# Copyright (C) 2006, 2008 Canonical Ltd
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
# Dulwich is dual-licensed under the Apache License, Version 2.0 and the GNU
# General Public License as public by the Free Software Foundation; version 2.0
# or (at your option) any later version. You can redistribute it and/or
# modify it under the terms of either of these two licenses.
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# You should have received a copy of the licenses; if not, see
# <http://www.gnu.org/licenses/> for a copy of the GNU General Public License
# and <http://www.apache.org/licenses/LICENSE-2.0> for a copy of the Apache
# License, Version 2.0.
#
"""Tests for the lru_cache module."""
from dulwich import lru_cache
from . import TestCase
class TestLRUCache(TestCase):
"""Test that LRU cache properly keeps track of entries."""
def test_cache_size(self) -> None:
cache = lru_cache.LRUCache(max_cache=10)
self.assertEqual(10, cache.cache_size())
cache = lru_cache.LRUCache(max_cache=256)
self.assertEqual(256, cache.cache_size())
cache.resize(512)
self.assertEqual(512, cache.cache_size())
def test_missing(self) -> None:
cache = lru_cache.LRUCache(max_cache=10)
self.assertNotIn("foo", cache)
self.assertRaises(KeyError, cache.__getitem__, "foo")
cache["foo"] = "bar"
self.assertEqual("bar", cache["foo"])
self.assertIn("foo", cache)
self.assertNotIn("bar", cache)
def test_map_None(self) -> None:
# Make sure that we can properly map None as a key.
cache = lru_cache.LRUCache(max_cache=10)
self.assertNotIn(None, cache)
cache[None] = 1
self.assertEqual(1, cache[None])
cache[None] = 2
self.assertEqual(2, cache[None])
# Test the various code paths of __getitem__, to make sure that we can
# handle when None is the key for the LRU and the MRU
cache[1] = 3
cache[None] = 1
cache[None]
cache[1]
cache[None]
self.assertEqual([None, 1], [n.key for n in cache._walk_lru()])
def test_add__null_key(self) -> None:
cache = lru_cache.LRUCache(max_cache=10)
self.assertRaises(ValueError, cache.add, lru_cache._null_key, 1)
def test_overflow(self) -> None:
"""Adding extra entries will pop out old ones."""
cache = lru_cache.LRUCache(max_cache=1, after_cleanup_count=1)
cache["foo"] = "bar"
# With a max cache of 1, adding 'baz' should pop out 'foo'
cache["baz"] = "biz"
self.assertNotIn("foo", cache)
self.assertIn("baz", cache)
self.assertEqual("biz", cache["baz"])
def test_by_usage(self) -> None:
"""Accessing entries bumps them up in priority."""
cache = lru_cache.LRUCache(max_cache=2)
cache["baz"] = "biz"
cache["foo"] = "bar"
self.assertEqual("biz", cache["baz"])
# This must kick out 'foo' because it was the last accessed
cache["nub"] = "in"
self.assertNotIn("foo", cache)
def test_cleanup(self) -> None:
"""Test that we can use a cleanup function."""
cleanup_called = []
def cleanup_func(key, val) -> None:
cleanup_called.append((key, val))
cache = lru_cache.LRUCache(max_cache=2, after_cleanup_count=2)
cache.add("baz", "1", cleanup=cleanup_func)
cache.add("foo", "2", cleanup=cleanup_func)
cache.add("biz", "3", cleanup=cleanup_func)
self.assertEqual([("baz", "1")], cleanup_called)
# 'foo' is now most recent, so final cleanup will call it last
cache["foo"]
cache.clear()
self.assertEqual([("baz", "1"), ("biz", "3"), ("foo", "2")], cleanup_called)
def test_cleanup_on_replace(self) -> None:
"""Replacing an object should cleanup the old value."""
cleanup_called = []
def cleanup_func(key, val) -> None:
cleanup_called.append((key, val))
cache = lru_cache.LRUCache(max_cache=2)
cache.add(1, 10, cleanup=cleanup_func)
cache.add(2, 20, cleanup=cleanup_func)
cache.add(2, 25, cleanup=cleanup_func)
self.assertEqual([(2, 20)], cleanup_called)
self.assertEqual(25, cache[2])
# Even __setitem__ should make sure cleanup() is called
cache[2] = 26
self.assertEqual([(2, 20), (2, 25)], cleanup_called)
def test_len(self) -> None:
cache = lru_cache.LRUCache(max_cache=10, after_cleanup_count=10)
cache[1] = 10
cache[2] = 20
cache[3] = 30
cache[4] = 40
self.assertEqual(4, len(cache))
cache[5] = 50
cache[6] = 60
cache[7] = 70
cache[8] = 80
self.assertEqual(8, len(cache))
cache[1] = 15 # replacement
self.assertEqual(8, len(cache))
cache[9] = 90
cache[10] = 100
cache[11] = 110
# We hit the max
self.assertEqual(10, len(cache))
self.assertEqual(
[11, 10, 9, 1, 8, 7, 6, 5, 4, 3],
[n.key for n in cache._walk_lru()],
)
def test_cleanup_shrinks_to_after_clean_count(self) -> None:
cache = lru_cache.LRUCache(max_cache=5, after_cleanup_count=3)
cache.add(1, 10)
cache.add(2, 20)
cache.add(3, 25)
cache.add(4, 30)
cache.add(5, 35)
self.assertEqual(5, len(cache))
# This will bump us over the max, which causes us to shrink down to
# after_cleanup_cache size
cache.add(6, 40)
self.assertEqual(3, len(cache))
def test_after_cleanup_larger_than_max(self) -> None:
cache = lru_cache.LRUCache(max_cache=5, after_cleanup_count=10)
self.assertEqual(5, cache._after_cleanup_count)
def test_after_cleanup_none(self) -> None:
cache = lru_cache.LRUCache(max_cache=5, after_cleanup_count=None)
# By default _after_cleanup_size is 80% of the normal size
self.assertEqual(4, cache._after_cleanup_count)
def test_cleanup_2(self) -> None:
cache = lru_cache.LRUCache(max_cache=5, after_cleanup_count=2)
# Add these in order
cache.add(1, 10)
cache.add(2, 20)
cache.add(3, 25)
cache.add(4, 30)
cache.add(5, 35)
self.assertEqual(5, len(cache))
# Force a compaction
cache.cleanup()
self.assertEqual(2, len(cache))
def test_preserve_last_access_order(self) -> None:
cache = lru_cache.LRUCache(max_cache=5)
# Add these in order
cache.add(1, 10)
cache.add(2, 20)
cache.add(3, 25)
cache.add(4, 30)
cache.add(5, 35)
self.assertEqual([5, 4, 3, 2, 1], [n.key for n in cache._walk_lru()])
# Now access some randomly
cache[2]
cache[5]
cache[3]
cache[2]
self.assertEqual([2, 3, 5, 4, 1], [n.key for n in cache._walk_lru()])
def test_get(self) -> None:
cache = lru_cache.LRUCache(max_cache=5)
cache.add(1, 10)
cache.add(2, 20)
self.assertEqual(20, cache.get(2))
self.assertEqual(None, cache.get(3))
obj = object()
self.assertIs(obj, cache.get(3, obj))
self.assertEqual([2, 1], [n.key for n in cache._walk_lru()])
self.assertEqual(10, cache.get(1))
self.assertEqual([1, 2], [n.key for n in cache._walk_lru()])
def test_keys(self) -> None:
cache = lru_cache.LRUCache(max_cache=5, after_cleanup_count=5)
cache[1] = 2
cache[2] = 3
cache[3] = 4
self.assertEqual([1, 2, 3], sorted(cache.keys()))
cache[4] = 5
cache[5] = 6
cache[6] = 7
self.assertEqual([2, 3, 4, 5, 6], sorted(cache.keys()))
def test_resize_smaller(self) -> None:
cache = lru_cache.LRUCache(max_cache=5, after_cleanup_count=4)
cache[1] = 2
cache[2] = 3
cache[3] = 4
cache[4] = 5
cache[5] = 6
self.assertEqual([1, 2, 3, 4, 5], sorted(cache.keys()))
cache[6] = 7
self.assertEqual([3, 4, 5, 6], sorted(cache.keys()))
# Now resize to something smaller, which triggers a cleanup
cache.resize(max_cache=3, after_cleanup_count=2)
self.assertEqual([5, 6], sorted(cache.keys()))
# Adding something will use the new size
cache[7] = 8
self.assertEqual([5, 6, 7], sorted(cache.keys()))
cache[8] = 9
self.assertEqual([7, 8], sorted(cache.keys()))
def test_resize_larger(self) -> None:
cache = lru_cache.LRUCache(max_cache=5, after_cleanup_count=4)
cache[1] = 2
cache[2] = 3
cache[3] = 4
cache[4] = 5
cache[5] = 6
self.assertEqual([1, 2, 3, 4, 5], sorted(cache.keys()))
cache[6] = 7
self.assertEqual([3, 4, 5, 6], sorted(cache.keys()))
cache.resize(max_cache=8, after_cleanup_count=6)
self.assertEqual([3, 4, 5, 6], sorted(cache.keys()))
cache[7] = 8
cache[8] = 9
cache[9] = 10
cache[10] = 11
self.assertEqual([3, 4, 5, 6, 7, 8, 9, 10], sorted(cache.keys()))
cache[11] = 12 # triggers cleanup back to new after_cleanup_count
self.assertEqual([6, 7, 8, 9, 10, 11], sorted(cache.keys()))
class TestLRUSizeCache(TestCase):
def test_basic_init(self) -> None:
cache = lru_cache.LRUSizeCache()
self.assertEqual(2048, cache._max_cache)
self.assertEqual(int(cache._max_size * 0.8), cache._after_cleanup_size)
self.assertEqual(0, cache._value_size)
def test_add__null_key(self) -> None:
cache = lru_cache.LRUSizeCache()
self.assertRaises(ValueError, cache.add, lru_cache._null_key, 1)
def test_add_tracks_size(self) -> None:
cache = lru_cache.LRUSizeCache()
self.assertEqual(0, cache._value_size)
cache.add("my key", "my value text")
self.assertEqual(13, cache._value_size)
def test_remove_tracks_size(self) -> None:
cache = lru_cache.LRUSizeCache()
self.assertEqual(0, cache._value_size)
cache.add("my key", "my value text")
self.assertEqual(13, cache._value_size)
node = cache._cache["my key"]
cache._remove_node(node)
self.assertEqual(0, cache._value_size)
def test_no_add_over_size(self) -> None:
"""Adding a large value may not be cached at all."""
cache = lru_cache.LRUSizeCache(max_size=10, after_cleanup_size=5)
self.assertEqual(0, cache._value_size)
self.assertEqual({}, cache.items())
cache.add("test", "key")
self.assertEqual(3, cache._value_size)
self.assertEqual({"test": "key"}, cache.items())
cache.add("test2", "key that is too big")
self.assertEqual(3, cache._value_size)
self.assertEqual({"test": "key"}, cache.items())
# If we would add a key, only to cleanup and remove all cached entries,
# then obviously that value should not be stored
cache.add("test3", "bigkey")
self.assertEqual(3, cache._value_size)
self.assertEqual({"test": "key"}, cache.items())
cache.add("test4", "bikey")
self.assertEqual(3, cache._value_size)
self.assertEqual({"test": "key"}, cache.items())
def test_no_add_over_size_cleanup(self) -> None:
"""If a large value is not cached, we will call cleanup right away."""
cleanup_calls = []
def cleanup(key, value) -> None:
cleanup_calls.append((key, value))
cache = lru_cache.LRUSizeCache(max_size=10, after_cleanup_size=5)
self.assertEqual(0, cache._value_size)
self.assertEqual({}, cache.items())
cache.add("test", "key that is too big", cleanup=cleanup)
# key was not added
self.assertEqual(0, cache._value_size)
self.assertEqual({}, cache.items())
# and cleanup was called
self.assertEqual([("test", "key that is too big")], cleanup_calls)
def test_adding_clears_cache_based_on_size(self) -> None:
"""The cache is cleared in LRU order until small enough."""
cache = lru_cache.LRUSizeCache(max_size=20)
cache.add("key1", "value") # 5 chars
cache.add("key2", "value2") # 6 chars
cache.add("key3", "value23") # 7 chars
self.assertEqual(5 + 6 + 7, cache._value_size)
cache["key2"] # reference key2 so it gets a newer reference time
cache.add("key4", "value234") # 8 chars, over limit
# We have to remove 2 keys to get back under limit
self.assertEqual(6 + 8, cache._value_size)
self.assertEqual({"key2": "value2", "key4": "value234"}, cache.items())
def test_adding_clears_to_after_cleanup_size(self) -> None:
cache = lru_cache.LRUSizeCache(max_size=20, after_cleanup_size=10)
cache.add("key1", "value") # 5 chars
cache.add("key2", "value2") # 6 chars
cache.add("key3", "value23") # 7 chars
self.assertEqual(5 + 6 + 7, cache._value_size)
cache["key2"] # reference key2 so it gets a newer reference time
cache.add("key4", "value234") # 8 chars, over limit
# We have to remove 3 keys to get back under limit
self.assertEqual(8, cache._value_size)
self.assertEqual({"key4": "value234"}, cache.items())
def test_custom_sizes(self) -> None:
def size_of_list(lst):
return sum(len(x) for x in lst)
cache = lru_cache.LRUSizeCache(
max_size=20, after_cleanup_size=10, compute_size=size_of_list
)
cache.add("key1", ["val", "ue"]) # 5 chars
cache.add("key2", ["val", "ue2"]) # 6 chars
cache.add("key3", ["val", "ue23"]) # 7 chars
self.assertEqual(5 + 6 + 7, cache._value_size)
cache["key2"] # reference key2 so it gets a newer reference time
cache.add("key4", ["value", "234"]) # 8 chars, over limit
# We have to remove 3 keys to get back under limit
self.assertEqual(8, cache._value_size)
self.assertEqual({"key4": ["value", "234"]}, cache.items())
def test_cleanup(self) -> None:
cache = lru_cache.LRUSizeCache(max_size=20, after_cleanup_size=10)
# Add these in order
cache.add("key1", "value") # 5 chars
cache.add("key2", "value2") # 6 chars
cache.add("key3", "value23") # 7 chars
self.assertEqual(5 + 6 + 7, cache._value_size)
cache.cleanup()
# Only the most recent fits after cleaning up
self.assertEqual(7, cache._value_size)
def test_keys(self) -> None:
cache = lru_cache.LRUSizeCache(max_size=10)
cache[1] = "a"
cache[2] = "b"
cache[3] = "cdef"
self.assertEqual([1, 2, 3], sorted(cache.keys()))
def test_resize_smaller(self) -> None:
cache = lru_cache.LRUSizeCache(max_size=10, after_cleanup_size=9)
cache[1] = "abc"
cache[2] = "def"
cache[3] = "ghi"
cache[4] = "jkl"
# Triggers a cleanup
self.assertEqual([2, 3, 4], sorted(cache.keys()))
# Resize should also cleanup again
cache.resize(max_size=6, after_cleanup_size=4)
self.assertEqual([4], sorted(cache.keys()))
# Adding should use the new max size
cache[5] = "mno"
self.assertEqual([4, 5], sorted(cache.keys()))
cache[6] = "pqr"
self.assertEqual([6], sorted(cache.keys()))
def test_resize_larger(self) -> None:
cache = lru_cache.LRUSizeCache(max_size=10, after_cleanup_size=9)
cache[1] = "abc"
cache[2] = "def"
cache[3] = "ghi"
cache[4] = "jkl"
# Triggers a cleanup
self.assertEqual([2, 3, 4], sorted(cache.keys()))
cache.resize(max_size=15, after_cleanup_size=12)
self.assertEqual([2, 3, 4], sorted(cache.keys()))
cache[5] = "mno"
cache[6] = "pqr"
self.assertEqual([2, 3, 4, 5, 6], sorted(cache.keys()))
cache[7] = "stu"
self.assertEqual([4, 5, 6, 7], sorted(cache.keys()))