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  • Committer: Canonical.com Patch Queue Manager
  • Date: 2010-01-21 10:00:42 UTC
  • mfrom: (4978.1.2 integration)
  • Revision ID: pqm@pqm.ubuntu.com-20100121100042-77858a88k2zpec7b
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1
# Copyright (C) 2008, 2009 Canonical Ltd
 
2
#
 
3
# This program is free software; you can redistribute it and/or modify
 
4
# it under the terms of the GNU General Public License as published by
 
5
# the Free Software Foundation; either version 2 of the License, or
 
6
# (at your option) any later version.
 
7
#
 
8
# This program is distributed in the hope that it will be useful,
 
9
# but WITHOUT ANY WARRANTY; without even the implied warranty of
 
10
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 
11
# GNU General Public License for more details.
 
12
#
 
13
# You should have received a copy of the GNU General Public License
 
14
# along with this program; if not, write to the Free Software
 
15
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
 
16
 
 
17
"""Tests for group compression."""
 
18
 
 
19
import zlib
 
20
 
 
21
from bzrlib import (
 
22
    btree_index,
 
23
    groupcompress,
 
24
    errors,
 
25
    index as _mod_index,
 
26
    osutils,
 
27
    tests,
 
28
    trace,
 
29
    versionedfile,
 
30
    )
 
31
from bzrlib.osutils import sha_string
 
32
from bzrlib.tests.test__groupcompress import compiled_groupcompress_feature
 
33
 
 
34
 
 
35
def load_tests(standard_tests, module, loader):
 
36
    """Parameterize tests for all versions of groupcompress."""
 
37
    to_adapt, result = tests.split_suite_by_condition(
 
38
        standard_tests, tests.condition_isinstance(TestAllGroupCompressors))
 
39
    scenarios = [
 
40
        ('python', {'compressor': groupcompress.PythonGroupCompressor}),
 
41
        ]
 
42
    if compiled_groupcompress_feature.available():
 
43
        scenarios.append(('C',
 
44
            {'compressor': groupcompress.PyrexGroupCompressor}))
 
45
    return tests.multiply_tests(to_adapt, scenarios, result)
 
46
 
 
47
 
 
48
class TestGroupCompressor(tests.TestCase):
 
49
 
 
50
    def _chunks_to_repr_lines(self, chunks):
 
51
        return '\n'.join(map(repr, ''.join(chunks).split('\n')))
 
52
 
 
53
    def assertEqualDiffEncoded(self, expected, actual):
 
54
        """Compare the actual content to the expected content.
 
55
 
 
56
        :param expected: A group of chunks that we expect to see
 
57
        :param actual: The measured 'chunks'
 
58
 
 
59
        We will transform the chunks back into lines, and then run 'repr()'
 
60
        over them to handle non-ascii characters.
 
61
        """
 
62
        self.assertEqualDiff(self._chunks_to_repr_lines(expected),
 
63
                             self._chunks_to_repr_lines(actual))
 
64
 
 
65
 
 
66
class TestAllGroupCompressors(TestGroupCompressor):
 
67
    """Tests for GroupCompressor"""
 
68
 
 
69
    compressor = None # Set by multiply_tests
 
70
 
 
71
    def test_empty_delta(self):
 
72
        compressor = self.compressor()
 
73
        self.assertEqual([], compressor.chunks)
 
74
 
 
75
    def test_one_nosha_delta(self):
 
76
        # diff against NUKK
 
77
        compressor = self.compressor()
 
78
        sha1, start_point, end_point, _ = compressor.compress(('label',),
 
79
            'strange\ncommon\n', None)
 
80
        self.assertEqual(sha_string('strange\ncommon\n'), sha1)
 
81
        expected_lines = 'f' '\x0f' 'strange\ncommon\n'
 
82
        self.assertEqual(expected_lines, ''.join(compressor.chunks))
 
83
        self.assertEqual(0, start_point)
 
84
        self.assertEqual(sum(map(len, expected_lines)), end_point)
 
85
 
 
86
    def test_empty_content(self):
 
87
        compressor = self.compressor()
 
88
        # Adding empty bytes should return the 'null' record
 
89
        sha1, start_point, end_point, kind = compressor.compress(('empty',),
 
90
                                                                 '', None)
 
91
        self.assertEqual(0, start_point)
 
92
        self.assertEqual(0, end_point)
 
93
        self.assertEqual('fulltext', kind)
 
94
        self.assertEqual(groupcompress._null_sha1, sha1)
 
95
        self.assertEqual(0, compressor.endpoint)
 
96
        self.assertEqual([], compressor.chunks)
 
97
        # Even after adding some content
 
98
        compressor.compress(('content',), 'some\nbytes\n', None)
 
99
        self.assertTrue(compressor.endpoint > 0)
 
100
        sha1, start_point, end_point, kind = compressor.compress(('empty2',),
 
101
                                                                 '', None)
 
102
        self.assertEqual(0, start_point)
 
103
        self.assertEqual(0, end_point)
 
104
        self.assertEqual('fulltext', kind)
 
105
        self.assertEqual(groupcompress._null_sha1, sha1)
 
106
 
 
107
    def test_extract_from_compressor(self):
 
108
        # Knit fetching will try to reconstruct texts locally which results in
 
109
        # reading something that is in the compressor stream already.
 
110
        compressor = self.compressor()
 
111
        sha1_1, _, _, _ = compressor.compress(('label',),
 
112
            'strange\ncommon long line\nthat needs a 16 byte match\n', None)
 
113
        expected_lines = list(compressor.chunks)
 
114
        sha1_2, _, end_point, _ = compressor.compress(('newlabel',),
 
115
            'common long line\nthat needs a 16 byte match\ndifferent\n', None)
 
116
        # get the first out
 
117
        self.assertEqual(('strange\ncommon long line\n'
 
118
                          'that needs a 16 byte match\n', sha1_1),
 
119
                         compressor.extract(('label',)))
 
120
        # and the second
 
121
        self.assertEqual(('common long line\nthat needs a 16 byte match\n'
 
122
                          'different\n', sha1_2),
 
123
                         compressor.extract(('newlabel',)))
 
124
 
 
125
    def test_pop_last(self):
 
126
        compressor = self.compressor()
 
127
        _, _, _, _ = compressor.compress(('key1',),
 
128
            'some text\nfor the first entry\n', None)
 
129
        expected_lines = list(compressor.chunks)
 
130
        _, _, _, _ = compressor.compress(('key2',),
 
131
            'some text\nfor the second entry\n', None)
 
132
        compressor.pop_last()
 
133
        self.assertEqual(expected_lines, compressor.chunks)
 
134
 
 
135
 
 
136
class TestPyrexGroupCompressor(TestGroupCompressor):
 
137
 
 
138
    _test_needs_features = [compiled_groupcompress_feature]
 
139
    compressor = groupcompress.PyrexGroupCompressor
 
140
 
 
141
    def test_stats(self):
 
142
        compressor = self.compressor()
 
143
        compressor.compress(('label',),
 
144
                            'strange\n'
 
145
                            'common very very long line\n'
 
146
                            'plus more text\n', None)
 
147
        compressor.compress(('newlabel',),
 
148
                            'common very very long line\n'
 
149
                            'plus more text\n'
 
150
                            'different\n'
 
151
                            'moredifferent\n', None)
 
152
        compressor.compress(('label3',),
 
153
                            'new\n'
 
154
                            'common very very long line\n'
 
155
                            'plus more text\n'
 
156
                            'different\n'
 
157
                            'moredifferent\n', None)
 
158
        self.assertAlmostEqual(1.9, compressor.ratio(), 1)
 
159
 
 
160
    def test_two_nosha_delta(self):
 
161
        compressor = self.compressor()
 
162
        sha1_1, _, _, _ = compressor.compress(('label',),
 
163
            'strange\ncommon long line\nthat needs a 16 byte match\n', None)
 
164
        expected_lines = list(compressor.chunks)
 
165
        sha1_2, start_point, end_point, _ = compressor.compress(('newlabel',),
 
166
            'common long line\nthat needs a 16 byte match\ndifferent\n', None)
 
167
        self.assertEqual(sha_string('common long line\n'
 
168
                                    'that needs a 16 byte match\n'
 
169
                                    'different\n'), sha1_2)
 
170
        expected_lines.extend([
 
171
            # 'delta', delta length
 
172
            'd\x0f',
 
173
            # source and target length
 
174
            '\x36',
 
175
            # copy the line common
 
176
            '\x91\x0a\x2c', #copy, offset 0x0a, len 0x2c
 
177
            # add the line different, and the trailing newline
 
178
            '\x0adifferent\n', # insert 10 bytes
 
179
            ])
 
180
        self.assertEqualDiffEncoded(expected_lines, compressor.chunks)
 
181
        self.assertEqual(sum(map(len, expected_lines)), end_point)
 
182
 
 
183
    def test_three_nosha_delta(self):
 
184
        # The first interesting test: make a change that should use lines from
 
185
        # both parents.
 
186
        compressor = self.compressor()
 
187
        sha1_1, _, _, _ = compressor.compress(('label',),
 
188
            'strange\ncommon very very long line\nwith some extra text\n', None)
 
189
        sha1_2, _, _, _ = compressor.compress(('newlabel',),
 
190
            'different\nmoredifferent\nand then some more\n', None)
 
191
        expected_lines = list(compressor.chunks)
 
192
        sha1_3, start_point, end_point, _ = compressor.compress(('label3',),
 
193
            'new\ncommon very very long line\nwith some extra text\n'
 
194
            'different\nmoredifferent\nand then some more\n',
 
195
            None)
 
196
        self.assertEqual(
 
197
            sha_string('new\ncommon very very long line\nwith some extra text\n'
 
198
                       'different\nmoredifferent\nand then some more\n'),
 
199
            sha1_3)
 
200
        expected_lines.extend([
 
201
            # 'delta', delta length
 
202
            'd\x0b',
 
203
            # source and target length
 
204
            '\x5f'
 
205
            # insert new
 
206
            '\x03new',
 
207
            # Copy of first parent 'common' range
 
208
            '\x91\x09\x31' # copy, offset 0x09, 0x31 bytes
 
209
            # Copy of second parent 'different' range
 
210
            '\x91\x3c\x2b' # copy, offset 0x3c, 0x2b bytes
 
211
            ])
 
212
        self.assertEqualDiffEncoded(expected_lines, compressor.chunks)
 
213
        self.assertEqual(sum(map(len, expected_lines)), end_point)
 
214
 
 
215
 
 
216
class TestPythonGroupCompressor(TestGroupCompressor):
 
217
 
 
218
    compressor = groupcompress.PythonGroupCompressor
 
219
 
 
220
    def test_stats(self):
 
221
        compressor = self.compressor()
 
222
        compressor.compress(('label',),
 
223
                            'strange\n'
 
224
                            'common very very long line\n'
 
225
                            'plus more text\n', None)
 
226
        compressor.compress(('newlabel',),
 
227
                            'common very very long line\n'
 
228
                            'plus more text\n'
 
229
                            'different\n'
 
230
                            'moredifferent\n', None)
 
231
        compressor.compress(('label3',),
 
232
                            'new\n'
 
233
                            'common very very long line\n'
 
234
                            'plus more text\n'
 
235
                            'different\n'
 
236
                            'moredifferent\n', None)
 
237
        self.assertAlmostEqual(1.9, compressor.ratio(), 1)
 
238
 
 
239
    def test_two_nosha_delta(self):
 
240
        compressor = self.compressor()
 
241
        sha1_1, _, _, _ = compressor.compress(('label',),
 
242
            'strange\ncommon long line\nthat needs a 16 byte match\n', None)
 
243
        expected_lines = list(compressor.chunks)
 
244
        sha1_2, start_point, end_point, _ = compressor.compress(('newlabel',),
 
245
            'common long line\nthat needs a 16 byte match\ndifferent\n', None)
 
246
        self.assertEqual(sha_string('common long line\n'
 
247
                                    'that needs a 16 byte match\n'
 
248
                                    'different\n'), sha1_2)
 
249
        expected_lines.extend([
 
250
            # 'delta', delta length
 
251
            'd\x0f',
 
252
            # target length
 
253
            '\x36',
 
254
            # copy the line common
 
255
            '\x91\x0a\x2c', #copy, offset 0x0a, len 0x2c
 
256
            # add the line different, and the trailing newline
 
257
            '\x0adifferent\n', # insert 10 bytes
 
258
            ])
 
259
        self.assertEqualDiffEncoded(expected_lines, compressor.chunks)
 
260
        self.assertEqual(sum(map(len, expected_lines)), end_point)
 
261
 
 
262
    def test_three_nosha_delta(self):
 
263
        # The first interesting test: make a change that should use lines from
 
264
        # both parents.
 
265
        compressor = self.compressor()
 
266
        sha1_1, _, _, _ = compressor.compress(('label',),
 
267
            'strange\ncommon very very long line\nwith some extra text\n', None)
 
268
        sha1_2, _, _, _ = compressor.compress(('newlabel',),
 
269
            'different\nmoredifferent\nand then some more\n', None)
 
270
        expected_lines = list(compressor.chunks)
 
271
        sha1_3, start_point, end_point, _ = compressor.compress(('label3',),
 
272
            'new\ncommon very very long line\nwith some extra text\n'
 
273
            'different\nmoredifferent\nand then some more\n',
 
274
            None)
 
275
        self.assertEqual(
 
276
            sha_string('new\ncommon very very long line\nwith some extra text\n'
 
277
                       'different\nmoredifferent\nand then some more\n'),
 
278
            sha1_3)
 
279
        expected_lines.extend([
 
280
            # 'delta', delta length
 
281
            'd\x0c',
 
282
            # target length
 
283
            '\x5f'
 
284
            # insert new
 
285
            '\x04new\n',
 
286
            # Copy of first parent 'common' range
 
287
            '\x91\x0a\x30' # copy, offset 0x0a, 0x30 bytes
 
288
            # Copy of second parent 'different' range
 
289
            '\x91\x3c\x2b' # copy, offset 0x3c, 0x2b bytes
 
290
            ])
 
291
        self.assertEqualDiffEncoded(expected_lines, compressor.chunks)
 
292
        self.assertEqual(sum(map(len, expected_lines)), end_point)
 
293
 
 
294
 
 
295
class TestGroupCompressBlock(tests.TestCase):
 
296
 
 
297
    def make_block(self, key_to_text):
 
298
        """Create a GroupCompressBlock, filling it with the given texts."""
 
299
        compressor = groupcompress.GroupCompressor()
 
300
        start = 0
 
301
        for key in sorted(key_to_text):
 
302
            compressor.compress(key, key_to_text[key], None)
 
303
        locs = dict((key, (start, end)) for key, (start, _, end, _)
 
304
                    in compressor.labels_deltas.iteritems())
 
305
        block = compressor.flush()
 
306
        raw_bytes = block.to_bytes()
 
307
        # Go through from_bytes(to_bytes()) so that we start with a compressed
 
308
        # content object
 
309
        return locs, groupcompress.GroupCompressBlock.from_bytes(raw_bytes)
 
310
 
 
311
    def test_from_empty_bytes(self):
 
312
        self.assertRaises(ValueError,
 
313
                          groupcompress.GroupCompressBlock.from_bytes, '')
 
314
 
 
315
    def test_from_minimal_bytes(self):
 
316
        block = groupcompress.GroupCompressBlock.from_bytes(
 
317
            'gcb1z\n0\n0\n')
 
318
        self.assertIsInstance(block, groupcompress.GroupCompressBlock)
 
319
        self.assertIs(None, block._content)
 
320
        self.assertEqual('', block._z_content)
 
321
        block._ensure_content()
 
322
        self.assertEqual('', block._content)
 
323
        self.assertEqual('', block._z_content)
 
324
        block._ensure_content() # Ensure content is safe to call 2x
 
325
 
 
326
    def test_from_invalid(self):
 
327
        self.assertRaises(ValueError,
 
328
                          groupcompress.GroupCompressBlock.from_bytes,
 
329
                          'this is not a valid header')
 
330
 
 
331
    def test_from_bytes(self):
 
332
        content = ('a tiny bit of content\n')
 
333
        z_content = zlib.compress(content)
 
334
        z_bytes = (
 
335
            'gcb1z\n' # group compress block v1 plain
 
336
            '%d\n' # Length of compressed content
 
337
            '%d\n' # Length of uncompressed content
 
338
            '%s'   # Compressed content
 
339
            ) % (len(z_content), len(content), z_content)
 
340
        block = groupcompress.GroupCompressBlock.from_bytes(
 
341
            z_bytes)
 
342
        self.assertEqual(z_content, block._z_content)
 
343
        self.assertIs(None, block._content)
 
344
        self.assertEqual(len(z_content), block._z_content_length)
 
345
        self.assertEqual(len(content), block._content_length)
 
346
        block._ensure_content()
 
347
        self.assertEqual(z_content, block._z_content)
 
348
        self.assertEqual(content, block._content)
 
349
 
 
350
    def test_to_bytes(self):
 
351
        content = ('this is some content\n'
 
352
                   'this content will be compressed\n')
 
353
        gcb = groupcompress.GroupCompressBlock()
 
354
        gcb.set_content(content)
 
355
        bytes = gcb.to_bytes()
 
356
        self.assertEqual(gcb._z_content_length, len(gcb._z_content))
 
357
        self.assertEqual(gcb._content_length, len(content))
 
358
        expected_header =('gcb1z\n' # group compress block v1 zlib
 
359
                          '%d\n' # Length of compressed content
 
360
                          '%d\n' # Length of uncompressed content
 
361
                         ) % (gcb._z_content_length, gcb._content_length)
 
362
        self.assertStartsWith(bytes, expected_header)
 
363
        remaining_bytes = bytes[len(expected_header):]
 
364
        raw_bytes = zlib.decompress(remaining_bytes)
 
365
        self.assertEqual(content, raw_bytes)
 
366
 
 
367
        # we should get the same results if using the chunked version
 
368
        gcb = groupcompress.GroupCompressBlock()
 
369
        gcb.set_chunked_content(['this is some content\n'
 
370
                                 'this content will be compressed\n'],
 
371
                                 len(content))
 
372
        old_bytes = bytes
 
373
        bytes = gcb.to_bytes()
 
374
        self.assertEqual(old_bytes, bytes)
 
375
 
 
376
    def test_partial_decomp(self):
 
377
        content_chunks = []
 
378
        # We need a sufficient amount of data so that zlib.decompress has
 
379
        # partial decompression to work with. Most auto-generated data
 
380
        # compresses a bit too well, we want a combination, so we combine a sha
 
381
        # hash with compressible data.
 
382
        for i in xrange(2048):
 
383
            next_content = '%d\nThis is a bit of duplicate text\n' % (i,)
 
384
            content_chunks.append(next_content)
 
385
            next_sha1 = osutils.sha_string(next_content)
 
386
            content_chunks.append(next_sha1 + '\n')
 
387
        content = ''.join(content_chunks)
 
388
        self.assertEqual(158634, len(content))
 
389
        z_content = zlib.compress(content)
 
390
        self.assertEqual(57182, len(z_content))
 
391
        block = groupcompress.GroupCompressBlock()
 
392
        block._z_content = z_content
 
393
        block._z_content_length = len(z_content)
 
394
        block._compressor_name = 'zlib'
 
395
        block._content_length = 158634
 
396
        self.assertIs(None, block._content)
 
397
        block._ensure_content(100)
 
398
        self.assertIsNot(None, block._content)
 
399
        # We have decompressed at least 100 bytes
 
400
        self.assertTrue(len(block._content) >= 100)
 
401
        # We have not decompressed the whole content
 
402
        self.assertTrue(len(block._content) < 158634)
 
403
        self.assertEqualDiff(content[:len(block._content)], block._content)
 
404
        # ensuring content that we already have shouldn't cause any more data
 
405
        # to be extracted
 
406
        cur_len = len(block._content)
 
407
        block._ensure_content(cur_len - 10)
 
408
        self.assertEqual(cur_len, len(block._content))
 
409
        # Now we want a bit more content
 
410
        cur_len += 10
 
411
        block._ensure_content(cur_len)
 
412
        self.assertTrue(len(block._content) >= cur_len)
 
413
        self.assertTrue(len(block._content) < 158634)
 
414
        self.assertEqualDiff(content[:len(block._content)], block._content)
 
415
        # And now lets finish
 
416
        block._ensure_content(158634)
 
417
        self.assertEqualDiff(content, block._content)
 
418
        # And the decompressor is finalized
 
419
        self.assertIs(None, block._z_content_decompressor)
 
420
 
 
421
    def test__ensure_all_content(self):
 
422
        content_chunks = []
 
423
        # We need a sufficient amount of data so that zlib.decompress has
 
424
        # partial decompression to work with. Most auto-generated data
 
425
        # compresses a bit too well, we want a combination, so we combine a sha
 
426
        # hash with compressible data.
 
427
        for i in xrange(2048):
 
428
            next_content = '%d\nThis is a bit of duplicate text\n' % (i,)
 
429
            content_chunks.append(next_content)
 
430
            next_sha1 = osutils.sha_string(next_content)
 
431
            content_chunks.append(next_sha1 + '\n')
 
432
        content = ''.join(content_chunks)
 
433
        self.assertEqual(158634, len(content))
 
434
        z_content = zlib.compress(content)
 
435
        self.assertEqual(57182, len(z_content))
 
436
        block = groupcompress.GroupCompressBlock()
 
437
        block._z_content = z_content
 
438
        block._z_content_length = len(z_content)
 
439
        block._compressor_name = 'zlib'
 
440
        block._content_length = 158634
 
441
        self.assertIs(None, block._content)
 
442
        # The first _ensure_content got all of the required data
 
443
        block._ensure_content(158634)
 
444
        self.assertEqualDiff(content, block._content)
 
445
        # And we should have released the _z_content_decompressor since it was
 
446
        # fully consumed
 
447
        self.assertIs(None, block._z_content_decompressor)
 
448
 
 
449
    def test__dump(self):
 
450
        dup_content = 'some duplicate content\nwhich is sufficiently long\n'
 
451
        key_to_text = {('1',): dup_content + '1 unique\n',
 
452
                       ('2',): dup_content + '2 extra special\n'}
 
453
        locs, block = self.make_block(key_to_text)
 
454
        self.assertEqual([('f', len(key_to_text[('1',)])),
 
455
                          ('d', 21, len(key_to_text[('2',)]),
 
456
                           [('c', 2, len(dup_content)),
 
457
                            ('i', len('2 extra special\n'), '')
 
458
                           ]),
 
459
                         ], block._dump())
 
460
 
 
461
 
 
462
class TestCaseWithGroupCompressVersionedFiles(
 
463
        tests.TestCaseWithMemoryTransport):
 
464
 
 
465
    def make_test_vf(self, create_graph, keylength=1, do_cleanup=True,
 
466
                     dir='.', inconsistency_fatal=True):
 
467
        t = self.get_transport(dir)
 
468
        t.ensure_base()
 
469
        vf = groupcompress.make_pack_factory(graph=create_graph,
 
470
            delta=False, keylength=keylength,
 
471
            inconsistency_fatal=inconsistency_fatal)(t)
 
472
        if do_cleanup:
 
473
            self.addCleanup(groupcompress.cleanup_pack_group, vf)
 
474
        return vf
 
475
 
 
476
 
 
477
class TestGroupCompressVersionedFiles(TestCaseWithGroupCompressVersionedFiles):
 
478
 
 
479
    def make_g_index(self, name, ref_lists=0, nodes=[]):
 
480
        builder = btree_index.BTreeBuilder(ref_lists)
 
481
        for node, references, value in nodes:
 
482
            builder.add_node(node, references, value)
 
483
        stream = builder.finish()
 
484
        trans = self.get_transport()
 
485
        size = trans.put_file(name, stream)
 
486
        return btree_index.BTreeGraphIndex(trans, name, size)
 
487
 
 
488
    def make_g_index_missing_parent(self):
 
489
        graph_index = self.make_g_index('missing_parent', 1,
 
490
            [(('parent', ), '2 78 2 10', ([],)),
 
491
             (('tip', ), '2 78 2 10',
 
492
              ([('parent', ), ('missing-parent', )],)),
 
493
              ])
 
494
        return graph_index
 
495
 
 
496
    def test_get_record_stream_as_requested(self):
 
497
        # Consider promoting 'as-requested' to general availability, and
 
498
        # make this a VF interface test
 
499
        vf = self.make_test_vf(False, dir='source')
 
500
        vf.add_lines(('a',), (), ['lines\n'])
 
501
        vf.add_lines(('b',), (), ['lines\n'])
 
502
        vf.add_lines(('c',), (), ['lines\n'])
 
503
        vf.add_lines(('d',), (), ['lines\n'])
 
504
        vf.writer.end()
 
505
        keys = [record.key for record in vf.get_record_stream(
 
506
                    [('a',), ('b',), ('c',), ('d',)],
 
507
                    'as-requested', False)]
 
508
        self.assertEqual([('a',), ('b',), ('c',), ('d',)], keys)
 
509
        keys = [record.key for record in vf.get_record_stream(
 
510
                    [('b',), ('a',), ('d',), ('c',)],
 
511
                    'as-requested', False)]
 
512
        self.assertEqual([('b',), ('a',), ('d',), ('c',)], keys)
 
513
 
 
514
        # It should work even after being repacked into another VF
 
515
        vf2 = self.make_test_vf(False, dir='target')
 
516
        vf2.insert_record_stream(vf.get_record_stream(
 
517
                    [('b',), ('a',), ('d',), ('c',)], 'as-requested', False))
 
518
        vf2.writer.end()
 
519
 
 
520
        keys = [record.key for record in vf2.get_record_stream(
 
521
                    [('a',), ('b',), ('c',), ('d',)],
 
522
                    'as-requested', False)]
 
523
        self.assertEqual([('a',), ('b',), ('c',), ('d',)], keys)
 
524
        keys = [record.key for record in vf2.get_record_stream(
 
525
                    [('b',), ('a',), ('d',), ('c',)],
 
526
                    'as-requested', False)]
 
527
        self.assertEqual([('b',), ('a',), ('d',), ('c',)], keys)
 
528
 
 
529
    def test_insert_record_stream_reuses_blocks(self):
 
530
        vf = self.make_test_vf(True, dir='source')
 
531
        def grouped_stream(revision_ids, first_parents=()):
 
532
            parents = first_parents
 
533
            for revision_id in revision_ids:
 
534
                key = (revision_id,)
 
535
                record = versionedfile.FulltextContentFactory(
 
536
                    key, parents, None,
 
537
                    'some content that is\n'
 
538
                    'identical except for\n'
 
539
                    'revision_id:%s\n' % (revision_id,))
 
540
                yield record
 
541
                parents = (key,)
 
542
        # One group, a-d
 
543
        vf.insert_record_stream(grouped_stream(['a', 'b', 'c', 'd']))
 
544
        # Second group, e-h
 
545
        vf.insert_record_stream(grouped_stream(['e', 'f', 'g', 'h'],
 
546
                                               first_parents=(('d',),)))
 
547
        block_bytes = {}
 
548
        stream = vf.get_record_stream([(r,) for r in 'abcdefgh'],
 
549
                                      'unordered', False)
 
550
        num_records = 0
 
551
        for record in stream:
 
552
            if record.key in [('a',), ('e',)]:
 
553
                self.assertEqual('groupcompress-block', record.storage_kind)
 
554
            else:
 
555
                self.assertEqual('groupcompress-block-ref',
 
556
                                 record.storage_kind)
 
557
            block_bytes[record.key] = record._manager._block._z_content
 
558
            num_records += 1
 
559
        self.assertEqual(8, num_records)
 
560
        for r in 'abcd':
 
561
            key = (r,)
 
562
            self.assertIs(block_bytes[key], block_bytes[('a',)])
 
563
            self.assertNotEqual(block_bytes[key], block_bytes[('e',)])
 
564
        for r in 'efgh':
 
565
            key = (r,)
 
566
            self.assertIs(block_bytes[key], block_bytes[('e',)])
 
567
            self.assertNotEqual(block_bytes[key], block_bytes[('a',)])
 
568
        # Now copy the blocks into another vf, and ensure that the blocks are
 
569
        # preserved without creating new entries
 
570
        vf2 = self.make_test_vf(True, dir='target')
 
571
        # ordering in 'groupcompress' order, should actually swap the groups in
 
572
        # the target vf, but the groups themselves should not be disturbed.
 
573
        def small_size_stream():
 
574
            for record in vf.get_record_stream([(r,) for r in 'abcdefgh'],
 
575
                                               'groupcompress', False):
 
576
                record._manager._full_enough_block_size = \
 
577
                    record._manager._block._content_length
 
578
                yield record
 
579
                        
 
580
        vf2.insert_record_stream(small_size_stream())
 
581
        stream = vf2.get_record_stream([(r,) for r in 'abcdefgh'],
 
582
                                       'groupcompress', False)
 
583
        vf2.writer.end()
 
584
        num_records = 0
 
585
        for record in stream:
 
586
            num_records += 1
 
587
            self.assertEqual(block_bytes[record.key],
 
588
                             record._manager._block._z_content)
 
589
        self.assertEqual(8, num_records)
 
590
 
 
591
    def test_insert_record_stream_packs_on_the_fly(self):
 
592
        vf = self.make_test_vf(True, dir='source')
 
593
        def grouped_stream(revision_ids, first_parents=()):
 
594
            parents = first_parents
 
595
            for revision_id in revision_ids:
 
596
                key = (revision_id,)
 
597
                record = versionedfile.FulltextContentFactory(
 
598
                    key, parents, None,
 
599
                    'some content that is\n'
 
600
                    'identical except for\n'
 
601
                    'revision_id:%s\n' % (revision_id,))
 
602
                yield record
 
603
                parents = (key,)
 
604
        # One group, a-d
 
605
        vf.insert_record_stream(grouped_stream(['a', 'b', 'c', 'd']))
 
606
        # Second group, e-h
 
607
        vf.insert_record_stream(grouped_stream(['e', 'f', 'g', 'h'],
 
608
                                               first_parents=(('d',),)))
 
609
        # Now copy the blocks into another vf, and see that the
 
610
        # insert_record_stream rebuilt a new block on-the-fly because of
 
611
        # under-utilization
 
612
        vf2 = self.make_test_vf(True, dir='target')
 
613
        vf2.insert_record_stream(vf.get_record_stream(
 
614
            [(r,) for r in 'abcdefgh'], 'groupcompress', False))
 
615
        stream = vf2.get_record_stream([(r,) for r in 'abcdefgh'],
 
616
                                       'groupcompress', False)
 
617
        vf2.writer.end()
 
618
        num_records = 0
 
619
        # All of the records should be recombined into a single block
 
620
        block = None
 
621
        for record in stream:
 
622
            num_records += 1
 
623
            if block is None:
 
624
                block = record._manager._block
 
625
            else:
 
626
                self.assertIs(block, record._manager._block)
 
627
        self.assertEqual(8, num_records)
 
628
 
 
629
    def test__insert_record_stream_no_reuse_block(self):
 
630
        vf = self.make_test_vf(True, dir='source')
 
631
        def grouped_stream(revision_ids, first_parents=()):
 
632
            parents = first_parents
 
633
            for revision_id in revision_ids:
 
634
                key = (revision_id,)
 
635
                record = versionedfile.FulltextContentFactory(
 
636
                    key, parents, None,
 
637
                    'some content that is\n'
 
638
                    'identical except for\n'
 
639
                    'revision_id:%s\n' % (revision_id,))
 
640
                yield record
 
641
                parents = (key,)
 
642
        # One group, a-d
 
643
        vf.insert_record_stream(grouped_stream(['a', 'b', 'c', 'd']))
 
644
        # Second group, e-h
 
645
        vf.insert_record_stream(grouped_stream(['e', 'f', 'g', 'h'],
 
646
                                               first_parents=(('d',),)))
 
647
        vf.writer.end()
 
648
        self.assertEqual(8, len(list(vf.get_record_stream(
 
649
                                        [(r,) for r in 'abcdefgh'],
 
650
                                        'unordered', False))))
 
651
        # Now copy the blocks into another vf, and ensure that the blocks are
 
652
        # preserved without creating new entries
 
653
        vf2 = self.make_test_vf(True, dir='target')
 
654
        # ordering in 'groupcompress' order, should actually swap the groups in
 
655
        # the target vf, but the groups themselves should not be disturbed.
 
656
        list(vf2._insert_record_stream(vf.get_record_stream(
 
657
            [(r,) for r in 'abcdefgh'], 'groupcompress', False),
 
658
            reuse_blocks=False))
 
659
        vf2.writer.end()
 
660
        # After inserting with reuse_blocks=False, we should have everything in
 
661
        # a single new block.
 
662
        stream = vf2.get_record_stream([(r,) for r in 'abcdefgh'],
 
663
                                       'groupcompress', False)
 
664
        block = None
 
665
        for record in stream:
 
666
            if block is None:
 
667
                block = record._manager._block
 
668
            else:
 
669
                self.assertIs(block, record._manager._block)
 
670
 
 
671
    def test_add_missing_noncompression_parent_unvalidated_index(self):
 
672
        unvalidated = self.make_g_index_missing_parent()
 
673
        combined = _mod_index.CombinedGraphIndex([unvalidated])
 
674
        index = groupcompress._GCGraphIndex(combined,
 
675
            is_locked=lambda: True, parents=True,
 
676
            track_external_parent_refs=True)
 
677
        index.scan_unvalidated_index(unvalidated)
 
678
        self.assertEqual(
 
679
            frozenset([('missing-parent',)]), index.get_missing_parents())
 
680
 
 
681
    def test_track_external_parent_refs(self):
 
682
        g_index = self.make_g_index('empty', 1, [])
 
683
        mod_index = btree_index.BTreeBuilder(1, 1)
 
684
        combined = _mod_index.CombinedGraphIndex([g_index, mod_index])
 
685
        index = groupcompress._GCGraphIndex(combined,
 
686
            is_locked=lambda: True, parents=True,
 
687
            add_callback=mod_index.add_nodes,
 
688
            track_external_parent_refs=True)
 
689
        index.add_records([
 
690
            (('new-key',), '2 10 2 10', [(('parent-1',), ('parent-2',))])])
 
691
        self.assertEqual(
 
692
            frozenset([('parent-1',), ('parent-2',)]),
 
693
            index.get_missing_parents())
 
694
 
 
695
    def make_source_with_b(self, a_parent, path):
 
696
        source = self.make_test_vf(True, dir=path)
 
697
        source.add_lines(('a',), (), ['lines\n'])
 
698
        if a_parent:
 
699
            b_parents = (('a',),)
 
700
        else:
 
701
            b_parents = ()
 
702
        source.add_lines(('b',), b_parents, ['lines\n'])
 
703
        return source
 
704
 
 
705
    def do_inconsistent_inserts(self, inconsistency_fatal):
 
706
        target = self.make_test_vf(True, dir='target',
 
707
                                   inconsistency_fatal=inconsistency_fatal)
 
708
        for x in range(2):
 
709
            source = self.make_source_with_b(x==1, 'source%s' % x)
 
710
            target.insert_record_stream(source.get_record_stream(
 
711
                [('b',)], 'unordered', False))
 
712
 
 
713
    def test_inconsistent_redundant_inserts_warn(self):
 
714
        """Should not insert a record that is already present."""
 
715
        warnings = []
 
716
        def warning(template, args):
 
717
            warnings.append(template % args)
 
718
        _trace_warning = trace.warning
 
719
        trace.warning = warning
 
720
        try:
 
721
            self.do_inconsistent_inserts(inconsistency_fatal=False)
 
722
        finally:
 
723
            trace.warning = _trace_warning
 
724
        self.assertEqual(["inconsistent details in skipped record: ('b',)"
 
725
                          " ('42 32 0 8', ((),)) ('74 32 0 8', ((('a',),),))"],
 
726
                         warnings)
 
727
 
 
728
    def test_inconsistent_redundant_inserts_raises(self):
 
729
        e = self.assertRaises(errors.KnitCorrupt, self.do_inconsistent_inserts,
 
730
                              inconsistency_fatal=True)
 
731
        self.assertContainsRe(str(e), "Knit.* corrupt: inconsistent details"
 
732
                              " in add_records:"
 
733
                              " \('b',\) \('42 32 0 8', \(\(\),\)\) \('74 32"
 
734
                              " 0 8', \(\(\('a',\),\),\)\)")
 
735
 
 
736
    def test_clear_cache(self):
 
737
        vf = self.make_source_with_b(True, 'source')
 
738
        vf.writer.end()
 
739
        for record in vf.get_record_stream([('a',), ('b',)], 'unordered',
 
740
                                           True):
 
741
            pass
 
742
        self.assertTrue(len(vf._group_cache) > 0)
 
743
        vf.clear_cache()
 
744
        self.assertEqual(0, len(vf._group_cache))
 
745
 
 
746
 
 
747
 
 
748
class StubGCVF(object):
 
749
    def __init__(self, canned_get_blocks=None):
 
750
        self._group_cache = {}
 
751
        self._canned_get_blocks = canned_get_blocks or []
 
752
    def _get_blocks(self, read_memos):
 
753
        return iter(self._canned_get_blocks)
 
754
    
 
755
 
 
756
class Test_BatchingBlockFetcher(TestCaseWithGroupCompressVersionedFiles):
 
757
    """Simple whitebox unit tests for _BatchingBlockFetcher."""
 
758
    
 
759
    def test_add_key_new_read_memo(self):
 
760
        """Adding a key with an uncached read_memo new to this batch adds that
 
761
        read_memo to the list of memos to fetch.
 
762
        """
 
763
        # locations are: index_memo, ignored, parents, ignored
 
764
        # where index_memo is: (idx, offset, len, factory_start, factory_end)
 
765
        # and (idx, offset, size) is known as the 'read_memo', identifying the
 
766
        # raw bytes needed.
 
767
        read_memo = ('fake index', 100, 50)
 
768
        locations = {
 
769
            ('key',): (read_memo + (None, None), None, None, None)}
 
770
        batcher = groupcompress._BatchingBlockFetcher(StubGCVF(), locations)
 
771
        total_size = batcher.add_key(('key',))
 
772
        self.assertEqual(50, total_size)
 
773
        self.assertEqual([('key',)], batcher.keys)
 
774
        self.assertEqual([read_memo], batcher.memos_to_get)
 
775
 
 
776
    def test_add_key_duplicate_read_memo(self):
 
777
        """read_memos that occur multiple times in a batch will only be fetched
 
778
        once.
 
779
        """
 
780
        read_memo = ('fake index', 100, 50)
 
781
        # Two keys, both sharing the same read memo (but different overall
 
782
        # index_memos).
 
783
        locations = {
 
784
            ('key1',): (read_memo + (0, 1), None, None, None),
 
785
            ('key2',): (read_memo + (1, 2), None, None, None)}
 
786
        batcher = groupcompress._BatchingBlockFetcher(StubGCVF(), locations)
 
787
        total_size = batcher.add_key(('key1',))
 
788
        total_size = batcher.add_key(('key2',))
 
789
        self.assertEqual(50, total_size)
 
790
        self.assertEqual([('key1',), ('key2',)], batcher.keys)
 
791
        self.assertEqual([read_memo], batcher.memos_to_get)
 
792
 
 
793
    def test_add_key_cached_read_memo(self):
 
794
        """Adding a key with a cached read_memo will not cause that read_memo
 
795
        to be added to the list to fetch.
 
796
        """
 
797
        read_memo = ('fake index', 100, 50)
 
798
        gcvf = StubGCVF()
 
799
        gcvf._group_cache[read_memo] = 'fake block'
 
800
        locations = {
 
801
            ('key',): (read_memo + (None, None), None, None, None)}
 
802
        batcher = groupcompress._BatchingBlockFetcher(gcvf, locations)
 
803
        total_size = batcher.add_key(('key',))
 
804
        self.assertEqual(0, total_size)
 
805
        self.assertEqual([('key',)], batcher.keys)
 
806
        self.assertEqual([], batcher.memos_to_get)
 
807
 
 
808
    def test_yield_factories_empty(self):
 
809
        """An empty batch yields no factories."""
 
810
        batcher = groupcompress._BatchingBlockFetcher(StubGCVF(), {})
 
811
        self.assertEqual([], list(batcher.yield_factories()))
 
812
 
 
813
    def test_yield_factories_calls_get_blocks(self):
 
814
        """Uncached memos are retrieved via get_blocks."""
 
815
        read_memo1 = ('fake index', 100, 50)
 
816
        read_memo2 = ('fake index', 150, 40)
 
817
        gcvf = StubGCVF(
 
818
            canned_get_blocks=[
 
819
                (read_memo1, groupcompress.GroupCompressBlock()),
 
820
                (read_memo2, groupcompress.GroupCompressBlock())])
 
821
        locations = {
 
822
            ('key1',): (read_memo1 + (None, None), None, None, None),
 
823
            ('key2',): (read_memo2 + (None, None), None, None, None)}
 
824
        batcher = groupcompress._BatchingBlockFetcher(gcvf, locations)
 
825
        batcher.add_key(('key1',))
 
826
        batcher.add_key(('key2',))
 
827
        factories = list(batcher.yield_factories(full_flush=True))
 
828
        self.assertLength(2, factories)
 
829
        keys = [f.key for f in factories]
 
830
        kinds = [f.storage_kind for f in factories]
 
831
        self.assertEqual([('key1',), ('key2',)], keys)
 
832
        self.assertEqual(['groupcompress-block', 'groupcompress-block'], kinds)
 
833
 
 
834
    def test_yield_factories_flushing(self):
 
835
        """yield_factories holds back on yielding results from the final block
 
836
        unless passed full_flush=True.
 
837
        """
 
838
        fake_block = groupcompress.GroupCompressBlock()
 
839
        read_memo = ('fake index', 100, 50)
 
840
        gcvf = StubGCVF()
 
841
        gcvf._group_cache[read_memo] = fake_block
 
842
        locations = {
 
843
            ('key',): (read_memo + (None, None), None, None, None)}
 
844
        batcher = groupcompress._BatchingBlockFetcher(gcvf, locations)
 
845
        batcher.add_key(('key',))
 
846
        self.assertEqual([], list(batcher.yield_factories()))
 
847
        factories = list(batcher.yield_factories(full_flush=True))
 
848
        self.assertLength(1, factories)
 
849
        self.assertEqual(('key',), factories[0].key)
 
850
        self.assertEqual('groupcompress-block', factories[0].storage_kind)
 
851
 
 
852
 
 
853
class TestLazyGroupCompress(tests.TestCaseWithTransport):
 
854
 
 
855
    _texts = {
 
856
        ('key1',): "this is a text\n"
 
857
                   "with a reasonable amount of compressible bytes\n"
 
858
                   "which can be shared between various other texts\n",
 
859
        ('key2',): "another text\n"
 
860
                   "with a reasonable amount of compressible bytes\n"
 
861
                   "which can be shared between various other texts\n",
 
862
        ('key3',): "yet another text which won't be extracted\n"
 
863
                   "with a reasonable amount of compressible bytes\n"
 
864
                   "which can be shared between various other texts\n",
 
865
        ('key4',): "this will be extracted\n"
 
866
                   "but references most of its bytes from\n"
 
867
                   "yet another text which won't be extracted\n"
 
868
                   "with a reasonable amount of compressible bytes\n"
 
869
                   "which can be shared between various other texts\n",
 
870
    }
 
871
    def make_block(self, key_to_text):
 
872
        """Create a GroupCompressBlock, filling it with the given texts."""
 
873
        compressor = groupcompress.GroupCompressor()
 
874
        start = 0
 
875
        for key in sorted(key_to_text):
 
876
            compressor.compress(key, key_to_text[key], None)
 
877
        locs = dict((key, (start, end)) for key, (start, _, end, _)
 
878
                    in compressor.labels_deltas.iteritems())
 
879
        block = compressor.flush()
 
880
        raw_bytes = block.to_bytes()
 
881
        return locs, groupcompress.GroupCompressBlock.from_bytes(raw_bytes)
 
882
 
 
883
    def add_key_to_manager(self, key, locations, block, manager):
 
884
        start, end = locations[key]
 
885
        manager.add_factory(key, (), start, end)
 
886
 
 
887
    def make_block_and_full_manager(self, texts):
 
888
        locations, block = self.make_block(texts)
 
889
        manager = groupcompress._LazyGroupContentManager(block)
 
890
        for key in sorted(texts):
 
891
            self.add_key_to_manager(key, locations, block, manager)
 
892
        return block, manager
 
893
 
 
894
    def test_get_fulltexts(self):
 
895
        locations, block = self.make_block(self._texts)
 
896
        manager = groupcompress._LazyGroupContentManager(block)
 
897
        self.add_key_to_manager(('key1',), locations, block, manager)
 
898
        self.add_key_to_manager(('key2',), locations, block, manager)
 
899
        result_order = []
 
900
        for record in manager.get_record_stream():
 
901
            result_order.append(record.key)
 
902
            text = self._texts[record.key]
 
903
            self.assertEqual(text, record.get_bytes_as('fulltext'))
 
904
        self.assertEqual([('key1',), ('key2',)], result_order)
 
905
 
 
906
        # If we build the manager in the opposite order, we should get them
 
907
        # back in the opposite order
 
908
        manager = groupcompress._LazyGroupContentManager(block)
 
909
        self.add_key_to_manager(('key2',), locations, block, manager)
 
910
        self.add_key_to_manager(('key1',), locations, block, manager)
 
911
        result_order = []
 
912
        for record in manager.get_record_stream():
 
913
            result_order.append(record.key)
 
914
            text = self._texts[record.key]
 
915
            self.assertEqual(text, record.get_bytes_as('fulltext'))
 
916
        self.assertEqual([('key2',), ('key1',)], result_order)
 
917
 
 
918
    def test__wire_bytes_no_keys(self):
 
919
        locations, block = self.make_block(self._texts)
 
920
        manager = groupcompress._LazyGroupContentManager(block)
 
921
        wire_bytes = manager._wire_bytes()
 
922
        block_length = len(block.to_bytes())
 
923
        # We should have triggered a strip, since we aren't using any content
 
924
        stripped_block = manager._block.to_bytes()
 
925
        self.assertTrue(block_length > len(stripped_block))
 
926
        empty_z_header = zlib.compress('')
 
927
        self.assertEqual('groupcompress-block\n'
 
928
                         '8\n' # len(compress(''))
 
929
                         '0\n' # len('')
 
930
                         '%d\n'# compressed block len
 
931
                         '%s'  # zheader
 
932
                         '%s'  # block
 
933
                         % (len(stripped_block), empty_z_header,
 
934
                            stripped_block),
 
935
                         wire_bytes)
 
936
 
 
937
    def test__wire_bytes(self):
 
938
        locations, block = self.make_block(self._texts)
 
939
        manager = groupcompress._LazyGroupContentManager(block)
 
940
        self.add_key_to_manager(('key1',), locations, block, manager)
 
941
        self.add_key_to_manager(('key4',), locations, block, manager)
 
942
        block_bytes = block.to_bytes()
 
943
        wire_bytes = manager._wire_bytes()
 
944
        (storage_kind, z_header_len, header_len,
 
945
         block_len, rest) = wire_bytes.split('\n', 4)
 
946
        z_header_len = int(z_header_len)
 
947
        header_len = int(header_len)
 
948
        block_len = int(block_len)
 
949
        self.assertEqual('groupcompress-block', storage_kind)
 
950
        self.assertEqual(34, z_header_len)
 
951
        self.assertEqual(26, header_len)
 
952
        self.assertEqual(len(block_bytes), block_len)
 
953
        z_header = rest[:z_header_len]
 
954
        header = zlib.decompress(z_header)
 
955
        self.assertEqual(header_len, len(header))
 
956
        entry1 = locations[('key1',)]
 
957
        entry4 = locations[('key4',)]
 
958
        self.assertEqualDiff('key1\n'
 
959
                             '\n'  # no parents
 
960
                             '%d\n' # start offset
 
961
                             '%d\n' # end offset
 
962
                             'key4\n'
 
963
                             '\n'
 
964
                             '%d\n'
 
965
                             '%d\n'
 
966
                             % (entry1[0], entry1[1],
 
967
                                entry4[0], entry4[1]),
 
968
                            header)
 
969
        z_block = rest[z_header_len:]
 
970
        self.assertEqual(block_bytes, z_block)
 
971
 
 
972
    def test_from_bytes(self):
 
973
        locations, block = self.make_block(self._texts)
 
974
        manager = groupcompress._LazyGroupContentManager(block)
 
975
        self.add_key_to_manager(('key1',), locations, block, manager)
 
976
        self.add_key_to_manager(('key4',), locations, block, manager)
 
977
        wire_bytes = manager._wire_bytes()
 
978
        self.assertStartsWith(wire_bytes, 'groupcompress-block\n')
 
979
        manager = groupcompress._LazyGroupContentManager.from_bytes(wire_bytes)
 
980
        self.assertIsInstance(manager, groupcompress._LazyGroupContentManager)
 
981
        self.assertEqual(2, len(manager._factories))
 
982
        self.assertEqual(block._z_content, manager._block._z_content)
 
983
        result_order = []
 
984
        for record in manager.get_record_stream():
 
985
            result_order.append(record.key)
 
986
            text = self._texts[record.key]
 
987
            self.assertEqual(text, record.get_bytes_as('fulltext'))
 
988
        self.assertEqual([('key1',), ('key4',)], result_order)
 
989
 
 
990
    def test__check_rebuild_no_changes(self):
 
991
        block, manager = self.make_block_and_full_manager(self._texts)
 
992
        manager._check_rebuild_block()
 
993
        self.assertIs(block, manager._block)
 
994
 
 
995
    def test__check_rebuild_only_one(self):
 
996
        locations, block = self.make_block(self._texts)
 
997
        manager = groupcompress._LazyGroupContentManager(block)
 
998
        # Request just the first key, which should trigger a 'strip' action
 
999
        self.add_key_to_manager(('key1',), locations, block, manager)
 
1000
        manager._check_rebuild_block()
 
1001
        self.assertIsNot(block, manager._block)
 
1002
        self.assertTrue(block._content_length > manager._block._content_length)
 
1003
        # We should be able to still get the content out of this block, though
 
1004
        # it should only have 1 entry
 
1005
        for record in manager.get_record_stream():
 
1006
            self.assertEqual(('key1',), record.key)
 
1007
            self.assertEqual(self._texts[record.key],
 
1008
                             record.get_bytes_as('fulltext'))
 
1009
 
 
1010
    def test__check_rebuild_middle(self):
 
1011
        locations, block = self.make_block(self._texts)
 
1012
        manager = groupcompress._LazyGroupContentManager(block)
 
1013
        # Request a small key in the middle should trigger a 'rebuild'
 
1014
        self.add_key_to_manager(('key4',), locations, block, manager)
 
1015
        manager._check_rebuild_block()
 
1016
        self.assertIsNot(block, manager._block)
 
1017
        self.assertTrue(block._content_length > manager._block._content_length)
 
1018
        for record in manager.get_record_stream():
 
1019
            self.assertEqual(('key4',), record.key)
 
1020
            self.assertEqual(self._texts[record.key],
 
1021
                             record.get_bytes_as('fulltext'))
 
1022
 
 
1023
    def test_check_is_well_utilized_all_keys(self):
 
1024
        block, manager = self.make_block_and_full_manager(self._texts)
 
1025
        self.assertFalse(manager.check_is_well_utilized())
 
1026
        # Though we can fake it by changing the recommended minimum size
 
1027
        manager._full_enough_block_size = block._content_length
 
1028
        self.assertTrue(manager.check_is_well_utilized())
 
1029
        # Setting it just above causes it to fail
 
1030
        manager._full_enough_block_size = block._content_length + 1
 
1031
        self.assertFalse(manager.check_is_well_utilized())
 
1032
        # Setting the mixed-block size doesn't do anything, because the content
 
1033
        # is considered to not be 'mixed'
 
1034
        manager._full_enough_mixed_block_size = block._content_length
 
1035
        self.assertFalse(manager.check_is_well_utilized())
 
1036
 
 
1037
    def test_check_is_well_utilized_mixed_keys(self):
 
1038
        texts = {}
 
1039
        f1k1 = ('f1', 'k1')
 
1040
        f1k2 = ('f1', 'k2')
 
1041
        f2k1 = ('f2', 'k1')
 
1042
        f2k2 = ('f2', 'k2')
 
1043
        texts[f1k1] = self._texts[('key1',)]
 
1044
        texts[f1k2] = self._texts[('key2',)]
 
1045
        texts[f2k1] = self._texts[('key3',)]
 
1046
        texts[f2k2] = self._texts[('key4',)]
 
1047
        block, manager = self.make_block_and_full_manager(texts)
 
1048
        self.assertFalse(manager.check_is_well_utilized())
 
1049
        manager._full_enough_block_size = block._content_length
 
1050
        self.assertTrue(manager.check_is_well_utilized())
 
1051
        manager._full_enough_block_size = block._content_length + 1
 
1052
        self.assertFalse(manager.check_is_well_utilized())
 
1053
        manager._full_enough_mixed_block_size = block._content_length
 
1054
        self.assertTrue(manager.check_is_well_utilized())
 
1055
 
 
1056
    def test_check_is_well_utilized_partial_use(self):
 
1057
        locations, block = self.make_block(self._texts)
 
1058
        manager = groupcompress._LazyGroupContentManager(block)
 
1059
        manager._full_enough_block_size = block._content_length
 
1060
        self.add_key_to_manager(('key1',), locations, block, manager)
 
1061
        self.add_key_to_manager(('key2',), locations, block, manager)
 
1062
        # Just using the content from key1 and 2 is not enough to be considered
 
1063
        # 'complete'
 
1064
        self.assertFalse(manager.check_is_well_utilized())
 
1065
        # However if we add key3, then we have enough, as we only require 75%
 
1066
        # consumption
 
1067
        self.add_key_to_manager(('key4',), locations, block, manager)
 
1068
        self.assertTrue(manager.check_is_well_utilized())