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# Copyright (C) 2005, 2006 by Canonical Ltd
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
"""Tests for Knit data structure"""
import difflib
from bzrlib.errors import KnitError, RevisionAlreadyPresent
from bzrlib.knit import (
KnitVersionedFile,
KnitPlainFactory,
KnitAnnotateFactory,
WeaveToKnit)
from bzrlib.osutils import split_lines
from bzrlib.tests import TestCaseWithTransport
from bzrlib.transport import TransportLogger, get_transport
from bzrlib.transport.memory import MemoryTransport
from bzrlib.weave import Weave
class KnitTests(TestCaseWithTransport):
"""Class containing knit test helper routines."""
def make_test_knit(self, annotate=False):
if not annotate:
factory = KnitPlainFactory()
else:
factory = None
return KnitVersionedFile('test', get_transport('.'), access_mode='w', factory=factory, create=True)
class BasicKnitTests(KnitTests):
def add_stock_one_and_one_a(self, k):
k.add_lines('text-1', [], split_lines(TEXT_1))
k.add_lines('text-1a', ['text-1'], split_lines(TEXT_1A))
def test_knit_constructor(self):
"""Construct empty k"""
self.make_test_knit()
def test_knit_add(self):
"""Store one text in knit and retrieve"""
k = self.make_test_knit()
k.add_lines('text-1', [], split_lines(TEXT_1))
self.assertTrue(k.has_version('text-1'))
self.assertEqualDiff(''.join(k.get_lines('text-1')), TEXT_1)
def test_knit_reload(self):
# test that the content in a reloaded knit is correct
k = self.make_test_knit()
k.add_lines('text-1', [], split_lines(TEXT_1))
del k
k2 = KnitVersionedFile('test', get_transport('.'), access_mode='r', factory=KnitPlainFactory(), create=True)
self.assertTrue(k2.has_version('text-1'))
self.assertEqualDiff(''.join(k2.get_lines('text-1')), TEXT_1)
def test_knit_several(self):
"""Store several texts in a knit"""
k = self.make_test_knit()
k.add_lines('text-1', [], split_lines(TEXT_1))
k.add_lines('text-2', [], split_lines(TEXT_2))
self.assertEqualDiff(''.join(k.get_lines('text-1')), TEXT_1)
self.assertEqualDiff(''.join(k.get_lines('text-2')), TEXT_2)
def test_repeated_add(self):
"""Knit traps attempt to replace existing version"""
k = self.make_test_knit()
k.add_lines('text-1', [], split_lines(TEXT_1))
self.assertRaises(RevisionAlreadyPresent,
k.add_lines,
'text-1', [], split_lines(TEXT_1))
def test_empty(self):
k = self.make_test_knit(True)
k.add_lines('text-1', [], [])
self.assertEquals(k.get_lines('text-1'), [])
def test_incomplete(self):
"""Test if texts without a ending line-end can be inserted and
extracted."""
k = KnitVersionedFile('test', get_transport('.'), delta=False, create=True)
k.add_lines('text-1', [], ['a\n', 'b' ])
k.add_lines('text-2', ['text-1'], ['a\rb\n', 'b\n'])
# reopening ensures maximum room for confusion
k = KnitVersionedFile('test', get_transport('.'), delta=False, create=True)
self.assertEquals(k.get_lines('text-1'), ['a\n', 'b' ])
self.assertEquals(k.get_lines('text-2'), ['a\rb\n', 'b\n'])
def test_delta(self):
"""Expression of knit delta as lines"""
k = self.make_test_knit()
td = list(line_delta(TEXT_1.splitlines(True),
TEXT_1A.splitlines(True)))
self.assertEqualDiff(''.join(td), delta_1_1a)
out = apply_line_delta(TEXT_1.splitlines(True), td)
self.assertEqualDiff(''.join(out), TEXT_1A)
def test_add_with_parents(self):
"""Store in knit with parents"""
k = self.make_test_knit()
self.add_stock_one_and_one_a(k)
self.assertEquals(k.get_parents('text-1'), [])
self.assertEquals(k.get_parents('text-1a'), ['text-1'])
def test_ancestry(self):
"""Store in knit with parents"""
k = self.make_test_knit()
self.add_stock_one_and_one_a(k)
self.assertEquals(set(k.get_ancestry(['text-1a'])), set(['text-1a', 'text-1']))
def test_add_delta(self):
"""Store in knit with parents"""
k = KnitVersionedFile('test', get_transport('.'), factory=KnitPlainFactory(),
delta=True, create=True)
self.add_stock_one_and_one_a(k)
k.clear_cache()
self.assertEqualDiff(''.join(k.get_lines('text-1a')), TEXT_1A)
def test_annotate(self):
"""Annotations"""
k = KnitVersionedFile('knit', get_transport('.'), factory=KnitAnnotateFactory(),
delta=True, create=True)
self.insert_and_test_small_annotate(k)
def insert_and_test_small_annotate(self, k):
"""test annotation with k works correctly."""
k.add_lines('text-1', [], ['a\n', 'b\n'])
k.add_lines('text-2', ['text-1'], ['a\n', 'c\n'])
origins = k.annotate('text-2')
self.assertEquals(origins[0], ('text-1', 'a\n'))
self.assertEquals(origins[1], ('text-2', 'c\n'))
def test_annotate_fulltext(self):
"""Annotations"""
k = KnitVersionedFile('knit', get_transport('.'), factory=KnitAnnotateFactory(),
delta=False, create=True)
self.insert_and_test_small_annotate(k)
def test_annotate_merge_1(self):
k = self.make_test_knit(True)
k.add_lines('text-a1', [], ['a\n', 'b\n'])
k.add_lines('text-a2', [], ['d\n', 'c\n'])
k.add_lines('text-am', ['text-a1', 'text-a2'], ['d\n', 'b\n'])
origins = k.annotate('text-am')
self.assertEquals(origins[0], ('text-a2', 'd\n'))
self.assertEquals(origins[1], ('text-a1', 'b\n'))
def test_annotate_merge_2(self):
k = self.make_test_knit(True)
k.add_lines('text-a1', [], ['a\n', 'b\n', 'c\n'])
k.add_lines('text-a2', [], ['x\n', 'y\n', 'z\n'])
k.add_lines('text-am', ['text-a1', 'text-a2'], ['a\n', 'y\n', 'c\n'])
origins = k.annotate('text-am')
self.assertEquals(origins[0], ('text-a1', 'a\n'))
self.assertEquals(origins[1], ('text-a2', 'y\n'))
self.assertEquals(origins[2], ('text-a1', 'c\n'))
def test_annotate_merge_9(self):
k = self.make_test_knit(True)
k.add_lines('text-a1', [], ['a\n', 'b\n', 'c\n'])
k.add_lines('text-a2', [], ['x\n', 'y\n', 'z\n'])
k.add_lines('text-am', ['text-a1', 'text-a2'], ['k\n', 'y\n', 'c\n'])
origins = k.annotate('text-am')
self.assertEquals(origins[0], ('text-am', 'k\n'))
self.assertEquals(origins[1], ('text-a2', 'y\n'))
self.assertEquals(origins[2], ('text-a1', 'c\n'))
def test_annotate_merge_3(self):
k = self.make_test_knit(True)
k.add_lines('text-a1', [], ['a\n', 'b\n', 'c\n'])
k.add_lines('text-a2', [] ,['x\n', 'y\n', 'z\n'])
k.add_lines('text-am', ['text-a1', 'text-a2'], ['k\n', 'y\n', 'z\n'])
origins = k.annotate('text-am')
self.assertEquals(origins[0], ('text-am', 'k\n'))
self.assertEquals(origins[1], ('text-a2', 'y\n'))
self.assertEquals(origins[2], ('text-a2', 'z\n'))
def test_annotate_merge_4(self):
k = self.make_test_knit(True)
k.add_lines('text-a1', [], ['a\n', 'b\n', 'c\n'])
k.add_lines('text-a2', [], ['x\n', 'y\n', 'z\n'])
k.add_lines('text-a3', ['text-a1'], ['a\n', 'b\n', 'p\n'])
k.add_lines('text-am', ['text-a2', 'text-a3'], ['a\n', 'b\n', 'z\n'])
origins = k.annotate('text-am')
self.assertEquals(origins[0], ('text-a1', 'a\n'))
self.assertEquals(origins[1], ('text-a1', 'b\n'))
self.assertEquals(origins[2], ('text-a2', 'z\n'))
def test_annotate_merge_5(self):
k = self.make_test_knit(True)
k.add_lines('text-a1', [], ['a\n', 'b\n', 'c\n'])
k.add_lines('text-a2', [], ['d\n', 'e\n', 'f\n'])
k.add_lines('text-a3', [], ['x\n', 'y\n', 'z\n'])
k.add_lines('text-am',
['text-a1', 'text-a2', 'text-a3'],
['a\n', 'e\n', 'z\n'])
origins = k.annotate('text-am')
self.assertEquals(origins[0], ('text-a1', 'a\n'))
self.assertEquals(origins[1], ('text-a2', 'e\n'))
self.assertEquals(origins[2], ('text-a3', 'z\n'))
def test_annotate_file_cherry_pick(self):
k = self.make_test_knit(True)
k.add_lines('text-1', [], ['a\n', 'b\n', 'c\n'])
k.add_lines('text-2', ['text-1'], ['d\n', 'e\n', 'f\n'])
k.add_lines('text-3', ['text-2', 'text-1'], ['a\n', 'b\n', 'c\n'])
origins = k.annotate('text-3')
self.assertEquals(origins[0], ('text-1', 'a\n'))
self.assertEquals(origins[1], ('text-1', 'b\n'))
self.assertEquals(origins[2], ('text-1', 'c\n'))
def test_knit_join(self):
"""Store in knit with parents"""
k1 = KnitVersionedFile('test1', get_transport('.'), factory=KnitPlainFactory(), create=True)
k1.add_lines('text-a', [], split_lines(TEXT_1))
k1.add_lines('text-b', ['text-a'], split_lines(TEXT_1))
k1.add_lines('text-c', [], split_lines(TEXT_1))
k1.add_lines('text-d', ['text-c'], split_lines(TEXT_1))
k1.add_lines('text-m', ['text-b', 'text-d'], split_lines(TEXT_1))
k2 = KnitVersionedFile('test2', get_transport('.'), factory=KnitPlainFactory(), create=True)
count = k2.join(k1, version_ids=['text-m'])
self.assertEquals(count, 5)
self.assertTrue(k2.has_version('text-a'))
self.assertTrue(k2.has_version('text-c'))
def test_reannotate(self):
k1 = KnitVersionedFile('knit1', get_transport('.'),
factory=KnitAnnotateFactory(), create=True)
# 0
k1.add_lines('text-a', [], ['a\n', 'b\n'])
# 1
k1.add_lines('text-b', ['text-a'], ['a\n', 'c\n'])
k2 = KnitVersionedFile('test2', get_transport('.'),
factory=KnitAnnotateFactory(), create=True)
k2.join(k1, version_ids=['text-b'])
# 2
k1.add_lines('text-X', ['text-b'], ['a\n', 'b\n'])
# 2
k2.add_lines('text-c', ['text-b'], ['z\n', 'c\n'])
# 3
k2.add_lines('text-Y', ['text-b'], ['b\n', 'c\n'])
# test-c will have index 3
k1.join(k2, version_ids=['text-c'])
lines = k1.get_lines('text-c')
self.assertEquals(lines, ['z\n', 'c\n'])
origins = k1.annotate('text-c')
self.assertEquals(origins[0], ('text-c', 'z\n'))
self.assertEquals(origins[1], ('text-b', 'c\n'))
def test_get_line_delta_texts(self):
"""Make sure we can call get_texts on text with reused line deltas"""
k1 = KnitVersionedFile('test1', get_transport('.'),
factory=KnitPlainFactory(), create=True)
for t in range(3):
if t == 0:
parents = []
else:
parents = ['%d' % (t-1)]
k1.add_lines('%d' % t, parents, ['hello\n'] * t)
k1.get_texts(('%d' % t) for t in range(3))
def test_iter_lines_reads_in_order(self):
t = MemoryTransport()
instrumented_t = TransportLogger(t)
k1 = KnitVersionedFile('id', instrumented_t, create=True, delta=True)
self.assertEqual([('id.kndx',)], instrumented_t._calls)
# add texts with no required ordering
k1.add_lines('base', [], ['text\n'])
k1.add_lines('base2', [], ['text2\n'])
k1.clear_cache()
instrumented_t._calls = []
# request a last-first iteration
results = list(k1.iter_lines_added_or_present_in_versions(['base2', 'base']))
self.assertEqual([('id.knit', [(0, 87), (87, 89)])], instrumented_t._calls)
self.assertEqual(['text\n', 'text2\n'], results)
def test_create_empty_annotated(self):
k1 = self.make_test_knit(True)
# 0
k1.add_lines('text-a', [], ['a\n', 'b\n'])
k2 = k1.create_empty('t', MemoryTransport())
self.assertTrue(isinstance(k2.factory, KnitAnnotateFactory))
self.assertEqual(k1.delta, k2.delta)
# the generic test checks for empty content and file class
def test_knit_format(self):
# this tests that a new knit index file has the expected content
# and that is writes the data we expect as records are added.
knit = self.make_test_knit(True)
self.assertFileEqual("# bzr knit index 8\n", 'test.kndx')
knit.add_lines_with_ghosts('revid', ['a_ghost'], ['a\n'])
self.assertFileEqual(
"# bzr knit index 8\n"
"\n"
"revid fulltext 0 84 .a_ghost :",
'test.kndx')
knit.add_lines_with_ghosts('revid2', ['revid'], ['a\n'])
self.assertFileEqual(
"# bzr knit index 8\n"
"\nrevid fulltext 0 84 .a_ghost :"
"\nrevid2 line-delta 84 82 0 :",
'test.kndx')
# we should be able to load this file again
knit = KnitVersionedFile('test', get_transport('.'), access_mode='r')
self.assertEqual(['revid', 'revid2'], knit.versions())
# write a short write to the file and ensure that its ignored
indexfile = file('test.kndx', 'at')
indexfile.write('\nrevid3 line-delta 166 82 1 2 3 4 5 .phwoar:demo ')
indexfile.close()
# we should be able to load this file again
knit = KnitVersionedFile('test', get_transport('.'), access_mode='w')
self.assertEqual(['revid', 'revid2'], knit.versions())
# and add a revision with the same id the failed write had
knit.add_lines('revid3', ['revid2'], ['a\n'])
# and when reading it revid3 should now appear.
knit = KnitVersionedFile('test', get_transport('.'), access_mode='r')
self.assertEqual(['revid', 'revid2', 'revid3'], knit.versions())
self.assertEqual(['revid2'], knit.get_parents('revid3'))
def test_plan_merge(self):
my_knit = self.make_test_knit(annotate=True)
my_knit.add_lines('text1', [], split_lines(TEXT_1))
my_knit.add_lines('text1a', ['text1'], split_lines(TEXT_1A))
my_knit.add_lines('text1b', ['text1'], split_lines(TEXT_1B))
plan = list(my_knit.plan_merge('text1a', 'text1b'))
for plan_line, expected_line in zip(plan, AB_MERGE):
self.assertEqual(plan_line, expected_line)
TEXT_1 = """\
Banana cup cakes:
- bananas
- eggs
- broken tea cups
"""
TEXT_1A = """\
Banana cup cake recipe
(serves 6)
- bananas
- eggs
- broken tea cups
- self-raising flour
"""
TEXT_1B = """\
Banana cup cake recipe
- bananas (do not use plantains!!!)
- broken tea cups
- flour
"""
delta_1_1a = """\
0,1,2
Banana cup cake recipe
(serves 6)
5,5,1
- self-raising flour
"""
TEXT_2 = """\
Boeuf bourguignon
- beef
- red wine
- small onions
- carrot
- mushrooms
"""
AB_MERGE_TEXT="""unchanged|Banana cup cake recipe
new-a|(serves 6)
unchanged|
killed-b|- bananas
killed-b|- eggs
new-b|- bananas (do not use plantains!!!)
unchanged|- broken tea cups
new-a|- self-raising flour
new-b|- flour
"""
AB_MERGE=[tuple(l.split('|')) for l in AB_MERGE_TEXT.splitlines(True)]
def line_delta(from_lines, to_lines):
"""Generate line-based delta from one text to another"""
s = difflib.SequenceMatcher(None, from_lines, to_lines)
for op in s.get_opcodes():
if op[0] == 'equal':
continue
yield '%d,%d,%d\n' % (op[1], op[2], op[4]-op[3])
for i in range(op[3], op[4]):
yield to_lines[i]
def apply_line_delta(basis_lines, delta_lines):
"""Apply a line-based perfect diff
basis_lines -- text to apply the patch to
delta_lines -- diff instructions and content
"""
out = basis_lines[:]
i = 0
offset = 0
while i < len(delta_lines):
l = delta_lines[i]
a, b, c = map(long, l.split(','))
i = i + 1
out[offset+a:offset+b] = delta_lines[i:i+c]
i = i + c
offset = offset + (b - a) + c
return out
class TestWeaveToKnit(KnitTests):
def test_weave_to_knit_matches(self):
# check that the WeaveToKnit is_compatible function
# registers True for a Weave to a Knit.
w = Weave()
k = self.make_test_knit()
self.failUnless(WeaveToKnit.is_compatible(w, k))
self.failIf(WeaveToKnit.is_compatible(k, w))
self.failIf(WeaveToKnit.is_compatible(w, w))
self.failIf(WeaveToKnit.is_compatible(k, k))
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