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|
# Copyright (C) 2008 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 btree indices."""
import pprint
import zlib
from bzrlib import (
btree_index,
errors,
tests,
)
from bzrlib.tests import (
TestCaseWithTransport,
TestScenarioApplier,
adapt_tests,
condition_isinstance,
split_suite_by_condition,
)
from bzrlib.transport import get_transport
def load_tests(standard_tests, module, loader):
# parameterise the TestBTreeNodes tests
node_tests, others = split_suite_by_condition(standard_tests,
condition_isinstance(TestBTreeNodes))
applier = TestScenarioApplier()
import bzrlib._btree_serializer_py as py_module
applier.scenarios = [('python', {'parse_btree': py_module})]
if CompiledBtreeParserFeature.available():
# Is there a way to do this that gets missing feature failures rather
# than no indication to the user?
import bzrlib._btree_serializer_c as c_module
applier.scenarios.append(('C', {'parse_btree': c_module}))
adapt_tests(node_tests, applier, others)
return others
class _CompiledBtreeParserFeature(tests.Feature):
def _probe(self):
try:
import bzrlib._btree_serializer_c
except ImportError:
return False
return True
def feature_name(self):
return 'bzrlib._btree_serializer_c'
CompiledBtreeParserFeature = _CompiledBtreeParserFeature()
class BTreeTestCase(TestCaseWithTransport):
# test names here are suffixed by the key length and reference list count
# that they test.
def setUp(self):
TestCaseWithTransport.setUp(self)
self._original_header = btree_index._RESERVED_HEADER_BYTES
def restore():
btree_index._RESERVED_HEADER_BYTES = self._original_header
self.addCleanup(restore)
btree_index._RESERVED_HEADER_BYTES = 100
def make_nodes(self, count, key_elements, reference_lists):
"""Generate count*key_elements sample nodes."""
keys = []
for prefix_pos in range(key_elements):
if key_elements - 1:
prefix = (str(prefix_pos) * 40,)
else:
prefix = ()
for pos in xrange(count):
# TODO: This creates odd keys. When count == 100,000, it
# creates a 240 byte key
key = prefix + (str(pos) * 40,)
value = "value:%s" % pos
if reference_lists:
# generate some references
refs = []
for list_pos in range(reference_lists):
# as many keys in each list as its index + the key depth
# mod 2 - this generates both 0 length lists and
# ones slightly longer than the number of lists.
# It also ensures we have non homogeneous lists.
refs.append([])
for ref_pos in range(list_pos + pos % 2):
if pos % 2:
# refer to a nearby key
refs[-1].append(prefix + ("ref" + str(pos - 1) * 40,))
else:
# serial of this ref in the ref list
refs[-1].append(prefix + ("ref" + str(ref_pos) * 40,))
refs[-1] = tuple(refs[-1])
refs = tuple(refs)
else:
refs = ()
keys.append((key, value, refs))
return keys
def shrink_page_size(self):
"""Shrink the default page size so that less fits in a page."""
old_page_size = btree_index._PAGE_SIZE
def cleanup():
btree_index._PAGE_SIZE = old_page_size
self.addCleanup(cleanup)
btree_index._PAGE_SIZE = 2048
class TestBTreeBuilder(BTreeTestCase):
def test_empty_1_0(self):
builder = btree_index.BTreeBuilder(key_elements=1, reference_lists=0)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=0\nkey_elements=1\nlen=0\n"
"row_lengths=\n",
content)
def test_empty_2_1(self):
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=1)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=1\nkey_elements=2\nlen=0\n"
"row_lengths=\n",
content)
def test_root_leaf_1_0(self):
builder = btree_index.BTreeBuilder(key_elements=1, reference_lists=0)
nodes = self.make_nodes(5, 1, 0)
for node in nodes:
builder.add_node(*node)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(158, len(content))
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=0\nkey_elements=1\nlen=5\n"
"row_lengths=1\n",
content[:73])
node_content = content[73:]
node_bytes = zlib.decompress(node_content)
expected_node = ("type=leaf\n"
"0000000000000000000000000000000000000000\x00\x00value:0\n"
"1111111111111111111111111111111111111111\x00\x00value:1\n"
"2222222222222222222222222222222222222222\x00\x00value:2\n"
"3333333333333333333333333333333333333333\x00\x00value:3\n"
"4444444444444444444444444444444444444444\x00\x00value:4\n")
self.assertEqual(expected_node, node_bytes)
def test_root_leaf_2_2(self):
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
nodes = self.make_nodes(5, 2, 2)
for node in nodes:
builder.add_node(*node)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(264, len(content))
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=2\nkey_elements=2\nlen=10\n"
"row_lengths=1\n",
content[:74])
node_content = content[74:]
node_bytes = zlib.decompress(node_content)
expected_node = (
"type=leaf\n"
"0000000000000000000000000000000000000000\x000000000000000000000000000000000000000000\x00\t0000000000000000000000000000000000000000\x00ref0000000000000000000000000000000000000000\x00value:0\n"
"0000000000000000000000000000000000000000\x001111111111111111111111111111111111111111\x000000000000000000000000000000000000000000\x00ref0000000000000000000000000000000000000000\t0000000000000000000000000000000000000000\x00ref0000000000000000000000000000000000000000\r0000000000000000000000000000000000000000\x00ref0000000000000000000000000000000000000000\x00value:1\n"
"0000000000000000000000000000000000000000\x002222222222222222222222222222222222222222\x00\t0000000000000000000000000000000000000000\x00ref0000000000000000000000000000000000000000\x00value:2\n"
"0000000000000000000000000000000000000000\x003333333333333333333333333333333333333333\x000000000000000000000000000000000000000000\x00ref2222222222222222222222222222222222222222\t0000000000000000000000000000000000000000\x00ref2222222222222222222222222222222222222222\r0000000000000000000000000000000000000000\x00ref2222222222222222222222222222222222222222\x00value:3\n"
"0000000000000000000000000000000000000000\x004444444444444444444444444444444444444444\x00\t0000000000000000000000000000000000000000\x00ref0000000000000000000000000000000000000000\x00value:4\n"
"1111111111111111111111111111111111111111\x000000000000000000000000000000000000000000\x00\t1111111111111111111111111111111111111111\x00ref0000000000000000000000000000000000000000\x00value:0\n"
"1111111111111111111111111111111111111111\x001111111111111111111111111111111111111111\x001111111111111111111111111111111111111111\x00ref0000000000000000000000000000000000000000\t1111111111111111111111111111111111111111\x00ref0000000000000000000000000000000000000000\r1111111111111111111111111111111111111111\x00ref0000000000000000000000000000000000000000\x00value:1\n"
"1111111111111111111111111111111111111111\x002222222222222222222222222222222222222222\x00\t1111111111111111111111111111111111111111\x00ref0000000000000000000000000000000000000000\x00value:2\n"
"1111111111111111111111111111111111111111\x003333333333333333333333333333333333333333\x001111111111111111111111111111111111111111\x00ref2222222222222222222222222222222222222222\t1111111111111111111111111111111111111111\x00ref2222222222222222222222222222222222222222\r1111111111111111111111111111111111111111\x00ref2222222222222222222222222222222222222222\x00value:3\n"
"1111111111111111111111111111111111111111\x004444444444444444444444444444444444444444\x00\t1111111111111111111111111111111111111111\x00ref0000000000000000000000000000000000000000\x00value:4\n"
""
)
self.assertEqual(expected_node, node_bytes)
def test_2_leaves_1_0(self):
builder = btree_index.BTreeBuilder(key_elements=1, reference_lists=0)
nodes = self.make_nodes(400, 1, 0)
for node in nodes:
builder.add_node(*node)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(9283, len(content))
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=0\nkey_elements=1\nlen=400\n"
"row_lengths=1,2\n",
content[:77])
root = content[77:4096]
leaf1 = content[4096:8192]
leaf2 = content[8192:]
root_bytes = zlib.decompress(root)
expected_root = (
"type=internal\n"
"offset=0\n"
) + ("307" * 40) + "\n"
self.assertEqual(expected_root, root_bytes)
# We already know serialisation works for leaves, check key selection:
leaf1_bytes = zlib.decompress(leaf1)
sorted_node_keys = sorted(node[0] for node in nodes)
node = btree_index._LeafNode(leaf1_bytes, 1, 0)
self.assertEqual(231, len(node.keys))
self.assertEqual(sorted_node_keys[:231], sorted(node.keys))
leaf2_bytes = zlib.decompress(leaf2)
node = btree_index._LeafNode(leaf2_bytes, 1, 0)
self.assertEqual(400 - 231, len(node.keys))
self.assertEqual(sorted_node_keys[231:], sorted(node.keys))
def test_last_page_rounded_1_layer(self):
builder = btree_index.BTreeBuilder(key_elements=1, reference_lists=0)
nodes = self.make_nodes(10, 1, 0)
for node in nodes:
builder.add_node(*node)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(181, len(content))
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=0\nkey_elements=1\nlen=10\n"
"row_lengths=1\n",
content[:74])
# Check thelast page is well formed
leaf2 = content[74:]
leaf2_bytes = zlib.decompress(leaf2)
node = btree_index._LeafNode(leaf2_bytes, 1, 0)
self.assertEqual(10, len(node.keys))
sorted_node_keys = sorted(node[0] for node in nodes)
self.assertEqual(sorted_node_keys, sorted(node.keys))
def test_last_page_not_rounded_2_layer(self):
builder = btree_index.BTreeBuilder(key_elements=1, reference_lists=0)
nodes = self.make_nodes(400, 1, 0)
for node in nodes:
builder.add_node(*node)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(9283, len(content))
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=0\nkey_elements=1\nlen=400\n"
"row_lengths=1,2\n",
content[:77])
# Check the last page is well formed
leaf2 = content[8192:]
leaf2_bytes = zlib.decompress(leaf2)
node = btree_index._LeafNode(leaf2_bytes, 1, 0)
self.assertEqual(400 - 231, len(node.keys))
sorted_node_keys = sorted(node[0] for node in nodes)
self.assertEqual(sorted_node_keys[231:], sorted(node.keys))
def test_three_level_tree_details(self):
# The left most pointer in the second internal node in a row should
# pointer to the second node that the internal node is for, _not_
# the first, otherwise the first node overlaps with the last node of
# the prior internal node on that row.
self.shrink_page_size()
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
# 40K nodes is enough to create a two internal nodes on the second
# level, with a 2K page size
nodes = self.make_nodes(20000, 2, 2)
for node in nodes:
builder.add_node(*node)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', self.time(builder.finish))
del builder
index = btree_index.BTreeGraphIndex(transport, 'index', size)
# Seed the metadata, we're using internal calls now.
index.key_count()
self.assertEqual(3, len(index._row_lengths),
"Not enough rows: %r" % index._row_lengths)
self.assertEqual(4, len(index._row_offsets))
self.assertEqual(sum(index._row_lengths), index._row_offsets[-1])
internal_nodes = index._get_internal_nodes([0, 1, 2])
root_node = internal_nodes[0]
internal_node1 = internal_nodes[1]
internal_node2 = internal_nodes[2]
# The left most node node2 points at should be one after the right most
# node pointed at by node1.
self.assertEqual(internal_node2.offset, 1 + len(internal_node1.keys))
# The left most key of the second node pointed at by internal_node2
# should be its first key. We can check this by looking for its first key
# in the second node it points at
pos = index._row_offsets[2] + internal_node2.offset + 1
leaf = index._get_leaf_nodes([pos])[pos]
self.assertTrue(internal_node2.keys[0] in leaf.keys)
def test_2_leaves_2_2(self):
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
nodes = self.make_nodes(100, 2, 2)
for node in nodes:
builder.add_node(*node)
# NamedTemporaryFile dies on builder.finish().read(). weird.
temp_file = builder.finish()
content = temp_file.read()
del temp_file
self.assertEqual(12643, len(content))
self.assertEqual(
"B+Tree Graph Index 2\nnode_ref_lists=2\nkey_elements=2\nlen=200\n"
"row_lengths=1,3\n",
content[:77])
root = content[77:4096]
leaf1 = content[4096:8192]
leaf2 = content[8192:12288]
leaf3 = content[12288:]
root_bytes = zlib.decompress(root)
expected_root = (
"type=internal\n"
"offset=0\n"
+ ("0" * 40) + "\x00" + ("91" * 40) + "\n"
+ ("1" * 40) + "\x00" + ("81" * 40) + "\n"
)
self.assertEqual(expected_root, root_bytes)
# We assume the other leaf nodes have been written correctly - layering
# FTW.
def test_spill_index_stress_1_1(self):
builder = btree_index.BTreeBuilder(key_elements=1, spill_at=2)
nodes = [node[0:2] for node in self.make_nodes(16, 1, 0)]
builder.add_node(*nodes[0])
# Test the parts of the index that take up memory are doing so
# predictably.
self.assertEqual(1, len(builder._nodes))
self.assertEqual(1, len(builder._keys))
self.assertIs(None, builder._nodes_by_key)
builder.add_node(*nodes[1])
self.assertEqual(0, len(builder._nodes))
self.assertEqual(0, len(builder._keys))
self.assertIs(None, builder._nodes_by_key)
self.assertEqual(1, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
# now back to memory
builder.add_node(*nodes[2])
self.assertEqual(1, len(builder._nodes))
self.assertEqual(1, len(builder._keys))
self.assertIs(None, builder._nodes_by_key)
# And spills to a second backing index combing all
builder.add_node(*nodes[3])
self.assertEqual(0, len(builder._nodes))
self.assertEqual(0, len(builder._keys))
self.assertIs(None, builder._nodes_by_key)
self.assertEqual(2, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(4, builder._backing_indices[1].key_count())
# The next spills to the 2-len slot
builder.add_node(*nodes[4])
builder.add_node(*nodes[5])
self.assertEqual(0, len(builder._nodes))
self.assertEqual(0, len(builder._keys))
self.assertIs(None, builder._nodes_by_key)
self.assertEqual(2, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
self.assertEqual(4, builder._backing_indices[1].key_count())
# Next spill combines
builder.add_node(*nodes[6])
builder.add_node(*nodes[7])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(None, builder._backing_indices[1])
self.assertEqual(8, builder._backing_indices[2].key_count())
# And so forth - counting up in binary.
builder.add_node(*nodes[8])
builder.add_node(*nodes[9])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
self.assertEqual(None, builder._backing_indices[1])
self.assertEqual(8, builder._backing_indices[2].key_count())
builder.add_node(*nodes[10])
builder.add_node(*nodes[11])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(4, builder._backing_indices[1].key_count())
self.assertEqual(8, builder._backing_indices[2].key_count())
builder.add_node(*nodes[12])
# Test that memory and disk are both used for query methods; and that
# None is skipped over happily.
self.assertEqual([(builder,) + node for node in sorted(nodes[:13])],
list(builder.iter_all_entries()))
# Two nodes - one memory one disk
self.assertEqual(set([(builder,) + node for node in nodes[11:13]]),
set(builder.iter_entries([nodes[12][0], nodes[11][0]])))
self.assertEqual(13, builder.key_count())
self.assertEqual(set([(builder,) + node for node in nodes[11:13]]),
set(builder.iter_entries_prefix([nodes[12][0], nodes[11][0]])))
builder.add_node(*nodes[13])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
self.assertEqual(4, builder._backing_indices[1].key_count())
self.assertEqual(8, builder._backing_indices[2].key_count())
builder.add_node(*nodes[14])
builder.add_node(*nodes[15])
self.assertEqual(4, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(None, builder._backing_indices[1])
self.assertEqual(None, builder._backing_indices[2])
self.assertEqual(16, builder._backing_indices[3].key_count())
# Now finish, and check we got a correctly ordered tree
transport = self.get_transport('')
size = transport.put_file('index', builder.finish())
index = btree_index.BTreeGraphIndex(transport, 'index', size)
nodes = list(index.iter_all_entries())
self.assertEqual(sorted(nodes), nodes)
self.assertEqual(16, len(nodes))
def test_spill_index_stress_2_2(self):
# test that references and longer keys don't confuse things.
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2,
spill_at=2)
nodes = self.make_nodes(16, 2, 2)
builder.add_node(*nodes[0])
# Test the parts of the index that take up memory are doing so
# predictably.
self.assertEqual(1, len(builder._keys))
self.assertEqual(1, len(builder._nodes))
self.assertIs(None, builder._nodes_by_key)
builder.add_node(*nodes[1])
self.assertEqual(0, len(builder._keys))
self.assertEqual(0, len(builder._nodes))
self.assertIs(None, builder._nodes_by_key)
self.assertEqual(1, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
# now back to memory
old = dict(builder._get_nodes_by_key()) #Build up the nodes by key dict
builder.add_node(*nodes[2])
self.assertEqual(1, len(builder._nodes))
self.assertEqual(1, len(builder._keys))
self.assertIsNot(None, builder._nodes_by_key)
self.assertNotEqual({}, builder._nodes_by_key)
# We should have a new entry
self.assertNotEqual(old, builder._nodes_by_key)
# And spills to a second backing index combing all
builder.add_node(*nodes[3])
self.assertEqual(0, len(builder._nodes))
self.assertEqual(0, len(builder._keys))
self.assertIs(None, builder._nodes_by_key)
self.assertEqual(2, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(4, builder._backing_indices[1].key_count())
# The next spills to the 2-len slot
builder.add_node(*nodes[4])
builder.add_node(*nodes[5])
self.assertEqual(0, len(builder._nodes))
self.assertEqual(0, len(builder._keys))
self.assertIs(None, builder._nodes_by_key)
self.assertEqual(2, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
self.assertEqual(4, builder._backing_indices[1].key_count())
# Next spill combines
builder.add_node(*nodes[6])
builder.add_node(*nodes[7])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(None, builder._backing_indices[1])
self.assertEqual(8, builder._backing_indices[2].key_count())
# And so forth - counting up in binary.
builder.add_node(*nodes[8])
builder.add_node(*nodes[9])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
self.assertEqual(None, builder._backing_indices[1])
self.assertEqual(8, builder._backing_indices[2].key_count())
builder.add_node(*nodes[10])
builder.add_node(*nodes[11])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(4, builder._backing_indices[1].key_count())
self.assertEqual(8, builder._backing_indices[2].key_count())
builder.add_node(*nodes[12])
# Test that memory and disk are both used for query methods; and that
# None is skipped over happily.
self.assertEqual([(builder,) + node for node in sorted(nodes[:13])],
list(builder.iter_all_entries()))
# Two nodes - one memory one disk
self.assertEqual(set([(builder,) + node for node in nodes[11:13]]),
set(builder.iter_entries([nodes[12][0], nodes[11][0]])))
self.assertEqual(13, builder.key_count())
self.assertEqual(set([(builder,) + node for node in nodes[11:13]]),
set(builder.iter_entries_prefix([nodes[12][0], nodes[11][0]])))
builder.add_node(*nodes[13])
self.assertEqual(3, len(builder._backing_indices))
self.assertEqual(2, builder._backing_indices[0].key_count())
self.assertEqual(4, builder._backing_indices[1].key_count())
self.assertEqual(8, builder._backing_indices[2].key_count())
builder.add_node(*nodes[14])
builder.add_node(*nodes[15])
self.assertEqual(4, len(builder._backing_indices))
self.assertEqual(None, builder._backing_indices[0])
self.assertEqual(None, builder._backing_indices[1])
self.assertEqual(None, builder._backing_indices[2])
self.assertEqual(16, builder._backing_indices[3].key_count())
# Now finish, and check we got a correctly ordered tree
transport = self.get_transport('')
size = transport.put_file('index', builder.finish())
index = btree_index.BTreeGraphIndex(transport, 'index', size)
nodes = list(index.iter_all_entries())
self.assertEqual(sorted(nodes), nodes)
self.assertEqual(16, len(nodes))
def test_spill_index_duplicate_key_caught_on_finish(self):
builder = btree_index.BTreeBuilder(key_elements=1, spill_at=2)
nodes = [node[0:2] for node in self.make_nodes(16, 1, 0)]
builder.add_node(*nodes[0])
builder.add_node(*nodes[1])
builder.add_node(*nodes[0])
self.assertRaises(errors.BadIndexDuplicateKey, builder.finish)
class TestBTreeIndex(BTreeTestCase):
def make_index(self, ref_lists=0, key_elements=1, nodes=[]):
builder = btree_index.BTreeBuilder(reference_lists=ref_lists,
key_elements=key_elements)
for key, value, references in nodes:
builder.add_node(key, value, references)
stream = builder.finish()
trans = get_transport('trace+' + self.get_url())
size = trans.put_file('index', stream)
return btree_index.BTreeGraphIndex(trans, 'index', size)
def test_trivial_constructor(self):
transport = get_transport('trace+' + self.get_url(''))
index = btree_index.BTreeGraphIndex(transport, 'index', None)
# Checks the page size at load, but that isn't logged yet.
self.assertEqual([], transport._activity)
def test_with_size_constructor(self):
transport = get_transport('trace+' + self.get_url(''))
index = btree_index.BTreeGraphIndex(transport, 'index', 1)
# Checks the page size at load, but that isn't logged yet.
self.assertEqual([], transport._activity)
def test_empty_key_count_no_size(self):
builder = btree_index.BTreeBuilder(key_elements=1, reference_lists=0)
transport = get_transport('trace+' + self.get_url(''))
transport.put_file('index', builder.finish())
index = btree_index.BTreeGraphIndex(transport, 'index', None)
del transport._activity[:]
self.assertEqual([], transport._activity)
self.assertEqual(0, index.key_count())
# The entire index should have been requested (as we generally have the
# size available, and doing many small readvs is inappropriate).
# We can't tell how much was actually read here, but - check the code.
self.assertEqual([('get', 'index'),
('readv', 'index', [(0, 72)], False, None)],
transport._activity)
def test_empty_key_count(self):
builder = btree_index.BTreeBuilder(key_elements=1, reference_lists=0)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', builder.finish())
self.assertEqual(72, size)
index = btree_index.BTreeGraphIndex(transport, 'index', size)
del transport._activity[:]
self.assertEqual([], transport._activity)
self.assertEqual(0, index.key_count())
# The entire index should have been read, as 4K > size
self.assertEqual([('readv', 'index', [(0, 72)], False, None)],
transport._activity)
def test_non_empty_key_count_2_2(self):
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
nodes = self.make_nodes(35, 2, 2)
for node in nodes:
builder.add_node(*node)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', builder.finish())
index = btree_index.BTreeGraphIndex(transport, 'index', size)
del transport._activity[:]
self.assertEqual([], transport._activity)
self.assertEqual(70, index.key_count())
# The entire index should have been read, as it is one page long.
self.assertEqual([('readv', 'index', [(0, size)], False, None)],
transport._activity)
self.assertEqual(1199, size)
def test_2_levels_key_count_2_2(self):
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
nodes = self.make_nodes(160, 2, 2)
for node in nodes:
builder.add_node(*node)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', builder.finish())
self.assertEqual(17692, size)
index = btree_index.BTreeGraphIndex(transport, 'index', size)
del transport._activity[:]
self.assertEqual([], transport._activity)
self.assertEqual(320, index.key_count())
# The entire index should not have been read.
self.assertEqual([('readv', 'index', [(0, 4096)], False, None)],
transport._activity)
def test_validate_one_page(self):
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
nodes = self.make_nodes(45, 2, 2)
for node in nodes:
builder.add_node(*node)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', builder.finish())
index = btree_index.BTreeGraphIndex(transport, 'index', size)
del transport._activity[:]
self.assertEqual([], transport._activity)
index.validate()
# The entire index should have been read linearly.
self.assertEqual([('readv', 'index', [(0, size)], False, None)],
transport._activity)
self.assertEqual(1514, size)
def test_validate_two_pages(self):
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
nodes = self.make_nodes(80, 2, 2)
for node in nodes:
builder.add_node(*node)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', builder.finish())
# Root page, 2 leaf pages
self.assertEqual(9339, size)
index = btree_index.BTreeGraphIndex(transport, 'index', size)
del transport._activity[:]
self.assertEqual([], transport._activity)
index.validate()
# The entire index should have been read linearly.
self.assertEqual([('readv', 'index', [(0, 4096)], False, None),
('readv', 'index', [(4096, 4096), (8192, 1147)], False, None)],
transport._activity)
# XXX: TODO: write some badly-ordered nodes, and some pointers-to-wrong
# node and make validate find them.
def test_eq_ne(self):
# two indices are equal when constructed with the same parameters:
transport1 = get_transport('trace+' + self.get_url(''))
transport2 = get_transport(self.get_url(''))
self.assertTrue(
btree_index.BTreeGraphIndex(transport1, 'index', None) ==
btree_index.BTreeGraphIndex(transport1, 'index', None))
self.assertTrue(
btree_index.BTreeGraphIndex(transport1, 'index', 20) ==
btree_index.BTreeGraphIndex(transport1, 'index', 20))
self.assertFalse(
btree_index.BTreeGraphIndex(transport1, 'index', 20) ==
btree_index.BTreeGraphIndex(transport2, 'index', 20))
self.assertFalse(
btree_index.BTreeGraphIndex(transport1, 'inde1', 20) ==
btree_index.BTreeGraphIndex(transport1, 'inde2', 20))
self.assertFalse(
btree_index.BTreeGraphIndex(transport1, 'index', 10) ==
btree_index.BTreeGraphIndex(transport1, 'index', 20))
self.assertFalse(
btree_index.BTreeGraphIndex(transport1, 'index', None) !=
btree_index.BTreeGraphIndex(transport1, 'index', None))
self.assertFalse(
btree_index.BTreeGraphIndex(transport1, 'index', 20) !=
btree_index.BTreeGraphIndex(transport1, 'index', 20))
self.assertTrue(
btree_index.BTreeGraphIndex(transport1, 'index', 20) !=
btree_index.BTreeGraphIndex(transport2, 'index', 20))
self.assertTrue(
btree_index.BTreeGraphIndex(transport1, 'inde1', 20) !=
btree_index.BTreeGraphIndex(transport1, 'inde2', 20))
self.assertTrue(
btree_index.BTreeGraphIndex(transport1, 'index', 10) !=
btree_index.BTreeGraphIndex(transport1, 'index', 20))
def test_iter_all_entries_reads(self):
# iterating all entries reads the header, then does a linear
# read.
self.shrink_page_size()
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
# 20k nodes is enough to create a two internal nodes on the second
# level, with a 2K page size
nodes = self.make_nodes(10000, 2, 2)
for node in nodes:
builder.add_node(*node)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', builder.finish())
self.assertEqual(1303220, size, 'number of expected bytes in the'
' output changed')
page_size = btree_index._PAGE_SIZE
del builder
index = btree_index.BTreeGraphIndex(transport, 'index', size)
del transport._activity[:]
self.assertEqual([], transport._activity)
found_nodes = self.time(list, index.iter_all_entries())
bare_nodes = []
for node in found_nodes:
self.assertTrue(node[0] is index)
bare_nodes.append(node[1:])
self.assertEqual(3, len(index._row_lengths),
"Not enough rows: %r" % index._row_lengths)
# Should be as long as the nodes we supplied
self.assertEqual(20000, len(found_nodes))
# Should have the same content
self.assertEqual(set(nodes), set(bare_nodes))
# Should have done linear scan IO up the index, ignoring
# the internal nodes:
# The entire index should have been read
total_pages = sum(index._row_lengths)
self.assertEqual(total_pages, index._row_offsets[-1])
self.assertEqual(1303220, size)
# The start of the leaves
first_byte = index._row_offsets[-2] * page_size
readv_request = []
for offset in range(first_byte, size, page_size):
readv_request.append((offset, page_size))
# The last page is truncated
readv_request[-1] = (readv_request[-1][0], 1303220 % page_size)
expected = [('readv', 'index', [(0, page_size)], False, None),
('readv', 'index', readv_request, False, None)]
if expected != transport._activity:
self.assertEqualDiff(pprint.pformat(expected),
pprint.pformat(transport._activity))
def _test_iter_entries_references_resolved(self):
index = self.make_index(1, nodes=[
(('name', ), 'data', ([('ref', ), ('ref', )], )),
(('ref', ), 'refdata', ([], ))])
self.assertEqual(set([(index, ('name', ), 'data', ((('ref',),('ref',)),)),
(index, ('ref', ), 'refdata', ((), ))]),
set(index.iter_entries([('name',), ('ref',)])))
def test_iter_entries_references_2_refs_resolved(self):
# iterating some entries reads just the pages needed. For now, to
# get it working and start measuring, only 4K pages are read.
builder = btree_index.BTreeBuilder(key_elements=2, reference_lists=2)
# 80 nodes is enough to create a two-level index.
nodes = self.make_nodes(160, 2, 2)
for node in nodes:
builder.add_node(*node)
transport = get_transport('trace+' + self.get_url(''))
size = transport.put_file('index', builder.finish())
del builder
index = btree_index.BTreeGraphIndex(transport, 'index', size)
del transport._activity[:]
self.assertEqual([], transport._activity)
# search for one key
found_nodes = list(index.iter_entries([nodes[30][0]]))
bare_nodes = []
for node in found_nodes:
self.assertTrue(node[0] is index)
bare_nodes.append(node[1:])
# Should be as long as the nodes we supplied
self.assertEqual(1, len(found_nodes))
# Should have the same content
self.assertEqual(nodes[30], bare_nodes[0])
# Should have read the root node, then one leaf page:
self.assertEqual([('readv', 'index', [(0, 4096)], False, None),
('readv', 'index', [(8192, 4096), ], False, None)],
transport._activity)
def test_iter_key_prefix_1_element_key_None(self):
index = self.make_index()
self.assertRaises(errors.BadIndexKey, list,
index.iter_entries_prefix([(None, )]))
def test_iter_key_prefix_wrong_length(self):
index = self.make_index()
self.assertRaises(errors.BadIndexKey, list,
index.iter_entries_prefix([('foo', None)]))
index = self.make_index(key_elements=2)
self.assertRaises(errors.BadIndexKey, list,
index.iter_entries_prefix([('foo', )]))
self.assertRaises(errors.BadIndexKey, list,
index.iter_entries_prefix([('foo', None, None)]))
def test_iter_key_prefix_1_key_element_no_refs(self):
index = self.make_index( nodes=[
(('name', ), 'data', ()),
(('ref', ), 'refdata', ())])
self.assertEqual(set([(index, ('name', ), 'data'),
(index, ('ref', ), 'refdata')]),
set(index.iter_entries_prefix([('name', ), ('ref', )])))
def test_iter_key_prefix_1_key_element_refs(self):
index = self.make_index(1, nodes=[
(('name', ), 'data', ([('ref', )], )),
(('ref', ), 'refdata', ([], ))])
self.assertEqual(set([(index, ('name', ), 'data', ((('ref',),),)),
(index, ('ref', ), 'refdata', ((), ))]),
set(index.iter_entries_prefix([('name', ), ('ref', )])))
def test_iter_key_prefix_2_key_element_no_refs(self):
index = self.make_index(key_elements=2, nodes=[
(('name', 'fin1'), 'data', ()),
(('name', 'fin2'), 'beta', ()),
(('ref', 'erence'), 'refdata', ())])
self.assertEqual(set([(index, ('name', 'fin1'), 'data'),
(index, ('ref', 'erence'), 'refdata')]),
set(index.iter_entries_prefix([('name', 'fin1'), ('ref', 'erence')])))
self.assertEqual(set([(index, ('name', 'fin1'), 'data'),
(index, ('name', 'fin2'), 'beta')]),
set(index.iter_entries_prefix([('name', None)])))
def test_iter_key_prefix_2_key_element_refs(self):
index = self.make_index(1, key_elements=2, nodes=[
(('name', 'fin1'), 'data', ([('ref', 'erence')], )),
(('name', 'fin2'), 'beta', ([], )),
(('ref', 'erence'), 'refdata', ([], ))])
self.assertEqual(set([(index, ('name', 'fin1'), 'data', ((('ref', 'erence'),),)),
(index, ('ref', 'erence'), 'refdata', ((), ))]),
set(index.iter_entries_prefix([('name', 'fin1'), ('ref', 'erence')])))
self.assertEqual(set([(index, ('name', 'fin1'), 'data', ((('ref', 'erence'),),)),
(index, ('name', 'fin2'), 'beta', ((), ))]),
set(index.iter_entries_prefix([('name', None)])))
class TestBTreeNodes(BTreeTestCase):
def restore_parser(self):
btree_index._btree_serializer = self.saved_parser
def setUp(self):
BTreeTestCase.setUp(self)
self.saved_parser = btree_index._btree_serializer
self.addCleanup(self.restore_parser)
btree_index._btree_serializer = self.parse_btree
def test_LeafNode_1_0(self):
node_bytes = ("type=leaf\n"
"0000000000000000000000000000000000000000\x00\x00value:0\n"
"1111111111111111111111111111111111111111\x00\x00value:1\n"
"2222222222222222222222222222222222222222\x00\x00value:2\n"
"3333333333333333333333333333333333333333\x00\x00value:3\n"
"4444444444444444444444444444444444444444\x00\x00value:4\n")
node = btree_index._LeafNode(node_bytes, 1, 0)
# We do direct access, or don't care about order, to leaf nodes most of
# the time, so a dict is useful:
self.assertEqual({
("0000000000000000000000000000000000000000",): ("value:0", ()),
("1111111111111111111111111111111111111111",): ("value:1", ()),
("2222222222222222222222222222222222222222",): ("value:2", ()),
("3333333333333333333333333333333333333333",): ("value:3", ()),
("4444444444444444444444444444444444444444",): ("value:4", ()),
}, node.keys)
def test_LeafNode_2_2(self):
node_bytes = ("type=leaf\n"
"00\x0000\x00\t00\x00ref00\x00value:0\n"
"00\x0011\x0000\x00ref00\t00\x00ref00\r01\x00ref01\x00value:1\n"
"11\x0033\x0011\x00ref22\t11\x00ref22\r11\x00ref22\x00value:3\n"
"11\x0044\x00\t11\x00ref00\x00value:4\n"
""
)
node = btree_index._LeafNode(node_bytes, 2, 2)
# We do direct access, or don't care about order, to leaf nodes most of
# the time, so a dict is useful:
self.assertEqual({
('00', '00'): ('value:0', ((), (('00', 'ref00'),))),
('00', '11'): ('value:1',
((('00', 'ref00'),), (('00', 'ref00'), ('01', 'ref01')))),
('11', '33'): ('value:3',
((('11', 'ref22'),), (('11', 'ref22'), ('11', 'ref22')))),
('11', '44'): ('value:4', ((), (('11', 'ref00'),)))
}, node.keys)
def test_InternalNode_1(self):
node_bytes = ("type=internal\n"
"offset=1\n"
"0000000000000000000000000000000000000000\n"
"1111111111111111111111111111111111111111\n"
"2222222222222222222222222222222222222222\n"
"3333333333333333333333333333333333333333\n"
"4444444444444444444444444444444444444444\n"
)
node = btree_index._InternalNode(node_bytes)
# We want to bisect to find the right children from this node, so a
# vector is most useful.
self.assertEqual([
("0000000000000000000000000000000000000000",),
("1111111111111111111111111111111111111111",),
("2222222222222222222222222222222222222222",),
("3333333333333333333333333333333333333333",),
("4444444444444444444444444444444444444444",),
], node.keys)
self.assertEqual(1, node.offset)
def test_LeafNode_2_2(self):
node_bytes = ("type=leaf\n"
"00\x0000\x00\t00\x00ref00\x00value:0\n"
"00\x0011\x0000\x00ref00\t00\x00ref00\r01\x00ref01\x00value:1\n"
"11\x0033\x0011\x00ref22\t11\x00ref22\r11\x00ref22\x00value:3\n"
"11\x0044\x00\t11\x00ref00\x00value:4\n"
""
)
node = btree_index._LeafNode(node_bytes, 2, 2)
# We do direct access, or don't care about order, to leaf nodes most of
# the time, so a dict is useful:
self.assertEqual({
('00', '00'): ('value:0', ((), (('00', 'ref00'),))),
('00', '11'): ('value:1',
((('00', 'ref00'),), (('00', 'ref00'), ('01', 'ref01')))),
('11', '33'): ('value:3',
((('11', 'ref22'),), (('11', 'ref22'), ('11', 'ref22')))),
('11', '44'): ('value:4', ((), (('11', 'ref00'),)))
}, node.keys)
def assertFlattened(self, expected, key, value, refs):
flat_key, flat_line = self.parse_btree._flatten_node(
(None, key, value, refs), bool(refs))
self.assertEqual('\x00'.join(key), flat_key)
self.assertEqual(expected, flat_line)
def test__flatten_node(self):
self.assertFlattened('key\0\0value\n', ('key',), 'value', [])
self.assertFlattened('key\0tuple\0\0value str\n',
('key', 'tuple'), 'value str', [])
self.assertFlattened('key\0tuple\0triple\0\0value str\n',
('key', 'tuple', 'triple'), 'value str', [])
self.assertFlattened('k\0t\0s\0ref\0value str\n',
('k', 't', 's'), 'value str', [[('ref',)]])
self.assertFlattened('key\0tuple\0ref\0key\0value str\n',
('key', 'tuple'), 'value str', [[('ref', 'key')]])
self.assertFlattened("00\x0000\x00\t00\x00ref00\x00value:0\n",
('00', '00'), 'value:0', ((), (('00', 'ref00'),)))
self.assertFlattened(
"00\x0011\x0000\x00ref00\t00\x00ref00\r01\x00ref01\x00value:1\n",
('00', '11'), 'value:1',
((('00', 'ref00'),), (('00', 'ref00'), ('01', 'ref01'))))
self.assertFlattened(
"11\x0033\x0011\x00ref22\t11\x00ref22\r11\x00ref22\x00value:3\n",
('11', '33'), 'value:3',
((('11', 'ref22'),), (('11', 'ref22'), ('11', 'ref22'))))
self.assertFlattened(
"11\x0044\x00\t11\x00ref00\x00value:4\n",
('11', '44'), 'value:4', ((), (('11', 'ref00'),)))
class TestCompiledBtree(tests.TestCase):
def test_exists(self):
# This is just to let the user know if they don't have the feature
# available
self.requireFeature(CompiledBtreeParserFeature)
class TestMultiBisectRight(tests.TestCase):
def assertMultiBisectRight(self, offsets, search_keys, fixed_keys):
self.assertEqual(offsets,
btree_index.BTreeGraphIndex._multi_bisect_right(
search_keys, fixed_keys))
def test_after(self):
self.assertMultiBisectRight([(1, ['b'])], ['b'], ['a'])
self.assertMultiBisectRight([(3, ['e', 'f', 'g'])],
['e', 'f', 'g'], ['a', 'b', 'c'])
def test_before(self):
self.assertMultiBisectRight([(0, ['a'])], ['a'], ['b'])
self.assertMultiBisectRight([(0, ['a', 'b', 'c', 'd'])],
['a', 'b', 'c', 'd'], ['e', 'f', 'g'])
def test_exact(self):
self.assertMultiBisectRight([(1, ['a'])], ['a'], ['a'])
self.assertMultiBisectRight([(1, ['a']), (2, ['b'])], ['a', 'b'], ['a', 'b'])
self.assertMultiBisectRight([(1, ['a']), (3, ['c'])],
['a', 'c'], ['a', 'b', 'c'])
def test_inbetween(self):
self.assertMultiBisectRight([(1, ['b'])], ['b'], ['a', 'c'])
self.assertMultiBisectRight([(1, ['b', 'c', 'd']), (2, ['f', 'g'])],
['b', 'c', 'd', 'f', 'g'], ['a', 'e', 'h'])
def test_mixed(self):
self.assertMultiBisectRight([(0, ['a', 'b']), (2, ['d', 'e']),
(4, ['g', 'h'])],
['a', 'b', 'd', 'e', 'g', 'h'],
['c', 'd', 'f', 'g'])
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