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# Copyright (C) 2005, 2006 Canonical Ltd
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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"""Knit versionedfile implementation.
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A knit is a versioned file implementation that supports efficient append only
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lifeless: the data file is made up of "delta records". each delta record has a delta header
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that contains; (1) a version id, (2) the size of the delta (in lines), and (3) the digest of
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the -expanded data- (ie, the delta applied to the parent). the delta also ends with a
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end-marker; simply "end VERSION"
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delta can be line or full contents.a
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... the 8's there are the index number of the annotation.
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version robertc@robertcollins.net-20051003014215-ee2990904cc4c7ad 7 c7d23b2a5bd6ca00e8e266cec0ec228158ee9f9e
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8 e.set('executable', 'yes')
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8 if elt.get('executable') == 'yes':
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8 ie.executable = True
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end robertc@robertcollins.net-20051003014215-ee2990904cc4c7ad
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09:33 < jrydberg> lifeless: each index is made up of a tuple of; version id, options, position, size, parents
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09:33 < jrydberg> lifeless: the parents are currently dictionary compressed
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09:33 < jrydberg> lifeless: (meaning it currently does not support ghosts)
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09:33 < lifeless> right
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09:33 < jrydberg> lifeless: the position and size is the range in the data file
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so the index sequence is the dictionary compressed sequence number used
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in the deltas to provide line annotation
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# 10:16 < lifeless> make partial index writes safe
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# 10:16 < lifeless> implement 'knit.check()' like weave.check()
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# 10:17 < lifeless> record known ghosts so we can detect when they are filled in rather than the current 'reweave
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# move sha1 out of the content so that join is faster at verifying parents
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# record content length ?
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from cStringIO import StringIO
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from itertools import izip, chain
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from bzrlib.errors import (
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RevisionAlreadyPresent,
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from bzrlib.tuned_gzip import GzipFile
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from bzrlib.trace import mutter
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from bzrlib.osutils import (
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from bzrlib.symbol_versioning import DEPRECATED_PARAMETER, deprecated_passed
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from bzrlib.tsort import topo_sort
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from bzrlib.versionedfile import VersionedFile, InterVersionedFile
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# TODO: Split out code specific to this format into an associated object.
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# TODO: Can we put in some kind of value to check that the index and data
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# files belong together?
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# TODO: accommodate binaries, perhaps by storing a byte count
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# TODO: function to check whole file
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# TODO: atomically append data, then measure backwards from the cursor
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# position after writing to work out where it was located. we may need to
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# bypass python file buffering.
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DATA_SUFFIX = '.knit'
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INDEX_SUFFIX = '.kndx'
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class KnitContent(object):
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"""Content of a knit version to which deltas can be applied."""
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def __init__(self, lines):
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def annotate_iter(self):
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"""Yield tuples of (origin, text) for each content line."""
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return iter(self._lines)
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"""Return a list of (origin, text) tuples."""
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return list(self.annotate_iter())
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def line_delta_iter(self, new_lines):
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"""Generate line-based delta from this content to new_lines."""
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new_texts = new_lines.text()
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old_texts = self.text()
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s = KnitSequenceMatcher(None, old_texts, new_texts)
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for tag, i1, i2, j1, j2 in s.get_opcodes():
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# ofrom, oto, length, data
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yield i1, i2, j2 - j1, new_lines._lines[j1:j2]
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def line_delta(self, new_lines):
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return list(self.line_delta_iter(new_lines))
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return [text for origin, text in self._lines]
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return KnitContent(self._lines[:])
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class _KnitFactory(object):
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"""Base factory for creating content objects."""
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def make(self, lines, version):
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num_lines = len(lines)
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return KnitContent(zip([version] * num_lines, lines))
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class KnitAnnotateFactory(_KnitFactory):
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"""Factory for creating annotated Content objects."""
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def parse_fulltext(self, content, version):
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"""Convert fulltext to internal representation
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fulltext content is of the format
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revid(utf8) plaintext\n
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internal representation is of the format:
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decode_utf8 = cache_utf8.decode
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origin, text = line.split(' ', 1)
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lines.append((decode_utf8(origin), text))
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return KnitContent(lines)
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def parse_line_delta_iter(self, lines):
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return iter(self.parse_line_delta(lines))
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def parse_line_delta(self, lines, version):
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"""Convert a line based delta into internal representation.
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line delta is in the form of:
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intstart intend intcount
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revid(utf8) newline\n
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internal representation is
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(start, end, count, [1..count tuples (revid, newline)])
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decode_utf8 = cache_utf8.decode
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# walk through the lines parsing.
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start, end, count = [int(n) for n in header.split(',')]
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origin, text = next().split(' ', 1)
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contents.append((decode_utf8(origin), text))
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result.append((start, end, count, contents))
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def get_fulltext_content(self, lines):
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"""Extract just the content lines from a fulltext."""
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return (line.split(' ', 1)[1] for line in lines)
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def get_linedelta_content(self, lines):
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"""Extract just the content from a line delta.
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This doesn't return all of the extra information stored in a delta.
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Only the actual content lines.
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header = header.split(',')
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count = int(header[2])
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for i in xrange(count):
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origin, text = next().split(' ', 1)
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def lower_fulltext(self, content):
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"""convert a fulltext content record into a serializable form.
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see parse_fulltext which this inverts.
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encode_utf8 = cache_utf8.encode
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return ['%s %s' % (encode_utf8(o), t) for o, t in content._lines]
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def lower_line_delta(self, delta):
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"""convert a delta into a serializable form.
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See parse_line_delta which this inverts.
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encode_utf8 = cache_utf8.encode
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for start, end, c, lines in delta:
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out.append('%d,%d,%d\n' % (start, end, c))
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out.extend(encode_utf8(origin) + ' ' + text
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for origin, text in lines)
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class KnitPlainFactory(_KnitFactory):
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"""Factory for creating plain Content objects."""
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def parse_fulltext(self, content, version):
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"""This parses an unannotated fulltext.
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Note that this is not a noop - the internal representation
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has (versionid, line) - its just a constant versionid.
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return self.make(content, version)
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def parse_line_delta_iter(self, lines, version):
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num_lines = len(lines)
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while cur < num_lines:
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start, end, c = [int(n) for n in header.split(',')]
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yield start, end, c, zip([version] * c, lines[cur:cur+c])
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def parse_line_delta(self, lines, version):
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return list(self.parse_line_delta_iter(lines, version))
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def get_fulltext_content(self, lines):
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"""Extract just the content lines from a fulltext."""
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def get_linedelta_content(self, lines):
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"""Extract just the content from a line delta.
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This doesn't return all of the extra information stored in a delta.
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Only the actual content lines.
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header = header.split(',')
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count = int(header[2])
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for i in xrange(count):
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def lower_fulltext(self, content):
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return content.text()
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def lower_line_delta(self, delta):
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for start, end, c, lines in delta:
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out.append('%d,%d,%d\n' % (start, end, c))
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out.extend([text for origin, text in lines])
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def make_empty_knit(transport, relpath):
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"""Construct a empty knit at the specified location."""
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k = KnitVersionedFile(transport, relpath, 'w', KnitPlainFactory)
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class KnitVersionedFile(VersionedFile):
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"""Weave-like structure with faster random access.
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A knit stores a number of texts and a summary of the relationships
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between them. Texts are identified by a string version-id. Texts
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are normally stored and retrieved as a series of lines, but can
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also be passed as single strings.
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Lines are stored with the trailing newline (if any) included, to
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avoid special cases for files with no final newline. Lines are
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composed of 8-bit characters, not unicode. The combination of
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these approaches should mean any 'binary' file can be safely
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stored and retrieved.
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def __init__(self, relpath, transport, file_mode=None, access_mode=None,
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factory=None, basis_knit=DEPRECATED_PARAMETER, delta=True,
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create=False, create_parent_dir=False, delay_create=False,
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"""Construct a knit at location specified by relpath.
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:param create: If not True, only open an existing knit.
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:param create_parent_dir: If True, create the parent directory if
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creating the file fails. (This is used for stores with
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hash-prefixes that may not exist yet)
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:param delay_create: The calling code is aware that the knit won't
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actually be created until the first data is stored.
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if deprecated_passed(basis_knit):
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warnings.warn("KnitVersionedFile.__(): The basis_knit parameter is"
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" deprecated as of bzr 0.9.",
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DeprecationWarning, stacklevel=2)
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if access_mode is None:
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super(KnitVersionedFile, self).__init__(access_mode)
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assert access_mode in ('r', 'w'), "invalid mode specified %r" % access_mode
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self.transport = transport
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self.filename = relpath
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self.factory = factory or KnitAnnotateFactory()
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self.writable = (access_mode == 'w')
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self._max_delta_chain = 200
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self._index = _KnitIndex(transport, relpath + INDEX_SUFFIX,
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access_mode, create=create, file_mode=file_mode,
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create_parent_dir=create_parent_dir, delay_create=delay_create,
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self._data = _KnitData(transport, relpath + DATA_SUFFIX,
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access_mode, create=create and not len(self), file_mode=file_mode,
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create_parent_dir=create_parent_dir, delay_create=delay_create,
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return '%s(%s)' % (self.__class__.__name__,
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self.transport.abspath(self.filename))
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def _check_should_delta(self, first_parents):
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"""Iterate back through the parent listing, looking for a fulltext.
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This is used when we want to decide whether to add a delta or a new
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fulltext. It searches for _max_delta_chain parents. When it finds a
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fulltext parent, it sees if the total size of the deltas leading up to
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it is large enough to indicate that we want a new full text anyway.
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Return True if we should create a new delta, False if we should use a
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delta_parents = first_parents
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for count in xrange(self._max_delta_chain):
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parent = delta_parents[0]
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method = self._index.get_method(parent)
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pos, size = self._index.get_position(parent)
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if method == 'fulltext':
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delta_parents = self._index.get_parents(parent)
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# We couldn't find a fulltext, so we must create a new one
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return fulltext_size > delta_size
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def _add_delta(self, version_id, parents, delta_parent, sha1, noeol, delta):
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"""See VersionedFile._add_delta()."""
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self._check_add(version_id, []) # should we check the lines ?
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self._check_versions_present(parents)
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for parent in parents:
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if not self.has_version(parent):
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ghosts.append(parent)
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present_parents.append(parent)
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if delta_parent is None:
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# reconstitute as full text.
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assert len(delta) == 1 or len(delta) == 0
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assert delta[0][0] == 0
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assert delta[0][1] == 0, delta[0][1]
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return super(KnitVersionedFile, self)._add_delta(version_id,
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options.append('no-eol')
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if delta_parent is not None:
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# determine the current delta chain length.
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# To speed the extract of texts the delta chain is limited
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# to a fixed number of deltas. This should minimize both
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# I/O and the time spend applying deltas.
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# The window was changed to a maximum of 200 deltas, but also added
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# was a check that the total compressed size of the deltas is
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# smaller than the compressed size of the fulltext.
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if not self._check_should_delta([delta_parent]):
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# We don't want a delta here, just do a normal insertion.
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return super(KnitVersionedFile, self)._add_delta(version_id,
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options.append('line-delta')
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store_lines = self.factory.lower_line_delta(delta)
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where, size = self._data.add_record(version_id, digest, store_lines)
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self._index.add_version(version_id, options, where, size, parents)
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def _add_raw_records(self, records, data):
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"""Add all the records 'records' with data pre-joined in 'data'.
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:param records: A list of tuples(version_id, options, parents, size).
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:param data: The data for the records. When it is written, the records
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are adjusted to have pos pointing into data by the sum of
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the preceding records sizes.
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pos = self._data.add_raw_record(data)
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for (version_id, options, parents, size) in records:
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index_entries.append((version_id, options, pos+offset,
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if self._data._do_cache:
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self._data._cache[version_id] = data[offset:offset+size]
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self._index.add_versions(index_entries)
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def enable_cache(self):
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"""Start caching data for this knit"""
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self._data.enable_cache()
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def clear_cache(self):
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"""Clear the data cache only."""
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self._data.clear_cache()
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def copy_to(self, name, transport):
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"""See VersionedFile.copy_to()."""
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# copy the current index to a temp index to avoid racing with local
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transport.put_file_non_atomic(name + INDEX_SUFFIX + '.tmp',
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self.transport.get(self._index._filename))
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f = self._data._open_file()
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transport.put_file(name + DATA_SUFFIX, f)
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# move the copied index into place
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transport.move(name + INDEX_SUFFIX + '.tmp', name + INDEX_SUFFIX)
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def create_empty(self, name, transport, mode=None):
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return KnitVersionedFile(name, transport, factory=self.factory,
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delta=self.delta, create=True)
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def _fix_parents(self, version, new_parents):
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"""Fix the parents list for version.
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This is done by appending a new version to the index
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with identical data except for the parents list.
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the parents list must be a superset of the current
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current_values = self._index._cache[version]
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assert set(current_values[4]).difference(set(new_parents)) == set()
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self._index.add_version(version,
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def get_delta(self, version_id):
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"""Get a delta for constructing version from some other version."""
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if not self.has_version(version_id):
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raise RevisionNotPresent(version_id, self.filename)
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parents = self.get_parents(version_id)
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data_pos, data_size = self._index.get_position(version_id)
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data, sha1 = self._data.read_records(((version_id, data_pos, data_size),))[version_id]
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version_idx = self._index.lookup(version_id)
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noeol = 'no-eol' in self._index.get_options(version_id)
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if 'fulltext' == self._index.get_method(version_id):
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new_content = self.factory.parse_fulltext(data, version_idx)
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if parent is not None:
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reference_content = self._get_content(parent)
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old_texts = reference_content.text()
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new_texts = new_content.text()
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delta_seq = KnitSequenceMatcher(None, old_texts, new_texts)
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return parent, sha1, noeol, self._make_line_delta(delta_seq, new_content)
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delta = self.factory.parse_line_delta(data, version_idx)
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return parent, sha1, noeol, delta
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def get_graph_with_ghosts(self):
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"""See VersionedFile.get_graph_with_ghosts()."""
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graph_items = self._index.get_graph()
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return dict(graph_items)
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def get_sha1(self, version_id):
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"""See VersionedFile.get_sha1()."""
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record_map = self._get_record_map([version_id])
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method, content, digest, next = record_map[version_id]
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"""See VersionedFile.get_suffixes()."""
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return [DATA_SUFFIX, INDEX_SUFFIX]
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def has_ghost(self, version_id):
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"""True if there is a ghost reference in the file to version_id."""
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if self.has_version(version_id):
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# optimisable if needed by memoising the _ghosts set.
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items = self._index.get_graph()
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for node, parents in items:
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for parent in parents:
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if parent not in self._index._cache:
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if parent == version_id:
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"""See VersionedFile.versions."""
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return self._index.get_versions()
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def has_version(self, version_id):
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"""See VersionedFile.has_version."""
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return self._index.has_version(version_id)
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__contains__ = has_version
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def _merge_annotations(self, content, parents, parent_texts={},
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delta=None, annotated=None):
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"""Merge annotations for content. This is done by comparing
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the annotations based on changed to the text.
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for parent_id in parents:
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merge_content = self._get_content(parent_id, parent_texts)
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seq = patiencediff.PatienceSequenceMatcher(
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None, merge_content.text(), content.text())
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if delta_seq is None:
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# setup a delta seq to reuse.
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for i, j, n in seq.get_matching_blocks():
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# this appears to copy (origin, text) pairs across to the new
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# content for any line that matches the last-checked parent.
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# FIXME: save the sequence control data for delta compression
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# against the most relevant parent rather than rediffing.
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content._lines[j:j+n] = merge_content._lines[i:i+n]
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reference_content = self._get_content(parents[0], parent_texts)
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new_texts = content.text()
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old_texts = reference_content.text()
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delta_seq = patiencediff.PatienceSequenceMatcher(
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None, old_texts, new_texts)
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return self._make_line_delta(delta_seq, content)
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def _make_line_delta(self, delta_seq, new_content):
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"""Generate a line delta from delta_seq and new_content."""
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for op in delta_seq.get_opcodes():
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diff_hunks.append((op[1], op[2], op[4]-op[3], new_content._lines[op[3]:op[4]]))
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def _get_components_positions(self, version_ids):
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"""Produce a map of position data for the components of versions.
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This data is intended to be used for retrieving the knit records.
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A dict of version_id to (method, data_pos, data_size, next) is
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method is the way referenced data should be applied.
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data_pos is the position of the data in the knit.
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data_size is the size of the data in the knit.
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next is the build-parent of the version, or None for fulltexts.
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for version_id in version_ids:
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while cursor is not None and cursor not in component_data:
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method = self._index.get_method(cursor)
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if method == 'fulltext':
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next = self.get_parents(cursor)[0]
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data_pos, data_size = self._index.get_position(cursor)
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component_data[cursor] = (method, data_pos, data_size, next)
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return component_data
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def _get_content(self, version_id, parent_texts={}):
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"""Returns a content object that makes up the specified
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if not self.has_version(version_id):
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raise RevisionNotPresent(version_id, self.filename)
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cached_version = parent_texts.get(version_id, None)
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if cached_version is not None:
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return cached_version
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text_map, contents_map = self._get_content_maps([version_id])
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return contents_map[version_id]
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def _check_versions_present(self, version_ids):
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"""Check that all specified versions are present."""
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self._index.check_versions_present(version_ids)
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def _add_lines_with_ghosts(self, version_id, parents, lines, parent_texts):
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"""See VersionedFile.add_lines_with_ghosts()."""
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self._check_add(version_id, lines)
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return self._add(version_id, lines[:], parents, self.delta, parent_texts)
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def _add_lines(self, version_id, parents, lines, parent_texts):
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"""See VersionedFile.add_lines."""
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self._check_add(version_id, lines)
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self._check_versions_present(parents)
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return self._add(version_id, lines[:], parents, self.delta, parent_texts)
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def _check_add(self, version_id, lines):
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"""check that version_id and lines are safe to add."""
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assert self.writable, "knit is not opened for write"
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### FIXME escape. RBC 20060228
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if contains_whitespace(version_id):
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raise InvalidRevisionId(version_id, self.filename)
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if self.has_version(version_id):
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raise RevisionAlreadyPresent(version_id, self.filename)
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self._check_lines_not_unicode(lines)
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self._check_lines_are_lines(lines)
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def _add(self, version_id, lines, parents, delta, parent_texts):
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"""Add a set of lines on top of version specified by parents.
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If delta is true, compress the text as a line-delta against
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Any versions not present will be converted into ghosts.
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# 461 0 6546.0390 43.9100 bzrlib.knit:489(_add)
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# +400 0 889.4890 418.9790 +bzrlib.knit:192(lower_fulltext)
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# +461 0 1364.8070 108.8030 +bzrlib.knit:996(add_record)
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# +461 0 193.3940 41.5720 +bzrlib.knit:898(add_version)
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# +461 0 134.0590 18.3810 +bzrlib.osutils:361(sha_strings)
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# +461 0 36.3420 15.4540 +bzrlib.knit:146(make)
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# +1383 0 8.0370 8.0370 +<len>
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# +61 0 13.5770 7.9190 +bzrlib.knit:199(lower_line_delta)
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# +61 0 963.3470 7.8740 +bzrlib.knit:427(_get_content)
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# +61 0 973.9950 5.2950 +bzrlib.knit:136(line_delta)
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# +61 0 1918.1800 5.2640 +bzrlib.knit:359(_merge_annotations)
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if parent_texts is None:
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for parent in parents:
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if not self.has_version(parent):
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ghosts.append(parent)
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present_parents.append(parent)
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if delta and not len(present_parents):
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digest = sha_strings(lines)
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if lines[-1][-1] != '\n':
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options.append('no-eol')
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lines[-1] = lines[-1] + '\n'
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if len(present_parents) and delta:
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# To speed the extract of texts the delta chain is limited
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# to a fixed number of deltas. This should minimize both
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# I/O and the time spend applying deltas.
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delta = self._check_should_delta(present_parents)
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lines = self.factory.make(lines, version_id)
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if delta or (self.factory.annotated and len(present_parents) > 0):
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# Merge annotations from parent texts if so is needed.
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delta_hunks = self._merge_annotations(lines, present_parents, parent_texts,
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delta, self.factory.annotated)
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options.append('line-delta')
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store_lines = self.factory.lower_line_delta(delta_hunks)
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options.append('fulltext')
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store_lines = self.factory.lower_fulltext(lines)
752
where, size = self._data.add_record(version_id, digest, store_lines)
753
self._index.add_version(version_id, options, where, size, parents)
756
def check(self, progress_bar=None):
757
"""See VersionedFile.check()."""
759
def _clone_text(self, new_version_id, old_version_id, parents):
760
"""See VersionedFile.clone_text()."""
761
# FIXME RBC 20060228 make fast by only inserting an index with null
763
self.add_lines(new_version_id, parents, self.get_lines(old_version_id))
765
def get_lines(self, version_id):
766
"""See VersionedFile.get_lines()."""
767
return self.get_line_list([version_id])[0]
769
def _get_record_map(self, version_ids):
770
"""Produce a dictionary of knit records.
772
The keys are version_ids, the values are tuples of (method, content,
774
method is the way the content should be applied.
775
content is a KnitContent object.
776
digest is the SHA1 digest of this version id after all steps are done
777
next is the build-parent of the version, i.e. the leftmost ancestor.
778
If the method is fulltext, next will be None.
780
position_map = self._get_components_positions(version_ids)
781
# c = component_id, m = method, p = position, s = size, n = next
782
records = [(c, p, s) for c, (m, p, s, n) in position_map.iteritems()]
784
for component_id, content, digest in \
785
self._data.read_records_iter(records):
786
method, position, size, next = position_map[component_id]
787
record_map[component_id] = method, content, digest, next
791
def get_text(self, version_id):
792
"""See VersionedFile.get_text"""
793
return self.get_texts([version_id])[0]
795
def get_texts(self, version_ids):
796
return [''.join(l) for l in self.get_line_list(version_ids)]
798
def get_line_list(self, version_ids):
799
"""Return the texts of listed versions as a list of strings."""
800
text_map, content_map = self._get_content_maps(version_ids)
801
return [text_map[v] for v in version_ids]
803
def _get_content_maps(self, version_ids):
804
"""Produce maps of text and KnitContents
806
:return: (text_map, content_map) where text_map contains the texts for
807
the requested versions and content_map contains the KnitContents.
808
Both dicts take version_ids as their keys.
810
for version_id in version_ids:
811
if not self.has_version(version_id):
812
raise RevisionNotPresent(version_id, self.filename)
813
record_map = self._get_record_map(version_ids)
818
for version_id in version_ids:
821
while cursor is not None:
822
method, data, digest, next = record_map[cursor]
823
components.append((cursor, method, data, digest))
824
if cursor in content_map:
829
for component_id, method, data, digest in reversed(components):
830
if component_id in content_map:
831
content = content_map[component_id]
833
version_idx = self._index.lookup(component_id)
834
if method == 'fulltext':
835
assert content is None
836
content = self.factory.parse_fulltext(data, version_idx)
837
elif method == 'line-delta':
838
delta = self.factory.parse_line_delta(data, version_idx)
839
content = content.copy()
840
content._lines = self._apply_delta(content._lines,
842
content_map[component_id] = content
844
if 'no-eol' in self._index.get_options(version_id):
845
content = content.copy()
846
line = content._lines[-1][1].rstrip('\n')
847
content._lines[-1] = (content._lines[-1][0], line)
848
final_content[version_id] = content
850
# digest here is the digest from the last applied component.
851
text = content.text()
852
if sha_strings(text) != digest:
853
raise KnitCorrupt(self.filename,
854
'sha-1 does not match %s' % version_id)
856
text_map[version_id] = text
857
return text_map, final_content
859
def iter_lines_added_or_present_in_versions(self, version_ids=None,
861
"""See VersionedFile.iter_lines_added_or_present_in_versions()."""
862
if version_ids is None:
863
version_ids = self.versions()
865
pb = progress.DummyProgress()
866
# we don't care about inclusions, the caller cares.
867
# but we need to setup a list of records to visit.
868
# we need version_id, position, length
869
version_id_records = []
870
requested_versions = set(version_ids)
871
# filter for available versions
872
for version_id in requested_versions:
873
if not self.has_version(version_id):
874
raise RevisionNotPresent(version_id, self.filename)
875
# get a in-component-order queue:
876
for version_id in self.versions():
877
if version_id in requested_versions:
878
data_pos, length = self._index.get_position(version_id)
879
version_id_records.append((version_id, data_pos, length))
881
total = len(version_id_records)
882
for version_idx, (version_id, data, sha_value) in \
883
enumerate(self._data.read_records_iter(version_id_records)):
884
pb.update('Walking content.', version_idx, total)
885
method = self._index.get_method(version_id)
886
version_idx = self._index.lookup(version_id)
888
assert method in ('fulltext', 'line-delta')
889
if method == 'fulltext':
890
line_iterator = self.factory.get_fulltext_content(data)
892
line_iterator = self.factory.get_linedelta_content(data)
893
for line in line_iterator:
896
pb.update('Walking content.', total, total)
898
def num_versions(self):
899
"""See VersionedFile.num_versions()."""
900
return self._index.num_versions()
902
__len__ = num_versions
904
def annotate_iter(self, version_id):
905
"""See VersionedFile.annotate_iter."""
906
content = self._get_content(version_id)
907
for origin, text in content.annotate_iter():
910
def get_parents(self, version_id):
911
"""See VersionedFile.get_parents."""
914
# 52554 calls in 1264 872 internal down from 3674
916
return self._index.get_parents(version_id)
918
raise RevisionNotPresent(version_id, self.filename)
920
def get_parents_with_ghosts(self, version_id):
921
"""See VersionedFile.get_parents."""
923
return self._index.get_parents_with_ghosts(version_id)
925
raise RevisionNotPresent(version_id, self.filename)
927
def get_ancestry(self, versions):
928
"""See VersionedFile.get_ancestry."""
929
if isinstance(versions, basestring):
930
versions = [versions]
933
return self._index.get_ancestry(versions)
935
def get_ancestry_with_ghosts(self, versions):
936
"""See VersionedFile.get_ancestry_with_ghosts."""
937
if isinstance(versions, basestring):
938
versions = [versions]
941
return self._index.get_ancestry_with_ghosts(versions)
943
#@deprecated_method(zero_eight)
944
def walk(self, version_ids):
945
"""See VersionedFile.walk."""
946
# We take the short path here, and extract all relevant texts
947
# and put them in a weave and let that do all the work. Far
948
# from optimal, but is much simpler.
949
# FIXME RB 20060228 this really is inefficient!
950
from bzrlib.weave import Weave
952
w = Weave(self.filename)
953
ancestry = self.get_ancestry(version_ids)
954
sorted_graph = topo_sort(self._index.get_graph())
955
version_list = [vid for vid in sorted_graph if vid in ancestry]
957
for version_id in version_list:
958
lines = self.get_lines(version_id)
959
w.add_lines(version_id, self.get_parents(version_id), lines)
961
for lineno, insert_id, dset, line in w.walk(version_ids):
962
yield lineno, insert_id, dset, line
964
def plan_merge(self, ver_a, ver_b):
965
"""See VersionedFile.plan_merge."""
966
ancestors_b = set(self.get_ancestry(ver_b))
967
def status_a(revision, text):
968
if revision in ancestors_b:
969
return 'killed-b', text
973
ancestors_a = set(self.get_ancestry(ver_a))
974
def status_b(revision, text):
975
if revision in ancestors_a:
976
return 'killed-a', text
980
annotated_a = self.annotate(ver_a)
981
annotated_b = self.annotate(ver_b)
982
plain_a = [t for (a, t) in annotated_a]
983
plain_b = [t for (a, t) in annotated_b]
984
blocks = KnitSequenceMatcher(None, plain_a, plain_b).get_matching_blocks()
987
for ai, bi, l in blocks:
988
# process all mismatched sections
989
# (last mismatched section is handled because blocks always
990
# includes a 0-length last block)
991
for revision, text in annotated_a[a_cur:ai]:
992
yield status_a(revision, text)
993
for revision, text in annotated_b[b_cur:bi]:
994
yield status_b(revision, text)
996
# and now the matched section
999
for text_a, text_b in zip(plain_a[ai:a_cur], plain_b[bi:b_cur]):
1000
assert text_a == text_b
1001
yield "unchanged", text_a
1004
class _KnitComponentFile(object):
1005
"""One of the files used to implement a knit database"""
1007
def __init__(self, transport, filename, mode, file_mode=None,
1008
create_parent_dir=False, dir_mode=None):
1009
self._transport = transport
1010
self._filename = filename
1012
self._file_mode = file_mode
1013
self._dir_mode = dir_mode
1014
self._create_parent_dir = create_parent_dir
1015
self._need_to_create = False
1017
def check_header(self, fp):
1018
line = fp.readline()
1020
# An empty file can actually be treated as though the file doesn't
1022
raise errors.NoSuchFile(self._transport.base + self._filename)
1023
if line != self.HEADER:
1024
raise KnitHeaderError(badline=line,
1025
filename=self._transport.abspath(self._filename))
1028
"""Commit is a nop."""
1031
return '%s(%s)' % (self.__class__.__name__, self._filename)
1034
class _KnitIndex(_KnitComponentFile):
1035
"""Manages knit index file.
1037
The index is already kept in memory and read on startup, to enable
1038
fast lookups of revision information. The cursor of the index
1039
file is always pointing to the end, making it easy to append
1042
_cache is a cache for fast mapping from version id to a Index
1045
_history is a cache for fast mapping from indexes to version ids.
1047
The index data format is dictionary compressed when it comes to
1048
parent references; a index entry may only have parents that with a
1049
lover index number. As a result, the index is topological sorted.
1051
Duplicate entries may be written to the index for a single version id
1052
if this is done then the latter one completely replaces the former:
1053
this allows updates to correct version and parent information.
1054
Note that the two entries may share the delta, and that successive
1055
annotations and references MUST point to the first entry.
1057
The index file on disc contains a header, followed by one line per knit
1058
record. The same revision can be present in an index file more than once.
1059
The first occurrence gets assigned a sequence number starting from 0.
1061
The format of a single line is
1062
REVISION_ID FLAGS BYTE_OFFSET LENGTH( PARENT_ID|PARENT_SEQUENCE_ID)* :\n
1063
REVISION_ID is a utf8-encoded revision id
1064
FLAGS is a comma separated list of flags about the record. Values include
1065
no-eol, line-delta, fulltext.
1066
BYTE_OFFSET is the ascii representation of the byte offset in the data file
1067
that the the compressed data starts at.
1068
LENGTH is the ascii representation of the length of the data file.
1069
PARENT_ID a utf-8 revision id prefixed by a '.' that is a parent of
1071
PARENT_SEQUENCE_ID the ascii representation of the sequence number of a
1072
revision id already in the knit that is a parent of REVISION_ID.
1073
The ' :' marker is the end of record marker.
1076
when a write is interrupted to the index file, it will result in a line
1077
that does not end in ' :'. If the ' :' is not present at the end of a line,
1078
or at the end of the file, then the record that is missing it will be
1079
ignored by the parser.
1081
When writing new records to the index file, the data is preceded by '\n'
1082
to ensure that records always start on new lines even if the last write was
1083
interrupted. As a result its normal for the last line in the index to be
1084
missing a trailing newline. One can be added with no harmful effects.
1087
HEADER = "# bzr knit index 8\n"
1089
# speed of knit parsing went from 280 ms to 280 ms with slots addition.
1090
# __slots__ = ['_cache', '_history', '_transport', '_filename']
1092
def _cache_version(self, version_id, options, pos, size, parents):
1093
"""Cache a version record in the history array and index cache.
1095
This is inlined into _load_data for performance. KEEP IN SYNC.
1096
(It saves 60ms, 25% of the __init__ overhead on local 4000 record
1099
# only want the _history index to reference the 1st index entry
1101
if version_id not in self._cache:
1102
index = len(self._history)
1103
self._history.append(version_id)
1105
index = self._cache[version_id][5]
1106
self._cache[version_id] = (version_id,
1113
def __init__(self, transport, filename, mode, create=False, file_mode=None,
1114
create_parent_dir=False, delay_create=False, dir_mode=None):
1115
_KnitComponentFile.__init__(self, transport, filename, mode,
1116
file_mode=file_mode,
1117
create_parent_dir=create_parent_dir,
1120
# position in _history is the 'official' index for a revision
1121
# but the values may have come from a newer entry.
1122
# so - wc -l of a knit index is != the number of unique names
1125
decode_utf8 = cache_utf8.decode
1126
pb = ui.ui_factory.nested_progress_bar()
1128
pb.update('read knit index', 0, 1)
1130
fp = self._transport.get(self._filename)
1132
if mode != 'w' or not create:
1135
self._need_to_create = True
1137
self._transport.put_bytes_non_atomic(
1138
self._filename, self.HEADER, mode=self._file_mode)
1145
pb.update('read knit index', 1, 1)
1148
def _load_data(self, fp):
1150
history = self._history
1151
decode_utf8 = cache_utf8.decode
1153
self.check_header(fp)
1154
# readlines reads the whole file at once:
1155
# bad for transports like http, good for local disk
1156
# we save 60 ms doing this one change (
1157
# from calling readline each time to calling
1159
# probably what we want for nice behaviour on
1160
# http is a incremental readlines that yields, or
1161
# a check for local vs non local indexes,
1162
history_top = len(history) - 1
1163
for line in fp.readlines():
1165
if len(rec) < 5 or rec[-1] != ':':
1167
# FIXME: in the future we should determine if its a
1168
# short write - and ignore it
1169
# or a different failure, and raise. RBC 20060407
1173
for value in rec[4:-1]:
1175
# uncompressed reference
1176
parents.append(decode_utf8(value[1:]))
1178
parents.append(history[int(value)])
1180
version_id, options, pos, size = rec[:4]
1181
version_id = decode_utf8(version_id)
1183
# See self._cache_version
1184
# only want the _history index to reference the 1st
1185
# index entry for version_id
1186
if version_id not in cache:
1189
history.append(version_id)
1191
index = cache[version_id][5]
1192
cache[version_id] = (version_id,
1198
# end self._cache_version
1200
def get_graph(self):
1201
return [(vid, idx[4]) for vid, idx in self._cache.iteritems()]
1203
def get_ancestry(self, versions):
1204
"""See VersionedFile.get_ancestry."""
1205
# get a graph of all the mentioned versions:
1207
pending = set(versions)
1210
version = pending.pop()
1213
parents = [p for p in cache[version][4] if p in cache]
1215
raise RevisionNotPresent(version, self._filename)
1216
# if not completed and not a ghost
1217
pending.update([p for p in parents if p not in graph])
1218
graph[version] = parents
1219
return topo_sort(graph.items())
1221
def get_ancestry_with_ghosts(self, versions):
1222
"""See VersionedFile.get_ancestry_with_ghosts."""
1223
# get a graph of all the mentioned versions:
1224
self.check_versions_present(versions)
1227
pending = set(versions)
1229
version = pending.pop()
1231
parents = cache[version][4]
1237
pending.update([p for p in parents if p not in graph])
1238
graph[version] = parents
1239
return topo_sort(graph.items())
1241
def num_versions(self):
1242
return len(self._history)
1244
__len__ = num_versions
1246
def get_versions(self):
1247
return self._history
1249
def idx_to_name(self, idx):
1250
return self._history[idx]
1252
def lookup(self, version_id):
1253
assert version_id in self._cache
1254
return self._cache[version_id][5]
1256
def _version_list_to_index(self, versions):
1257
encode_utf8 = cache_utf8.encode
1260
for version in versions:
1261
if version in cache:
1262
# -- inlined lookup() --
1263
result_list.append(str(cache[version][5]))
1264
# -- end lookup () --
1266
result_list.append('.' + encode_utf8(version))
1267
return ' '.join(result_list)
1269
def add_version(self, version_id, options, pos, size, parents):
1270
"""Add a version record to the index."""
1271
self.add_versions(((version_id, options, pos, size, parents),))
1273
def add_versions(self, versions):
1274
"""Add multiple versions to the index.
1276
:param versions: a list of tuples:
1277
(version_id, options, pos, size, parents).
1280
encode_utf8 = cache_utf8.encode
1281
orig_history = self._history[:]
1282
orig_cache = self._cache.copy()
1285
for version_id, options, pos, size, parents in versions:
1286
line = "\n%s %s %s %s %s :" % (encode_utf8(version_id),
1290
self._version_list_to_index(parents))
1291
assert isinstance(line, str), \
1292
'content must be utf-8 encoded: %r' % (line,)
1294
self._cache_version(version_id, options, pos, size, parents)
1295
if not self._need_to_create:
1296
self._transport.append_bytes(self._filename, ''.join(lines))
1299
sio.write(self.HEADER)
1300
sio.writelines(lines)
1302
self._transport.put_file_non_atomic(self._filename, sio,
1303
create_parent_dir=self._create_parent_dir,
1304
mode=self._file_mode,
1305
dir_mode=self._dir_mode)
1306
self._need_to_create = False
1308
# If any problems happen, restore the original values and re-raise
1309
self._history = orig_history
1310
self._cache = orig_cache
1313
def has_version(self, version_id):
1314
"""True if the version is in the index."""
1315
return version_id in self._cache
1317
def get_position(self, version_id):
1318
"""Return data position and size of specified version."""
1319
entry = self._cache[version_id]
1320
return entry[2], entry[3]
1322
def get_method(self, version_id):
1323
"""Return compression method of specified version."""
1324
options = self._cache[version_id][1]
1325
if 'fulltext' in options:
1328
assert 'line-delta' in options
1331
def get_options(self, version_id):
1332
return self._cache[version_id][1]
1334
def get_parents(self, version_id):
1335
"""Return parents of specified version ignoring ghosts."""
1336
return [parent for parent in self._cache[version_id][4]
1337
if parent in self._cache]
1339
def get_parents_with_ghosts(self, version_id):
1340
"""Return parents of specified version with ghosts."""
1341
return self._cache[version_id][4]
1343
def check_versions_present(self, version_ids):
1344
"""Check that all specified versions are present."""
1346
for version_id in version_ids:
1347
if version_id not in cache:
1348
raise RevisionNotPresent(version_id, self._filename)
1351
class _KnitData(_KnitComponentFile):
1352
"""Contents of the knit data file"""
1354
def __init__(self, transport, filename, mode, create=False, file_mode=None,
1355
create_parent_dir=False, delay_create=False,
1357
_KnitComponentFile.__init__(self, transport, filename, mode,
1358
file_mode=file_mode,
1359
create_parent_dir=create_parent_dir,
1361
self._checked = False
1362
# TODO: jam 20060713 conceptually, this could spill to disk
1363
# if the cached size gets larger than a certain amount
1364
# but it complicates the model a bit, so for now just use
1365
# a simple dictionary
1367
self._do_cache = False
1370
self._need_to_create = create
1372
self._transport.put_bytes_non_atomic(self._filename, '',
1373
mode=self._file_mode)
1375
def enable_cache(self):
1376
"""Enable caching of reads."""
1377
self._do_cache = True
1379
def clear_cache(self):
1380
"""Clear the record cache."""
1381
self._do_cache = False
1384
def _open_file(self):
1386
return self._transport.get(self._filename)
1391
def _record_to_data(self, version_id, digest, lines):
1392
"""Convert version_id, digest, lines into a raw data block.
1394
:return: (len, a StringIO instance with the raw data ready to read.)
1397
data_file = GzipFile(None, mode='wb', fileobj=sio)
1399
version_id_utf8 = cache_utf8.encode(version_id)
1400
data_file.writelines(chain(
1401
["version %s %d %s\n" % (version_id_utf8,
1405
["end %s\n" % version_id_utf8]))
1412
def add_raw_record(self, raw_data):
1413
"""Append a prepared record to the data file.
1415
:return: the offset in the data file raw_data was written.
1417
assert isinstance(raw_data, str), 'data must be plain bytes'
1418
if not self._need_to_create:
1419
return self._transport.append_bytes(self._filename, raw_data)
1421
self._transport.put_bytes_non_atomic(self._filename, raw_data,
1422
create_parent_dir=self._create_parent_dir,
1423
mode=self._file_mode,
1424
dir_mode=self._dir_mode)
1425
self._need_to_create = False
1428
def add_record(self, version_id, digest, lines):
1429
"""Write new text record to disk. Returns the position in the
1430
file where it was written."""
1431
size, sio = self._record_to_data(version_id, digest, lines)
1433
if not self._need_to_create:
1434
start_pos = self._transport.append_file(self._filename, sio)
1436
self._transport.put_file_non_atomic(self._filename, sio,
1437
create_parent_dir=self._create_parent_dir,
1438
mode=self._file_mode,
1439
dir_mode=self._dir_mode)
1440
self._need_to_create = False
1443
self._cache[version_id] = sio.getvalue()
1444
return start_pos, size
1446
def _parse_record_header(self, version_id, raw_data):
1447
"""Parse a record header for consistency.
1449
:return: the header and the decompressor stream.
1450
as (stream, header_record)
1452
df = GzipFile(mode='rb', fileobj=StringIO(raw_data))
1453
rec = df.readline().split()
1455
raise KnitCorrupt(self._filename, 'unexpected number of elements in record header')
1456
if cache_utf8.decode(rec[1]) != version_id:
1457
raise KnitCorrupt(self._filename,
1458
'unexpected version, wanted %r, got %r' % (
1459
version_id, rec[1]))
1462
def _parse_record(self, version_id, data):
1464
# 4168 calls in 2880 217 internal
1465
# 4168 calls to _parse_record_header in 2121
1466
# 4168 calls to readlines in 330
1467
df, rec = self._parse_record_header(version_id, data)
1468
record_contents = df.readlines()
1469
l = record_contents.pop()
1470
assert len(record_contents) == int(rec[2])
1471
if l != 'end %s\n' % cache_utf8.encode(version_id):
1472
raise KnitCorrupt(self._filename, 'unexpected version end line %r, wanted %r'
1475
return record_contents, rec[3]
1477
def read_records_iter_raw(self, records):
1478
"""Read text records from data file and yield raw data.
1480
This unpacks enough of the text record to validate the id is
1481
as expected but thats all.
1483
# setup an iterator of the external records:
1484
# uses readv so nice and fast we hope.
1486
# grab the disk data needed.
1488
# Don't check _cache if it is empty
1489
needed_offsets = [(pos, size) for version_id, pos, size
1491
if version_id not in self._cache]
1493
needed_offsets = [(pos, size) for version_id, pos, size
1496
raw_records = self._transport.readv(self._filename, needed_offsets)
1498
for version_id, pos, size in records:
1499
if version_id in self._cache:
1500
# This data has already been validated
1501
data = self._cache[version_id]
1503
pos, data = raw_records.next()
1505
self._cache[version_id] = data
1507
# validate the header
1508
df, rec = self._parse_record_header(version_id, data)
1510
yield version_id, data
1512
def read_records_iter(self, records):
1513
"""Read text records from data file and yield result.
1515
The result will be returned in whatever is the fastest to read.
1516
Not by the order requested. Also, multiple requests for the same
1517
record will only yield 1 response.
1518
:param records: A list of (version_id, pos, len) entries
1519
:return: Yields (version_id, contents, digest) in the order
1520
read, not the order requested
1526
# Skip records we have alread seen
1527
yielded_records = set()
1528
needed_records = set()
1529
for record in records:
1530
if record[0] in self._cache:
1531
if record[0] in yielded_records:
1533
yielded_records.add(record[0])
1534
data = self._cache[record[0]]
1535
content, digest = self._parse_record(record[0], data)
1536
yield (record[0], content, digest)
1538
needed_records.add(record)
1539
needed_records = sorted(needed_records, key=operator.itemgetter(1))
1541
needed_records = sorted(set(records), key=operator.itemgetter(1))
1543
if not needed_records:
1546
# The transport optimizes the fetching as well
1547
# (ie, reads continuous ranges.)
1548
readv_response = self._transport.readv(self._filename,
1549
[(pos, size) for version_id, pos, size in needed_records])
1551
for (version_id, pos, size), (pos, data) in \
1552
izip(iter(needed_records), readv_response):
1553
content, digest = self._parse_record(version_id, data)
1555
self._cache[version_id] = data
1556
yield version_id, content, digest
1558
def read_records(self, records):
1559
"""Read records into a dictionary."""
1561
for record_id, content, digest in \
1562
self.read_records_iter(records):
1563
components[record_id] = (content, digest)
1567
class InterKnit(InterVersionedFile):
1568
"""Optimised code paths for knit to knit operations."""
1570
_matching_file_from_factory = KnitVersionedFile
1571
_matching_file_to_factory = KnitVersionedFile
1574
def is_compatible(source, target):
1575
"""Be compatible with knits. """
1577
return (isinstance(source, KnitVersionedFile) and
1578
isinstance(target, KnitVersionedFile))
1579
except AttributeError:
1582
def join(self, pb=None, msg=None, version_ids=None, ignore_missing=False):
1583
"""See InterVersionedFile.join."""
1584
assert isinstance(self.source, KnitVersionedFile)
1585
assert isinstance(self.target, KnitVersionedFile)
1587
version_ids = self._get_source_version_ids(version_ids, ignore_missing)
1592
pb = ui.ui_factory.nested_progress_bar()
1594
version_ids = list(version_ids)
1595
if None in version_ids:
1596
version_ids.remove(None)
1598
self.source_ancestry = set(self.source.get_ancestry(version_ids))
1599
this_versions = set(self.target._index.get_versions())
1600
needed_versions = self.source_ancestry - this_versions
1601
cross_check_versions = self.source_ancestry.intersection(this_versions)
1602
mismatched_versions = set()
1603
for version in cross_check_versions:
1604
# scan to include needed parents.
1605
n1 = set(self.target.get_parents_with_ghosts(version))
1606
n2 = set(self.source.get_parents_with_ghosts(version))
1608
# FIXME TEST this check for cycles being introduced works
1609
# the logic is we have a cycle if in our graph we are an
1610
# ancestor of any of the n2 revisions.
1616
parent_ancestors = self.source.get_ancestry(parent)
1617
if version in parent_ancestors:
1618
raise errors.GraphCycleError([parent, version])
1619
# ensure this parent will be available later.
1620
new_parents = n2.difference(n1)
1621
needed_versions.update(new_parents.difference(this_versions))
1622
mismatched_versions.add(version)
1624
if not needed_versions and not mismatched_versions:
1626
full_list = topo_sort(self.source.get_graph())
1628
version_list = [i for i in full_list if (not self.target.has_version(i)
1629
and i in needed_versions)]
1633
copy_queue_records = []
1635
for version_id in version_list:
1636
options = self.source._index.get_options(version_id)
1637
parents = self.source._index.get_parents_with_ghosts(version_id)
1638
# check that its will be a consistent copy:
1639
for parent in parents:
1640
# if source has the parent, we must :
1641
# * already have it or
1642
# * have it scheduled already
1643
# otherwise we don't care
1644
assert (self.target.has_version(parent) or
1645
parent in copy_set or
1646
not self.source.has_version(parent))
1647
data_pos, data_size = self.source._index.get_position(version_id)
1648
copy_queue_records.append((version_id, data_pos, data_size))
1649
copy_queue.append((version_id, options, parents))
1650
copy_set.add(version_id)
1652
# data suck the join:
1654
total = len(version_list)
1657
for (version_id, raw_data), \
1658
(version_id2, options, parents) in \
1659
izip(self.source._data.read_records_iter_raw(copy_queue_records),
1661
assert version_id == version_id2, 'logic error, inconsistent results'
1663
pb.update("Joining knit", count, total)
1664
raw_records.append((version_id, options, parents, len(raw_data)))
1665
raw_datum.append(raw_data)
1666
self.target._add_raw_records(raw_records, ''.join(raw_datum))
1668
for version in mismatched_versions:
1669
# FIXME RBC 20060309 is this needed?
1670
n1 = set(self.target.get_parents_with_ghosts(version))
1671
n2 = set(self.source.get_parents_with_ghosts(version))
1672
# write a combined record to our history preserving the current
1673
# parents as first in the list
1674
new_parents = self.target.get_parents_with_ghosts(version) + list(n2.difference(n1))
1675
self.target.fix_parents(version, new_parents)
1681
InterVersionedFile.register_optimiser(InterKnit)
1684
class WeaveToKnit(InterVersionedFile):
1685
"""Optimised code paths for weave to knit operations."""
1687
_matching_file_from_factory = bzrlib.weave.WeaveFile
1688
_matching_file_to_factory = KnitVersionedFile
1691
def is_compatible(source, target):
1692
"""Be compatible with weaves to knits."""
1694
return (isinstance(source, bzrlib.weave.Weave) and
1695
isinstance(target, KnitVersionedFile))
1696
except AttributeError:
1699
def join(self, pb=None, msg=None, version_ids=None, ignore_missing=False):
1700
"""See InterVersionedFile.join."""
1701
assert isinstance(self.source, bzrlib.weave.Weave)
1702
assert isinstance(self.target, KnitVersionedFile)
1704
version_ids = self._get_source_version_ids(version_ids, ignore_missing)
1709
pb = ui.ui_factory.nested_progress_bar()
1711
version_ids = list(version_ids)
1713
self.source_ancestry = set(self.source.get_ancestry(version_ids))
1714
this_versions = set(self.target._index.get_versions())
1715
needed_versions = self.source_ancestry - this_versions
1716
cross_check_versions = self.source_ancestry.intersection(this_versions)
1717
mismatched_versions = set()
1718
for version in cross_check_versions:
1719
# scan to include needed parents.
1720
n1 = set(self.target.get_parents_with_ghosts(version))
1721
n2 = set(self.source.get_parents(version))
1722
# if all of n2's parents are in n1, then its fine.
1723
if n2.difference(n1):
1724
# FIXME TEST this check for cycles being introduced works
1725
# the logic is we have a cycle if in our graph we are an
1726
# ancestor of any of the n2 revisions.
1732
parent_ancestors = self.source.get_ancestry(parent)
1733
if version in parent_ancestors:
1734
raise errors.GraphCycleError([parent, version])
1735
# ensure this parent will be available later.
1736
new_parents = n2.difference(n1)
1737
needed_versions.update(new_parents.difference(this_versions))
1738
mismatched_versions.add(version)
1740
if not needed_versions and not mismatched_versions:
1742
full_list = topo_sort(self.source.get_graph())
1744
version_list = [i for i in full_list if (not self.target.has_version(i)
1745
and i in needed_versions)]
1749
total = len(version_list)
1750
for version_id in version_list:
1751
pb.update("Converting to knit", count, total)
1752
parents = self.source.get_parents(version_id)
1753
# check that its will be a consistent copy:
1754
for parent in parents:
1755
# if source has the parent, we must already have it
1756
assert (self.target.has_version(parent))
1757
self.target.add_lines(
1758
version_id, parents, self.source.get_lines(version_id))
1761
for version in mismatched_versions:
1762
# FIXME RBC 20060309 is this needed?
1763
n1 = set(self.target.get_parents_with_ghosts(version))
1764
n2 = set(self.source.get_parents(version))
1765
# write a combined record to our history preserving the current
1766
# parents as first in the list
1767
new_parents = self.target.get_parents_with_ghosts(version) + list(n2.difference(n1))
1768
self.target.fix_parents(version, new_parents)
1774
InterVersionedFile.register_optimiser(WeaveToKnit)
1777
class KnitSequenceMatcher(difflib.SequenceMatcher):
1778
"""Knit tuned sequence matcher.
1780
This is based on profiling of difflib which indicated some improvements
1781
for our usage pattern.
1784
def find_longest_match(self, alo, ahi, blo, bhi):
1785
"""Find longest matching block in a[alo:ahi] and b[blo:bhi].
1787
If isjunk is not defined:
1789
Return (i,j,k) such that a[i:i+k] is equal to b[j:j+k], where
1790
alo <= i <= i+k <= ahi
1791
blo <= j <= j+k <= bhi
1792
and for all (i',j',k') meeting those conditions,
1795
and if i == i', j <= j'
1797
In other words, of all maximal matching blocks, return one that
1798
starts earliest in a, and of all those maximal matching blocks that
1799
start earliest in a, return the one that starts earliest in b.
1801
>>> s = SequenceMatcher(None, " abcd", "abcd abcd")
1802
>>> s.find_longest_match(0, 5, 0, 9)
1805
If isjunk is defined, first the longest matching block is
1806
determined as above, but with the additional restriction that no
1807
junk element appears in the block. Then that block is extended as
1808
far as possible by matching (only) junk elements on both sides. So
1809
the resulting block never matches on junk except as identical junk
1810
happens to be adjacent to an "interesting" match.
1812
Here's the same example as before, but considering blanks to be
1813
junk. That prevents " abcd" from matching the " abcd" at the tail
1814
end of the second sequence directly. Instead only the "abcd" can
1815
match, and matches the leftmost "abcd" in the second sequence:
1817
>>> s = SequenceMatcher(lambda x: x==" ", " abcd", "abcd abcd")
1818
>>> s.find_longest_match(0, 5, 0, 9)
1821
If no blocks match, return (alo, blo, 0).
1823
>>> s = SequenceMatcher(None, "ab", "c")
1824
>>> s.find_longest_match(0, 2, 0, 1)
1828
# CAUTION: stripping common prefix or suffix would be incorrect.
1832
# Longest matching block is "ab", but if common prefix is
1833
# stripped, it's "a" (tied with "b"). UNIX(tm) diff does so
1834
# strip, so ends up claiming that ab is changed to acab by
1835
# inserting "ca" in the middle. That's minimal but unintuitive:
1836
# "it's obvious" that someone inserted "ac" at the front.
1837
# Windiff ends up at the same place as diff, but by pairing up
1838
# the unique 'b's and then matching the first two 'a's.
1840
a, b, b2j, isbjunk = self.a, self.b, self.b2j, self.isbjunk
1841
besti, bestj, bestsize = alo, blo, 0
1842
# find longest junk-free match
1843
# during an iteration of the loop, j2len[j] = length of longest
1844
# junk-free match ending with a[i-1] and b[j]
1848
for i in xrange(alo, ahi):
1849
# look at all instances of a[i] in b; note that because
1850
# b2j has no junk keys, the loop is skipped if a[i] is junk
1851
j2lenget = j2len.get
1854
# changing b2j.get(a[i], nothing) to a try:KeyError pair produced the
1855
# following improvement
1856
# 704 0 4650.5320 2620.7410 bzrlib.knit:1336(find_longest_match)
1857
# +326674 0 1655.1210 1655.1210 +<method 'get' of 'dict' objects>
1858
# +76519 0 374.6700 374.6700 +<method 'has_key' of 'dict' objects>
1860
# 704 0 3733.2820 2209.6520 bzrlib.knit:1336(find_longest_match)
1861
# +211400 0 1147.3520 1147.3520 +<method 'get' of 'dict' objects>
1862
# +76519 0 376.2780 376.2780 +<method 'has_key' of 'dict' objects>
1874
k = newj2len[j] = 1 + j2lenget(-1 + j, 0)
1876
besti, bestj, bestsize = 1 + i-k, 1 + j-k, k
1879
# Extend the best by non-junk elements on each end. In particular,
1880
# "popular" non-junk elements aren't in b2j, which greatly speeds
1881
# the inner loop above, but also means "the best" match so far
1882
# doesn't contain any junk *or* popular non-junk elements.
1883
while besti > alo and bestj > blo and \
1884
not isbjunk(b[bestj-1]) and \
1885
a[besti-1] == b[bestj-1]:
1886
besti, bestj, bestsize = besti-1, bestj-1, bestsize+1
1887
while besti+bestsize < ahi and bestj+bestsize < bhi and \
1888
not isbjunk(b[bestj+bestsize]) and \
1889
a[besti+bestsize] == b[bestj+bestsize]:
1892
# Now that we have a wholly interesting match (albeit possibly
1893
# empty!), we may as well suck up the matching junk on each
1894
# side of it too. Can't think of a good reason not to, and it
1895
# saves post-processing the (possibly considerable) expense of
1896
# figuring out what to do with it. In the case of an empty
1897
# interesting match, this is clearly the right thing to do,
1898
# because no other kind of match is possible in the regions.
1899
while besti > alo and bestj > blo and \
1900
isbjunk(b[bestj-1]) and \
1901
a[besti-1] == b[bestj-1]:
1902
besti, bestj, bestsize = besti-1, bestj-1, bestsize+1
1903
while besti+bestsize < ahi and bestj+bestsize < bhi and \
1904
isbjunk(b[bestj+bestsize]) and \
1905
a[besti+bestsize] == b[bestj+bestsize]:
1906
bestsize = bestsize + 1
1908
return besti, bestj, bestsize
added
removed
bzrlib/knit.py
