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667 lines
15 KiB
C++
667 lines
15 KiB
C++
// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
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#pragma once
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#include "Luau/Common.h"
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#include <stddef.h>
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#include <functional>
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#include <utility>
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#include <type_traits>
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#include <stdint.h>
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namespace Luau
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{
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struct DenseHashPointer
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{
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size_t operator()(const void* key) const
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{
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return (uintptr_t(key) >> 4) ^ (uintptr_t(key) >> 9);
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}
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};
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// Internal implementation of DenseHashSet and DenseHashMap
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namespace detail
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{
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template<typename T>
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using DenseHashDefault = std::conditional_t<std::is_pointer_v<T>, DenseHashPointer, std::hash<T>>;
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template<typename Key, typename Item, typename MutableItem, typename ItemInterface, typename Hash, typename Eq>
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class DenseHashTable
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{
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public:
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class const_iterator;
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class iterator;
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explicit DenseHashTable(const Key& empty_key, size_t buckets = 0)
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: data(nullptr)
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, capacity(0)
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, count(0)
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, empty_key(empty_key)
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{
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// validate that equality operator is at least somewhat functional
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LUAU_ASSERT(eq(empty_key, empty_key));
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// buckets has to be power-of-two or zero
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LUAU_ASSERT((buckets & (buckets - 1)) == 0);
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if (buckets)
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{
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data = static_cast<Item*>(::operator new(sizeof(Item) * buckets));
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capacity = buckets;
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ItemInterface::fill(data, buckets, empty_key);
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}
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}
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~DenseHashTable()
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{
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if (data)
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destroy();
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}
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DenseHashTable(const DenseHashTable& other)
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: data(nullptr)
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, capacity(0)
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, count(other.count)
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, empty_key(other.empty_key)
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{
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if (other.capacity)
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{
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data = static_cast<Item*>(::operator new(sizeof(Item) * other.capacity));
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for (size_t i = 0; i < other.capacity; ++i)
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{
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new (&data[i]) Item(other.data[i]);
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capacity = i + 1; // if Item copy throws, capacity will note the number of initialized objects for destroy() to clean up
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}
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}
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}
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DenseHashTable(DenseHashTable&& other)
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: data(other.data)
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, capacity(other.capacity)
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, count(other.count)
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, empty_key(other.empty_key)
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{
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other.data = nullptr;
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other.capacity = 0;
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other.count = 0;
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}
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DenseHashTable& operator=(DenseHashTable&& other)
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{
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if (this != &other)
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{
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if (data)
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destroy();
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data = other.data;
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capacity = other.capacity;
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count = other.count;
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empty_key = other.empty_key;
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other.data = nullptr;
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other.capacity = 0;
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other.count = 0;
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}
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return *this;
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}
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DenseHashTable& operator=(const DenseHashTable& other)
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{
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if (this != &other)
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{
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DenseHashTable copy(other);
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*this = std::move(copy);
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}
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return *this;
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}
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void clear()
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{
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if (count == 0)
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return;
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if (capacity > 32)
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{
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destroy();
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}
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else
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{
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ItemInterface::destroy(data, capacity);
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ItemInterface::fill(data, capacity, empty_key);
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}
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count = 0;
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}
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void destroy()
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{
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ItemInterface::destroy(data, capacity);
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::operator delete(data);
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data = nullptr;
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capacity = 0;
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}
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Item* insert_unsafe(const Key& key)
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{
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// It is invalid to insert empty_key into the table since it acts as a "entry does not exist" marker
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LUAU_ASSERT(!eq(key, empty_key));
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size_t hashmod = capacity - 1;
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size_t bucket = hasher(key) & hashmod;
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for (size_t probe = 0; probe <= hashmod; ++probe)
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{
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Item& probe_item = data[bucket];
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// Element does not exist, insert here
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if (eq(ItemInterface::getKey(probe_item), empty_key))
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{
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ItemInterface::setKey(probe_item, key);
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count++;
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return &probe_item;
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}
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// Element already exists
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if (eq(ItemInterface::getKey(probe_item), key))
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{
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return &probe_item;
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}
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// Hash collision, quadratic probing
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bucket = (bucket + probe + 1) & hashmod;
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}
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// Hash table is full - this should not happen
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LUAU_ASSERT(false);
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return NULL;
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}
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const Item* find(const Key& key) const
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{
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if (count == 0)
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return 0;
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if (eq(key, empty_key))
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return 0;
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size_t hashmod = capacity - 1;
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size_t bucket = hasher(key) & hashmod;
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for (size_t probe = 0; probe <= hashmod; ++probe)
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{
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const Item& probe_item = data[bucket];
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// Element exists
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if (eq(ItemInterface::getKey(probe_item), key))
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return &probe_item;
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// Element does not exist
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if (eq(ItemInterface::getKey(probe_item), empty_key))
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return NULL;
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// Hash collision, quadratic probing
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bucket = (bucket + probe + 1) & hashmod;
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}
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// Hash table is full - this should not happen
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LUAU_ASSERT(false);
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return NULL;
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}
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void rehash()
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{
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size_t newsize = capacity == 0 ? 16 : capacity * 2;
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DenseHashTable newtable(empty_key, newsize);
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for (size_t i = 0; i < capacity; ++i)
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{
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const Key& key = ItemInterface::getKey(data[i]);
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if (!eq(key, empty_key))
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{
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Item* item = newtable.insert_unsafe(key);
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*item = std::move(data[i]);
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}
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}
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LUAU_ASSERT(count == newtable.count);
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std::swap(data, newtable.data);
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std::swap(capacity, newtable.capacity);
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}
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void rehash_if_full(const Key& key)
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{
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if (count >= capacity * 3 / 4 && !find(key))
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{
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rehash();
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}
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}
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const_iterator begin() const
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{
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size_t start = 0;
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while (start < capacity && eq(ItemInterface::getKey(data[start]), empty_key))
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start++;
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return const_iterator(this, start);
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}
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const_iterator end() const
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{
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return const_iterator(this, capacity);
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}
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iterator begin()
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{
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size_t start = 0;
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while (start < capacity && eq(ItemInterface::getKey(data[start]), empty_key))
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start++;
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return iterator(this, start);
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}
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iterator end()
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{
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return iterator(this, capacity);
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}
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size_t size() const
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{
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return count;
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}
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class const_iterator
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{
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public:
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using value_type = Item;
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using reference = Item&;
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using pointer = Item*;
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using difference_type = ptrdiff_t;
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using iterator_category = std::forward_iterator_tag;
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const_iterator()
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: set(0)
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, index(0)
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{
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}
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const_iterator(const DenseHashTable<Key, Item, MutableItem, ItemInterface, Hash, Eq>* set, size_t index)
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: set(set)
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, index(index)
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{
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}
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const Item& operator*() const
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{
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return set->data[index];
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}
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const Item* operator->() const
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{
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return &set->data[index];
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}
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bool operator==(const const_iterator& other) const
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{
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return set == other.set && index == other.index;
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}
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bool operator!=(const const_iterator& other) const
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{
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return set != other.set || index != other.index;
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}
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const_iterator& operator++()
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{
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size_t size = set->capacity;
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do
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{
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index++;
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} while (index < size && set->eq(ItemInterface::getKey(set->data[index]), set->empty_key));
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return *this;
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}
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const_iterator operator++(int)
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{
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const_iterator res = *this;
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++*this;
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return res;
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}
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private:
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const DenseHashTable<Key, Item, MutableItem, ItemInterface, Hash, Eq>* set;
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size_t index;
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};
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class iterator
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{
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public:
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using value_type = MutableItem;
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using reference = MutableItem&;
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using pointer = MutableItem*;
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using difference_type = ptrdiff_t;
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using iterator_category = std::forward_iterator_tag;
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iterator()
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: set(0)
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, index(0)
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{
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}
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iterator(DenseHashTable<Key, Item, MutableItem, ItemInterface, Hash, Eq>* set, size_t index)
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: set(set)
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, index(index)
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{
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}
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MutableItem& operator*() const
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{
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return *reinterpret_cast<MutableItem*>(&set->data[index]);
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}
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MutableItem* operator->() const
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{
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return reinterpret_cast<MutableItem*>(&set->data[index]);
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}
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bool operator==(const iterator& other) const
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{
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return set == other.set && index == other.index;
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}
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bool operator!=(const iterator& other) const
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{
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return set != other.set || index != other.index;
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}
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iterator& operator++()
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{
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size_t size = set->capacity;
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do
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{
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index++;
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} while (index < size && set->eq(ItemInterface::getKey(set->data[index]), set->empty_key));
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return *this;
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}
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iterator operator++(int)
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{
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iterator res = *this;
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++*this;
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return res;
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}
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private:
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DenseHashTable<Key, Item, MutableItem, ItemInterface, Hash, Eq>* set;
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size_t index;
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};
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private:
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Item* data;
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size_t capacity;
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size_t count;
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Key empty_key;
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Hash hasher;
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Eq eq;
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};
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template<typename Key>
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struct ItemInterfaceSet
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{
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static const Key& getKey(const Key& item)
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{
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return item;
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}
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static void setKey(Key& item, const Key& key)
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{
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item = key;
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}
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static void fill(Key* data, size_t count, const Key& key)
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{
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for (size_t i = 0; i < count; ++i)
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new (&data[i]) Key(key);
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}
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static void destroy(Key* data, size_t count)
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{
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for (size_t i = 0; i < count; ++i)
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data[i].~Key();
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}
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};
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template<typename Key, typename Value>
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struct ItemInterfaceMap
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{
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static const Key& getKey(const std::pair<Key, Value>& item)
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{
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return item.first;
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}
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static void setKey(std::pair<Key, Value>& item, const Key& key)
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{
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item.first = key;
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}
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static void fill(std::pair<Key, Value>* data, size_t count, const Key& key)
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{
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for (size_t i = 0; i < count; ++i)
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{
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new (&data[i].first) Key(key);
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new (&data[i].second) Value();
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}
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}
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static void destroy(std::pair<Key, Value>* data, size_t count)
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{
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for (size_t i = 0; i < count; ++i)
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{
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data[i].first.~Key();
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data[i].second.~Value();
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}
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}
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};
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} // namespace detail
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// This is a faster alternative of unordered_set, but it does not implement the same interface (i.e. it does not support erasing)
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template<typename Key, typename Hash = detail::DenseHashDefault<Key>, typename Eq = std::equal_to<Key>>
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class DenseHashSet
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{
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typedef detail::DenseHashTable<Key, Key, Key, detail::ItemInterfaceSet<Key>, Hash, Eq> Impl;
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Impl impl;
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public:
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typedef typename Impl::const_iterator const_iterator;
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typedef typename Impl::iterator iterator;
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explicit DenseHashSet(const Key& empty_key, size_t buckets = 0)
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: impl(empty_key, buckets)
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{
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}
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void clear()
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{
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impl.clear();
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}
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const Key& insert(const Key& key)
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{
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impl.rehash_if_full(key);
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return *impl.insert_unsafe(key);
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}
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const Key* find(const Key& key) const
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{
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return impl.find(key);
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}
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bool contains(const Key& key) const
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{
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return impl.find(key) != 0;
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}
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size_t size() const
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{
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return impl.size();
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}
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bool empty() const
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{
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return impl.size() == 0;
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}
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const_iterator begin() const
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{
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return impl.begin();
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}
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const_iterator end() const
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{
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return impl.end();
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}
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iterator begin()
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{
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return impl.begin();
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}
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iterator end()
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{
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return impl.end();
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}
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bool operator==(const DenseHashSet<Key, Hash, Eq>& other) const
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{
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if (size() != other.size())
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return false;
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for (const Key& k : *this)
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{
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if (!other.contains(k))
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return false;
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}
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return true;
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}
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bool operator!=(const DenseHashSet<Key, Hash, Eq>& other) const
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{
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return !(*this == other);
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}
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};
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// This is a faster alternative of unordered_map, but it does not implement the same interface (i.e. it does not support erasing and has
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// contains() instead of find())
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template<typename Key, typename Value, typename Hash = detail::DenseHashDefault<Key>, typename Eq = std::equal_to<Key>>
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class DenseHashMap
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{
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typedef detail::DenseHashTable<Key, std::pair<Key, Value>, std::pair<const Key, Value>, detail::ItemInterfaceMap<Key, Value>, Hash, Eq> Impl;
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Impl impl;
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public:
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typedef typename Impl::const_iterator const_iterator;
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typedef typename Impl::iterator iterator;
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explicit DenseHashMap(const Key& empty_key, size_t buckets = 0)
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: impl(empty_key, buckets)
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{
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}
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void clear()
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{
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impl.clear();
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}
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// Note: this reference is invalidated by any insert operation (i.e. operator[])
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Value& operator[](const Key& key)
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{
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impl.rehash_if_full(key);
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return impl.insert_unsafe(key)->second;
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}
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// Note: this pointer is invalidated by any insert operation (i.e. operator[])
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const Value* find(const Key& key) const
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{
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const std::pair<Key, Value>* result = impl.find(key);
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return result ? &result->second : NULL;
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}
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// Note: this pointer is invalidated by any insert operation (i.e. operator[])
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Value* find(const Key& key)
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{
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const std::pair<Key, Value>* result = impl.find(key);
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return result ? const_cast<Value*>(&result->second) : NULL;
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}
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bool contains(const Key& key) const
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{
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return impl.find(key) != 0;
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}
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std::pair<Value&, bool> try_insert(const Key& key, const Value& value)
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{
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impl.rehash_if_full(key);
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size_t before = impl.size();
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std::pair<Key, Value>* slot = impl.insert_unsafe(key);
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// Value is fresh if container count has increased
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bool fresh = impl.size() > before;
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if (fresh)
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slot->second = value;
|
|
|
|
return std::make_pair(std::ref(slot->second), fresh);
|
|
}
|
|
|
|
size_t size() const
|
|
{
|
|
return impl.size();
|
|
}
|
|
|
|
bool empty() const
|
|
{
|
|
return impl.size() == 0;
|
|
}
|
|
|
|
const_iterator begin() const
|
|
{
|
|
return impl.begin();
|
|
}
|
|
|
|
const_iterator end() const
|
|
{
|
|
return impl.end();
|
|
}
|
|
|
|
iterator begin()
|
|
{
|
|
return impl.begin();
|
|
}
|
|
|
|
iterator end()
|
|
{
|
|
return impl.end();
|
|
}
|
|
};
|
|
|
|
} // namespace Luau
|