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|
# Copyright (C) 2005 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 topological sort."""
from bzrlib.tests import TestCase
from bzrlib.tsort import topo_sort, TopoSorter, MergeSorter, merge_sort
from bzrlib.errors import GraphCycleError
from bzrlib.revision import NULL_REVISION
class TopoSortTests(TestCase):
def assertSortAndIterate(self, graph, result_list):
"""Check that sorting and iter_topo_order on graph works."""
self.assertEquals(result_list, topo_sort(graph))
self.assertEqual(result_list,
list(TopoSorter(graph).iter_topo_order()))
def assertSortAndIterateRaise(self, exception_type, graph):
"""Try both iterating and topo_sorting graph and expect an exception."""
self.assertRaises(exception_type, topo_sort, graph)
self.assertRaises(exception_type,
list,
TopoSorter(graph).iter_topo_order())
def test_tsort_empty(self):
"""TopoSort empty list"""
self.assertSortAndIterate([], [])
def test_tsort_easy(self):
"""TopoSort list with one node"""
self.assertSortAndIterate({0: []}.items(), [0])
def test_tsort_cycle(self):
"""TopoSort traps graph with cycles"""
self.assertSortAndIterateRaise(GraphCycleError,
{0: [1],
1: [0]}.items())
def test_tsort_cycle_2(self):
"""TopoSort traps graph with longer cycle"""
self.assertSortAndIterateRaise(GraphCycleError,
{0: [1],
1: [2],
2: [0]}.items())
def test_tsort_1(self):
"""TopoSort simple nontrivial graph"""
self.assertSortAndIterate({0: [3],
1: [4],
2: [1, 4],
3: [],
4: [0, 3]}.items(),
[3, 0, 4, 1, 2])
def test_tsort_partial(self):
"""Topological sort with partial ordering.
If the graph does not give an order between two nodes, they are
returned in lexicographical order.
"""
self.assertSortAndIterate(([(0, []),
(1, [0]),
(2, [0]),
(3, [0]),
(4, [1, 2, 3]),
(5, [1, 2]),
(6, [1, 2]),
(7, [2, 3]),
(8, [0, 1, 4, 5, 6])]),
[0, 1, 2, 3, 4, 5, 6, 7, 8])
def test_tsort_unincluded_parent(self):
"""Sort nodes, but don't include some parents in the output"""
self.assertSortAndIterate([(0, [1]),
(1, [2])],
[1, 0])
class MergeSortTests(TestCase):
def assertSortAndIterate(self, graph, branch_tip, result_list,
generate_revno, mainline_revisions=None):
"""Check that merge based sorting and iter_topo_order on graph works."""
value = merge_sort(graph, branch_tip,
mainline_revisions=mainline_revisions,
generate_revno=generate_revno)
if result_list != value:
import pprint
self.assertEqualDiff(pprint.pformat(result_list),
pprint.pformat(value))
self.assertEquals(result_list,
merge_sort(graph, branch_tip, mainline_revisions=mainline_revisions,
generate_revno=generate_revno))
self.assertEqual(result_list,
list(MergeSorter(
graph,
branch_tip,
mainline_revisions=mainline_revisions,
generate_revno=generate_revno,
).iter_topo_order()))
def test_merge_sort_empty(self):
# sorting of an emptygraph does not error
self.assertSortAndIterate({}, None, [], False)
self.assertSortAndIterate({}, None, [], True)
self.assertSortAndIterate({}, NULL_REVISION, [], False)
self.assertSortAndIterate({}, NULL_REVISION, [], True)
def test_merge_sort_not_empty_no_tip(self):
# merge sorting of a branch starting with None should result
# in an empty list: no revisions are dragged in.
self.assertSortAndIterate({0: []}.items(), None, [], False)
self.assertSortAndIterate({0: []}.items(), None, [], True)
def test_merge_sort_one_revision(self):
# sorting with one revision as the tip returns the correct fields:
# sequence - 0, revision id, merge depth - 0, end_of_merge
self.assertSortAndIterate({'id': []}.items(),
'id',
[(0, 'id', 0, True)],
False)
self.assertSortAndIterate({'id': []}.items(),
'id',
[(0, 'id', 0, (1,), True)],
True)
def test_sequence_numbers_increase_no_merges(self):
# emit a few revisions with no merges to check the sequence
# numbering works in trivial cases
self.assertSortAndIterate(
{'A': [],
'B': ['A'],
'C': ['B']}.items(),
'C',
[(0, 'C', 0, False),
(1, 'B', 0, False),
(2, 'A', 0, True),
],
False
)
self.assertSortAndIterate(
{'A': [],
'B': ['A'],
'C': ['B']}.items(),
'C',
[(0, 'C', 0, (3,), False),
(1, 'B', 0, (2,), False),
(2, 'A', 0, (1,), True),
],
True
)
def test_sequence_numbers_increase_with_merges(self):
# test that sequence numbers increase across merges
self.assertSortAndIterate(
{'A': [],
'B': ['A'],
'C': ['A', 'B']}.items(),
'C',
[(0, 'C', 0, False),
(1, 'B', 1, True),
(2, 'A', 0, True),
],
False
)
self.assertSortAndIterate(
{'A': [],
'B': ['A'],
'C': ['A', 'B']}.items(),
'C',
[(0, 'C', 0, (2,), False),
(1, 'B', 1, (1,1,1), True),
(2, 'A', 0, (1,), True),
],
True
)
def test_merge_sort_race(self):
# A
# |
# B-.
# |\ \
# | | C
# | |/
# | D
# |/
# F
graph = {'A': [],
'B': ['A'],
'C': ['B'],
'D': ['B', 'C'],
'F': ['B', 'D'],
}
self.assertSortAndIterate(graph, 'F',
[(0, 'F', 0, (3,), False),
(1, 'D', 1, (2,2,1), False),
(2, 'C', 1, (2,1,1), True), # XXX: Shouldn't it be merge_depth=2?
(3, 'B', 0, (2,), False),
(4, 'A', 0, (1,), True),
], True)
# A
# |
# B-.
# |\ \
# | X C
# | |/
# | D
# |/
# F
graph = {'A': [],
'B': ['A'],
'C': ['B'],
'X': ['B'],
'D': ['X', 'C'],
'F': ['B', 'D'],
}
self.assertSortAndIterate(graph, 'F',
[(0, 'F', 0, (3,), False),
(1, 'D', 1, (2,1,2), False),
(2, 'C', 2, (2,2,1), True),
(3, 'X', 1, (2,1,1), True),
(4, 'B', 0, (2,), False),
(5, 'A', 0, (1,), True),
], True)
def test_merge_depth_with_nested_merges(self):
# the merge depth marker should reflect the depth of the revision
# in terms of merges out from the mainline
# revid, depth, parents:
# A 0 [D, B]
# B 1 [C, F]
# C 1 [H]
# D 0 [H, E]
# E 1 [G, F]
# F 2 [G]
# G 1 [H]
# H 0
self.assertSortAndIterate(
{'A': ['D', 'B'],
'B': ['C', 'F'],
'C': ['H'],
'D': ['H', 'E'],
'E': ['G', 'F'],
'F': ['G'],
'G': ['H'],
'H': []
}.items(),
'A',
[(0, 'A', 0, False),
(1, 'B', 1, False),
(2, 'C', 1, True),
(3, 'D', 0, False),
(4, 'E', 1, False),
(5, 'F', 2, True),
(6, 'G', 1, True),
(7, 'H', 0, True),
],
False
)
self.assertSortAndIterate(
{'A': ['D', 'B'],
'B': ['C', 'F'],
'C': ['H'],
'D': ['H', 'E'],
'E': ['G', 'F'],
'F': ['G'],
'G': ['H'],
'H': []
}.items(),
'A',
[(0, 'A', 0, (3,), False),
(1, 'B', 1, (1,3,2), False),
(2, 'C', 1, (1,3,1), True),
(3, 'D', 0, (2,), False),
(4, 'E', 1, (1,1,2), False),
(5, 'F', 2, (1,2,1), True),
(6, 'G', 1, (1,1,1), True),
(7, 'H', 0, (1,), True),
],
True
)
def test_dotted_revnos_with_simple_merges(self):
# A 1
# |\
# B C 2, 1.1.1
# | |\
# D E F 3, 1.1.2, 1.2.1
# |/ /|
# G H I 4, 1.2.2, 1.3.1
# |/ /
# J K 5, 1.3.2
# |/
# L 6
self.assertSortAndIterate(
{'A': [],
'B': ['A'],
'C': ['A'],
'D': ['B'],
'E': ['C'],
'F': ['C'],
'G': ['D', 'E'],
'H': ['F'],
'I': ['F'],
'J': ['G', 'H'],
'K': ['I'],
'L': ['J', 'K'],
}.items(),
'L',
[(0, 'L', 0, (6,), False),
(1, 'K', 1, (1,3,2), False),
(2, 'I', 1, (1,3,1), True),
(3, 'J', 0, (5,), False),
(4, 'H', 1, (1,2,2), False),
(5, 'F', 1, (1,2,1), True),
(6, 'G', 0, (4,), False),
(7, 'E', 1, (1,1,2), False),
(8, 'C', 1, (1,1,1), True),
(9, 'D', 0, (3,), False),
(10, 'B', 0, (2,), False),
(11, 'A', 0, (1,), True),
],
True
)
# Adding a shortcut from the first revision should not change any of
# the existing numbers
self.assertSortAndIterate(
{'A': [],
'B': ['A'],
'C': ['A'],
'D': ['B'],
'E': ['C'],
'F': ['C'],
'G': ['D', 'E'],
'H': ['F'],
'I': ['F'],
'J': ['G', 'H'],
'K': ['I'],
'L': ['J', 'K'],
'M': ['A'],
'N': ['L', 'M'],
}.items(),
'N',
[(0, 'N', 0, (7,), False),
(1, 'M', 1, (1,4,1), True),
(2, 'L', 0, (6,), False),
(3, 'K', 1, (1,3,2), False),
(4, 'I', 1, (1,3,1), True),
(5, 'J', 0, (5,), False),
(6, 'H', 1, (1,2,2), False),
(7, 'F', 1, (1,2,1), True),
(8, 'G', 0, (4,), False),
(9, 'E', 1, (1,1,2), False),
(10, 'C', 1, (1,1,1), True),
(11, 'D', 0, (3,), False),
(12, 'B', 0, (2,), False),
(13, 'A', 0, (1,), True),
],
True
)
def test_end_of_merge_not_last_revision_in_branch(self):
# within a branch only the last revision gets an
# end of merge marker.
self.assertSortAndIterate(
{'A': ['B'],
'B': [],
},
'A',
[(0, 'A', 0, False),
(1, 'B', 0, True)
],
False
)
self.assertSortAndIterate(
{'A': ['B'],
'B': [],
},
'A',
[(0, 'A', 0, (2,), False),
(1, 'B', 0, (1,), True)
],
True
)
def test_end_of_merge_multiple_revisions_merged_at_once(self):
# when multiple branches are merged at once, both of their
# branch-endpoints should be listed as end-of-merge.
# Also, the order of the multiple merges should be
# left-right shown top to bottom.
# * means end of merge
# A 0 [H, B, E]
# B 1 [D, C]
# C 2 [D] *
# D 1 [H] *
# E 1 [G, F]
# F 2 [G] *
# G 1 [H] *
# H 0 [] *
self.assertSortAndIterate(
{'A': ['H', 'B', 'E'],
'B': ['D', 'C'],
'C': ['D'],
'D': ['H'],
'E': ['G', 'F'],
'F': ['G'],
'G': ['H'],
'H': [],
},
'A',
[(0, 'A', 0, False),
(1, 'B', 1, False),
(2, 'C', 2, True),
(3, 'D', 1, True),
(4, 'E', 1, False),
(5, 'F', 2, True),
(6, 'G', 1, True),
(7, 'H', 0, True),
],
False
)
self.assertSortAndIterate(
{'A': ['H', 'B', 'E'],
'B': ['D', 'C'],
'C': ['D'],
'D': ['H'],
'E': ['G', 'F'],
'F': ['G'],
'G': ['H'],
'H': [],
},
'A',
[(0, 'A', 0, (2,), False),
(1, 'B', 1, (1,3,2), False),
(2, 'C', 2, (1,4,1), True),
(3, 'D', 1, (1,3,1), True),
(4, 'E', 1, (1,1,2), False),
(5, 'F', 2, (1,2,1), True),
(6, 'G', 1, (1,1,1), True),
(7, 'H', 0, (1,), True),
],
True
)
def test_mainline_revs_partial(self):
# when a mainline_revisions list is passed this must
# override the graphs idea of mainline, and must also
# truncate the output to the specified range, if needed.
# so we test both at once: a mainline_revisions list that
# disagrees with the graph about which revs are 'mainline'
# and also truncates the output.
# graph:
# A 0 [E, B]
# B 1 [D, C]
# C 2 [D]
# D 1 [E]
# E 0
# with a mainline of NONE,E,A (the inferred one) this will show the merge
# depths above.
# with a overriden mainline of NONE,E,D,B,A it should show:
# A 0
# B 0
# C 1
# D 0
# E 0
# and thus when truncated to D,B,A it should show
# A 0
# B 0
# C 1
# because C is brought in by B in this view and D
# is the terminating revision id
# this should also preserve revision numbers: C should still be 2.1.1
self.assertSortAndIterate(
{'A': ['E', 'B'],
'B': ['D', 'C'],
'C': ['D'],
'D': ['E'],
'E': []
},
'A',
[(0, 'A', 0, False),
(1, 'B', 0, False),
(2, 'C', 1, True),
],
False,
mainline_revisions=['D', 'B', 'A']
)
self.assertSortAndIterate(
{'A': ['E', 'B'],
'B': ['D', 'C'],
'C': ['D'],
'D': ['E'],
'E': []
},
'A',
[(0, 'A', 0, (4,), False),
(1, 'B', 0, (3,), False),
(2, 'C', 1, (2,1,1), True),
],
True,
mainline_revisions=['D', 'B', 'A']
)
def test_mainline_revs_with_none(self):
# a simple test to ensure that a mainline_revs
# list which goes all the way to None works
self.assertSortAndIterate(
{'A': [],
},
'A',
[(0, 'A', 0, True),
],
False,
mainline_revisions=[None, 'A']
)
self.assertSortAndIterate(
{'A': [],
},
'A',
[(0, 'A', 0, (1,), True),
],
True,
mainline_revisions=[None, 'A']
)
def test_mainline_revs_with_ghost(self):
# We have a mainline, but the end of it is actually a ghost
# The graph that is passed to tsort has had ghosts filtered out, but
# the mainline history has not.
self.assertSortAndIterate(
{'B':[],
'C':['B']}.items(),
'C',
[(0, 'C', 0, (2,), False),
(1, 'B', 0, (1,), True),
],
True, mainline_revisions=['A', 'B', 'C'])
def test_parallel_root_sequence_numbers_increase_with_merges(self):
"""When there are parallel roots, check their revnos."""
self.assertSortAndIterate(
{'A': [],
'B': [],
'C': ['A', 'B']}.items(),
'C',
[(0, 'C', 0, (2,), False),
(1, 'B', 1, (0,1,1), True),
(2, 'A', 0, (1,), True),
],
True
)
def test_revnos_are_globally_assigned(self):
"""revnos are assigned according to the revision they derive from."""
# in this test we setup a number of branches that all derive from
# the first revision, and then merge them one at a time, which
# should give the revisions as they merge numbers still deriving from
# the revision were based on.
# merge 3: J: ['G', 'I']
# branch 3:
# I: ['H']
# H: ['A']
# merge 2: G: ['D', 'F']
# branch 2:
# F: ['E']
# E: ['A']
# merge 1: D: ['A', 'C']
# branch 1:
# C: ['B']
# B: ['A']
# root: A: []
self.assertSortAndIterate(
{'J': ['G', 'I'],
'I': ['H',],
'H': ['A'],
'G': ['D', 'F'],
'F': ['E'],
'E': ['A'],
'D': ['A', 'C'],
'C': ['B'],
'B': ['A'],
'A': [],
}.items(),
'J',
[(0, 'J', 0, (4,), False),
(1, 'I', 1, (1,3,2), False),
(2, 'H', 1, (1,3,1), True),
(3, 'G', 0, (3,), False),
(4, 'F', 1, (1,2,2), False),
(5, 'E', 1, (1,2,1), True),
(6, 'D', 0, (2,), False),
(7, 'C', 1, (1,1,2), False),
(8, 'B', 1, (1,1,1), True),
(9, 'A', 0, (1,), True),
],
True
)
def test_roots_and_sub_branches_versus_ghosts(self):
"""Extra roots and their mini branches use the same numbering.
All of them use the 0-node numbering.
"""
# A D K
# | |\ |\
# B E F L M
# | |/ |/
# C G N
# |/ |\
# H I O P
# |/ |/
# J Q
# |.---'
# R
self.assertSortAndIterate(
{'A': [],
'B': ['A'],
'C': ['B'],
'D': [],
'E': ['D'],
'F': ['D'],
'G': ['E', 'F'],
'H': ['C', 'G'],
'I': [],
'J': ['H', 'I'],
'K': [],
'L': ['K'],
'M': ['K'],
'N': ['L', 'M'],
'O': ['N'],
'P': ['N'],
'Q': ['O', 'P'],
'R': ['J', 'Q'],
}.items(),
'R',
[( 0, 'R', 0, (6,), False),
( 1, 'Q', 1, (0,4,5), False),
( 2, 'P', 2, (0,6,1), True),
( 3, 'O', 1, (0,4,4), False),
( 4, 'N', 1, (0,4,3), False),
( 5, 'M', 2, (0,5,1), True),
( 6, 'L', 1, (0,4,2), False),
( 7, 'K', 1, (0,4,1), True),
( 8, 'J', 0, (5,), False),
( 9, 'I', 1, (0,3,1), True),
(10, 'H', 0, (4,), False),
(11, 'G', 1, (0,1,3), False),
(12, 'F', 2, (0,2,1), True),
(13, 'E', 1, (0,1,2), False),
(14, 'D', 1, (0,1,1), True),
(15, 'C', 0, (3,), False),
(16, 'B', 0, (2,), False),
(17, 'A', 0, (1,), True),
],
True
)
|