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# Copyright (C) 2004 - 2006, 2008 Aaron Bentley, Canonical Ltd
# <aaron.bentley@utoronto.ca>
#
# 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
import re
class BinaryFiles(Exception):
def __init__(self, orig_name, mod_name):
self.orig_name = orig_name
self.mod_name = mod_name
Exception.__init__(self, 'Binary files section encountered.')
class PatchSyntax(Exception):
def __init__(self, msg):
Exception.__init__(self, msg)
class MalformedPatchHeader(PatchSyntax):
def __init__(self, desc, line):
self.desc = desc
self.line = line
msg = "Malformed patch header. %s\n%r" % (self.desc, self.line)
PatchSyntax.__init__(self, msg)
class MalformedHunkHeader(PatchSyntax):
def __init__(self, desc, line):
self.desc = desc
self.line = line
msg = "Malformed hunk header. %s\n%r" % (self.desc, self.line)
PatchSyntax.__init__(self, msg)
class MalformedLine(PatchSyntax):
def __init__(self, desc, line):
self.desc = desc
self.line = line
msg = "Malformed line. %s\n%s" % (self.desc, self.line)
PatchSyntax.__init__(self, msg)
class PatchConflict(Exception):
def __init__(self, line_no, orig_line, patch_line):
orig = orig_line.rstrip('\n')
patch = str(patch_line).rstrip('\n')
msg = 'Text contents mismatch at line %d. Original has "%s",'\
' but patch says it should be "%s"' % (line_no, orig, patch)
Exception.__init__(self, msg)
def get_patch_names(iter_lines):
try:
line = iter_lines.next()
match = re.match('Binary files (.*) and (.*) differ\n', line)
if match is not None:
raise BinaryFiles(match.group(1), match.group(2))
if not line.startswith("--- "):
raise MalformedPatchHeader("No orig name", line)
else:
orig_name = line[4:].rstrip("\n")
except StopIteration:
raise MalformedPatchHeader("No orig line", "")
try:
line = iter_lines.next()
if not line.startswith("+++ "):
raise PatchSyntax("No mod name")
else:
mod_name = line[4:].rstrip("\n")
except StopIteration:
raise MalformedPatchHeader("No mod line", "")
return (orig_name, mod_name)
def parse_range(textrange):
"""Parse a patch range, handling the "1" special-case
:param textrange: The text to parse
:type textrange: str
:return: the position and range, as a tuple
:rtype: (int, int)
"""
tmp = textrange.split(',')
if len(tmp) == 1:
pos = tmp[0]
range = "1"
else:
(pos, range) = tmp
pos = int(pos)
range = int(range)
return (pos, range)
def hunk_from_header(line):
import re
matches = re.match(r'\@\@ ([^@]*) \@\@( (.*))?\n', line)
if matches is None:
raise MalformedHunkHeader("Does not match format.", line)
try:
(orig, mod) = matches.group(1).split(" ")
except (ValueError, IndexError), e:
raise MalformedHunkHeader(str(e), line)
if not orig.startswith('-') or not mod.startswith('+'):
raise MalformedHunkHeader("Positions don't start with + or -.", line)
try:
(orig_pos, orig_range) = parse_range(orig[1:])
(mod_pos, mod_range) = parse_range(mod[1:])
except (ValueError, IndexError), e:
raise MalformedHunkHeader(str(e), line)
if mod_range < 0 or orig_range < 0:
raise MalformedHunkHeader("Hunk range is negative", line)
tail = matches.group(3)
return Hunk(orig_pos, orig_range, mod_pos, mod_range, tail)
class HunkLine:
def __init__(self, contents):
self.contents = contents
def get_str(self, leadchar):
if self.contents == "\n" and leadchar == " " and False:
return "\n"
if not self.contents.endswith('\n'):
terminator = '\n' + NO_NL
else:
terminator = ''
return leadchar + self.contents + terminator
class ContextLine(HunkLine):
def __init__(self, contents):
HunkLine.__init__(self, contents)
def __str__(self):
return self.get_str(" ")
class InsertLine(HunkLine):
def __init__(self, contents):
HunkLine.__init__(self, contents)
def __str__(self):
return self.get_str("+")
class RemoveLine(HunkLine):
def __init__(self, contents):
HunkLine.__init__(self, contents)
def __str__(self):
return self.get_str("-")
NO_NL = '\\ No newline at end of file\n'
__pychecker__="no-returnvalues"
def parse_line(line):
if line.startswith("\n"):
return ContextLine(line)
elif line.startswith(" "):
return ContextLine(line[1:])
elif line.startswith("+"):
return InsertLine(line[1:])
elif line.startswith("-"):
return RemoveLine(line[1:])
else:
raise MalformedLine("Unknown line type", line)
__pychecker__=""
class Hunk:
def __init__(self, orig_pos, orig_range, mod_pos, mod_range, tail=None):
self.orig_pos = orig_pos
self.orig_range = orig_range
self.mod_pos = mod_pos
self.mod_range = mod_range
self.tail = tail
self.lines = []
def get_header(self):
if self.tail is None:
tail_str = ''
else:
tail_str = ' ' + self.tail
return "@@ -%s +%s @@%s\n" % (self.range_str(self.orig_pos,
self.orig_range),
self.range_str(self.mod_pos,
self.mod_range),
tail_str)
def range_str(self, pos, range):
"""Return a file range, special-casing for 1-line files.
:param pos: The position in the file
:type pos: int
:range: The range in the file
:type range: int
:return: a string in the format 1,4 except when range == pos == 1
"""
if range == 1:
return "%i" % pos
else:
return "%i,%i" % (pos, range)
def __str__(self):
lines = [self.get_header()]
for line in self.lines:
lines.append(str(line))
return "".join(lines)
def shift_to_mod(self, pos):
if pos < self.orig_pos-1:
return 0
elif pos > self.orig_pos+self.orig_range:
return self.mod_range - self.orig_range
else:
return self.shift_to_mod_lines(pos)
def shift_to_mod_lines(self, pos):
position = self.orig_pos-1
shift = 0
for line in self.lines:
if isinstance(line, InsertLine):
shift += 1
elif isinstance(line, RemoveLine):
if position == pos:
return None
shift -= 1
position += 1
elif isinstance(line, ContextLine):
position += 1
if position > pos:
break
return shift
def iter_hunks(iter_lines):
hunk = None
for line in iter_lines:
if line == "\n":
if hunk is not None:
yield hunk
hunk = None
continue
if hunk is not None:
yield hunk
hunk = hunk_from_header(line)
orig_size = 0
mod_size = 0
while orig_size < hunk.orig_range or mod_size < hunk.mod_range:
hunk_line = parse_line(iter_lines.next())
hunk.lines.append(hunk_line)
if isinstance(hunk_line, (RemoveLine, ContextLine)):
orig_size += 1
if isinstance(hunk_line, (InsertLine, ContextLine)):
mod_size += 1
if hunk is not None:
yield hunk
class BinaryPatch(object):
def __init__(self, oldname, newname):
self.oldname = oldname
self.newname = newname
def __str__(self):
return 'Binary files %s and %s differ\n' % (self.oldname, self.newname)
class Patch(BinaryPatch):
def __init__(self, oldname, newname):
BinaryPatch.__init__(self, oldname, newname)
self.hunks = []
def __str__(self):
ret = self.get_header()
ret += "".join([str(h) for h in self.hunks])
return ret
def get_header(self):
return "--- %s\n+++ %s\n" % (self.oldname, self.newname)
def stats_values(self):
"""Calculate the number of inserts and removes."""
removes = 0
inserts = 0
for hunk in self.hunks:
for line in hunk.lines:
if isinstance(line, InsertLine):
inserts+=1;
elif isinstance(line, RemoveLine):
removes+=1;
return (inserts, removes, len(self.hunks))
def stats_str(self):
"""Return a string of patch statistics"""
return "%i inserts, %i removes in %i hunks" % \
self.stats_values()
def pos_in_mod(self, position):
newpos = position
for hunk in self.hunks:
shift = hunk.shift_to_mod(position)
if shift is None:
return None
newpos += shift
return newpos
def iter_inserted(self):
"""Iteraties through inserted lines
:return: Pair of line number, line
:rtype: iterator of (int, InsertLine)
"""
for hunk in self.hunks:
pos = hunk.mod_pos - 1;
for line in hunk.lines:
if isinstance(line, InsertLine):
yield (pos, line)
pos += 1
if isinstance(line, ContextLine):
pos += 1
def parse_patch(iter_lines):
iter_lines = iter_lines_handle_nl(iter_lines)
try:
(orig_name, mod_name) = get_patch_names(iter_lines)
except BinaryFiles, e:
return BinaryPatch(e.orig_name, e.mod_name)
else:
patch = Patch(orig_name, mod_name)
for hunk in iter_hunks(iter_lines):
patch.hunks.append(hunk)
return patch
def iter_file_patch(iter_lines):
saved_lines = []
orig_range = 0
for line in iter_lines:
if line.startswith('=== ') or line.startswith('*** '):
continue
if line.startswith('#'):
continue
elif orig_range > 0:
if line.startswith('-') or line.startswith(' '):
orig_range -= 1
elif line.startswith('--- '):
if len(saved_lines) > 0:
yield saved_lines
saved_lines = []
elif line.startswith('@@'):
hunk = hunk_from_header(line)
orig_range = hunk.orig_range
saved_lines.append(line)
if len(saved_lines) > 0:
yield saved_lines
def iter_lines_handle_nl(iter_lines):
"""
Iterates through lines, ensuring that lines that originally had no
terminating \n are produced without one. This transformation may be
applied at any point up until hunk line parsing, and is safe to apply
repeatedly.
"""
last_line = None
for line in iter_lines:
if line == NO_NL:
if not last_line.endswith('\n'):
raise AssertionError()
last_line = last_line[:-1]
line = None
if last_line is not None:
yield last_line
last_line = line
if last_line is not None:
yield last_line
def parse_patches(iter_lines):
return [parse_patch(f.__iter__()) for f in iter_file_patch(iter_lines)]
def difference_index(atext, btext):
"""Find the indext of the first character that differs between two texts
:param atext: The first text
:type atext: str
:param btext: The second text
:type str: str
:return: The index, or None if there are no differences within the range
:rtype: int or NoneType
"""
length = len(atext)
if len(btext) < length:
length = len(btext)
for i in range(length):
if atext[i] != btext[i]:
return i;
return None
def iter_patched(orig_lines, patch_lines):
"""Iterate through a series of lines with a patch applied.
This handles a single file, and does exact, not fuzzy patching.
"""
patch_lines = iter_lines_handle_nl(iter(patch_lines))
get_patch_names(patch_lines)
return iter_patched_from_hunks(orig_lines, iter_hunks(patch_lines))
def iter_patched_from_hunks(orig_lines, hunks):
"""Iterate through a series of lines with a patch applied.
This handles a single file, and does exact, not fuzzy patching.
:param orig_lines: The unpatched lines.
:param hunks: An iterable of Hunk instances.
"""
seen_patch = []
line_no = 1
if orig_lines is not None:
orig_lines = iter(orig_lines)
for hunk in hunks:
while line_no < hunk.orig_pos:
orig_line = orig_lines.next()
yield orig_line
line_no += 1
for hunk_line in hunk.lines:
seen_patch.append(str(hunk_line))
if isinstance(hunk_line, InsertLine):
yield hunk_line.contents
elif isinstance(hunk_line, (ContextLine, RemoveLine)):
orig_line = orig_lines.next()
if orig_line != hunk_line.contents:
raise PatchConflict(line_no, orig_line, "".join(seen_patch))
if isinstance(hunk_line, ContextLine):
yield orig_line
else:
if not isinstance(hunk_line, RemoveLine):
raise AssertionError(hunk_line)
line_no += 1
if orig_lines is not None:
for line in orig_lines:
yield line
|