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|
# Copyright (C) 2007, 2008 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""Helper functions for DirState.
This is the python implementation for DirState functions.
"""
import binascii
import bisect
import errno
import os
import stat
import sys
from bzrlib import cache_utf8, errors, osutils
from bzrlib.dirstate import DirState
from bzrlib.osutils import pathjoin, splitpath
# This is the Windows equivalent of ENOTDIR
# It is defined in pywin32.winerror, but we don't want a strong dependency for
# just an error code.
# XXX: Perhaps we could get it from a windows header ?
cdef int ERROR_PATH_NOT_FOUND
ERROR_PATH_NOT_FOUND = 3
cdef int ERROR_DIRECTORY
ERROR_DIRECTORY = 267
#python2.4 support, and other platform-dependent includes
cdef extern from "python-compat.h":
unsigned long htonl(unsigned long)
# Give Pyrex some function definitions for it to understand.
# All of these are just hints to Pyrex, so that it can try to convert python
# objects into similar C objects. (such as PyInt => int).
# In anything defined 'cdef extern from XXX' the real C header will be
# imported, and the real definition will be used from there. So these are just
# hints, and do not need to match exactly to the C definitions.
cdef extern from *:
ctypedef unsigned long size_t
cdef extern from "_dirstate_helpers_pyx.h":
ctypedef int intptr_t
cdef extern from "stdlib.h":
unsigned long int strtoul(char *nptr, char **endptr, int base)
cdef extern from 'sys/stat.h':
int S_ISDIR(int mode)
int S_ISREG(int mode)
# On win32, this actually comes from "python-compat.h"
int S_ISLNK(int mode)
int S_IXUSR
# These functions allow us access to a bit of the 'bare metal' of python
# objects, rather than going through the object abstraction. (For example,
# PyList_Append, rather than getting the 'append' attribute of the object, and
# creating a tuple, and then using PyCallObject).
# Functions that return (or take) a void* are meant to grab a C PyObject*. This
# differs from the Pyrex 'object'. If you declare a variable as 'object' Pyrex
# will automatically Py_INCREF and Py_DECREF when appropriate. But for some
# inner loops, we don't need to do that at all, as the reference only lasts for
# a very short time.
# Note that the C API GetItem calls borrow references, so pyrex does the wrong
# thing if you declare e.g. object PyList_GetItem(object lst, int index) - you
# need to manually Py_INCREF yourself.
cdef extern from "Python.h":
ctypedef int Py_ssize_t
ctypedef struct PyObject:
pass
int PyList_Append(object lst, object item) except -1
void *PyList_GetItem_object_void "PyList_GET_ITEM" (object lst, int index)
void *PyList_GetItem_void_void "PyList_GET_ITEM" (void * lst, int index)
object PyList_GET_ITEM(object lst, Py_ssize_t index)
int PyList_CheckExact(object)
Py_ssize_t PyList_GET_SIZE (object p)
void *PyTuple_GetItem_void_void "PyTuple_GET_ITEM" (void* tpl, int index)
object PyTuple_GetItem_void_object "PyTuple_GET_ITEM" (void* tpl, int index)
object PyTuple_GET_ITEM(object tpl, Py_ssize_t index)
char *PyString_AsString(object p)
char *PyString_AsString_obj "PyString_AsString" (PyObject *string)
char *PyString_AS_STRING_void "PyString_AS_STRING" (void *p)
int PyString_AsStringAndSize(object str, char **buffer, Py_ssize_t *length) except -1
object PyString_FromString(char *)
object PyString_FromStringAndSize(char *, Py_ssize_t)
int PyString_Size(object p)
int PyString_GET_SIZE_void "PyString_GET_SIZE" (void *p)
int PyString_CheckExact(object p)
void Py_INCREF(object o)
void Py_DECREF(object o)
cdef extern from "string.h":
int strncmp(char *s1, char *s2, int len)
void *memchr(void *s, int c, size_t len)
int memcmp(void *b1, void *b2, size_t len)
# ??? memrchr is a GNU extension :(
# void *memrchr(void *s, int c, size_t len)
cdef void* _my_memrchr(void *s, int c, size_t n):
# memrchr seems to be a GNU extension, so we have to implement it ourselves
cdef char *pos
cdef char *start
start = <char*>s
pos = start + n - 1
while pos >= start:
if pos[0] == c:
return <void*>pos
pos = pos - 1
return NULL
def _py_memrchr(s, c):
"""Just to expose _my_memrchr for testing.
:param s: The Python string to search
:param c: The character to search for
:return: The offset to the last instance of 'c' in s
"""
cdef void *_s
cdef void *found
cdef int length
cdef char *_c
_s = PyString_AsString(s)
length = PyString_Size(s)
_c = PyString_AsString(c)
assert PyString_Size(c) == 1,\
'Must be a single character string, not %s' % (c,)
found = _my_memrchr(_s, _c[0], length)
if found == NULL:
return None
return <char*>found - <char*>_s
cdef object safe_string_from_size(char *s, Py_ssize_t size):
if size < 0:
# XXX: On 64-bit machines the <int> cast causes a C compiler warning.
raise AssertionError(
'tried to create a string with an invalid size: %d @0x%x'
% (size, <int>s))
return PyString_FromStringAndSize(s, size)
cdef int _is_aligned(void *ptr):
"""Is this pointer aligned to an integer size offset?
:return: 1 if this pointer is aligned, 0 otherwise.
"""
return ((<intptr_t>ptr) & ((sizeof(int))-1)) == 0
cdef int _cmp_by_dirs(char *path1, int size1, char *path2, int size2):
cdef unsigned char *cur1
cdef unsigned char *cur2
cdef unsigned char *end1
cdef unsigned char *end2
cdef int *cur_int1
cdef int *cur_int2
cdef int *end_int1
cdef int *end_int2
if path1 == path2 and size1 == size2:
return 0
end1 = <unsigned char*>path1+size1
end2 = <unsigned char*>path2+size2
# Use 32-bit comparisons for the matching portion of the string.
# Almost all CPU's are faster at loading and comparing 32-bit integers,
# than they are at 8-bit integers.
# 99% of the time, these will be aligned, but in case they aren't just skip
# this loop
if _is_aligned(path1) and _is_aligned(path2):
cur_int1 = <int*>path1
cur_int2 = <int*>path2
end_int1 = <int*>(path1 + size1 - (size1 % sizeof(int)))
end_int2 = <int*>(path2 + size2 - (size2 % sizeof(int)))
while cur_int1 < end_int1 and cur_int2 < end_int2:
if cur_int1[0] != cur_int2[0]:
break
cur_int1 = cur_int1 + 1
cur_int2 = cur_int2 + 1
cur1 = <unsigned char*>cur_int1
cur2 = <unsigned char*>cur_int2
else:
cur1 = <unsigned char*>path1
cur2 = <unsigned char*>path2
while cur1 < end1 and cur2 < end2:
if cur1[0] == cur2[0]:
# This character matches, just go to the next one
cur1 = cur1 + 1
cur2 = cur2 + 1
continue
# The current characters do not match
if cur1[0] == c'/':
return -1 # Reached the end of path1 segment first
elif cur2[0] == c'/':
return 1 # Reached the end of path2 segment first
elif cur1[0] < cur2[0]:
return -1
else:
return 1
# We reached the end of at least one of the strings
if cur1 < end1:
return 1 # Not at the end of cur1, must be at the end of cur2
if cur2 < end2:
return -1 # At the end of cur1, but not at cur2
# We reached the end of both strings
return 0
def cmp_by_dirs(path1, path2):
"""Compare two paths directory by directory.
This is equivalent to doing::
cmp(path1.split('/'), path2.split('/'))
The idea is that you should compare path components separately. This
differs from plain ``cmp(path1, path2)`` for paths like ``'a-b'`` and
``a/b``. "a-b" comes after "a" but would come before "a/b" lexically.
:param path1: first path
:param path2: second path
:return: negative number if ``path1`` comes first,
0 if paths are equal,
and positive number if ``path2`` sorts first
"""
if not PyString_CheckExact(path1):
raise TypeError("'path1' must be a plain string, not %s: %r"
% (type(path1), path1))
if not PyString_CheckExact(path2):
raise TypeError("'path2' must be a plain string, not %s: %r"
% (type(path2), path2))
return _cmp_by_dirs(PyString_AsString(path1),
PyString_Size(path1),
PyString_AsString(path2),
PyString_Size(path2))
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.
In other words, all entries in a directory are sorted together, and
directorys are sorted in cmp_by_dirs order.
: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
"""
if not PyString_CheckExact(path1):
raise TypeError("'path1' must be a plain string, not %s: %r"
% (type(path1), path1))
if not PyString_CheckExact(path2):
raise TypeError("'path2' must be a plain string, not %s: %r"
% (type(path2), path2))
return _cmp_path_by_dirblock_intern(PyString_AsString(path1),
PyString_Size(path1),
PyString_AsString(path2),
PyString_Size(path2))
cdef int _cmp_path_by_dirblock_intern(char *path1, int path1_len,
char *path2, int path2_len):
"""Compare two paths by what directory they are in.
see ``_cmp_path_by_dirblock`` for details.
"""
cdef char *dirname1
cdef int dirname1_len
cdef char *dirname2
cdef int dirname2_len
cdef char *basename1
cdef int basename1_len
cdef char *basename2
cdef int basename2_len
cdef int cur_len
cdef int cmp_val
if path1_len == 0 and path2_len == 0:
return 0
if path1 == path2 and path1_len == path2_len:
return 0
if path1_len == 0:
return -1
if path2_len == 0:
return 1
basename1 = <char*>_my_memrchr(path1, c'/', path1_len)
if basename1 == NULL:
basename1 = path1
basename1_len = path1_len
dirname1 = ''
dirname1_len = 0
else:
dirname1 = path1
dirname1_len = basename1 - path1
basename1 = basename1 + 1
basename1_len = path1_len - dirname1_len - 1
basename2 = <char*>_my_memrchr(path2, c'/', path2_len)
if basename2 == NULL:
basename2 = path2
basename2_len = path2_len
dirname2 = ''
dirname2_len = 0
else:
dirname2 = path2
dirname2_len = basename2 - path2
basename2 = basename2 + 1
basename2_len = path2_len - dirname2_len - 1
cmp_val = _cmp_by_dirs(dirname1, dirname1_len,
dirname2, dirname2_len)
if cmp_val != 0:
return cmp_val
cur_len = basename1_len
if basename2_len < basename1_len:
cur_len = basename2_len
cmp_val = memcmp(basename1, basename2, cur_len)
if cmp_val != 0:
return cmp_val
if basename1_len == basename2_len:
return 0
if basename1_len < basename2_len:
return -1
return 1
def _bisect_path_left(paths, path):
"""Return the index where to insert path into paths.
This uses a path-wise comparison so we get::
a
a-b
a=b
a/b
Rather than::
a
a-b
a/b
a=b
:param paths: A list of paths to search through
:param path: A single path to insert
:return: An offset where 'path' can be inserted.
:seealso: bisect.bisect_left
"""
cdef int _lo
cdef int _hi
cdef int _mid
cdef char *path_cstr
cdef int path_size
cdef char *cur_cstr
cdef int cur_size
cdef void *cur
if not PyList_CheckExact(paths):
raise TypeError("you must pass a python list for 'paths' not: %s %r"
% (type(paths), paths))
if not PyString_CheckExact(path):
raise TypeError("you must pass a string for 'path' not: %s %r"
% (type(path), path))
_hi = len(paths)
_lo = 0
path_cstr = PyString_AsString(path)
path_size = PyString_Size(path)
while _lo < _hi:
_mid = (_lo + _hi) / 2
cur = PyList_GetItem_object_void(paths, _mid)
cur_cstr = PyString_AS_STRING_void(cur)
cur_size = PyString_GET_SIZE_void(cur)
if _cmp_path_by_dirblock_intern(cur_cstr, cur_size,
path_cstr, path_size) < 0:
_lo = _mid + 1
else:
_hi = _mid
return _lo
def _bisect_path_right(paths, path):
"""Return the index where to insert path into paths.
This uses a path-wise comparison so we get::
a
a-b
a=b
a/b
Rather than::
a
a-b
a/b
a=b
:param paths: A list of paths to search through
:param path: A single path to insert
:return: An offset where 'path' can be inserted.
:seealso: bisect.bisect_right
"""
cdef int _lo
cdef int _hi
cdef int _mid
cdef char *path_cstr
cdef int path_size
cdef char *cur_cstr
cdef int cur_size
cdef void *cur
if not PyList_CheckExact(paths):
raise TypeError("you must pass a python list for 'paths' not: %s %r"
% (type(paths), paths))
if not PyString_CheckExact(path):
raise TypeError("you must pass a string for 'path' not: %s %r"
% (type(path), path))
_hi = len(paths)
_lo = 0
path_cstr = PyString_AsString(path)
path_size = PyString_Size(path)
while _lo < _hi:
_mid = (_lo + _hi) / 2
cur = PyList_GetItem_object_void(paths, _mid)
cur_cstr = PyString_AS_STRING_void(cur)
cur_size = PyString_GET_SIZE_void(cur)
if _cmp_path_by_dirblock_intern(path_cstr, path_size,
cur_cstr, cur_size) < 0:
_hi = _mid
else:
_lo = _mid + 1
return _lo
def bisect_dirblock(dirblocks, dirname, lo=0, hi=None, cache=None):
"""Return the index where to insert dirname into the dirblocks.
The return value idx is such that all directories blocks in dirblock[:idx]
have names < dirname, and all blocks in dirblock[idx:] have names >=
dirname.
Optional args lo (default 0) and hi (default len(dirblocks)) bound the
slice of a to be searched.
"""
cdef int _lo
cdef int _hi
cdef int _mid
cdef char *dirname_cstr
cdef int dirname_size
cdef char *cur_cstr
cdef int cur_size
cdef void *cur
if not PyList_CheckExact(dirblocks):
raise TypeError("you must pass a python list for 'dirblocks' not: %s %r"
% (type(dirblocks), dirblocks))
if not PyString_CheckExact(dirname):
raise TypeError("you must pass a string for dirname not: %s %r"
% (type(dirname), dirname))
if hi is None:
_hi = len(dirblocks)
else:
_hi = hi
_lo = lo
dirname_cstr = PyString_AsString(dirname)
dirname_size = PyString_Size(dirname)
while _lo < _hi:
_mid = (_lo + _hi) / 2
# Grab the dirname for the current dirblock
# cur = dirblocks[_mid][0]
cur = PyTuple_GetItem_void_void(
PyList_GetItem_object_void(dirblocks, _mid), 0)
cur_cstr = PyString_AS_STRING_void(cur)
cur_size = PyString_GET_SIZE_void(cur)
if _cmp_by_dirs(cur_cstr, cur_size, dirname_cstr, dirname_size) < 0:
_lo = _mid + 1
else:
_hi = _mid
return _lo
cdef class Reader:
"""Maintain the current location, and return fields as you parse them."""
cdef object state # The DirState object
cdef object text # The overall string object
cdef char *text_cstr # Pointer to the beginning of text
cdef int text_size # Length of text
cdef char *end_cstr # End of text
cdef char *cur_cstr # Pointer to the current record
cdef char *next # Pointer to the end of this record
def __init__(self, text, state):
self.state = state
self.text = text
self.text_cstr = PyString_AsString(text)
self.text_size = PyString_Size(text)
self.end_cstr = self.text_cstr + self.text_size
self.cur_cstr = self.text_cstr
cdef char *get_next(self, int *size) except NULL:
"""Return a pointer to the start of the next field."""
cdef char *next
cdef Py_ssize_t extra_len
if self.cur_cstr == NULL:
raise AssertionError('get_next() called when cur_str is NULL')
elif self.cur_cstr >= self.end_cstr:
raise AssertionError('get_next() called when there are no chars'
' left')
next = self.cur_cstr
self.cur_cstr = <char*>memchr(next, c'\0', self.end_cstr - next)
if self.cur_cstr == NULL:
extra_len = self.end_cstr - next
raise errors.DirstateCorrupt(self.state,
'failed to find trailing NULL (\\0).'
' Trailing garbage: %r'
% safe_string_from_size(next, extra_len))
size[0] = self.cur_cstr - next
self.cur_cstr = self.cur_cstr + 1
return next
cdef object get_next_str(self):
"""Get the next field as a Python string."""
cdef int size
cdef char *next
next = self.get_next(&size)
return safe_string_from_size(next, size)
cdef int _init(self) except -1:
"""Get the pointer ready.
This assumes that the dirstate header has already been read, and we
already have the dirblock string loaded into memory.
This just initializes our memory pointers, etc for parsing of the
dirblock string.
"""
cdef char *first
cdef int size
# The first field should be an empty string left over from the Header
first = self.get_next(&size)
if first[0] != c'\0' and size == 0:
raise AssertionError('First character should be null not: %s'
% (first,))
return 0
cdef object _get_entry(self, int num_trees, void **p_current_dirname,
int *new_block):
"""Extract the next entry.
This parses the next entry based on the current location in
``self.cur_cstr``.
Each entry can be considered a "row" in the total table. And each row
has a fixed number of columns. It is generally broken up into "key"
columns, then "current" columns, and then "parent" columns.
:param num_trees: How many parent trees need to be parsed
:param p_current_dirname: A pointer to the current PyString
representing the directory name.
We pass this in as a void * so that pyrex doesn't have to
increment/decrement the PyObject reference counter for each
_get_entry call.
We use a pointer so that _get_entry can update it with the new
value.
:param new_block: This is to let the caller know that it needs to
create a new directory block to store the next entry.
"""
cdef object path_name_file_id_key
cdef char *entry_size_cstr
cdef unsigned long int entry_size
cdef char* executable_cstr
cdef int is_executable
cdef char* dirname_cstr
cdef char* trailing
cdef int cur_size
cdef int i
cdef object minikind
cdef object fingerprint
cdef object info
# Read the 'key' information (dirname, name, file_id)
dirname_cstr = self.get_next(&cur_size)
# Check to see if we have started a new directory block.
# If so, then we need to create a new dirname PyString, so that it can
# be used in all of the tuples. This saves time and memory, by re-using
# the same object repeatedly.
# Do the cheap 'length of string' check first. If the string is a
# different length, then we *have* to be a different directory.
if (cur_size != PyString_GET_SIZE_void(p_current_dirname[0])
or strncmp(dirname_cstr,
# Extract the char* from our current dirname string. We
# know it is a PyString, so we can use
# PyString_AS_STRING, we use the _void version because
# we are tricking Pyrex by using a void* rather than an
# <object>
PyString_AS_STRING_void(p_current_dirname[0]),
cur_size+1) != 0):
dirname = safe_string_from_size(dirname_cstr, cur_size)
p_current_dirname[0] = <void*>dirname
new_block[0] = 1
else:
new_block[0] = 0
# Build up the key that will be used.
# By using <object>(void *) Pyrex will automatically handle the
# Py_INCREF that we need.
path_name_file_id_key = (<object>p_current_dirname[0],
self.get_next_str(),
self.get_next_str(),
)
# Parse all of the per-tree information. current has the information in
# the same location as parent trees. The only difference is that 'info'
# is a 'packed_stat' for current, while it is a 'revision_id' for
# parent trees.
# minikind, fingerprint, and info will be returned as regular python
# strings
# entry_size and is_executable will be parsed into a python Long and
# python Boolean, respectively.
# TODO: jam 20070718 Consider changin the entry_size conversion to
# prefer python Int when possible. They are generally faster to
# work with, and it will be rare that we have a file >2GB.
# Especially since this code is pretty much fixed at a max of
# 4GB.
trees = []
for i from 0 <= i < num_trees:
minikind = self.get_next_str()
fingerprint = self.get_next_str()
entry_size_cstr = self.get_next(&cur_size)
entry_size = strtoul(entry_size_cstr, NULL, 10)
executable_cstr = self.get_next(&cur_size)
is_executable = (executable_cstr[0] == c'y')
info = self.get_next_str()
PyList_Append(trees, (
minikind, # minikind
fingerprint, # fingerprint
entry_size, # size
is_executable,# executable
info, # packed_stat or revision_id
))
# The returned tuple is (key, [trees])
ret = (path_name_file_id_key, trees)
# Ignore the trailing newline, but assert that it does exist, this
# ensures that we always finish parsing a line on an end-of-entry
# marker.
trailing = self.get_next(&cur_size)
if cur_size != 1 or trailing[0] != c'\n':
raise errors.DirstateCorrupt(self.state,
'Bad parse, we expected to end on \\n, not: %d %s: %s'
% (cur_size, safe_string_from_size(trailing, cur_size),
ret))
return ret
def _parse_dirblocks(self):
"""Parse all dirblocks in the state file."""
cdef int num_trees
cdef object current_block
cdef object entry
cdef void * current_dirname
cdef int new_block
cdef int expected_entry_count
cdef int entry_count
num_trees = self.state._num_present_parents() + 1
expected_entry_count = self.state._num_entries
# Ignore the first record
self._init()
current_block = []
dirblocks = [('', current_block), ('', [])]
self.state._dirblocks = dirblocks
obj = ''
current_dirname = <void*>obj
new_block = 0
entry_count = 0
# TODO: jam 2007-05-07 Consider pre-allocating some space for the
# members, and then growing and shrinking from there. If most
# directories have close to 10 entries in them, it would save a
# few mallocs if we default our list size to something
# reasonable. Or we could malloc it to something large (100 or
# so), and then truncate. That would give us a malloc + realloc,
# rather than lots of reallocs.
while self.cur_cstr < self.end_cstr:
entry = self._get_entry(num_trees, ¤t_dirname, &new_block)
if new_block:
# new block - different dirname
current_block = []
PyList_Append(dirblocks,
(<object>current_dirname, current_block))
PyList_Append(current_block, entry)
entry_count = entry_count + 1
if entry_count != expected_entry_count:
raise errors.DirstateCorrupt(self.state,
'We read the wrong number of entries.'
' We expected to read %s, but read %s'
% (expected_entry_count, entry_count))
self.state._split_root_dirblock_into_contents()
def _read_dirblocks(state):
"""Read in the dirblocks for the given DirState object.
This is tightly bound to the DirState internal representation. It should be
thought of as a member function, which is only separated out so that we can
re-write it in pyrex.
:param state: A DirState object.
:return: None
:postcondition: The dirblocks will be loaded into the appropriate fields in
the DirState object.
"""
state._state_file.seek(state._end_of_header)
text = state._state_file.read()
# TODO: check the crc checksums. crc_measured = zlib.crc32(text)
reader = Reader(text, state)
reader._parse_dirblocks()
state._dirblock_state = DirState.IN_MEMORY_UNMODIFIED
cdef int minikind_from_mode(int mode):
# in order of frequency:
if S_ISREG(mode):
return c"f"
if S_ISDIR(mode):
return c"d"
if S_ISLNK(mode):
return c"l"
return 0
_encode = binascii.b2a_base64
from struct import pack
cdef _pack_stat(stat_value):
"""return a string representing the stat value's key fields.
:param stat_value: A stat oject with st_size, st_mtime, st_ctime, st_dev,
st_ino and st_mode fields.
"""
cdef char result[6*4] # 6 long ints
cdef int *aliased
aliased = <int *>result
aliased[0] = htonl(stat_value.st_size)
aliased[1] = htonl(int(stat_value.st_mtime))
aliased[2] = htonl(int(stat_value.st_ctime))
aliased[3] = htonl(stat_value.st_dev)
aliased[4] = htonl(stat_value.st_ino & 0xFFFFFFFF)
aliased[5] = htonl(stat_value.st_mode)
packed = PyString_FromStringAndSize(result, 6*4)
return _encode(packed)[:-1]
def update_entry(self, entry, abspath, stat_value):
"""Update the entry based on what is actually on disk.
This function only calculates the sha if it needs to - if the entry is
uncachable, or clearly different to the first parent's entry, no sha
is calculated, and None is returned.
:param entry: This is the dirblock entry for the file in question.
:param abspath: The path on disk for this file.
:param stat_value: (optional) if we already have done a stat on the
file, re-use it.
:return: None, or The sha1 hexdigest of the file (40 bytes) or link
target of a symlink.
"""
return _update_entry(self, entry, abspath, stat_value)
cdef _update_entry(self, entry, abspath, stat_value):
"""Update the entry based on what is actually on disk.
This function only calculates the sha if it needs to - if the entry is
uncachable, or clearly different to the first parent's entry, no sha
is calculated, and None is returned.
:param self: The dirstate object this is operating on.
:param entry: This is the dirblock entry for the file in question.
:param abspath: The path on disk for this file.
:param stat_value: The stat value done on the path.
:return: None, or The sha1 hexdigest of the file (40 bytes) or link
target of a symlink.
"""
# TODO - require pyrex 0.9.8, then use a pyd file to define access to the
# _st mode of the compiled stat objects.
cdef int minikind, saved_minikind
cdef void * details
minikind = minikind_from_mode(stat_value.st_mode)
if 0 == minikind:
return None
packed_stat = _pack_stat(stat_value)
details = PyList_GetItem_void_void(PyTuple_GetItem_void_void(<void *>entry, 1), 0)
saved_minikind = PyString_AsString_obj(<PyObject *>PyTuple_GetItem_void_void(details, 0))[0]
if minikind == c'd' and saved_minikind == c't':
minikind = c't'
saved_link_or_sha1 = PyTuple_GetItem_void_object(details, 1)
saved_file_size = PyTuple_GetItem_void_object(details, 2)
saved_executable = PyTuple_GetItem_void_object(details, 3)
saved_packed_stat = PyTuple_GetItem_void_object(details, 4)
# Deal with pyrex decrefing the objects
Py_INCREF(saved_link_or_sha1)
Py_INCREF(saved_file_size)
Py_INCREF(saved_executable)
Py_INCREF(saved_packed_stat)
#(saved_minikind, saved_link_or_sha1, saved_file_size,
# saved_executable, saved_packed_stat) = entry[1][0]
if (minikind == saved_minikind
and packed_stat == saved_packed_stat):
# The stat hasn't changed since we saved, so we can re-use the
# saved sha hash.
if minikind == c'd':
return None
# size should also be in packed_stat
if saved_file_size == stat_value.st_size:
return saved_link_or_sha1
# If we have gotten this far, that means that we need to actually
# process this entry.
link_or_sha1 = None
if minikind == c'f':
executable = self._is_executable(stat_value.st_mode,
saved_executable)
if self._cutoff_time is None:
self._sha_cutoff_time()
if (stat_value.st_mtime < self._cutoff_time
and stat_value.st_ctime < self._cutoff_time
and len(entry[1]) > 1
and entry[1][1][0] != 'a'):
# Could check for size changes for further optimised
# avoidance of sha1's. However the most prominent case of
# over-shaing is during initial add, which this catches.
link_or_sha1 = self._sha1_file(abspath)
entry[1][0] = ('f', link_or_sha1, stat_value.st_size,
executable, packed_stat)
else:
entry[1][0] = ('f', '', stat_value.st_size,
executable, DirState.NULLSTAT)
elif minikind == c'd':
link_or_sha1 = None
entry[1][0] = ('d', '', 0, False, packed_stat)
if saved_minikind != c'd':
# This changed from something into a directory. Make sure we
# have a directory block for it. This doesn't happen very
# often, so this doesn't have to be super fast.
block_index, entry_index, dir_present, file_present = \
self._get_block_entry_index(entry[0][0], entry[0][1], 0)
self._ensure_block(block_index, entry_index,
pathjoin(entry[0][0], entry[0][1]))
elif minikind == c'l':
link_or_sha1 = self._read_link(abspath, saved_link_or_sha1)
if self._cutoff_time is None:
self._sha_cutoff_time()
if (stat_value.st_mtime < self._cutoff_time
and stat_value.st_ctime < self._cutoff_time):
entry[1][0] = ('l', link_or_sha1, stat_value.st_size,
False, packed_stat)
else:
entry[1][0] = ('l', '', stat_value.st_size,
False, DirState.NULLSTAT)
self._dirblock_state = DirState.IN_MEMORY_MODIFIED
return link_or_sha1
cdef char _minikind_from_string(object string):
"""Convert a python string to a char."""
return PyString_AsString(string)[0]
cdef object _kind_absent
cdef object _kind_file
cdef object _kind_directory
cdef object _kind_symlink
cdef object _kind_relocated
cdef object _kind_tree_reference
_kind_absent = "absent"
_kind_file = "file"
_kind_directory = "directory"
_kind_symlink = "symlink"
_kind_relocated = "relocated"
_kind_tree_reference = "tree-reference"
cdef object _minikind_to_kind(char minikind):
"""Create a string kind for minikind."""
cdef char _minikind[1]
if minikind == c'f':
return _kind_file
elif minikind == c'd':
return _kind_directory
elif minikind == c'a':
return _kind_absent
elif minikind == c'r':
return _kind_relocated
elif minikind == c'l':
return _kind_symlink
elif minikind == c't':
return _kind_tree_reference
_minikind[0] = minikind
raise KeyError(PyString_FromStringAndSize(_minikind, 1))
cdef int _versioned_minikind(char minikind):
"""Return non-zero if minikind is in fltd"""
return (minikind == c'f' or
minikind == c'd' or
minikind == c'l' or
minikind == c't')
cdef class ProcessEntryC:
cdef object old_dirname_to_file_id # dict
cdef object new_dirname_to_file_id # dict
cdef object last_source_parent
cdef object last_target_parent
cdef object include_unchanged
cdef object use_filesystem_for_exec
cdef object utf8_decode
cdef readonly object searched_specific_files
cdef object search_specific_files
cdef object state
# Current iteration variables:
cdef object current_root
cdef object current_root_unicode
cdef object root_entries
cdef int root_entries_pos, root_entries_len
cdef object root_abspath
cdef int source_index, target_index
cdef int want_unversioned
cdef object tree
cdef object dir_iterator
cdef int block_index
cdef object current_block
cdef int current_block_pos
cdef object current_block_list
cdef object current_dir_info
cdef object current_dir_list
cdef int path_index
cdef object root_dir_info
cdef object bisect_left
cdef object pathjoin
cdef object fstat
cdef object sha_file
def __init__(self, include_unchanged, use_filesystem_for_exec,
search_specific_files, state, source_index, target_index,
want_unversioned, tree):
self.old_dirname_to_file_id = {}
self.new_dirname_to_file_id = {}
# Using a list so that we can access the values and change them in
# nested scope. Each one is [path, file_id, entry]
self.last_source_parent = [None, None]
self.last_target_parent = [None, None]
self.include_unchanged = include_unchanged
self.use_filesystem_for_exec = use_filesystem_for_exec
self.utf8_decode = cache_utf8._utf8_decode
# for all search_indexs in each path at or under each element of
# search_specific_files, if the detail is relocated: add the id, and add the
# relocated path as one to search if its not searched already. If the
# detail is not relocated, add the id.
self.searched_specific_files = set()
self.search_specific_files = search_specific_files
self.state = state
self.current_root = None
self.current_root_unicode = None
self.root_entries = None
self.root_entries_pos = 0
self.root_entries_len = 0
self.root_abspath = None
if source_index is None:
self.source_index = -1
else:
self.source_index = source_index
self.target_index = target_index
self.want_unversioned = want_unversioned
self.tree = tree
self.dir_iterator = None
self.block_index = -1
self.current_block = None
self.current_block_list = None
self.current_block_pos = -1
self.current_dir_info = None
self.current_dir_list = None
self.path_index = 0
self.root_dir_info = None
self.bisect_left = bisect.bisect_left
self.pathjoin = osutils.pathjoin
self.fstat = os.fstat
self.sha_file = osutils.sha_file
cdef _process_entry(self, entry, path_info):
"""Compare an entry and real disk to generate delta information.
:param path_info: top_relpath, basename, kind, lstat, abspath for
the path of entry. If None, then the path is considered absent.
(Perhaps we should pass in a concrete entry for this ?)
Basename is returned as a utf8 string because we expect this
tuple will be ignored, and don't want to take the time to
decode.
:return: (iter_changes_result, changed). If the entry has not been
handled then changed is None. Otherwise it is False if no content
or metadata changes have occured, and None if any content or
metadata change has occured. If self.include_unchanged is True then
if changed is not None, iter_changes_result will always be a result
tuple. Otherwise, iter_changes_result is None unless changed is
True.
"""
cdef char target_minikind
cdef char source_minikind
cdef object file_id
cdef int content_change
cdef object details_list
file_id = None
details_list = entry[1]
if -1 == self.source_index:
source_details = DirState.NULL_PARENT_DETAILS
else:
source_details = details_list[self.source_index]
target_details = details_list[self.target_index]
target_minikind = _minikind_from_string(target_details[0])
if path_info is not None and _versioned_minikind(target_minikind):
if self.target_index != 0:
raise AssertionError("Unsupported target index %d" %
self.target_index)
link_or_sha1 = _update_entry(self.state, entry, path_info[4], path_info[3])
# The entry may have been modified by update_entry
target_details = details_list[self.target_index]
target_minikind = _minikind_from_string(target_details[0])
else:
link_or_sha1 = None
# the rest of this function is 0.3 seconds on 50K paths, or
# 0.000006 seconds per call.
source_minikind = _minikind_from_string(source_details[0])
if ((_versioned_minikind(source_minikind) or source_minikind == c'r')
and _versioned_minikind(target_minikind)):
# claimed content in both: diff
# r | fdlt | | add source to search, add id path move and perform
# | | | diff check on source-target
# r | fdlt | a | dangling file that was present in the basis.
# | | | ???
if source_minikind != c'r':
old_dirname = entry[0][0]
old_basename = entry[0][1]
old_path = path = None
else:
# add the source to the search path to find any children it
# has. TODO ? : only add if it is a container ?
if not osutils.is_inside_any(self.searched_specific_files,
source_details[1]):
self.search_specific_files.add(source_details[1])
# generate the old path; this is needed for stating later
# as well.
old_path = source_details[1]
old_dirname, old_basename = os.path.split(old_path)
path = self.pathjoin(entry[0][0], entry[0][1])
old_entry = self.state._get_entry(self.source_index,
path_utf8=old_path)
# update the source details variable to be the real
# location.
if old_entry == (None, None):
raise errors.CorruptDirstate(self.state._filename,
"entry '%s/%s' is considered renamed from %r"
" but source does not exist\n"
"entry: %s" % (entry[0][0], entry[0][1], old_path, entry))
source_details = old_entry[1][self.source_index]
source_minikind = _minikind_from_string(source_details[0])
if path_info is None:
# the file is missing on disk, show as removed.
content_change = 1
target_kind = None
target_exec = False
else:
# source and target are both versioned and disk file is present.
target_kind = path_info[2]
if target_kind == 'directory':
if path is None:
old_path = path = self.pathjoin(old_dirname, old_basename)
file_id = entry[0][2]
self.new_dirname_to_file_id[path] = file_id
if source_minikind != c'd':
content_change = 1
else:
# directories have no fingerprint
content_change = 0
target_exec = False
elif target_kind == 'file':
if source_minikind != c'f':
content_change = 1
else:
# Check the sha. We can't just rely on the size as
# content filtering may mean differ sizes actually
# map to the same content
if link_or_sha1 is None:
# Stat cache miss:
statvalue, link_or_sha1 = \
self.state._sha1_provider.stat_and_sha1(
path_info[4])
self.state._observed_sha1(entry, link_or_sha1,
statvalue)
content_change = (link_or_sha1 != source_details[1])
# Target details is updated at update_entry time
if self.use_filesystem_for_exec:
# We don't need S_ISREG here, because we are sure
# we are dealing with a file.
target_exec = bool(S_IXUSR & path_info[3].st_mode)
else:
target_exec = target_details[3]
elif target_kind == 'symlink':
if source_minikind != c'l':
content_change = 1
else:
content_change = (link_or_sha1 != source_details[1])
target_exec = False
elif target_kind == 'tree-reference':
if source_minikind != c't':
content_change = 1
else:
content_change = 0
target_exec = False
else:
raise Exception, "unknown kind %s" % path_info[2]
if source_minikind == c'd':
if path is None:
old_path = path = self.pathjoin(old_dirname, old_basename)
if file_id is None:
file_id = entry[0][2]
self.old_dirname_to_file_id[old_path] = file_id
# parent id is the entry for the path in the target tree
if old_dirname == self.last_source_parent[0]:
source_parent_id = self.last_source_parent[1]
else:
try:
source_parent_id = self.old_dirname_to_file_id[old_dirname]
except KeyError:
source_parent_entry = self.state._get_entry(self.source_index,
path_utf8=old_dirname)
source_parent_id = source_parent_entry[0][2]
if source_parent_id == entry[0][2]:
# This is the root, so the parent is None
source_parent_id = None
else:
self.last_source_parent[0] = old_dirname
self.last_source_parent[1] = source_parent_id
new_dirname = entry[0][0]
if new_dirname == self.last_target_parent[0]:
target_parent_id = self.last_target_parent[1]
else:
try:
target_parent_id = self.new_dirname_to_file_id[new_dirname]
except KeyError:
# TODO: We don't always need to do the lookup, because the
# parent entry will be the same as the source entry.
target_parent_entry = self.state._get_entry(self.target_index,
path_utf8=new_dirname)
if target_parent_entry == (None, None):
raise AssertionError(
"Could not find target parent in wt: %s\nparent of: %s"
% (new_dirname, entry))
target_parent_id = target_parent_entry[0][2]
if target_parent_id == entry[0][2]:
# This is the root, so the parent is None
target_parent_id = None
else:
self.last_target_parent[0] = new_dirname
self.last_target_parent[1] = target_parent_id
source_exec = source_details[3]
changed = (content_change
or source_parent_id != target_parent_id
or old_basename != entry[0][1]
or source_exec != target_exec
)
if not changed and not self.include_unchanged:
return None, False
else:
if old_path is None:
path = self.pathjoin(old_dirname, old_basename)
old_path = path
old_path_u = self.utf8_decode(old_path)[0]
path_u = old_path_u
else:
old_path_u = self.utf8_decode(old_path)[0]
if old_path == path:
path_u = old_path_u
else:
path_u = self.utf8_decode(path)[0]
source_kind = _minikind_to_kind(source_minikind)
return (entry[0][2],
(old_path_u, path_u),
content_change,
(True, True),
(source_parent_id, target_parent_id),
(self.utf8_decode(old_basename)[0], self.utf8_decode(entry[0][1])[0]),
(source_kind, target_kind),
(source_exec, target_exec)), changed
elif source_minikind == c'a' and _versioned_minikind(target_minikind):
# looks like a new file
path = self.pathjoin(entry[0][0], entry[0][1])
# parent id is the entry for the path in the target tree
# TODO: these are the same for an entire directory: cache em.
parent_entry = self.state._get_entry(self.target_index,
path_utf8=entry[0][0])
if parent_entry is None:
raise errors.DirstateCorrupt(self.state,
"We could not find the parent entry in index %d"
" for the entry: %s"
% (self.target_index, entry[0]))
parent_id = parent_entry[0][2]
if parent_id == entry[0][2]:
parent_id = None
if path_info is not None:
# Present on disk:
if self.use_filesystem_for_exec:
# We need S_ISREG here, because we aren't sure if this
# is a file or not.
target_exec = bool(
S_ISREG(path_info[3].st_mode)
and S_IXUSR & path_info[3].st_mode)
else:
target_exec = target_details[3]
return (entry[0][2],
(None, self.utf8_decode(path)[0]),
True,
(False, True),
(None, parent_id),
(None, self.utf8_decode(entry[0][1])[0]),
(None, path_info[2]),
(None, target_exec)), True
else:
# Its a missing file, report it as such.
return (entry[0][2],
(None, self.utf8_decode(path)[0]),
False,
(False, True),
(None, parent_id),
(None, self.utf8_decode(entry[0][1])[0]),
(None, None),
(None, False)), True
elif _versioned_minikind(source_minikind) and target_minikind == c'a':
# unversioned, possibly, or possibly not deleted: we dont care.
# if its still on disk, *and* theres no other entry at this
# path [we dont know this in this routine at the moment -
# perhaps we should change this - then it would be an unknown.
old_path = self.pathjoin(entry[0][0], entry[0][1])
# parent id is the entry for the path in the target tree
parent_id = self.state._get_entry(self.source_index, path_utf8=entry[0][0])[0][2]
if parent_id == entry[0][2]:
parent_id = None
return (entry[0][2],
(self.utf8_decode(old_path)[0], None),
True,
(True, False),
(parent_id, None),
(self.utf8_decode(entry[0][1])[0], None),
(_minikind_to_kind(source_minikind), None),
(source_details[3], None)), True
elif _versioned_minikind(source_minikind) and target_minikind == c'r':
# a rename; could be a true rename, or a rename inherited from
# a renamed parent. TODO: handle this efficiently. Its not
# common case to rename dirs though, so a correct but slow
# implementation will do.
if not osutils.is_inside_any(self.searched_specific_files, target_details[1]):
self.search_specific_files.add(target_details[1])
elif ((source_minikind == c'r' or source_minikind == c'a') and
(target_minikind == c'r' or target_minikind == c'a')):
# neither of the selected trees contain this path,
# so skip over it. This is not currently directly tested, but
# is indirectly via test_too_much.TestCommands.test_conflicts.
pass
else:
raise AssertionError("don't know how to compare "
"source_minikind=%r, target_minikind=%r"
% (source_minikind, target_minikind))
## import pdb;pdb.set_trace()
return None, None
def __iter__(self):
return self
def iter_changes(self):
return self
cdef void _update_current_block(self):
if (self.block_index < len(self.state._dirblocks) and
osutils.is_inside(self.current_root, self.state._dirblocks[self.block_index][0])):
self.current_block = self.state._dirblocks[self.block_index]
self.current_block_list = self.current_block[1]
self.current_block_pos = 0
else:
self.current_block = None
self.current_block_list = None
def __next__(self):
# Simple thunk to allow tail recursion without pyrex confusion
return self._iter_next()
cdef _iter_next(self):
"""Iterate over the changes."""
# This function single steps through an iterator. As such while loops
# are often exited by 'return' - the code is structured so that the
# next call into the function will return to the same while loop. Note
# that all flow control needed to re-reach that step is reexecuted,
# which can be a performance problem. It has not yet been tuned to
# minimise this; a state machine is probably the simplest restructuring
# to both minimise this overhead and make the code considerably more
# understandable.
# sketch:
# compare source_index and target_index at or under each element of search_specific_files.
# follow the following comparison table. Note that we only want to do diff operations when
# the target is fdl because thats when the walkdirs logic will have exposed the pathinfo
# for the target.
# cases:
#
# Source | Target | disk | action
# r | fdlt | | add source to search, add id path move and perform
# | | | diff check on source-target
# r | fdlt | a | dangling file that was present in the basis.
# | | | ???
# r | a | | add source to search
# r | a | a |
# r | r | | this path is present in a non-examined tree, skip.
# r | r | a | this path is present in a non-examined tree, skip.
# a | fdlt | | add new id
# a | fdlt | a | dangling locally added file, skip
# a | a | | not present in either tree, skip
# a | a | a | not present in any tree, skip
# a | r | | not present in either tree at this path, skip as it
# | | | may not be selected by the users list of paths.
# a | r | a | not present in either tree at this path, skip as it
# | | | may not be selected by the users list of paths.
# fdlt | fdlt | | content in both: diff them
# fdlt | fdlt | a | deleted locally, but not unversioned - show as deleted ?
# fdlt | a | | unversioned: output deleted id for now
# fdlt | a | a | unversioned and deleted: output deleted id
# fdlt | r | | relocated in this tree, so add target to search.
# | | | Dont diff, we will see an r,fd; pair when we reach
# | | | this id at the other path.
# fdlt | r | a | relocated in this tree, so add target to search.
# | | | Dont diff, we will see an r,fd; pair when we reach
# | | | this id at the other path.
# TODO: jam 20070516 - Avoid the _get_entry lookup overhead by
# keeping a cache of directories that we have seen.
cdef object current_dirname, current_blockname
cdef char * current_dirname_c, * current_blockname_c
cdef int advance_entry, advance_path
cdef int path_handled
searched_specific_files = self.searched_specific_files
# Are we walking a root?
while self.root_entries_pos < self.root_entries_len:
entry = self.root_entries[self.root_entries_pos]
self.root_entries_pos = self.root_entries_pos + 1
result, changed = self._process_entry(entry, self.root_dir_info)
if changed is not None and changed or self.include_unchanged:
return result
# Have we finished the prior root, or never started one ?
if self.current_root is None:
# TODO: the pending list should be lexically sorted? the
# interface doesn't require it.
try:
self.current_root = self.search_specific_files.pop()
except KeyError:
raise StopIteration()
self.current_root_unicode = self.current_root.decode('utf8')
self.searched_specific_files.add(self.current_root)
# process the entries for this containing directory: the rest will be
# found by their parents recursively.
self.root_entries = self.state._entries_for_path(self.current_root)
self.root_entries_len = len(self.root_entries)
self.root_abspath = self.tree.abspath(self.current_root_unicode)
try:
root_stat = os.lstat(self.root_abspath)
except OSError, e:
if e.errno == errno.ENOENT:
# the path does not exist: let _process_entry know that.
self.root_dir_info = None
else:
# some other random error: hand it up.
raise
else:
self.root_dir_info = ('', self.current_root,
osutils.file_kind_from_stat_mode(root_stat.st_mode), root_stat,
self.root_abspath)
if self.root_dir_info[2] == 'directory':
if self.tree._directory_is_tree_reference(
self.current_root_unicode):
self.root_dir_info = self.root_dir_info[:2] + \
('tree-reference',) + self.root_dir_info[3:]
if not self.root_entries and not self.root_dir_info:
# this specified path is not present at all, skip it.
# (tail recursion, can do a loop once the full structure is
# known).
return self._iter_next()
path_handled = 0
self.root_entries_pos = 0
# XXX Clarity: This loop is duplicated a out the self.current_root
# is None guard above: if we return from it, it completes there
# (and the following if block cannot trigger because
# path_handled must be true, so the if block is not # duplicated.
while self.root_entries_pos < self.root_entries_len:
entry = self.root_entries[self.root_entries_pos]
self.root_entries_pos = self.root_entries_pos + 1
result, changed = self._process_entry(entry, self.root_dir_info)
if changed is not None:
path_handled = -1
if changed or self.include_unchanged:
return result
# handle unversioned specified paths:
if self.want_unversioned and not path_handled and self.root_dir_info:
new_executable = bool(
stat.S_ISREG(self.root_dir_info[3].st_mode)
and stat.S_IEXEC & self.root_dir_info[3].st_mode)
return (None,
(None, self.current_root_unicode),
True,
(False, False),
(None, None),
(None, splitpath(self.current_root_unicode)[-1]),
(None, self.root_dir_info[2]),
(None, new_executable)
)
# If we reach here, the outer flow continues, which enters into the
# per-root setup logic.
if self.current_dir_info is None and self.current_block is None:
# setup iteration of this root:
self.current_dir_list = None
if self.root_dir_info and self.root_dir_info[2] == 'tree-reference':
self.current_dir_info = None
else:
self.dir_iterator = osutils._walkdirs_utf8(self.root_abspath,
prefix=self.current_root)
self.path_index = 0
try:
self.current_dir_info = self.dir_iterator.next()
self.current_dir_list = self.current_dir_info[1]
except OSError, e:
# there may be directories in the inventory even though
# this path is not a file on disk: so mark it as end of
# iterator
if e.errno in (errno.ENOENT, errno.ENOTDIR, errno.EINVAL):
self.current_dir_info = None
elif sys.platform == 'win32':
# on win32, python2.4 has e.errno == ERROR_DIRECTORY, but
# python 2.5 has e.errno == EINVAL,
# and e.winerror == ERROR_DIRECTORY
try:
e_winerror = e.winerror
except AttributeError:
e_winerror = None
win_errors = (ERROR_DIRECTORY, ERROR_PATH_NOT_FOUND)
if (e.errno in win_errors or e_winerror in win_errors):
self.current_dir_info = None
else:
# Will this really raise the right exception ?
raise
else:
raise
else:
if self.current_dir_info[0][0] == '':
# remove .bzr from iteration
bzr_index = self.bisect_left(self.current_dir_list, ('.bzr',))
if self.current_dir_list[bzr_index][0] != '.bzr':
raise AssertionError()
del self.current_dir_list[bzr_index]
initial_key = (self.current_root, '', '')
self.block_index, _ = self.state._find_block_index_from_key(initial_key)
if self.block_index == 0:
# we have processed the total root already, but because the
# initial key matched it we should skip it here.
self.block_index = self.block_index + 1
self._update_current_block()
# walk until both the directory listing and the versioned metadata
# are exhausted.
while (self.current_dir_info is not None
or self.current_block is not None):
# Uncommon case - a missing directory or an unversioned directory:
if (self.current_dir_info and self.current_block
and self.current_dir_info[0][0] != self.current_block[0]):
# Work around pyrex broken heuristic - current_dirname has
# the same scope as current_dirname_c
current_dirname = self.current_dir_info[0][0]
current_dirname_c = PyString_AS_STRING_void(
<void *>current_dirname)
current_blockname = self.current_block[0]
current_blockname_c = PyString_AS_STRING_void(
<void *>current_blockname)
# In the python generator we evaluate this if block once per
# dir+block; because we reenter in the pyrex version its being
# evaluated once per path: we could cache the result before
# doing the while loop and probably save time.
if _cmp_by_dirs(current_dirname_c,
PyString_Size(current_dirname),
current_blockname_c,
PyString_Size(current_blockname)) < 0:
# filesystem data refers to paths not covered by the
# dirblock. this has two possibilities:
# A) it is versioned but empty, so there is no block for it
# B) it is not versioned.
# if (A) then we need to recurse into it to check for
# new unknown files or directories.
# if (B) then we should ignore it, because we don't
# recurse into unknown directories.
# We are doing a loop
while self.path_index < len(self.current_dir_list):
current_path_info = self.current_dir_list[self.path_index]
# dont descend into this unversioned path if it is
# a dir
if current_path_info[2] in ('directory',
'tree-reference'):
del self.current_dir_list[self.path_index]
self.path_index = self.path_index - 1
self.path_index = self.path_index + 1
if self.want_unversioned:
if current_path_info[2] == 'directory':
if self.tree._directory_is_tree_reference(
self.utf8_decode(current_path_info[0])[0]):
current_path_info = current_path_info[:2] + \
('tree-reference',) + current_path_info[3:]
new_executable = bool(
stat.S_ISREG(current_path_info[3].st_mode)
and stat.S_IEXEC & current_path_info[3].st_mode)
return (None,
(None, self.utf8_decode(current_path_info[0])[0]),
True,
(False, False),
(None, None),
(None, self.utf8_decode(current_path_info[1])[0]),
(None, current_path_info[2]),
(None, new_executable))
# This dir info has been handled, go to the next
self.path_index = 0
self.current_dir_list = None
try:
self.current_dir_info = self.dir_iterator.next()
self.current_dir_list = self.current_dir_info[1]
except StopIteration:
self.current_dir_info = None
else: #(dircmp > 0)
# We have a dirblock entry for this location, but there
# is no filesystem path for this. This is most likely
# because a directory was removed from the disk.
# We don't have to report the missing directory,
# because that should have already been handled, but we
# need to handle all of the files that are contained
# within.
while self.current_block_pos < len(self.current_block_list):
current_entry = self.current_block_list[self.current_block_pos]
self.current_block_pos = self.current_block_pos + 1
# entry referring to file not present on disk.
# advance the entry only, after processing.
result, changed = self._process_entry(current_entry, None)
if changed is not None:
if changed or self.include_unchanged:
return result
self.block_index = self.block_index + 1
self._update_current_block()
continue # next loop-on-block/dir
result = self._loop_one_block()
if result is not None:
return result
if len(self.search_specific_files):
# More supplied paths to process
self.current_root = None
return self._iter_next()
raise StopIteration()
cdef object _maybe_tree_ref(self, current_path_info):
if self.tree._directory_is_tree_reference(
self.utf8_decode(current_path_info[0])[0]):
return current_path_info[:2] + \
('tree-reference',) + current_path_info[3:]
else:
return current_path_info
cdef object _loop_one_block(self):
# current_dir_info and current_block refer to the same directory -
# this is the common case code.
# Assign local variables for current path and entry:
cdef object current_entry
cdef object current_path_info
cdef int path_handled
cdef char minikind
cdef int cmp_result
# cdef char * temp_str
# cdef Py_ssize_t temp_str_length
# PyString_AsStringAndSize(disk_kind, &temp_str, &temp_str_length)
# if not strncmp(temp_str, "directory", temp_str_length):
if (self.current_block is not None and
self.current_block_pos < PyList_GET_SIZE(self.current_block_list)):
current_entry = PyList_GET_ITEM(self.current_block_list,
self.current_block_pos)
# accomodate pyrex
Py_INCREF(current_entry)
else:
current_entry = None
if (self.current_dir_info is not None and
self.path_index < PyList_GET_SIZE(self.current_dir_list)):
current_path_info = PyList_GET_ITEM(self.current_dir_list,
self.path_index)
# accomodate pyrex
Py_INCREF(current_path_info)
disk_kind = PyTuple_GET_ITEM(current_path_info, 2)
# accomodate pyrex
Py_INCREF(disk_kind)
if disk_kind == "directory":
current_path_info = self._maybe_tree_ref(current_path_info)
else:
current_path_info = None
while (current_entry is not None or current_path_info is not None):
advance_entry = -1
advance_path = -1
result = None
path_handled = 0
if current_entry is None:
# unversioned - the check for path_handled when the path
# is advanced will yield this path if needed.
pass
elif current_path_info is None:
# no path is fine: the per entry code will handle it.
result, changed = self._process_entry(current_entry,
current_path_info)
else:
minikind = _minikind_from_string(
current_entry[1][self.target_index][0])
cmp_result = cmp(current_path_info[1], current_entry[0][1])
if (cmp_result or minikind == c'a' or minikind == c'r'):
# The current path on disk doesn't match the dirblock
# record. Either the dirblock record is marked as
# absent/renamed, or the file on disk is not present at all
# in the dirblock. Either way, report about the dirblock
# entry, and let other code handle the filesystem one.
# Compare the basename for these files to determine
# which comes first
if cmp_result < 0:
# extra file on disk: pass for now, but only
# increment the path, not the entry
advance_entry = 0
else:
# entry referring to file not present on disk.
# advance the entry only, after processing.
result, changed = self._process_entry(current_entry,
None)
advance_path = 0
else:
# paths are the same,and the dirstate entry is not
# absent or renamed.
result, changed = self._process_entry(current_entry,
current_path_info)
if changed is not None:
path_handled = -1
# >- loop control starts here:
# >- entry
if advance_entry and current_entry is not None:
self.current_block_pos = self.current_block_pos + 1
if self.current_block_pos < PyList_GET_SIZE(self.current_block_list):
current_entry = self.current_block_list[self.current_block_pos]
else:
current_entry = None
# >- path
if advance_path and current_path_info is not None:
if not path_handled:
# unversioned in all regards
if self.want_unversioned:
new_executable = bool(
stat.S_ISREG(current_path_info[3].st_mode)
and stat.S_IEXEC & current_path_info[3].st_mode)
try:
relpath_unicode = self.utf8_decode(current_path_info[0])[0]
except UnicodeDecodeError:
raise errors.BadFilenameEncoding(
current_path_info[0], osutils._fs_enc)
if result is not None:
raise AssertionError(
"result is not None: %r" % result)
result = (None,
(None, relpath_unicode),
True,
(False, False),
(None, None),
(None, self.utf8_decode(current_path_info[1])[0]),
(None, current_path_info[2]),
(None, new_executable))
# dont descend into this unversioned path if it is
# a dir
if current_path_info[2] in ('directory'):
del self.current_dir_list[self.path_index]
self.path_index = self.path_index - 1
# dont descend the disk iterator into any tree
# paths.
if current_path_info[2] == 'tree-reference':
del self.current_dir_list[self.path_index]
self.path_index = self.path_index - 1
self.path_index = self.path_index + 1
if self.path_index < len(self.current_dir_list):
current_path_info = self.current_dir_list[self.path_index]
if current_path_info[2] == 'directory':
current_path_info = self._maybe_tree_ref(
current_path_info)
else:
current_path_info = None
if result is not None:
# Found a result on this pass, yield it
return result
if self.current_block is not None:
self.block_index = self.block_index + 1
self._update_current_block()
if self.current_dir_info is not None:
self.path_index = 0
self.current_dir_list = None
try:
self.current_dir_info = self.dir_iterator.next()
self.current_dir_list = self.current_dir_info[1]
except StopIteration:
self.current_dir_info = None
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