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  • Committer: abentley
  • Date: 2005-10-14 03:50:50 UTC
  • mto: (1185.25.1)
  • mto: This revision was merged to the branch mainline in revision 1460.
  • Revision ID: abentley@lappy-20051014035050-d779472ccb599a51
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# Copyright (C) 2007 Canonical Ltd
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
9
 
# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# 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
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
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17
 
from bzrlib import (
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    errors,
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    graph,
20
 
    )
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from bzrlib.revision import NULL_REVISION
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from bzrlib.tests import TestCaseWithMemoryTransport
23
 
 
24
 
 
25
 
# Ancestry 1:
26
 
#
27
 
#  NULL_REVISION
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#       |
29
 
#     rev1
30
 
#      /\
31
 
#  rev2a rev2b
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#     |    |
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#   rev3  /
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#     |  /
35
 
#   rev4
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ancestry_1 = {'rev1': [NULL_REVISION], 'rev2a': ['rev1'], 'rev2b': ['rev1'],
37
 
              'rev3': ['rev2a'], 'rev4': ['rev3', 'rev2b']}
38
 
 
39
 
 
40
 
# Ancestry 2:
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#
42
 
#  NULL_REVISION
43
 
#    /    \
44
 
# rev1a  rev1b
45
 
#   |
46
 
# rev2a
47
 
#   |
48
 
# rev3a
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#   |
50
 
# rev4a
51
 
ancestry_2 = {'rev1a': [NULL_REVISION], 'rev2a': ['rev1a'],
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              'rev1b': [NULL_REVISION], 'rev3a': ['rev2a'], 'rev4a': ['rev3a']}
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54
 
 
55
 
# Criss cross ancestry
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#
57
 
#     NULL_REVISION
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#         |
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#        rev1
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#        /  \
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#    rev2a  rev2b
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#       |\  /|
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#       |  X |
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#       |/  \|
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#    rev3a  rev3b
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criss_cross = {'rev1': [NULL_REVISION], 'rev2a': ['rev1'], 'rev2b': ['rev1'],
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               'rev3a': ['rev2a', 'rev2b'], 'rev3b': ['rev2b', 'rev2a']}
68
 
 
69
 
 
70
 
# Criss-cross 2
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#
72
 
#  NULL_REVISION
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#    /   \
74
 
# rev1a  rev1b
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#   |\   /|
76
 
#   | \ / |
77
 
#   |  X  |
78
 
#   | / \ |
79
 
#   |/   \|
80
 
# rev2a  rev2b
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criss_cross2 = {'rev1a': [NULL_REVISION], 'rev1b': [NULL_REVISION],
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                'rev2a': ['rev1a', 'rev1b'], 'rev2b': ['rev1b', 'rev1a']}
83
 
 
84
 
 
85
 
# Mainline:
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#
87
 
#  NULL_REVISION
88
 
#       |
89
 
#      rev1
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#      /  \
91
 
#      | rev2b
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#      |  /
93
 
#     rev2a
94
 
mainline = {'rev1': [NULL_REVISION], 'rev2a': ['rev1', 'rev2b'],
95
 
            'rev2b': ['rev1']}
96
 
 
97
 
 
98
 
# feature branch:
99
 
#
100
 
#  NULL_REVISION
101
 
#       |
102
 
#      rev1
103
 
#       |
104
 
#     rev2b
105
 
#       |
106
 
#     rev3b
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feature_branch = {'rev1': [NULL_REVISION],
108
 
                  'rev2b': ['rev1'], 'rev3b': ['rev2b']}
109
 
 
110
 
 
111
 
# History shortcut
112
 
#  NULL_REVISION
113
 
#       |
114
 
#     rev1------
115
 
#     /  \      \
116
 
#  rev2a rev2b rev2c
117
 
#    |  /   \   /
118
 
#  rev3a    reveb
119
 
history_shortcut = {'rev1': [NULL_REVISION], 'rev2a': ['rev1'],
120
 
                    'rev2b': ['rev1'], 'rev2c': ['rev1'],
121
 
                    'rev3a': ['rev2a', 'rev2b'], 'rev3b': ['rev2b', 'rev2c']}
122
 
 
123
 
 
124
 
class TestGraph(TestCaseWithMemoryTransport):
125
 
 
126
 
    def make_graph(self, ancestors):
127
 
        tree = self.prepare_memory_tree('.')
128
 
        self.build_ancestry(tree, ancestors)
129
 
        tree.unlock()
130
 
        return tree.branch.repository.get_graph()
131
 
 
132
 
    def prepare_memory_tree(self, location):
133
 
        tree = self.make_branch_and_memory_tree(location)
134
 
        tree.lock_write()
135
 
        tree.add('.')
136
 
        return tree
137
 
 
138
 
    def build_ancestry(self, tree, ancestors):
139
 
        """Create an ancestry as specified by a graph dict
140
 
 
141
 
        :param tree: A tree to use
142
 
        :param ancestors: a dict of {node: [node_parent, ...]}
143
 
        """
144
 
        pending = [NULL_REVISION]
145
 
        descendants = {}
146
 
        for descendant, parents in ancestors.iteritems():
147
 
            for parent in parents:
148
 
                descendants.setdefault(parent, []).append(descendant)
149
 
        while len(pending) > 0:
150
 
            cur_node = pending.pop()
151
 
            for descendant in descendants.get(cur_node, []):
152
 
                if tree.branch.repository.has_revision(descendant):
153
 
                    continue
154
 
                parents = [p for p in ancestors[descendant] if p is not
155
 
                           NULL_REVISION]
156
 
                if len([p for p in parents if not
157
 
                    tree.branch.repository.has_revision(p)]) > 0:
158
 
                    continue
159
 
                tree.set_parent_ids(parents)
160
 
                if len(parents) > 0:
161
 
                    left_parent = parents[0]
162
 
                else:
163
 
                    left_parent = NULL_REVISION
164
 
                tree.branch.set_last_revision_info(
165
 
                    len(tree.branch._lefthand_history(left_parent)),
166
 
                    left_parent)
167
 
                tree.commit(descendant, rev_id=descendant)
168
 
                pending.append(descendant)
169
 
 
170
 
    def test_lca(self):
171
 
        """Test finding least common ancestor.
172
 
 
173
 
        ancestry_1 should always have a single common ancestor
174
 
        """
175
 
        graph = self.make_graph(ancestry_1)
176
 
        self.assertRaises(errors.InvalidRevisionId, graph.find_lca, None)
177
 
        self.assertEqual(set([NULL_REVISION]),
178
 
                         graph.find_lca(NULL_REVISION, NULL_REVISION))
179
 
        self.assertEqual(set([NULL_REVISION]),
180
 
                         graph.find_lca(NULL_REVISION, 'rev1'))
181
 
        self.assertEqual(set(['rev1']), graph.find_lca('rev1', 'rev1'))
182
 
        self.assertEqual(set(['rev1']), graph.find_lca('rev2a', 'rev2b'))
183
 
 
184
 
    def test_lca_criss_cross(self):
185
 
        """Test least-common-ancestor after a criss-cross merge."""
186
 
        graph = self.make_graph(criss_cross)
187
 
        self.assertEqual(set(['rev2a', 'rev2b']),
188
 
                         graph.find_lca('rev3a', 'rev3b'))
189
 
        self.assertEqual(set(['rev2b']),
190
 
                         graph.find_lca('rev3a', 'rev3b', 'rev2b'))
191
 
 
192
 
    def test_lca_shortcut(self):
193
 
        """Test least-common ancestor on this history shortcut"""
194
 
        graph = self.make_graph(history_shortcut)
195
 
        self.assertEqual(set(['rev2b']), graph.find_lca('rev3a', 'rev3b'))
196
 
 
197
 
    def test_recursive_unique_lca(self):
198
 
        """Test finding a unique least common ancestor.
199
 
 
200
 
        ancestry_1 should always have a single common ancestor
201
 
        """
202
 
        graph = self.make_graph(ancestry_1)
203
 
        self.assertEqual(NULL_REVISION,
204
 
                         graph.find_unique_lca(NULL_REVISION, NULL_REVISION))
205
 
        self.assertEqual(NULL_REVISION,
206
 
                         graph.find_unique_lca(NULL_REVISION, 'rev1'))
207
 
        self.assertEqual('rev1', graph.find_unique_lca('rev1', 'rev1'))
208
 
        self.assertEqual('rev1', graph.find_unique_lca('rev2a', 'rev2b'))
209
 
 
210
 
    def test_unique_lca_criss_cross(self):
211
 
        """Ensure we don't pick non-unique lcas in a criss-cross"""
212
 
        graph = self.make_graph(criss_cross)
213
 
        self.assertEqual('rev1', graph.find_unique_lca('rev3a', 'rev3b'))
214
 
 
215
 
    def test_unique_lca_null_revision(self):
216
 
        """Ensure we pick NULL_REVISION when necessary"""
217
 
        graph = self.make_graph(criss_cross2)
218
 
        self.assertEqual('rev1b', graph.find_unique_lca('rev2a', 'rev1b'))
219
 
        self.assertEqual(NULL_REVISION,
220
 
                         graph.find_unique_lca('rev2a', 'rev2b'))
221
 
 
222
 
    def test_unique_lca_null_revision2(self):
223
 
        """Ensure we pick NULL_REVISION when necessary"""
224
 
        graph = self.make_graph(ancestry_2)
225
 
        self.assertEqual(NULL_REVISION,
226
 
                         graph.find_unique_lca('rev4a', 'rev1b'))
227
 
 
228
 
    def test_common_ancestor_two_repos(self):
229
 
        """Ensure we do unique_lca using data from two repos"""
230
 
        mainline_tree = self.prepare_memory_tree('mainline')
231
 
        self.build_ancestry(mainline_tree, mainline)
232
 
        mainline_tree.unlock()
233
 
 
234
 
        # This is cheating, because the revisions in the graph are actually
235
 
        # different revisions, despite having the same revision-id.
236
 
        feature_tree = self.prepare_memory_tree('feature')
237
 
        self.build_ancestry(feature_tree, feature_branch)
238
 
        feature_tree.unlock()
239
 
        graph = mainline_tree.branch.repository.get_graph(
240
 
            feature_tree.branch.repository)
241
 
        self.assertEqual('rev2b', graph.find_unique_lca('rev2a', 'rev3b'))
242
 
 
243
 
    def test_graph_difference(self):
244
 
        graph = self.make_graph(ancestry_1)
245
 
        self.assertEqual((set(), set()), graph.find_difference('rev1', 'rev1'))
246
 
        self.assertEqual((set(), set(['rev1'])),
247
 
                         graph.find_difference(NULL_REVISION, 'rev1'))
248
 
        self.assertEqual((set(['rev1']), set()),
249
 
                         graph.find_difference('rev1', NULL_REVISION))
250
 
        self.assertEqual((set(['rev2a', 'rev3']), set(['rev2b'])),
251
 
                         graph.find_difference('rev3', 'rev2b'))
252
 
        self.assertEqual((set(['rev4', 'rev3', 'rev2a']), set()),
253
 
                         graph.find_difference('rev4', 'rev2b'))
254
 
 
255
 
    def test_graph_difference_criss_cross(self):
256
 
        graph = self.make_graph(criss_cross)
257
 
        self.assertEqual((set(['rev3a']), set(['rev3b'])),
258
 
                         graph.find_difference('rev3a', 'rev3b'))
259
 
        self.assertEqual((set([]), set(['rev3b', 'rev2b'])),
260
 
                         graph.find_difference('rev2a', 'rev3b'))
261
 
 
262
 
    def test_stacked_parents_provider(self):
263
 
 
264
 
        class ParentsProvider(object):
265
 
 
266
 
            def __init__(self, ancestry):
267
 
                self.ancestry = ancestry
268
 
 
269
 
            def get_parents(self, revisions):
270
 
                return [self.ancestry.get(r, None) for r in revisions]
271
 
 
272
 
        parents1 = ParentsProvider({'rev2': ['rev3']})
273
 
        parents2 = ParentsProvider({'rev1': ['rev4']})
274
 
        stacked = graph._StackedParentsProvider([parents1, parents2])
275
 
        self.assertEqual([['rev4',], ['rev3']],
276
 
                         stacked.get_parents(['rev1', 'rev2']))
277
 
        self.assertEqual([['rev3',], ['rev4']],
278
 
                         stacked.get_parents(['rev2', 'rev1']))
279
 
        self.assertEqual([['rev3',], ['rev3']],
280
 
                         stacked.get_parents(['rev2', 'rev2']))
281
 
        self.assertEqual([['rev4',], ['rev4']],
282
 
                         stacked.get_parents(['rev1', 'rev1']))
283
 
 
284
 
    def test_iter_topo_order(self):
285
 
        graph = self.make_graph(ancestry_1)
286
 
        args = ['rev2a', 'rev3', 'rev1']
287
 
        topo_args = list(graph.iter_topo_order(args))
288
 
        self.assertEqual(set(args), set(topo_args))
289
 
        self.assertTrue(topo_args.index('rev2a') > topo_args.index('rev1'))
290
 
        self.assertTrue(topo_args.index('rev2a') < topo_args.index('rev3'))