forked from OSchip/llvm-project
382 lines
13 KiB
C++
382 lines
13 KiB
C++
//===-- esan_hashtable.h ----------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of EfficiencySanitizer, a family of performance tuners.
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//
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// Generic resizing hashtable.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_common/sanitizer_allocator_internal.h"
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#include "sanitizer_common/sanitizer_internal_defs.h"
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#include "sanitizer_common/sanitizer_mutex.h"
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#include <stddef.h>
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namespace __esan {
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//===----------------------------------------------------------------------===//
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// Default hash and comparison functions
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//===----------------------------------------------------------------------===//
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template <typename T> struct DefaultHash {
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size_t operator()(const T &Key) const {
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return (size_t)Key;
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}
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};
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template <typename T> struct DefaultEqual {
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bool operator()(const T &Key1, const T &Key2) const {
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return Key1 == Key2;
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}
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};
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//===----------------------------------------------------------------------===//
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// HashTable declaration
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//===----------------------------------------------------------------------===//
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// A simple resizing and mutex-locked hashtable.
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//
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// If the default hash functor is used, KeyTy must have an operator size_t().
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// If the default comparison functor is used, KeyTy must have an operator ==.
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//
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// By default all operations are internally-synchronized with a mutex, with no
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// synchronization for payloads once hashtable functions return. If
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// ExternalLock is set to true, the caller should call the lock() and unlock()
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// routines around all hashtable operations and subsequent manipulation of
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// payloads.
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template <typename KeyTy, typename DataTy, bool ExternalLock = false,
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typename HashFuncTy = DefaultHash<KeyTy>,
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typename EqualFuncTy = DefaultEqual<KeyTy> >
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class HashTable {
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public:
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// InitialCapacity must be a power of 2.
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// ResizeFactor must be between 1 and 99 and indicates the
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// maximum percentage full that the table should ever be.
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HashTable(u32 InitialCapacity = 2048, u32 ResizeFactor = 70);
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~HashTable();
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bool lookup(const KeyTy &Key, DataTy &Payload); // Const except for Mutex.
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bool add(const KeyTy &Key, const DataTy &Payload);
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bool remove(const KeyTy &Key);
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u32 size(); // Const except for Mutex.
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// If the table is internally-synchronized, this lock must not be held
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// while a hashtable function is called as it will deadlock: the lock
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// is not recursive. This is meant for use with externally-synchronized
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// tables or with an iterator.
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void lock();
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void unlock();
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private:
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struct HashEntry {
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KeyTy Key;
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DataTy Payload;
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HashEntry *Next;
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};
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public:
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struct HashPair {
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HashPair(KeyTy Key, DataTy Data) : Key(Key), Data(Data) {}
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KeyTy Key;
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DataTy Data;
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};
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// This iterator does not perform any synchronization.
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// It expects the caller to lock the table across the whole iteration.
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// Calling HashTable functions while using the iterator is not supported.
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// The iterator returns copies of the keys and data.
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class iterator {
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public:
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iterator(
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy> *Table);
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iterator(const iterator &Src) = default;
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iterator &operator=(const iterator &Src) = default;
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HashPair operator*();
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iterator &operator++();
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iterator &operator++(int);
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bool operator==(const iterator &Cmp) const;
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bool operator!=(const iterator &Cmp) const;
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private:
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iterator(
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy> *Table,
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int Idx);
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friend HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>;
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy> *Table;
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int Idx;
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::HashEntry
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*Entry;
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};
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// No erase or insert iterator supported
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iterator begin();
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iterator end();
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private:
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void resize();
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HashEntry **Table;
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u32 Capacity;
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u32 Entries;
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const u32 ResizeFactor;
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BlockingMutex Mutex;
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const HashFuncTy HashFunc;
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const EqualFuncTy EqualFunc;
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};
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//===----------------------------------------------------------------------===//
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// Hashtable implementation
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//===----------------------------------------------------------------------===//
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::HashTable(
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u32 InitialCapacity, u32 ResizeFactor)
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: Capacity(InitialCapacity), Entries(0), ResizeFactor(ResizeFactor),
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HashFunc(HashFuncTy()), EqualFunc(EqualFuncTy()) {
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CHECK(IsPowerOfTwo(Capacity));
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CHECK(ResizeFactor >= 1 && ResizeFactor <= 99);
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Table = (HashEntry **)InternalAlloc(Capacity * sizeof(HashEntry *));
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internal_memset(Table, 0, Capacity * sizeof(HashEntry *));
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::~HashTable() {
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for (u32 i = 0; i < Capacity; ++i) {
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HashEntry *Entry = Table[i];
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while (Entry != nullptr) {
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HashEntry *Next = Entry->Next;
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Entry->Payload.~DataTy();
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InternalFree(Entry);
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Entry = Next;
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}
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}
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InternalFree(Table);
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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u32 HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::size() {
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u32 Res;
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if (!ExternalLock)
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Mutex.Lock();
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Res = Entries;
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if (!ExternalLock)
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Mutex.Unlock();
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return Res;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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bool HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::lookup(
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const KeyTy &Key, DataTy &Payload) {
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if (!ExternalLock)
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Mutex.Lock();
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bool Found = false;
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size_t Hash = HashFunc(Key) % Capacity;
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HashEntry *Entry = Table[Hash];
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for (; Entry != nullptr; Entry = Entry->Next) {
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if (EqualFunc(Entry->Key, Key)) {
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Payload = Entry->Payload;
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Found = true;
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break;
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}
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}
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if (!ExternalLock)
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Mutex.Unlock();
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return Found;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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void HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::resize() {
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if (!ExternalLock)
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Mutex.CheckLocked();
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size_t OldCapacity = Capacity;
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HashEntry **OldTable = Table;
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Capacity *= 2;
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Table = (HashEntry **)InternalAlloc(Capacity * sizeof(HashEntry *));
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internal_memset(Table, 0, Capacity * sizeof(HashEntry *));
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// Re-hash
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for (u32 i = 0; i < OldCapacity; ++i) {
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HashEntry *OldEntry = OldTable[i];
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while (OldEntry != nullptr) {
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HashEntry *Next = OldEntry->Next;
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size_t Hash = HashFunc(OldEntry->Key) % Capacity;
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OldEntry->Next = Table[Hash];
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Table[Hash] = OldEntry;
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OldEntry = Next;
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}
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}
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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bool HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::add(
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const KeyTy &Key, const DataTy &Payload) {
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if (!ExternalLock)
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Mutex.Lock();
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bool Exists = false;
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size_t Hash = HashFunc(Key) % Capacity;
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HashEntry *Entry = Table[Hash];
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for (; Entry != nullptr; Entry = Entry->Next) {
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if (EqualFunc(Entry->Key, Key)) {
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Exists = true;
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break;
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}
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}
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if (!Exists) {
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Entries++;
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if (Entries * 100 >= Capacity * ResizeFactor) {
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resize();
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Hash = HashFunc(Key) % Capacity;
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}
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HashEntry *Add = (HashEntry *)InternalAlloc(sizeof(*Add));
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Add->Key = Key;
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Add->Payload = Payload;
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Add->Next = Table[Hash];
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Table[Hash] = Add;
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}
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if (!ExternalLock)
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Mutex.Unlock();
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return !Exists;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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bool HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::remove(
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const KeyTy &Key) {
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if (!ExternalLock)
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Mutex.Lock();
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bool Found = false;
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size_t Hash = HashFunc(Key) % Capacity;
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HashEntry *Entry = Table[Hash];
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HashEntry *Prev = nullptr;
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for (; Entry != nullptr; Prev = Entry, Entry = Entry->Next) {
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if (EqualFunc(Entry->Key, Key)) {
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Found = true;
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Entries--;
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if (Prev == nullptr)
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Table[Hash] = Entry->Next;
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else
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Prev->Next = Entry->Next;
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Entry->Payload.~DataTy();
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InternalFree(Entry);
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break;
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}
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}
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if (!ExternalLock)
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Mutex.Unlock();
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return Found;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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void HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::lock() {
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Mutex.Lock();
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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void HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::unlock() {
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Mutex.Unlock();
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}
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//===----------------------------------------------------------------------===//
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// Iterator implementation
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//===----------------------------------------------------------------------===//
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::iterator::
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iterator(
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy> *Table)
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: Table(Table), Idx(-1), Entry(nullptr) {
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operator++();
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::iterator::
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iterator(
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy> *Table,
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int Idx)
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: Table(Table), Idx(Idx), Entry(nullptr) {
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CHECK(Idx >= (int)Table->Capacity); // Only used to create end().
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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typename HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy,
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EqualFuncTy>::HashPair
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::iterator::
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operator*() {
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CHECK(Idx >= 0 && Idx < (int)Table->Capacity);
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CHECK(Entry != nullptr);
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return HashPair(Entry->Key, Entry->Payload);
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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typename HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy,
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EqualFuncTy>::iterator &
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::iterator::
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operator++() {
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if (Entry != nullptr)
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Entry = Entry->Next;
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while (Entry == nullptr) {
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++Idx;
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if (Idx >= (int)Table->Capacity)
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break; // At end().
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Entry = Table->Table[Idx];
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}
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return *this;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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typename HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy,
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EqualFuncTy>::iterator &
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::iterator::
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operator++(int) {
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iterator Temp(*this);
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operator++();
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return Temp;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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bool HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::iterator::
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operator==(const iterator &Cmp) const {
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return Cmp.Table == Table && Cmp.Idx == Idx && Cmp.Entry == Entry;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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bool HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::iterator::
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operator!=(const iterator &Cmp) const {
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return Cmp.Table != Table || Cmp.Idx != Idx || Cmp.Entry != Entry;
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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typename HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy,
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EqualFuncTy>::iterator
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::begin() {
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return iterator(this);
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}
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template <typename KeyTy, typename DataTy, bool ExternalLock,
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typename HashFuncTy, typename EqualFuncTy>
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typename HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy,
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EqualFuncTy>::iterator
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HashTable<KeyTy, DataTy, ExternalLock, HashFuncTy, EqualFuncTy>::end() {
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return iterator(this, Capacity);
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}
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} // namespace __esan
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