlink
@fallback_symlink.setter
def set_fallback_symlink(self, value):
"""control "fallback" symlink status
Set to:
- True if the file should be considered a symlink,
- False if the file should be considered not a symlink,
- None if we do not have valid fallback data.
See has_fallback_symlink for details."""
if value is None:
self._fallback_symlink = None
else:
self._fallback_symlink = bool(value)
@property
def tracked(self):
"""True is the file is tracked in the working copy"""
return self._wc_tracked
@property
def any_tracked(self):
"""True is the file is tracked anywhere (wc or parents)"""
return self._wc_tracked or self._p1_tracked or self._p2_info
@property
def added(self):
"""True if the file has been added"""
return self._wc_tracked and not (self._p1_tracked or self._p2_info)
@property
def maybe_clean(self):
"""True if the file has a chance to be in the "clean" state"""
if not self._wc_tracked:
return False
elif not self._p1_tracked:
return False
elif self._p2_info:
return False
return True
@property
def p1_tracked(self):
"""True if the file is tracked in the first parent manifest"""
return self._p1_tracked
@property
def p2_info(self):
"""True if the file needed to merge or apply any input from p2
See the class documentation for details.
"""
return self._wc_tracked and self._p2_info
@property
def removed(self):
"""True if the file has been removed"""
return not self._wc_tracked and (self._p1_tracked or self._p2_info)
def v2_data(self):
"""Returns (flags, mode, size, mtime) for v2 serialization"""
flags = 0
if self._wc_tracked:
flags |= DIRSTATE_V2_WDIR_TRACKED
if self._p1_tracked:
flags |= DIRSTATE_V2_P1_TRACKED
if self._p2_info:
flags |= DIRSTATE_V2_P2_INFO
if self._mode is not None and self._size is not None:
flags |= DIRSTATE_V2_HAS_MODE_AND_SIZE
if self.mode & stat.S_IXUSR:
flags |= DIRSTATE_V2_MODE_EXEC_PERM
if stat.S_ISLNK(self.mode):
flags |= DIRSTATE_V2_MODE_IS_SYMLINK
if self._mtime_s is not None:
flags |= DIRSTATE_V2_HAS_MTIME
if self._fallback_exec is not None:
flags |= DIRSTATE_V2_HAS_FALLBACK_EXEC
if self._fallback_exec:
flags |= DIRSTATE_V2_FALLBACK_EXEC
if self._fallback_symlink is not None:
flags |= DIRSTATE_V2_HAS_FALLBACK_SYMLINK
if self._fallback_symlink:
flags |= DIRSTATE_V2_FALLBACK_SYMLINK
# Note: we do not need to do anything regarding
# DIRSTATE_V2_ALL_UNKNOWN_RECORDED and DIRSTATE_V2_ALL_IGNORED_RECORDED
# since we never set _DIRSTATE_V2_HAS_DIRCTORY_MTIME
return (flags, self._size or 0, self._mtime_s or 0, self._mtime_ns or 0)
def v1_state(self):
"""return a "state" suitable for v1 serialization"""
if not self.any_tracked:
# the object has no state to record, this is -currently-
# unsupported
raise RuntimeError('untracked item')
elif self.removed:
return b'r'
elif self._p1_tracked and self._p2_info:
return b'm'
elif self.added:
return b'a'
else:
return b'n'
def v1_mode(self):
"""return a "mode" suitable for v1 serialization"""
return self._mode if self._mode is not None else 0
def v1_size(self):
"""return a "size" suitable for v1 serialization"""
if not self.any_tracked:
# the object has no state to record, this is -currently-
# unsupported
raise RuntimeError('untracked item')
elif self.removed and self._p1_tracked and self._p2_info:
return NONNORMAL
elif self._p2_info:
return FROM_P2
elif self.removed:
return 0
elif self.added:
return NONNORMAL
elif self._size is None:
return NONNORMAL
else:
return self._size
def v1_mtime(self):
"""return a "mtime" suitable for v1 serialization"""
if not self.any_tracked:
# the object has no state to record, this is -currently-
# unsupported
raise RuntimeError('untracked item')
elif self.removed:
return 0
elif self._mtime_s is None:
return AMBIGUOUS_TIME
elif self._p2_info:
return AMBIGUOUS_TIME
elif not self._p1_tracked:
return AMBIGUOUS_TIME
else:
return self._mtime_s
def gettype(q):
return int(q & 0xFFFF)
class BaseIndexObject(object):
# Can I be passed to an algorithme implemented in Rust ?
rust_ext_compat = 0
# Format of an index entry according to Python's `struct` language
index_format = revlog_constants.INDEX_ENTRY_V1
# Size of a C unsigned long long int, platform independent
big_int_size = struct.calcsize(b'>Q')
# Size of a C long int, platform independent
int_size = struct.calcsize(b'>i')
# An empty index entry, used as a default value to be overridden, or nullrev
null_item = (
0,
0,
0,
-1,
-1,
-1,
-1,
sha1nodeconstants.nullid,
0,
0,
revlog_constants.COMP_MODE_INLINE,
revlog_constants.COMP_MODE_INLINE,
)
@util.propertycache
def entry_size(self):
return self.index_format.size
@property
def nodemap(self):
msg = b"index.nodemap is deprecated, use index.[has_node|rev|get_rev]"
util.nouideprecwarn(msg, b'5.3', stacklevel=2)
return self._nodemap
@util.propertycache
def _nodemap(self):
nodemap = nodemaputil.NodeMap({sha1nodeconstants.nullid: nullrev})
for r in range(0, len(self)):
n = self[r][7]
nodemap[n] = r
return nodemap
def has_node(self, node):
"""return True if the node exist in the index"""
return node in self._nodemap
def rev(self, node):
"""return a revision for a node
If the node is unknown, raise a RevlogError"""
return self._nodemap[node]
def get_rev(self, node):
"""return a revision for a node
If the node is unknown, return None"""
return self._nodemap.get(node)
def _stripnodes(self, start):
if '_nodemap' in vars(self):
for r in range(start, len(self)):
n = self[r][7]
del self._nodemap[n]
def clearcaches(self):
self.__dict__.pop('_nodemap', None)
def __len__(self):
return self._lgt + len(self._extra)
def append(self, tup):
if '_nodemap' in vars(self):
self._nodemap[tup[7]] = len(self)
data = self._pack_entry(len(self), tup)
self._extra.append(data)
def _pack_entry(self, rev, entry):
assert entry[8] == 0
assert entry[9] == 0
return self.index_format.pack(*entry[:8])
def _check_index(self, i):
if not isinstance(i, int):
raise TypeError(b"expecting int indexes")
if i < 0 or i >= len(self):
raise IndexError
def __getitem__(self, i):
if i == -1:
return self.null_item
self._check_index(i)
if i >= self._lgt:
data = self._extra[i - self._lgt]
else:
index = self._calculate_index(i)
data = self._data[index : index + self.entry_size]
r = self._unpack_entry(i, data)
if self._lgt and i == 0:
offset = revlogutils.offset_type(0, gettype(r[0]))
r = (offset,) + r[1:]
return r
def _unpack_entry(self, rev, data):
r = self.index_format.unpack(data)
r = r + (
0,
0,
revlog_constants.COMP_MODE_INLINE,
revlog_constants.COMP_MODE_INLINE,
)
return r
def pack_header(self, header):
"""pack header information as binary"""
v_fmt = revlog_constants.INDEX_HEADER
return v_fmt.pack(header)
def entry_binary(self, rev):
"""return the raw binary string representing a revision"""
entry = self[rev]
p = revlog_constants.INDEX_ENTRY_V1.pack(*entry[:8])
if rev == 0:
p = p[revlog_constants.INDEX_HEADER.size :]
return p
class IndexObject(BaseIndexObject):
def __init__(self, data):
assert len(data) % self.entry_size == 0, (
len(data),
self.entry_size,
len(data) % self.entry_size,
)
self._data = data
self._lgt = len(data) // self.entry_size
self._extra = []
def _calculate_index(self, i):
return i * self.entry_size
def __delitem__(self, i):
if not isinstance(i, slice) or not i.stop == -1 or i.step is not None:
raise ValueError(b"deleting slices only supports a:-1 with step 1")
i = i.start
self._check_index(i)
self._stripnodes(i)
if i < self._lgt:
self._data = self._data[: i * self.entry_size]
self._lgt = i
self._extra = []
else:
self._extra = self._extra[: i - self._lgt]
class PersistentNodeMapIndexObject(IndexObject):
"""a Debug oriented class to test persistent nodemap
We need a simple python object to test API and higher level behavior. See
the Rust implementation for more serious usage. This should be used only
through the dedicated `devel.persistent-nodemap` config.
"""
def nodemap_data_all(self):
"""Return bytes containing a full serialization of a nodemap
The nodemap should be valid for the full set of revisions in the
index."""
return nodemaputil.persistent_data(self)
def nodemap_data_incremental(self):
"""Return bytes containing a incremental update to persistent nodemap
This containst the data for an append-only update of the data provided
in the last call to `update_nodemap_data`.
"""
if self._nm_root is None:
return None
docket = self._nm_docket
changed, data = nodemaputil.update_persistent_data(
self, self._nm_root, self._nm_max_idx, self._nm_docket.tip_rev
)
self._nm_root = self._nm_max_idx = self._nm_docket = None
return docket, changed, data
def update_nodemap_data(self, docket, nm_data):
"""provide full block of persisted binary data for a nodemap
The data are expected to come from disk. See `nodemap_data_all` for a
produceur of such data."""
if nm_data is not None:
self._nm_root, self._nm_max_idx = nodemaputil.parse_data(nm_data)
if self._nm_root:
self._nm_docket = docket
else:
self._nm_root = self._nm_max_idx = self._nm_docket = None
class InlinedIndexObject(BaseIndexObject):
def __init__(self, data, inline=0):
self._data = data
self._lgt = self._inline_scan(None)
self._inline_scan(self._lgt)
self._extra = []
def _inline_scan(self, lgt):
off = 0
if lgt is not None:
self._offsets = [0] * lgt
count = 0
while off <= len(self._data) - self.entry_size:
start = off + self.big_int_size
(s,) = struct.unpack(
b'>i',
self._data[start : start + self.int_size],
)
if lgt is not None:
self._offsets[count] = off
count += 1
off += self.entry_size + s
if off != len(self._data):
raise ValueError(b"corrupted data")
return count
def __delitem__(self, i):
if not isinstance(i, slice) or not i.stop == -1 or i.step is not None:
raise ValueError(b"deleting slices only supports a:-1 with step 1")
i = i.start
self._check_index(i)
self._stripnodes(i)
if i < self._lgt:
self._offsets = self._offsets[:i]
self._lgt = i
self._extra = []
else:
self._extra = self._extra[: i - self._lgt]
def _calculate_index(self, i):
return self._offsets[i]
def parse_index2(data, inline, revlogv2=False):
if not inline:
cls = IndexObject2 if revlogv2 else IndexObject
return cls(data), None
cls = InlinedIndexObject
return cls(data, inline), (0, data)
def parse_index_cl_v2(data):
return IndexChangelogV2(data), None
class IndexObject2(IndexObject):
index_format = revlog_constants.INDEX_ENTRY_V2
def replace_sidedata_info(
self,
rev,
sidedata_offset,
sidedata_length,
offset_flags,
compression_mode,
):
"""
Replace an existing index entry's sidedata offset and length with new
ones.
This cannot be used outside of the context of sidedata rewriting,
inside the transaction that creates the revision `rev`.
"""
if rev < 0:
raise KeyError
self._check_index(rev)
if rev < self._lgt:
msg = b"cannot rewrite entries outside of this transaction"
raise KeyError(msg)
else:
entry = list(self[rev])
entry[0] = offset_flags
entry[8] = sidedata_offset
entry[9] = sidedata_length
entry[11] = compression_mode
entry = tuple(entry)
new = self._pack_entry(rev, entry)
self._extra[rev - self._lgt] = new
def _unpack_entry(self, rev, data):
data = self.index_format.unpack(data)
entry = data[:10]
data_comp = data[10] & 3
sidedata_comp = (data[10] & (3 << 2)) >> 2
return entry + (data_comp, sidedata_comp)
def _pack_entry(self, rev, entry):
data = entry[:10]
data_comp = entry[10] & 3
sidedata_comp = (entry[11] & 3) << 2
data += (data_comp | sidedata_comp,)
return self.index_format.pack(*data)
def entry_binary(self, rev):
"""return the raw binary string representing a revision"""
entry = self[rev]
return self._pack_entry(rev, entry)
def pack_header(self, header):
"""pack header information as binary"""
msg = 'version header should go in the docket, not the index: %d'
msg %= header
raise error.ProgrammingError(msg)
class IndexChangelogV2(IndexObject2):
index_format = revlog_constants.INDEX_ENTRY_CL_V2
def _unpack_entry(self, rev, data, r=True):
items = self.index_format.unpack(data)
entry = items[:3] + (rev, rev) + items[3:8]
data_comp = items[8] & 3
sidedata_comp = (items[8] >> 2) & 3
return entry + (data_comp, sidedata_comp)
def _pack_entry(self, rev, entry):
assert entry[3] == rev, entry[3]
assert entry[4] == rev, entry[4]
data = entry[:3] + entry[5:10]
data_comp = entry[10] & 3
sidedata_comp = (entry[11] & 3) << 2
data += (data_comp | sidedata_comp,)
return self.index_format.pack(*data)
def parse_index_devel_nodemap(data, inline):
"""like parse_index2, but alway return a PersistentNodeMapIndexObject"""
return PersistentNodeMapIndexObject(data), None
def parse_dirstate(dmap, copymap, st):
parents = [st[:20], st[20:40]]
# dereference fields so they will be local in loop
format = b">cllll"
e_size = struct.calcsize(format)
pos1 = 40
l = len(st)
# the inner loop
while pos1 < l:
pos2 = pos1 + e_size
e = _unpack(b">cllll", st[pos1:pos2]) # a literal here is faster
pos1 = pos2 + e[4]
f = st[pos2:pos1]
if b'\0' in f:
f, c = f.split(b'\0')
copymap[f] = c
dmap[f] = DirstateItem.from_v1_data(*e[:4])
return parents
def pack_dirstate(dmap, copymap, pl):
cs = stringio()
write = cs.write
write(b"".join(pl))
for f, e in pycompat.iteritems(dmap):
if f in copymap:
f = b"%s\0%s" % (f, copymap[f])
e = _pack(
b">cllll",
e.v1_state(),
e.v1_mode(),
e.v1_size(),
e.v1_mtime(),
len(f),
)
write(e)
write(f)
return cs.getvalue()