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1 /* | 1 /* |
2 * This file is part of Adblock Plus <https://adblockplus.org/>, | 2 * This file is part of Adblock Plus <https://adblockplus.org/>, |
3 * Copyright (C) 2006-present eyeo GmbH | 3 * Copyright (C) 2006-present eyeo GmbH |
4 * | 4 * |
5 * Adblock Plus is free software: you can redistribute it and/or modify | 5 * Adblock Plus is free software: you can redistribute it and/or modify |
6 * it under the terms of the GNU General Public License version 3 as | 6 * it under the terms of the GNU General Public License version 3 as |
7 * published by the Free Software Foundation. | 7 * published by the Free Software Foundation. |
8 * | 8 * |
9 * Adblock Plus is distributed in the hope that it will be useful, | 9 * Adblock Plus is distributed in the hope that it will be useful, |
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of | 10 * but WITHOUT ANY WARRANTY; without even the implied warranty of |
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | 11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
12 * GNU General Public License for more details. | 12 * GNU General Public License for more details. |
13 * | 13 * |
14 * You should have received a copy of the GNU General Public License | 14 * You should have received a copy of the GNU General Public License |
15 * along with Adblock Plus. If not, see <http://www.gnu.org/licenses/>. | 15 * along with Adblock Plus. If not, see <http://www.gnu.org/licenses/>. |
16 */ | 16 */ |
17 | 17 |
18 #pragma once | 18 #pragma once |
19 | 19 |
20 #include <cmath> | 20 #include <cmath> |
21 #include <initializer_list> | 21 #include <initializer_list> |
22 #include <memory> | 22 #include <memory> |
23 | 23 |
24 #include "debug.h" | 24 #include "debug.h" |
| 25 #include "String.h" |
25 | 26 |
26 template<typename Entry> | 27 template<typename Entry> |
27 class Map; | 28 class Map; |
28 | 29 |
29 namespace Map_internal | 30 namespace Map_internal |
30 { | 31 { |
31 template<typename Entry> | 32 template<typename Entry> |
32 struct HashContainerIterator | 33 struct HashContainerIterator |
33 { | 34 { |
34 typedef Entry entry_type; | 35 typedef Entry entry_type; |
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94 { | 95 { |
95 return !mEntry->is_invalid(); | 96 return !mEntry->is_invalid(); |
96 } | 97 } |
97 }; | 98 }; |
98 | 99 |
99 template<typename Entry> | 100 template<typename Entry> |
100 class HashContainer | 101 class HashContainer |
101 { | 102 { |
102 public: | 103 public: |
103 typedef Entry entry_type; | 104 typedef Entry entry_type; |
104 typedef typename Entry::key_type key_type; | 105 typedef typename Entry::key_type_cref key_type_cref; |
105 typedef typename entry_type::size_type size_type; | 106 typedef typename entry_type::size_type size_type; |
106 typedef HashContainerIterator<Entry> const_iterator; | 107 typedef HashContainerIterator<Entry> const_iterator; |
107 typedef HashContainerReference<const Entry> const_reference; | 108 typedef HashContainerReference<const Entry> const_reference; |
108 | 109 |
109 private: | 110 private: |
110 explicit HashContainer(const HashContainer& other); | 111 explicit HashContainer(const HashContainer& other); |
111 void operator=(const HashContainer& other); | 112 void operator=(const HashContainer& other); |
112 | 113 |
113 protected: | 114 protected: |
114 static constexpr size_type MIN_BUCKETS = 1; | 115 static constexpr size_type MIN_BUCKETS = 1; |
115 static constexpr double LOAD_FACTOR = 0.8; | 116 static constexpr double LOAD_FACTOR = 0.8; |
116 std::unique_ptr<entry_type[]> mBuckets; | 117 std::unique_ptr<entry_type[]> mBuckets; |
117 size_type mBucketCount; | 118 size_type mBucketCount; |
118 size_type mEntryCount; | 119 size_type mEntryCount; |
119 | 120 |
120 #if defined(DEBUG) | 121 #if defined(DEBUG) |
121 size_type mInsertCounter; | 122 size_type mInsertCounter; |
122 #endif | 123 #endif |
123 | 124 |
124 entry_type* find_bucket(const key_type& key) const | 125 entry_type* find_bucket(key_type_cref key) const |
125 { | 126 { |
126 size_type h = entry_type::hash(key); | 127 size_type h = entry_type::hash(key); |
127 | 128 |
128 // This does quadratic probing, effectively the following formula is used: | 129 // This does quadratic probing, effectively the following formula is used: |
129 // pos = (hash + 1/2 i + 1/2 i ^ 2) mod bucketCount | 130 // pos = (hash + 1/2 i + 1/2 i ^ 2) mod bucketCount |
130 for (size_type i = 0; ; ++i) | 131 for (size_type i = 0; ; ++i) |
131 { | 132 { |
132 // mBucketCount is 2^n so (h & mBucketCount - 1) is equivalent to | 133 // mBucketCount is 2^n so (h & mBucketCount - 1) is equivalent to |
133 // h % mBucketCount but significantly faster. | 134 // h % mBucketCount but significantly faster. |
134 entry_type* entry = &mBuckets[h & (mBucketCount - 1)]; | 135 entry_type* entry = &mBuckets[h & (mBucketCount - 1)]; |
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191 mBuckets.reset(new entry_type[mBucketCount]); | 192 mBuckets.reset(new entry_type[mBucketCount]); |
192 // Working around https://github.com/waywardmonkeys/emscripten-trace-colle
ctor/issues/2 here | 193 // Working around https://github.com/waywardmonkeys/emscripten-trace-colle
ctor/issues/2 here |
193 annotate_address(reinterpret_cast<size_type*>(mBuckets.get()) - 1, "Hash t
able buffer"); | 194 annotate_address(reinterpret_cast<size_type*>(mBuckets.get()) - 1, "Hash t
able buffer"); |
194 } | 195 } |
195 | 196 |
196 void insert(const entry_type& entry) | 197 void insert(const entry_type& entry) |
197 { | 198 { |
198 assign(find_bucket(entry.first), entry); | 199 assign(find_bucket(entry.first), entry); |
199 } | 200 } |
200 | 201 |
201 bool erase(const key_type& key) | 202 bool erase(key_type_cref key) |
202 { | 203 { |
203 entry_type* entry = find_bucket(key); | 204 entry_type* entry = find_bucket(key); |
204 if (entry->is_invalid()) | 205 if (entry->is_invalid()) |
205 return false; | 206 return false; |
206 | 207 |
207 entry->erase(); | 208 entry->erase(); |
208 return true; | 209 return true; |
209 } | 210 } |
210 | 211 |
211 const_reference find(const key_type& key) const | 212 const_reference find(key_type_cref key) const |
212 { | 213 { |
213 return const_reference(find_bucket(key)); | 214 return const_reference(find_bucket(key)); |
214 } | 215 } |
215 | 216 |
216 const_iterator begin() const | 217 const_iterator begin() const |
217 { | 218 { |
218 return const_iterator(&mBuckets[0], &mBuckets[mBucketCount]); | 219 return const_iterator(&mBuckets[0], &mBuckets[mBucketCount]); |
219 } | 220 } |
220 | 221 |
221 const_iterator end() const | 222 const_iterator end() const |
222 { | 223 { |
223 return const_iterator(&mBuckets[mBucketCount], &mBuckets[mBucketCount]); | 224 return const_iterator(&mBuckets[mBucketCount], &mBuckets[mBucketCount]); |
224 } | 225 } |
225 | 226 |
226 size_type size() const | 227 size_type size() const |
227 { | 228 { |
228 return mEntryCount; | 229 return mEntryCount; |
229 } | 230 } |
230 }; | 231 }; |
231 | 232 |
232 template<typename Entry> | 233 template<typename Entry> |
233 struct MapReference : public HashContainerReference<Entry> | 234 struct MapReference : public HashContainerReference<Entry> |
234 { | 235 { |
235 typedef HashContainerReference<Entry> super; | 236 typedef HashContainerReference<Entry> super; |
236 typedef typename super::entry_type entry_type; | 237 typedef typename super::entry_type entry_type; |
237 typedef typename entry_type::key_type key_type; | 238 typedef typename entry_type::key_type_cref key_type_cref; |
238 typedef typename entry_type::value_type value_type; | 239 typedef typename entry_type::value_type value_type; |
239 typedef Map<entry_type> map_type; | 240 typedef Map<entry_type> map_type; |
240 | 241 |
241 map_type* mMap; | 242 map_type* mMap; |
242 | 243 |
243 #if defined(DEBUG) | 244 #if defined(DEBUG) |
244 typename map_type::size_type mInsertCounter; | 245 typename map_type::size_type mInsertCounter; |
245 typename map_type::size_type mHash; | 246 typename map_type::size_type mHash; |
246 #endif | 247 #endif |
247 | 248 |
248 MapReference(map_type* map, const key_type& key, entry_type* entry) | 249 MapReference(map_type* map, key_type_cref key, entry_type* entry) |
249 : super(entry), mMap(map) | 250 : super(entry), mMap(map) |
250 { | 251 { |
251 #if defined(DEBUG) | 252 #if defined(DEBUG) |
252 mInsertCounter = mMap->mInsertCounter; | 253 mInsertCounter = mMap->mInsertCounter; |
253 mHash = entry_type::hash(key); | 254 mHash = entry_type::hash(key); |
254 #endif | 255 #endif |
255 } | 256 } |
256 | 257 |
257 void assign(const key_type& key, const value_type& value) | 258 void assign(key_type_cref key, const value_type& value) |
258 { | 259 { |
259 #if defined(DEBUG) | 260 #if defined(DEBUG) |
260 assert2(mInsertCounter == mMap->mInsertCounter, | 261 assert2(mInsertCounter == mMap->mInsertCounter, |
261 u"There should be no insert operations performed between map.find() an
d assign()"_str); | 262 u"There should be no insert operations performed between map.find() an
d assign()"_str); |
262 assert2(mHash == entry_type::hash(key), | 263 assert2(mHash == entry_type::hash(key), |
263 u"The keys used in map.find() and assign() should be identical"_str); | 264 u"The keys used in map.find() and assign() should be identical"_str); |
264 #endif | 265 #endif |
265 | 266 |
266 mMap->assign(this->mEntry, entry_type(key, value)); | 267 mMap->assign(this->mEntry, entry_type(key, value)); |
267 } | 268 } |
268 }; | 269 }; |
269 } | 270 } |
270 | 271 |
271 template<typename Entry> | 272 template<typename Entry> |
272 class Set : public Map_internal::HashContainer<Entry> | 273 using Set = Map_internal::HashContainer<Entry>; |
273 { | |
274 public: | |
275 typedef Map_internal::HashContainer<Entry> super; | |
276 | |
277 using super::super; | |
278 }; | |
279 | 274 |
280 template<typename Entry> | 275 template<typename Entry> |
281 class Map : public Map_internal::HashContainer<Entry> | 276 class Map : public Map_internal::HashContainer<Entry> |
282 { | 277 { |
283 public: | 278 public: |
284 typedef Map_internal::HashContainer<Entry> super; | 279 typedef Map_internal::HashContainer<Entry> super; |
285 typedef typename super::size_type size_type; | 280 typedef typename super::size_type size_type; |
286 typedef typename super::entry_type entry_type; | 281 typedef typename super::entry_type entry_type; |
287 typedef typename super::key_type key_type; | 282 typedef typename super::key_type_cref key_type_cref; |
288 typedef typename entry_type::value_type value_type; | 283 typedef typename entry_type::value_type value_type; |
289 typedef typename super::const_reference const_reference; | 284 typedef typename super::const_reference const_reference; |
290 typedef Map_internal::MapReference<entry_type> reference; | 285 typedef Map_internal::MapReference<entry_type> reference; |
291 friend struct Map_internal::MapReference<entry_type>; | 286 friend struct Map_internal::MapReference<entry_type>; |
292 | 287 |
293 using super::super; | 288 using super::super; |
294 | 289 |
295 Map(std::initializer_list<entry_type> list) | 290 Map(std::initializer_list<entry_type> list) |
296 : super(list.size()) | 291 : super(list.size()) |
297 { | 292 { |
298 for (const auto& item : list) | 293 for (const auto& item : list) |
299 super::insert(item); | 294 super::insert(item); |
300 } | 295 } |
301 | 296 |
302 value_type& operator[](const key_type& key) | 297 value_type& operator[](key_type_cref key) |
303 { | 298 { |
304 entry_type* entry = super::find_bucket(key); | 299 entry_type* entry = super::find_bucket(key); |
305 if (entry->is_invalid()) | 300 if (entry->is_invalid()) |
306 entry = super::assign(entry, key); | 301 entry = super::assign(entry, key); |
307 return entry->second; | 302 return entry->second; |
308 } | 303 } |
309 | 304 |
310 const_reference find(const key_type& key) const | 305 const_reference find(key_type_cref key) const |
311 { | 306 { |
312 return super::find(key); | 307 return super::find(key); |
313 } | 308 } |
314 | 309 |
315 reference find(const key_type& key) | 310 reference find(key_type_cref key) |
316 { | 311 { |
317 return reference(this, key, super::find_bucket(key)); | 312 return reference(this, key, super::find_bucket(key)); |
318 } | 313 } |
319 }; | 314 }; |
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