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1 /*
2  * Copyright 2020 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #pragma once
18 
19 #include <functional>
20 #include <iterator>
21 #include <list>
22 #include <mutex>
23 #include <optional>
24 #include <thread>
25 #include <unordered_map>
26 
27 #include "common/list_map.h"
28 #include "os/log.h"
29 
30 namespace bluetooth {
31 namespace common {
32 
33 // An LRU map-cache the evict the oldest item when reaching capacity
34 //
35 // Usage:
36 //   - keys are sorted from warmest to coldest
37 //   - iterating through the cache won't warm up keys
38 //   - operations on iterators won't warm up keys
39 //   - find(), contains(), insert_or_assign() will warm up the key
40 //   - insert_or_assign() will evict coldest key when cache reaches capacity
41 //   - NOT THREAD SAFE
42 //
43 // Performance:
44 //   - Key look-up and modification is O(1)
45 //   - Memory consumption is:
46 //     O(2*capacity*sizeof(K) + capacity*(sizeof(nullptr)+sizeof(V)))
47 //
48 // Template:
49 //   - Key key type
50 //   - T value type
51 // */
52 template <typename Key, typename T>
53 class LruCache {
54  public:
55   using value_type = typename ListMap<Key, T>::value_type;
56   // different from c++17 node_type on purpose as we want node to be copyable
57   using node_type = typename ListMap<Key, T>::node_type;
58   using iterator = typename ListMap<Key, T>::iterator;
59   using const_iterator = typename ListMap<Key, T>::const_iterator;
60 
61   // Constructor a LRU cache with |capacity|
LruCache(size_t capacity)62   explicit LruCache(size_t capacity) : capacity_(capacity) {
63     ASSERT_LOG(capacity_ != 0, "Unable to have 0 LRU Cache capacity");
64   }
65 
66   // for move
67   LruCache(LruCache&& other) noexcept = default;
68   LruCache& operator=(LruCache&& other) noexcept = default;
69 
70   // copy-constructor
71   // iterators in key_map_ cannot be copied directly
LruCache(const LruCache & other)72   LruCache(const LruCache& other) : capacity_(other.capacity_), list_map_(other.list_map_) {}
73 
74   // copy-assignment
75   // iterators in key_map_ cannot be copied directly
76   LruCache& operator=(const LruCache& other) {
77     if (&other == this) {
78       return *this;
79     }
80     capacity_ = other.capacity_;
81     list_map_ = other.list_map_;
82     return *this;
83   }
84 
85   // comparison operators
86   bool operator==(const LruCache& rhs) const {
87     return capacity_ == rhs.capacity_ && list_map_ == rhs.list_map_;
88   }
89   bool operator!=(const LruCache& rhs) const {
90     return !(*this == rhs);
91   }
92 
~LruCache()93   ~LruCache() {
94     clear();
95   }
96 
97   // Clear the cache
clear()98   void clear() {
99     list_map_.clear();
100   }
101 
102   // Find the value of a key, and move the key to the head of cache, if there is one. Return iterator to value if key
103   // exists, end() if not. Iterator might be invalidated when removed or evicted. Const version.
104   //
105   // LRU: Will warm up key
106   // LRU: Access to returned iterator won't move key in LRU
find(const Key & key)107   const_iterator find(const Key& key) const {
108     return const_cast<LruCache*>(this)->find(key);
109   }
110 
111   // Find the value of a key, and move the key to the head of cache, if there is one. Return iterator to value if key
112   // exists, end() if not. Iterator might be invalidated when removed or evicted
113   //
114   // LRU: Will warm up key
115   // LRU: Access to returned iterator won't move key in LRU
find(const Key & key)116   iterator find(const Key& key) {
117     auto iter = list_map_.find(key);
118     if (iter == list_map_.end()) {
119       return end();
120     }
121     // move to front
122     list_map_.splice(list_map_.begin(), list_map_, iter);
123     return iter;
124   }
125 
126   // Check if key exist in the cache. Return true if key exist in cache, false, if not
127   //
128   // LRU: Will warm up key
contains(const Key & key)129   bool contains(const Key& key) const {
130     return find(key) != list_map_.end();
131   }
132 
133   // Put a key-value pair to the head of cache, evict the oldest key if cache is at capacity. Eviction is based on key
134   // ONLY. Hence, updating a key will not evict the oldest key. Return evicted value if old value was evicted,
135   // std::nullopt if not. The return value will be evaluated to true in a boolean context if a value is contained by
136   // std::optional, false otherwise.
137   //
138   // LRU: Will warm up key
insert_or_assign(const Key & key,T value)139   std::optional<node_type> insert_or_assign(const Key& key, T value) {
140     if (contains(key)) {
141       // contains() calls find() that moved the node to the head
142       list_map_.begin()->second = std::move(value);
143       return std::nullopt;
144     }
145     // remove tail if at capacity
146     std::optional<node_type> evicted_node = std::nullopt;
147     if (list_map_.size() == capacity_) {
148       evicted_node = list_map_.extract(std::prev(list_map_.end())->first);
149     }
150     // insert new one to front of list
151     list_map_.insert_or_assign(list_map_.begin(), key, std::move(value));
152     return evicted_node;
153   }
154 
155   // Put a key-value pair to the head of cache, evict the oldest key if cache is at capacity. Eviction is based on key
156   // ONLY. Hence, updating a key will not evict the oldest key. This method tries to construct the value in-place. If
157   // the key already exist, this method only update the value. Return inserted iterator, whether insertion happens, and
158   // evicted value if old value was evicted or std::nullopt
159   //
160   // LRU: Will warm up key
161   template <class... Args>
try_emplace(const Key & key,Args &&...args)162   std::tuple<iterator, bool, std::optional<node_type>> try_emplace(const Key& key, Args&&... args) {
163     if (contains(key)) {
164       // contains() calls find() that moved the node to the head
165       return std::make_tuple(end(), false, std::nullopt);
166     }
167     // remove tail if at capacity
168     std::optional<node_type> evicted_node = std::nullopt;
169     if (list_map_.size() == capacity_) {
170       evicted_node = list_map_.extract(std::prev(list_map_.end())->first);
171     }
172     // insert new one to front of list
173     auto pair = list_map_.try_emplace(list_map_.begin(), key, std::forward<Args>(args)...);
174     return std::make_tuple(pair.first, pair.second, std::move(evicted_node));
175   }
176 
177   // Delete a key from cache, return removed value if old value was evicted, std::nullopt if not. The return value will
178   // be evaluated to true in a boolean context if a value is contained by std::optional, false otherwise.
extract(const Key & key)179   inline std::optional<node_type> extract(const Key& key) {
180     return list_map_.extract(key);
181   }
182 
183   /// Remove an iterator pointed item from the lru cache and return the iterator immediately after the erased item
erase(const_iterator iter)184   iterator erase(const_iterator iter) {
185     return list_map_.erase(iter);
186   }
187 
188   // Return size of the cache
size()189   inline size_t size() const {
190     return list_map_.size();
191   }
192 
193   // Iterator interface for begin
begin()194   inline iterator begin() {
195     return list_map_.begin();
196   }
197 
198   // Return iterator interface for begin, const
begin()199   inline const_iterator begin() const {
200     return list_map_.begin();
201   }
202 
203   // Return iterator interface for end
end()204   inline iterator end() {
205     return list_map_.end();
206   }
207 
208   // Iterator interface for end, const
end()209   inline const_iterator end() const {
210     return list_map_.end();
211   }
212 
213  private:
214   size_t capacity_;
215   ListMap<Key, T> list_map_;
216 };
217 
218 }  // namespace common
219 }  // namespace bluetooth
220