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|
# Copyright (C) 2005 Canonical Ltd
#
# Authors:
# Johan Rydberg <jrydberg@gnu.org>
#
# 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
# TODO: might be nice to create a versionedfile with some type of corruption
# considered typical and check that it can be detected/corrected.
from StringIO import StringIO
import bzrlib
from bzrlib import (
errors,
progress,
)
from bzrlib.errors import (
RevisionNotPresent,
RevisionAlreadyPresent,
WeaveParentMismatch
)
from bzrlib.knit import KnitVersionedFile, \
KnitAnnotateFactory
from bzrlib.tests import TestCaseWithTransport
from bzrlib.tests.HTTPTestUtil import TestCaseWithWebserver
from bzrlib.trace import mutter
from bzrlib.transport import get_transport
from bzrlib.transport.memory import MemoryTransport
from bzrlib.tsort import topo_sort
import bzrlib.versionedfile as versionedfile
from bzrlib.weave import WeaveFile
from bzrlib.weavefile import read_weave, write_weave
class VersionedFileTestMixIn(object):
"""A mixin test class for testing VersionedFiles.
This is not an adaptor-style test at this point because
theres no dynamic substitution of versioned file implementations,
they are strictly controlled by their owning repositories.
"""
def test_add(self):
f = self.get_file()
f.add_lines('r0', [], ['a\n', 'b\n'])
f.add_lines('r1', ['r0'], ['b\n', 'c\n'])
def verify_file(f):
versions = f.versions()
self.assertTrue('r0' in versions)
self.assertTrue('r1' in versions)
self.assertEquals(f.get_lines('r0'), ['a\n', 'b\n'])
self.assertEquals(f.get_text('r0'), 'a\nb\n')
self.assertEquals(f.get_lines('r1'), ['b\n', 'c\n'])
self.assertEqual(2, len(f))
self.assertEqual(2, f.num_versions())
self.assertRaises(RevisionNotPresent,
f.add_lines, 'r2', ['foo'], [])
self.assertRaises(RevisionAlreadyPresent,
f.add_lines, 'r1', [], [])
verify_file(f)
# this checks that reopen with create=True does not break anything.
f = self.reopen_file(create=True)
verify_file(f)
def test_adds_with_parent_texts(self):
f = self.get_file()
parent_texts = {}
parent_texts['r0'] = f.add_lines('r0', [], ['a\n', 'b\n'])
try:
parent_texts['r1'] = f.add_lines_with_ghosts('r1',
['r0', 'ghost'],
['b\n', 'c\n'],
parent_texts=parent_texts)
except NotImplementedError:
# if the format doesn't support ghosts, just add normally.
parent_texts['r1'] = f.add_lines('r1',
['r0'],
['b\n', 'c\n'],
parent_texts=parent_texts)
f.add_lines('r2', ['r1'], ['c\n', 'd\n'], parent_texts=parent_texts)
self.assertNotEqual(None, parent_texts['r0'])
self.assertNotEqual(None, parent_texts['r1'])
def verify_file(f):
versions = f.versions()
self.assertTrue('r0' in versions)
self.assertTrue('r1' in versions)
self.assertTrue('r2' in versions)
self.assertEquals(f.get_lines('r0'), ['a\n', 'b\n'])
self.assertEquals(f.get_lines('r1'), ['b\n', 'c\n'])
self.assertEquals(f.get_lines('r2'), ['c\n', 'd\n'])
self.assertEqual(3, f.num_versions())
origins = f.annotate('r1')
self.assertEquals(origins[0][0], 'r0')
self.assertEquals(origins[1][0], 'r1')
origins = f.annotate('r2')
self.assertEquals(origins[0][0], 'r1')
self.assertEquals(origins[1][0], 'r2')
verify_file(f)
f = self.reopen_file()
verify_file(f)
def test_add_unicode_content(self):
# unicode content is not permitted in versioned files.
# versioned files version sequences of bytes only.
vf = self.get_file()
self.assertRaises(errors.BzrBadParameterUnicode,
vf.add_lines, 'a', [], ['a\n', u'b\n', 'c\n'])
self.assertRaises(
(errors.BzrBadParameterUnicode, NotImplementedError),
vf.add_lines_with_ghosts, 'a', [], ['a\n', u'b\n', 'c\n'])
def test_inline_newline_throws(self):
# \r characters are not permitted in lines being added
vf = self.get_file()
self.assertRaises(errors.BzrBadParameterContainsNewline,
vf.add_lines, 'a', [], ['a\n\n'])
self.assertRaises(
(errors.BzrBadParameterContainsNewline, NotImplementedError),
vf.add_lines_with_ghosts, 'a', [], ['a\n\n'])
# but inline CR's are allowed
vf.add_lines('a', [], ['a\r\n'])
try:
vf.add_lines_with_ghosts('b', [], ['a\r\n'])
except NotImplementedError:
pass
def test_get_delta(self):
f = self.get_file()
sha1s = self._setup_for_deltas(f)
expected_delta = (None, '6bfa09d82ce3e898ad4641ae13dd4fdb9cf0d76b', False,
[(0, 0, 1, [('base', 'line\n')])])
self.assertEqual(expected_delta, f.get_delta('base'))
next_parent = 'base'
text_name = 'chain1-'
for depth in range(26):
new_version = text_name + '%s' % depth
expected_delta = (next_parent, sha1s[depth],
False,
[(depth + 1, depth + 1, 1, [(new_version, 'line\n')])])
self.assertEqual(expected_delta, f.get_delta(new_version))
next_parent = new_version
next_parent = 'base'
text_name = 'chain2-'
for depth in range(26):
new_version = text_name + '%s' % depth
expected_delta = (next_parent, sha1s[depth], False,
[(depth + 1, depth + 1, 1, [(new_version, 'line\n')])])
self.assertEqual(expected_delta, f.get_delta(new_version))
next_parent = new_version
# smoke test for eol support
expected_delta = ('base', '264f39cab871e4cfd65b3a002f7255888bb5ed97', True, [])
self.assertEqual(['line'], f.get_lines('noeol'))
self.assertEqual(expected_delta, f.get_delta('noeol'))
def test_get_deltas(self):
f = self.get_file()
sha1s = self._setup_for_deltas(f)
deltas = f.get_deltas(f.versions())
expected_delta = (None, '6bfa09d82ce3e898ad4641ae13dd4fdb9cf0d76b', False,
[(0, 0, 1, [('base', 'line\n')])])
self.assertEqual(expected_delta, deltas['base'])
next_parent = 'base'
text_name = 'chain1-'
for depth in range(26):
new_version = text_name + '%s' % depth
expected_delta = (next_parent, sha1s[depth],
False,
[(depth + 1, depth + 1, 1, [(new_version, 'line\n')])])
self.assertEqual(expected_delta, deltas[new_version])
next_parent = new_version
next_parent = 'base'
text_name = 'chain2-'
for depth in range(26):
new_version = text_name + '%s' % depth
expected_delta = (next_parent, sha1s[depth], False,
[(depth + 1, depth + 1, 1, [(new_version, 'line\n')])])
self.assertEqual(expected_delta, deltas[new_version])
next_parent = new_version
# smoke tests for eol support
expected_delta = ('base', '264f39cab871e4cfd65b3a002f7255888bb5ed97', True, [])
self.assertEqual(['line'], f.get_lines('noeol'))
self.assertEqual(expected_delta, deltas['noeol'])
# smoke tests for eol support - two noeol in a row same content
expected_deltas = (('noeol', '3ad7ee82dbd8f29ecba073f96e43e414b3f70a4d', True,
[(0, 1, 2, [(u'noeolsecond', 'line\n'), (u'noeolsecond', 'line\n')])]),
('noeol', '3ad7ee82dbd8f29ecba073f96e43e414b3f70a4d', True,
[(0, 0, 1, [('noeolsecond', 'line\n')]), (1, 1, 0, [])]))
self.assertEqual(['line\n', 'line'], f.get_lines('noeolsecond'))
self.assertTrue(deltas['noeolsecond'] in expected_deltas)
# two no-eol in a row, different content
expected_delta = ('noeolsecond', '8bb553a84e019ef1149db082d65f3133b195223b', True,
[(1, 2, 1, [(u'noeolnotshared', 'phone\n')])])
self.assertEqual(['line\n', 'phone'], f.get_lines('noeolnotshared'))
self.assertEqual(expected_delta, deltas['noeolnotshared'])
# eol folling a no-eol with content change
expected_delta = ('noeol', 'a61f6fb6cfc4596e8d88c34a308d1e724caf8977', False,
[(0, 1, 1, [(u'eol', 'phone\n')])])
self.assertEqual(['phone\n'], f.get_lines('eol'))
self.assertEqual(expected_delta, deltas['eol'])
# eol folling a no-eol with content change
expected_delta = ('noeol', '6bfa09d82ce3e898ad4641ae13dd4fdb9cf0d76b', False,
[(0, 1, 1, [(u'eolline', 'line\n')])])
self.assertEqual(['line\n'], f.get_lines('eolline'))
self.assertEqual(expected_delta, deltas['eolline'])
# eol with no parents
expected_delta = (None, '264f39cab871e4cfd65b3a002f7255888bb5ed97', True,
[(0, 0, 1, [(u'noeolbase', 'line\n')])])
self.assertEqual(['line'], f.get_lines('noeolbase'))
self.assertEqual(expected_delta, deltas['noeolbase'])
# eol with two parents, in inverse insertion order
expected_deltas = (('noeolbase', '264f39cab871e4cfd65b3a002f7255888bb5ed97', True,
[(0, 1, 1, [(u'eolbeforefirstparent', 'line\n')])]),
('noeolbase', '264f39cab871e4cfd65b3a002f7255888bb5ed97', True,
[(0, 1, 1, [(u'eolbeforefirstparent', 'line\n')])]))
self.assertEqual(['line'], f.get_lines('eolbeforefirstparent'))
#self.assertTrue(deltas['eolbeforefirstparent'] in expected_deltas)
def _setup_for_deltas(self, f):
self.assertRaises(errors.RevisionNotPresent, f.get_delta, 'base')
# add texts that should trip the knit maximum delta chain threshold
# as well as doing parallel chains of data in knits.
# this is done by two chains of 25 insertions
f.add_lines('base', [], ['line\n'])
f.add_lines('noeol', ['base'], ['line'])
# detailed eol tests:
# shared last line with parent no-eol
f.add_lines('noeolsecond', ['noeol'], ['line\n', 'line'])
# differing last line with parent, both no-eol
f.add_lines('noeolnotshared', ['noeolsecond'], ['line\n', 'phone'])
# add eol following a noneol parent, change content
f.add_lines('eol', ['noeol'], ['phone\n'])
# add eol following a noneol parent, no change content
f.add_lines('eolline', ['noeol'], ['line\n'])
# noeol with no parents:
f.add_lines('noeolbase', [], ['line'])
# noeol preceeding its leftmost parent in the output:
# this is done by making it a merge of two parents with no common
# anestry: noeolbase and noeol with the
# later-inserted parent the leftmost.
f.add_lines('eolbeforefirstparent', ['noeolbase', 'noeol'], ['line'])
# two identical eol texts
f.add_lines('noeoldup', ['noeol'], ['line'])
next_parent = 'base'
text_name = 'chain1-'
text = ['line\n']
sha1s = {0 :'da6d3141cb4a5e6f464bf6e0518042ddc7bfd079',
1 :'45e21ea146a81ea44a821737acdb4f9791c8abe7',
2 :'e1f11570edf3e2a070052366c582837a4fe4e9fa',
3 :'26b4b8626da827088c514b8f9bbe4ebf181edda1',
4 :'e28a5510be25ba84d31121cff00956f9970ae6f6',
5 :'d63ec0ce22e11dcf65a931b69255d3ac747a318d',
6 :'2c2888d288cb5e1d98009d822fedfe6019c6a4ea',
7 :'95c14da9cafbf828e3e74a6f016d87926ba234ab',
8 :'779e9a0b28f9f832528d4b21e17e168c67697272',
9 :'1f8ff4e5c6ff78ac106fcfe6b1e8cb8740ff9a8f',
10:'131a2ae712cf51ed62f143e3fbac3d4206c25a05',
11:'c5a9d6f520d2515e1ec401a8f8a67e6c3c89f199',
12:'31a2286267f24d8bedaa43355f8ad7129509ea85',
13:'dc2a7fe80e8ec5cae920973973a8ee28b2da5e0a',
14:'2c4b1736566b8ca6051e668de68650686a3922f2',
15:'5912e4ecd9b0c07be4d013e7e2bdcf9323276cde',
16:'b0d2e18d3559a00580f6b49804c23fea500feab3',
17:'8e1d43ad72f7562d7cb8f57ee584e20eb1a69fc7',
18:'5cf64a3459ae28efa60239e44b20312d25b253f3',
19:'1ebed371807ba5935958ad0884595126e8c4e823',
20:'2aa62a8b06fb3b3b892a3292a068ade69d5ee0d3',
21:'01edc447978004f6e4e962b417a4ae1955b6fe5d',
22:'d8d8dc49c4bf0bab401e0298bb5ad827768618bb',
23:'c21f62b1c482862983a8ffb2b0c64b3451876e3f',
24:'c0593fe795e00dff6b3c0fe857a074364d5f04fc',
25:'dd1a1cf2ba9cc225c3aff729953e6364bf1d1855',
}
for depth in range(26):
new_version = text_name + '%s' % depth
text = text + ['line\n']
f.add_lines(new_version, [next_parent], text)
next_parent = new_version
next_parent = 'base'
text_name = 'chain2-'
text = ['line\n']
for depth in range(26):
new_version = text_name + '%s' % depth
text = text + ['line\n']
f.add_lines(new_version, [next_parent], text)
next_parent = new_version
return sha1s
def test_add_delta(self):
# tests for the add-delta facility.
# at this point, optimising for speed, we assume no checks when deltas are inserted.
# this may need to be revisited.
source = self.get_file('source')
source.add_lines('base', [], ['line\n'])
next_parent = 'base'
text_name = 'chain1-'
text = ['line\n']
for depth in range(26):
new_version = text_name + '%s' % depth
text = text + ['line\n']
source.add_lines(new_version, [next_parent], text)
next_parent = new_version
next_parent = 'base'
text_name = 'chain2-'
text = ['line\n']
for depth in range(26):
new_version = text_name + '%s' % depth
text = text + ['line\n']
source.add_lines(new_version, [next_parent], text)
next_parent = new_version
source.add_lines('noeol', ['base'], ['line'])
target = self.get_file('target')
for version in source.versions():
parent, sha1, noeol, delta = source.get_delta(version)
target.add_delta(version,
source.get_parents(version),
parent,
sha1,
noeol,
delta)
self.assertRaises(RevisionAlreadyPresent,
target.add_delta, 'base', [], None, '', False, [])
for version in source.versions():
self.assertEqual(source.get_lines(version),
target.get_lines(version))
def test_ancestry(self):
f = self.get_file()
self.assertEqual([], f.get_ancestry([]))
f.add_lines('r0', [], ['a\n', 'b\n'])
f.add_lines('r1', ['r0'], ['b\n', 'c\n'])
f.add_lines('r2', ['r0'], ['b\n', 'c\n'])
f.add_lines('r3', ['r2'], ['b\n', 'c\n'])
f.add_lines('rM', ['r1', 'r2'], ['b\n', 'c\n'])
self.assertEqual([], f.get_ancestry([]))
versions = f.get_ancestry(['rM'])
# there are some possibilities:
# r0 r1 r2 rM r3
# r0 r1 r2 r3 rM
# etc
# so we check indexes
r0 = versions.index('r0')
r1 = versions.index('r1')
r2 = versions.index('r2')
self.assertFalse('r3' in versions)
rM = versions.index('rM')
self.assertTrue(r0 < r1)
self.assertTrue(r0 < r2)
self.assertTrue(r1 < rM)
self.assertTrue(r2 < rM)
self.assertRaises(RevisionNotPresent,
f.get_ancestry, ['rM', 'rX'])
def test_mutate_after_finish(self):
f = self.get_file()
f.transaction_finished()
self.assertRaises(errors.OutSideTransaction, f.add_delta, '', [], '', '', False, [])
self.assertRaises(errors.OutSideTransaction, f.add_lines, '', [], [])
self.assertRaises(errors.OutSideTransaction, f.add_lines_with_ghosts, '', [], [])
self.assertRaises(errors.OutSideTransaction, f.fix_parents, '', [])
self.assertRaises(errors.OutSideTransaction, f.join, '')
self.assertRaises(errors.OutSideTransaction, f.clone_text, 'base', 'bar', ['foo'])
def test_clear_cache(self):
f = self.get_file()
# on a new file it should not error
f.clear_cache()
# and after adding content, doing a clear_cache and a get should work.
f.add_lines('0', [], ['a'])
f.clear_cache()
self.assertEqual(['a'], f.get_lines('0'))
def test_clone_text(self):
f = self.get_file()
f.add_lines('r0', [], ['a\n', 'b\n'])
f.clone_text('r1', 'r0', ['r0'])
def verify_file(f):
self.assertEquals(f.get_lines('r1'), f.get_lines('r0'))
self.assertEquals(f.get_lines('r1'), ['a\n', 'b\n'])
self.assertEquals(f.get_parents('r1'), ['r0'])
self.assertRaises(RevisionNotPresent,
f.clone_text, 'r2', 'rX', [])
self.assertRaises(RevisionAlreadyPresent,
f.clone_text, 'r1', 'r0', [])
verify_file(f)
verify_file(self.reopen_file())
def test_create_empty(self):
f = self.get_file()
f.add_lines('0', [], ['a\n'])
new_f = f.create_empty('t', MemoryTransport())
# smoke test, specific types should check it is honoured correctly for
# non type attributes
self.assertEqual([], new_f.versions())
self.assertTrue(isinstance(new_f, f.__class__))
def test_copy_to(self):
f = self.get_file()
f.add_lines('0', [], ['a\n'])
t = MemoryTransport()
f.copy_to('foo', t)
for suffix in f.__class__.get_suffixes():
self.assertTrue(t.has('foo' + suffix))
def test_get_suffixes(self):
f = self.get_file()
# should be the same
self.assertEqual(f.__class__.get_suffixes(), f.__class__.get_suffixes())
# and should be a list
self.assertTrue(isinstance(f.__class__.get_suffixes(), list))
def build_graph(self, file, graph):
for node in topo_sort(graph.items()):
file.add_lines(node, graph[node], [])
def test_get_graph(self):
f = self.get_file()
graph = {
'v1': [],
'v2': ['v1'],
'v3': ['v2']}
self.build_graph(f, graph)
self.assertEqual(graph, f.get_graph())
def test_get_graph_partial(self):
f = self.get_file()
complex_graph = {}
simple_a = {
'c': [],
'b': ['c'],
'a': ['b'],
}
complex_graph.update(simple_a)
simple_b = {
'c': [],
'b': ['c'],
}
complex_graph.update(simple_b)
simple_gam = {
'c': [],
'oo': [],
'bar': ['oo', 'c'],
'gam': ['bar'],
}
complex_graph.update(simple_gam)
simple_b_gam = {}
simple_b_gam.update(simple_gam)
simple_b_gam.update(simple_b)
self.build_graph(f, complex_graph)
self.assertEqual(simple_a, f.get_graph(['a']))
self.assertEqual(simple_b, f.get_graph(['b']))
self.assertEqual(simple_gam, f.get_graph(['gam']))
self.assertEqual(simple_b_gam, f.get_graph(['b', 'gam']))
def test_get_parents(self):
f = self.get_file()
f.add_lines('r0', [], ['a\n', 'b\n'])
f.add_lines('r1', [], ['a\n', 'b\n'])
f.add_lines('r2', [], ['a\n', 'b\n'])
f.add_lines('r3', [], ['a\n', 'b\n'])
f.add_lines('m', ['r0', 'r1', 'r2', 'r3'], ['a\n', 'b\n'])
self.assertEquals(f.get_parents('m'), ['r0', 'r1', 'r2', 'r3'])
self.assertRaises(RevisionNotPresent,
f.get_parents, 'y')
def test_annotate(self):
f = self.get_file()
f.add_lines('r0', [], ['a\n', 'b\n'])
f.add_lines('r1', ['r0'], ['c\n', 'b\n'])
origins = f.annotate('r1')
self.assertEquals(origins[0][0], 'r1')
self.assertEquals(origins[1][0], 'r0')
self.assertRaises(RevisionNotPresent,
f.annotate, 'foo')
def test_walk(self):
# tests that walk returns all the inclusions for the requested
# revisions as well as the revisions changes themselves.
f = self.get_file('1')
f.add_lines('r0', [], ['a\n', 'b\n'])
f.add_lines('r1', ['r0'], ['c\n', 'b\n'])
f.add_lines('rX', ['r1'], ['d\n', 'b\n'])
f.add_lines('rY', ['r1'], ['c\n', 'e\n'])
lines = {}
for lineno, insert, dset, text in f.walk(['rX', 'rY']):
lines[text] = (insert, dset)
self.assertTrue(lines['a\n'], ('r0', set(['r1'])))
self.assertTrue(lines['b\n'], ('r0', set(['rY'])))
self.assertTrue(lines['c\n'], ('r1', set(['rX'])))
self.assertTrue(lines['d\n'], ('rX', set([])))
self.assertTrue(lines['e\n'], ('rY', set([])))
def test_detection(self):
# Test weaves detect corruption.
#
# Weaves contain a checksum of their texts.
# When a text is extracted, this checksum should be
# verified.
w = self.get_file_corrupted_text()
self.assertEqual('hello\n', w.get_text('v1'))
self.assertRaises(errors.WeaveInvalidChecksum, w.get_text, 'v2')
self.assertRaises(errors.WeaveInvalidChecksum, w.get_lines, 'v2')
self.assertRaises(errors.WeaveInvalidChecksum, w.check)
w = self.get_file_corrupted_checksum()
self.assertEqual('hello\n', w.get_text('v1'))
self.assertRaises(errors.WeaveInvalidChecksum, w.get_text, 'v2')
self.assertRaises(errors.WeaveInvalidChecksum, w.get_lines, 'v2')
self.assertRaises(errors.WeaveInvalidChecksum, w.check)
def get_file_corrupted_text(self):
"""Return a versioned file with corrupt text but valid metadata."""
raise NotImplementedError(self.get_file_corrupted_text)
def reopen_file(self, name='foo'):
"""Open the versioned file from disk again."""
raise NotImplementedError(self.reopen_file)
def test_iter_lines_added_or_present_in_versions(self):
# test that we get at least an equalset of the lines added by
# versions in the weave
# the ordering here is to make a tree so that dumb searches have
# more changes to muck up.
class InstrumentedProgress(progress.DummyProgress):
def __init__(self):
progress.DummyProgress.__init__(self)
self.updates = []
def update(self, msg=None, current=None, total=None):
self.updates.append((msg, current, total))
vf = self.get_file()
# add a base to get included
vf.add_lines('base', [], ['base\n'])
# add a ancestor to be included on one side
vf.add_lines('lancestor', [], ['lancestor\n'])
# add a ancestor to be included on the other side
vf.add_lines('rancestor', ['base'], ['rancestor\n'])
# add a child of rancestor with no eofile-nl
vf.add_lines('child', ['rancestor'], ['base\n', 'child\n'])
# add a child of lancestor and base to join the two roots
vf.add_lines('otherchild',
['lancestor', 'base'],
['base\n', 'lancestor\n', 'otherchild\n'])
def iter_with_versions(versions, expected):
# now we need to see what lines are returned, and how often.
lines = {'base\n':0,
'lancestor\n':0,
'rancestor\n':0,
'child\n':0,
'otherchild\n':0,
}
progress = InstrumentedProgress()
# iterate over the lines
for line in vf.iter_lines_added_or_present_in_versions(versions,
pb=progress):
lines[line] += 1
if []!= progress.updates:
self.assertEqual(expected, progress.updates)
return lines
lines = iter_with_versions(['child', 'otherchild'],
[('Walking content.', 0, 2),
('Walking content.', 0, 2),
('Walking content.', 3, 2),
('Walking content.', 2, 2)])
# we must see child and otherchild
self.assertTrue(lines['child\n'] > 0)
self.assertTrue(lines['otherchild\n'] > 0)
# we dont care if we got more than that.
# test all lines
lines = iter_with_versions(None, [('Walking content.', 0, 5),
('Walking content.', 0, 5),
('Walking content.', 1, 5),
('Walking content.', 2, 5),
('Walking content.', 2, 5),
('Walking content.', 3, 5),
('Walking content.', 5, 5)])
# all lines must be seen at least once
self.assertTrue(lines['base\n'] > 0)
self.assertTrue(lines['lancestor\n'] > 0)
self.assertTrue(lines['rancestor\n'] > 0)
self.assertTrue(lines['child\n'] > 0)
self.assertTrue(lines['otherchild\n'] > 0)
def test_fix_parents(self):
# some versioned files allow incorrect parents to be corrected after
# insertion - this may not fix ancestry..
# if they do not supported, they just do not implement it.
# we test this as an interface test to ensure that those that *do*
# implementent it get it right.
vf = self.get_file()
vf.add_lines('notbase', [], [])
vf.add_lines('base', [], [])
try:
vf.fix_parents('notbase', ['base'])
except NotImplementedError:
return
self.assertEqual(['base'], vf.get_parents('notbase'))
# open again, check it stuck.
vf = self.get_file()
self.assertEqual(['base'], vf.get_parents('notbase'))
def test_fix_parents_with_ghosts(self):
# when fixing parents, ghosts that are listed should not be ghosts
# anymore.
vf = self.get_file()
try:
vf.add_lines_with_ghosts('notbase', ['base', 'stillghost'], [])
except NotImplementedError:
return
vf.add_lines('base', [], [])
vf.fix_parents('notbase', ['base', 'stillghost'])
self.assertEqual(['base'], vf.get_parents('notbase'))
# open again, check it stuck.
vf = self.get_file()
self.assertEqual(['base'], vf.get_parents('notbase'))
# and check the ghosts
self.assertEqual(['base', 'stillghost'],
vf.get_parents_with_ghosts('notbase'))
def test_add_lines_with_ghosts(self):
# some versioned file formats allow lines to be added with parent
# information that is > than that in the format. Formats that do
# not support this need to raise NotImplementedError on the
# add_lines_with_ghosts api.
vf = self.get_file()
# add a revision with ghost parents
try:
vf.add_lines_with_ghosts(u'notbxbfse', [u'b\xbfse'], [])
except NotImplementedError:
# check the other ghost apis are also not implemented
self.assertRaises(NotImplementedError, vf.has_ghost, 'foo')
self.assertRaises(NotImplementedError, vf.get_ancestry_with_ghosts, ['foo'])
self.assertRaises(NotImplementedError, vf.get_parents_with_ghosts, 'foo')
self.assertRaises(NotImplementedError, vf.get_graph_with_ghosts)
return
# test key graph related apis: getncestry, _graph, get_parents
# has_version
# - these are ghost unaware and must not be reflect ghosts
self.assertEqual([u'notbxbfse'], vf.get_ancestry(u'notbxbfse'))
self.assertEqual([], vf.get_parents(u'notbxbfse'))
self.assertEqual({u'notbxbfse':[]}, vf.get_graph())
self.assertFalse(vf.has_version(u'b\xbfse'))
# we have _with_ghost apis to give us ghost information.
self.assertEqual([u'b\xbfse', u'notbxbfse'], vf.get_ancestry_with_ghosts([u'notbxbfse']))
self.assertEqual([u'b\xbfse'], vf.get_parents_with_ghosts(u'notbxbfse'))
self.assertEqual({u'notbxbfse':[u'b\xbfse']}, vf.get_graph_with_ghosts())
self.assertTrue(vf.has_ghost(u'b\xbfse'))
# if we add something that is a ghost of another, it should correct the
# results of the prior apis
vf.add_lines(u'b\xbfse', [], [])
self.assertEqual([u'b\xbfse', u'notbxbfse'], vf.get_ancestry([u'notbxbfse']))
self.assertEqual([u'b\xbfse'], vf.get_parents(u'notbxbfse'))
self.assertEqual({u'b\xbfse':[],
u'notbxbfse':[u'b\xbfse'],
},
vf.get_graph())
self.assertTrue(vf.has_version(u'b\xbfse'))
# we have _with_ghost apis to give us ghost information.
self.assertEqual([u'b\xbfse', u'notbxbfse'], vf.get_ancestry_with_ghosts([u'notbxbfse']))
self.assertEqual([u'b\xbfse'], vf.get_parents_with_ghosts(u'notbxbfse'))
self.assertEqual({u'b\xbfse':[],
u'notbxbfse':[u'b\xbfse'],
},
vf.get_graph_with_ghosts())
self.assertFalse(vf.has_ghost(u'b\xbfse'))
def test_add_lines_with_ghosts_after_normal_revs(self):
# some versioned file formats allow lines to be added with parent
# information that is > than that in the format. Formats that do
# not support this need to raise NotImplementedError on the
# add_lines_with_ghosts api.
vf = self.get_file()
# probe for ghost support
try:
vf.has_ghost('hoo')
except NotImplementedError:
return
vf.add_lines_with_ghosts('base', [], ['line\n', 'line_b\n'])
vf.add_lines_with_ghosts('references_ghost',
['base', 'a_ghost'],
['line\n', 'line_b\n', 'line_c\n'])
origins = vf.annotate('references_ghost')
self.assertEquals(('base', 'line\n'), origins[0])
self.assertEquals(('base', 'line_b\n'), origins[1])
self.assertEquals(('references_ghost', 'line_c\n'), origins[2])
def test_readonly_mode(self):
transport = get_transport(self.get_url('.'))
factory = self.get_factory()
vf = factory('id', transport, 0777, create=True, access_mode='w')
vf = factory('id', transport, access_mode='r')
self.assertRaises(errors.ReadOnlyError, vf.add_delta, '', [], '', '', False, [])
self.assertRaises(errors.ReadOnlyError, vf.add_lines, 'base', [], [])
self.assertRaises(errors.ReadOnlyError,
vf.add_lines_with_ghosts,
'base',
[],
[])
self.assertRaises(errors.ReadOnlyError, vf.fix_parents, 'base', [])
self.assertRaises(errors.ReadOnlyError, vf.join, 'base')
self.assertRaises(errors.ReadOnlyError, vf.clone_text, 'base', 'bar', ['foo'])
def test_get_sha1(self):
# check the sha1 data is available
vf = self.get_file()
# a simple file
vf.add_lines('a', [], ['a\n'])
# the same file, different metadata
vf.add_lines('b', ['a'], ['a\n'])
# a file differing only in last newline.
vf.add_lines('c', [], ['a'])
self.assertEqual(
'3f786850e387550fdab836ed7e6dc881de23001b', vf.get_sha1('a'))
self.assertEqual(
'3f786850e387550fdab836ed7e6dc881de23001b', vf.get_sha1('b'))
self.assertEqual(
'86f7e437faa5a7fce15d1ddcb9eaeaea377667b8', vf.get_sha1('c'))
class TestWeave(TestCaseWithTransport, VersionedFileTestMixIn):
def get_file(self, name='foo'):
return WeaveFile(name, get_transport(self.get_url('.')), create=True)
def get_file_corrupted_text(self):
w = WeaveFile('foo', get_transport(self.get_url('.')), create=True)
w.add_lines('v1', [], ['hello\n'])
w.add_lines('v2', ['v1'], ['hello\n', 'there\n'])
# We are going to invasively corrupt the text
# Make sure the internals of weave are the same
self.assertEqual([('{', 0)
, 'hello\n'
, ('}', None)
, ('{', 1)
, 'there\n'
, ('}', None)
], w._weave)
self.assertEqual(['f572d396fae9206628714fb2ce00f72e94f2258f'
, '90f265c6e75f1c8f9ab76dcf85528352c5f215ef'
], w._sha1s)
w.check()
# Corrupted
w._weave[4] = 'There\n'
return w
def get_file_corrupted_checksum(self):
w = self.get_file_corrupted_text()
# Corrected
w._weave[4] = 'there\n'
self.assertEqual('hello\nthere\n', w.get_text('v2'))
#Invalid checksum, first digit changed
w._sha1s[1] = 'f0f265c6e75f1c8f9ab76dcf85528352c5f215ef'
return w
def reopen_file(self, name='foo', create=False):
return WeaveFile(name, get_transport(self.get_url('.')), create=create)
def test_no_implicit_create(self):
self.assertRaises(errors.NoSuchFile,
WeaveFile,
'foo',
get_transport(self.get_url('.')))
def get_factory(self):
return WeaveFile
class TestKnit(TestCaseWithTransport, VersionedFileTestMixIn):
def get_file(self, name='foo'):
return KnitVersionedFile(name, get_transport(self.get_url('.')),
delta=True, create=True)
def get_factory(self):
return KnitVersionedFile
def get_file_corrupted_text(self):
knit = self.get_file()
knit.add_lines('v1', [], ['hello\n'])
knit.add_lines('v2', ['v1'], ['hello\n', 'there\n'])
return knit
def reopen_file(self, name='foo', create=False):
return KnitVersionedFile(name, get_transport(self.get_url('.')),
delta=True,
create=create)
def test_detection(self):
knit = self.get_file()
knit.check()
def test_no_implicit_create(self):
self.assertRaises(errors.NoSuchFile,
KnitVersionedFile,
'foo',
get_transport(self.get_url('.')))
class InterString(versionedfile.InterVersionedFile):
"""An inter-versionedfile optimised code path for strings.
This is for use during testing where we use strings as versionedfiles
so that none of the default regsitered interversionedfile classes will
match - which lets us test the match logic.
"""
@staticmethod
def is_compatible(source, target):
"""InterString is compatible with strings-as-versionedfiles."""
return isinstance(source, str) and isinstance(target, str)
# TODO this and the InterRepository core logic should be consolidatable
# if we make the registry a separate class though we still need to
# test the behaviour in the active registry to catch failure-to-handle-
# stange-objects
class TestInterVersionedFile(TestCaseWithTransport):
def test_get_default_inter_versionedfile(self):
# test that the InterVersionedFile.get(a, b) probes
# for a class where is_compatible(a, b) returns
# true and returns a default interversionedfile otherwise.
# This also tests that the default registered optimised interversionedfile
# classes do not barf inappropriately when a surprising versionedfile type
# is handed to them.
dummy_a = "VersionedFile 1."
dummy_b = "VersionedFile 2."
self.assertGetsDefaultInterVersionedFile(dummy_a, dummy_b)
def assertGetsDefaultInterVersionedFile(self, a, b):
"""Asserts that InterVersionedFile.get(a, b) -> the default."""
inter = versionedfile.InterVersionedFile.get(a, b)
self.assertEqual(versionedfile.InterVersionedFile,
inter.__class__)
self.assertEqual(a, inter.source)
self.assertEqual(b, inter.target)
def test_register_inter_versionedfile_class(self):
# test that a optimised code path provider - a
# InterVersionedFile subclass can be registered and unregistered
# and that it is correctly selected when given a versionedfile
# pair that it returns true on for the is_compatible static method
# check
dummy_a = "VersionedFile 1."
dummy_b = "VersionedFile 2."
versionedfile.InterVersionedFile.register_optimiser(InterString)
try:
# we should get the default for something InterString returns False
# to
self.assertFalse(InterString.is_compatible(dummy_a, None))
self.assertGetsDefaultInterVersionedFile(dummy_a, None)
# and we should get an InterString for a pair it 'likes'
self.assertTrue(InterString.is_compatible(dummy_a, dummy_b))
inter = versionedfile.InterVersionedFile.get(dummy_a, dummy_b)
self.assertEqual(InterString, inter.__class__)
self.assertEqual(dummy_a, inter.source)
self.assertEqual(dummy_b, inter.target)
finally:
versionedfile.InterVersionedFile.unregister_optimiser(InterString)
# now we should get the default InterVersionedFile object again.
self.assertGetsDefaultInterVersionedFile(dummy_a, dummy_b)
class TestReadonlyHttpMixin(object):
def test_readonly_http_works(self):
# we should be able to read from http with a versioned file.
vf = self.get_file()
# try an empty file access
readonly_vf = self.get_factory()('foo', get_transport(self.get_readonly_url('.')))
self.assertEqual([], readonly_vf.versions())
# now with feeling.
vf.add_lines('1', [], ['a\n'])
vf.add_lines('2', ['1'], ['b\n', 'a\n'])
readonly_vf = self.get_factory()('foo', get_transport(self.get_readonly_url('.')))
self.assertEqual(['1', '2'], vf.versions())
for version in readonly_vf.versions():
readonly_vf.get_lines(version)
class TestWeaveHTTP(TestCaseWithWebserver, TestReadonlyHttpMixin):
def get_file(self):
return WeaveFile('foo', get_transport(self.get_url('.')), create=True)
def get_factory(self):
return WeaveFile
class TestKnitHTTP(TestCaseWithWebserver, TestReadonlyHttpMixin):
def get_file(self):
return KnitVersionedFile('foo', get_transport(self.get_url('.')),
delta=True, create=True)
def get_factory(self):
return KnitVersionedFile
class MergeCasesMixin(object):
def doMerge(self, base, a, b, mp):
from cStringIO import StringIO
from textwrap import dedent
def addcrlf(x):
return x + '\n'
w = self.get_file()
w.add_lines('text0', [], map(addcrlf, base))
w.add_lines('text1', ['text0'], map(addcrlf, a))
w.add_lines('text2', ['text0'], map(addcrlf, b))
self.log_contents(w)
self.log('merge plan:')
p = list(w.plan_merge('text1', 'text2'))
for state, line in p:
if line:
self.log('%12s | %s' % (state, line[:-1]))
self.log('merge:')
mt = StringIO()
mt.writelines(w.weave_merge(p))
mt.seek(0)
self.log(mt.getvalue())
mp = map(addcrlf, mp)
self.assertEqual(mt.readlines(), mp)
def testOneInsert(self):
self.doMerge([],
['aa'],
[],
['aa'])
def testSeparateInserts(self):
self.doMerge(['aaa', 'bbb', 'ccc'],
['aaa', 'xxx', 'bbb', 'ccc'],
['aaa', 'bbb', 'yyy', 'ccc'],
['aaa', 'xxx', 'bbb', 'yyy', 'ccc'])
def testSameInsert(self):
self.doMerge(['aaa', 'bbb', 'ccc'],
['aaa', 'xxx', 'bbb', 'ccc'],
['aaa', 'xxx', 'bbb', 'yyy', 'ccc'],
['aaa', 'xxx', 'bbb', 'yyy', 'ccc'])
overlappedInsertExpected = ['aaa', 'xxx', 'yyy', 'bbb']
def testOverlappedInsert(self):
self.doMerge(['aaa', 'bbb'],
['aaa', 'xxx', 'yyy', 'bbb'],
['aaa', 'xxx', 'bbb'], self.overlappedInsertExpected)
# really it ought to reduce this to
# ['aaa', 'xxx', 'yyy', 'bbb']
def testClashReplace(self):
self.doMerge(['aaa'],
['xxx'],
['yyy', 'zzz'],
['<<<<<<< ', 'xxx', '=======', 'yyy', 'zzz',
'>>>>>>> '])
def testNonClashInsert1(self):
self.doMerge(['aaa'],
['xxx', 'aaa'],
['yyy', 'zzz'],
['<<<<<<< ', 'xxx', 'aaa', '=======', 'yyy', 'zzz',
'>>>>>>> '])
def testNonClashInsert2(self):
self.doMerge(['aaa'],
['aaa'],
['yyy', 'zzz'],
['yyy', 'zzz'])
def testDeleteAndModify(self):
"""Clashing delete and modification.
If one side modifies a region and the other deletes it then
there should be a conflict with one side blank.
"""
#######################################
# skippd, not working yet
return
self.doMerge(['aaa', 'bbb', 'ccc'],
['aaa', 'ddd', 'ccc'],
['aaa', 'ccc'],
['<<<<<<<< ', 'aaa', '=======', '>>>>>>> ', 'ccc'])
def _test_merge_from_strings(self, base, a, b, expected):
w = self.get_file()
w.add_lines('text0', [], base.splitlines(True))
w.add_lines('text1', ['text0'], a.splitlines(True))
w.add_lines('text2', ['text0'], b.splitlines(True))
self.log('merge plan:')
p = list(w.plan_merge('text1', 'text2'))
for state, line in p:
if line:
self.log('%12s | %s' % (state, line[:-1]))
self.log('merge result:')
result_text = ''.join(w.weave_merge(p))
self.log(result_text)
self.assertEqualDiff(result_text, expected)
def test_weave_merge_conflicts(self):
# does weave merge properly handle plans that end with unchanged?
result = ''.join(self.get_file().weave_merge([('new-a', 'hello\n')]))
self.assertEqual(result, 'hello\n')
def test_deletion_extended(self):
"""One side deletes, the other deletes more.
"""
base = """\
line 1
line 2
line 3
"""
a = """\
line 1
line 2
"""
b = """\
line 1
"""
result = """\
line 1
"""
self._test_merge_from_strings(base, a, b, result)
def test_deletion_overlap(self):
"""Delete overlapping regions with no other conflict.
Arguably it'd be better to treat these as agreement, rather than
conflict, but for now conflict is safer.
"""
base = """\
start context
int a() {}
int b() {}
int c() {}
end context
"""
a = """\
start context
int a() {}
end context
"""
b = """\
start context
int c() {}
end context
"""
result = """\
start context
<<<<<<<
int a() {}
=======
int c() {}
>>>>>>>
end context
"""
self._test_merge_from_strings(base, a, b, result)
def test_agreement_deletion(self):
"""Agree to delete some lines, without conflicts."""
base = """\
start context
base line 1
base line 2
end context
"""
a = """\
start context
base line 1
end context
"""
b = """\
start context
base line 1
end context
"""
result = """\
start context
base line 1
end context
"""
self._test_merge_from_strings(base, a, b, result)
def test_sync_on_deletion(self):
"""Specific case of merge where we can synchronize incorrectly.
A previous version of the weave merge concluded that the two versions
agreed on deleting line 2, and this could be a synchronization point.
Line 1 was then considered in isolation, and thought to be deleted on
both sides.
It's better to consider the whole thing as a disagreement region.
"""
base = """\
start context
base line 1
base line 2
end context
"""
a = """\
start context
base line 1
a's replacement line 2
end context
"""
b = """\
start context
b replaces
both lines
end context
"""
result = """\
start context
<<<<<<<
base line 1
a's replacement line 2
=======
b replaces
both lines
>>>>>>>
end context
"""
self._test_merge_from_strings(base, a, b, result)
class TestKnitMerge(TestCaseWithTransport, MergeCasesMixin):
def get_file(self, name='foo'):
return KnitVersionedFile(name, get_transport(self.get_url('.')),
delta=True, create=True)
def log_contents(self, w):
pass
class TestWeaveMerge(TestCaseWithTransport, MergeCasesMixin):
def get_file(self, name='foo'):
return WeaveFile(name, get_transport(self.get_url('.')), create=True)
def log_contents(self, w):
self.log('weave is:')
tmpf = StringIO()
write_weave(w, tmpf)
self.log(tmpf.getvalue())
overlappedInsertExpected = ['aaa', '<<<<<<< ', 'xxx', 'yyy', '=======',
'xxx', '>>>>>>> ', 'bbb']
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